/* * 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.impl; import android.hardware.camera2.CameraAccessException; import android.hardware.camera2.CameraCaptureSession; import android.hardware.camera2.CameraDevice; import android.hardware.camera2.CaptureRequest; import android.hardware.camera2.dispatch.ArgumentReplacingDispatcher; import android.hardware.camera2.dispatch.BroadcastDispatcher; import android.hardware.camera2.dispatch.DuckTypingDispatcher; import android.hardware.camera2.dispatch.HandlerDispatcher; import android.hardware.camera2.dispatch.InvokeDispatcher; import android.hardware.camera2.utils.TaskDrainer; import android.hardware.camera2.utils.TaskSingleDrainer; import android.os.Handler; import android.util.Log; import android.view.Surface; import java.util.Arrays; import java.util.List; import static android.hardware.camera2.impl.CameraDeviceImpl.checkHandler; import static com.android.internal.util.Preconditions.*; public class CameraCaptureSessionImpl extends CameraCaptureSession implements CameraCaptureSessionCore { private static final String TAG = "CameraCaptureSession"; private static final boolean DEBUG = false; /** Simple integer ID for session for debugging */ private final int mId; private final String mIdString; /** Input surface configured by native camera framework based on user-specified configuration */ private final Surface mInput; /** User-specified set of surfaces used as the configuration outputs */ private final List mOutputs; /** * User-specified state callback, used for outgoing events; calls to this object will be * automatically {@link Handler#post(Runnable) posted} to {@code mStateHandler}. */ private final CameraCaptureSession.StateCallback mStateCallback; /** User-specified state handler used for outgoing state callback events */ private final Handler mStateHandler; /** Internal camera device; used to translate calls into existing deprecated API */ private final android.hardware.camera2.impl.CameraDeviceImpl mDeviceImpl; /** Internal handler; used for all incoming events to preserve total order */ private final Handler mDeviceHandler; /** Drain Sequence IDs which have been queued but not yet finished with aborted/completed */ private final TaskDrainer mSequenceDrainer; /** Drain state transitions from ACTIVE -> IDLE */ private final TaskSingleDrainer mIdleDrainer; /** Drain state transitions from BUSY -> IDLE */ private final TaskSingleDrainer mAbortDrainer; /** This session is closed; all further calls will throw ISE */ private boolean mClosed = false; /** This session failed to be configured successfully */ private final boolean mConfigureSuccess; /** Do not unconfigure if this is set; another session will overwrite configuration */ private boolean mSkipUnconfigure = false; /** Is the session in the process of aborting? Pay attention to BUSY->IDLE transitions. */ private volatile boolean mAborting; /** * Create a new CameraCaptureSession. * *

The camera device must already be in the {@code IDLE} state when this is invoked. * There must be no pending actions * (e.g. no pending captures, no repeating requests, no flush).

*/ CameraCaptureSessionImpl(int id, Surface input, List outputs, CameraCaptureSession.StateCallback callback, Handler stateHandler, android.hardware.camera2.impl.CameraDeviceImpl deviceImpl, Handler deviceStateHandler, boolean configureSuccess) { if (outputs == null || outputs.isEmpty()) { throw new IllegalArgumentException("outputs must be a non-null, non-empty list"); } else if (callback == null) { throw new IllegalArgumentException("callback must not be null"); } mId = id; mIdString = String.format("Session %d: ", mId); // TODO: extra verification of outputs mOutputs = outputs; mInput = input; mStateHandler = checkHandler(stateHandler); mStateCallback = createUserStateCallbackProxy(mStateHandler, callback); mDeviceHandler = checkNotNull(deviceStateHandler, "deviceStateHandler must not be null"); mDeviceImpl = checkNotNull(deviceImpl, "deviceImpl must not be null"); /* * Use the same handler as the device's StateCallback for all the internal coming events * * This ensures total ordering between CameraDevice.StateCallback and * CameraDeviceImpl.CaptureCallback events. */ mSequenceDrainer = new TaskDrainer<>(mDeviceHandler, new SequenceDrainListener(), /*name*/"seq"); mIdleDrainer = new TaskSingleDrainer(mDeviceHandler, new IdleDrainListener(), /*name*/"idle"); mAbortDrainer = new TaskSingleDrainer(mDeviceHandler, new AbortDrainListener(), /*name*/"abort"); // CameraDevice should call configureOutputs and have it finish before constructing us if (configureSuccess) { mStateCallback.onConfigured(this); if (DEBUG) Log.v(TAG, mIdString + "Created session successfully"); mConfigureSuccess = true; } else { mStateCallback.onConfigureFailed(this); mClosed = true; // do not fire any other callbacks, do not allow any other work Log.e(TAG, mIdString + "Failed to create capture session; configuration failed"); mConfigureSuccess = false; } } @Override public CameraDevice getDevice() { return mDeviceImpl; } @Override public void prepare(Surface surface) throws CameraAccessException { mDeviceImpl.prepare(surface); } @Override public void tearDown(Surface surface) throws CameraAccessException { mDeviceImpl.tearDown(surface); } @Override public synchronized int capture(CaptureRequest request, CaptureCallback callback, Handler handler) throws CameraAccessException { if (request == null) { throw new IllegalArgumentException("request must not be null"); } else if (request.isReprocess() && !isReprocessable()) { throw new IllegalArgumentException("this capture session cannot handle reprocess " + "requests"); } else if (request.isReprocess() && request.getReprocessableSessionId() != mId) { throw new IllegalArgumentException("capture request was created for another session"); } checkNotClosed(); handler = checkHandler(handler, callback); if (DEBUG) { Log.v(TAG, mIdString + "capture - request " + request + ", callback " + callback + " handler " + handler); } return addPendingSequence(mDeviceImpl.capture(request, createCaptureCallbackProxy(handler, callback), mDeviceHandler)); } @Override public synchronized int captureBurst(List requests, CaptureCallback callback, Handler handler) throws CameraAccessException { if (requests == null) { throw new IllegalArgumentException("Requests must not be null"); } else if (requests.isEmpty()) { throw new IllegalArgumentException("Requests must have at least one element"); } for (CaptureRequest request : requests) { if (request.isReprocess()) { if (!isReprocessable()) { throw new IllegalArgumentException("This capture session cannot handle " + "reprocess requests"); } else if (request.getReprocessableSessionId() != mId) { throw new IllegalArgumentException("Capture request was created for another " + "session"); } } } checkNotClosed(); handler = checkHandler(handler, callback); if (DEBUG) { CaptureRequest[] requestArray = requests.toArray(new CaptureRequest[0]); Log.v(TAG, mIdString + "captureBurst - requests " + Arrays.toString(requestArray) + ", callback " + callback + " handler " + handler); } return addPendingSequence(mDeviceImpl.captureBurst(requests, createCaptureCallbackProxy(handler, callback), mDeviceHandler)); } @Override public synchronized int setRepeatingRequest(CaptureRequest request, CaptureCallback callback, Handler handler) throws CameraAccessException { if (request == null) { throw new IllegalArgumentException("request must not be null"); } else if (request.isReprocess()) { throw new IllegalArgumentException("repeating reprocess requests are not supported"); } checkNotClosed(); handler = checkHandler(handler, callback); if (DEBUG) { Log.v(TAG, mIdString + "setRepeatingRequest - request " + request + ", callback " + callback + " handler" + " " + handler); } return addPendingSequence(mDeviceImpl.setRepeatingRequest(request, createCaptureCallbackProxy(handler, callback), mDeviceHandler)); } @Override public synchronized int setRepeatingBurst(List requests, CaptureCallback callback, Handler handler) throws CameraAccessException { if (requests == null) { throw new IllegalArgumentException("requests must not be null"); } else if (requests.isEmpty()) { throw new IllegalArgumentException("requests must have at least one element"); } for (CaptureRequest r : requests) { if (r.isReprocess()) { throw new IllegalArgumentException("repeating reprocess burst requests are not " + "supported"); } } checkNotClosed(); handler = checkHandler(handler, callback); if (DEBUG) { CaptureRequest[] requestArray = requests.toArray(new CaptureRequest[0]); Log.v(TAG, mIdString + "setRepeatingBurst - requests " + Arrays.toString(requestArray) + ", callback " + callback + " handler" + "" + handler); } return addPendingSequence(mDeviceImpl.setRepeatingBurst(requests, createCaptureCallbackProxy(handler, callback), mDeviceHandler)); } @Override public synchronized void stopRepeating() throws CameraAccessException { checkNotClosed(); if (DEBUG) { Log.v(TAG, mIdString + "stopRepeating"); } mDeviceImpl.stopRepeating(); } @Override public synchronized void abortCaptures() throws CameraAccessException { checkNotClosed(); if (DEBUG) { Log.v(TAG, mIdString + "abortCaptures"); } if (mAborting) { Log.w(TAG, mIdString + "abortCaptures - Session is already aborting; doing nothing"); return; } mAborting = true; mAbortDrainer.taskStarted(); mDeviceImpl.flush(); // The next BUSY -> IDLE set of transitions will mark the end of the abort. } @Override public boolean isReprocessable() { return mInput != null; } @Override public Surface getInputSurface() { return mInput; } /** * Replace this session with another session. * *

This is an optimization to avoid unconfiguring and then immediately having to * reconfigure again.

* *

The semantics are identical to {@link #close}, except that unconfiguring will be skipped. *

* *

After this call completes, the session will not call any further methods on the camera * device.

* * @see CameraCaptureSession#close */ @Override public synchronized void replaceSessionClose() { /* * In order for creating new sessions to be fast, the new session should be created * before the old session is closed. * * Otherwise the old session will always unconfigure if there is no new session to * replace it. * * Unconfiguring could add hundreds of milliseconds of delay. We could race and attempt * to skip unconfigure if a new session is created before the captures are all drained, * but this would introduce nondeterministic behavior. */ if (DEBUG) Log.v(TAG, mIdString + "replaceSessionClose"); // Set up fast shutdown. Possible alternative paths: // - This session is active, so close() below starts the shutdown drain // - This session is mid-shutdown drain, and hasn't yet reached the idle drain listener. // - This session is already closed and has executed the idle drain listener, and // configureOutputsChecked(null) has already been called. // // Do not call configureOutputsChecked(null) going forward, since it would race with the // configuration for the new session. If it was already called, then we don't care, since it // won't get called again. mSkipUnconfigure = true; close(); } @Override public synchronized void close() { if (mClosed) { if (DEBUG) Log.v(TAG, mIdString + "close - reentering"); return; } if (DEBUG) Log.v(TAG, mIdString + "close - first time"); mClosed = true; /* * Flush out any repeating request. Since camera is closed, no new requests * can be queued, and eventually the entire request queue will be drained. * * If the camera device was already closed, short circuit and do nothing; since * no more internal device callbacks will fire anyway. * * Otherwise, once stopRepeating is done, wait for camera to idle, then unconfigure the * camera. Once that's done, fire #onClosed. */ try { mDeviceImpl.stopRepeating(); } catch (IllegalStateException e) { // OK: Camera device may already be closed, nothing else to do // TODO: Fire onClosed anytime we get the device onClosed or the ISE? // or just suppress the ISE only and rely onClosed. // Also skip any of the draining work if this is already closed. // Short-circuit; queue callback immediately and return mStateCallback.onClosed(this); return; } catch (CameraAccessException e) { // OK: close does not throw checked exceptions. Log.e(TAG, mIdString + "Exception while stopping repeating: ", e); // TODO: call onError instead of onClosed if this happens } // If no sequences are pending, fire #onClosed immediately mSequenceDrainer.beginDrain(); } /** * Whether currently in mid-abort. * *

This is used by the implementation to set the capture failure * reason, in lieu of more accurate error codes from the camera service. * Unsynchronized to avoid deadlocks between simultaneous session->device, * device->session calls.

* */ @Override public boolean isAborting() { return mAborting; } /** * Post calls into a CameraCaptureSession.StateCallback to the user-specified {@code handler}. */ private StateCallback createUserStateCallbackProxy(Handler handler, StateCallback callback) { InvokeDispatcher userCallbackSink = new InvokeDispatcher<>(callback); HandlerDispatcher handlerPassthrough = new HandlerDispatcher<>(userCallbackSink, handler); return new CallbackProxies.SessionStateCallbackProxy(handlerPassthrough); } /** * Forward callbacks from * CameraDeviceImpl.CaptureCallback to the CameraCaptureSession.CaptureCallback. * *

In particular, all calls are automatically split to go both to our own * internal callback, and to the user-specified callback (by transparently posting * to the user-specified handler).

* *

When a capture sequence finishes, update the pending checked sequences set.

*/ @SuppressWarnings("deprecation") private CameraDeviceImpl.CaptureCallback createCaptureCallbackProxy( Handler handler, CaptureCallback callback) { CameraDeviceImpl.CaptureCallback localCallback = new CameraDeviceImpl.CaptureCallback() { @Override public void onCaptureSequenceCompleted(CameraDevice camera, int sequenceId, long frameNumber) { finishPendingSequence(sequenceId); } @Override public void onCaptureSequenceAborted(CameraDevice camera, int sequenceId) { finishPendingSequence(sequenceId); } }; /* * Split the calls from the device callback into local callback and the following chain: * - replace the first CameraDevice arg with a CameraCaptureSession * - duck type from device callback to session callback * - then forward the call to a handler * - then finally invoke the destination method on the session callback object */ if (callback == null) { // OK: API allows the user to not specify a callback, and the handler may // also be null in that case. Collapse whole dispatch chain to only call the local // callback return localCallback; } InvokeDispatcher localSink = new InvokeDispatcher<>(localCallback); InvokeDispatcher userCallbackSink = new InvokeDispatcher<>(callback); HandlerDispatcher handlerPassthrough = new HandlerDispatcher<>(userCallbackSink, handler); DuckTypingDispatcher duckToSession = new DuckTypingDispatcher<>(handlerPassthrough, CaptureCallback.class); ArgumentReplacingDispatcher replaceDeviceWithSession = new ArgumentReplacingDispatcher<>(duckToSession, /*argumentIndex*/0, this); BroadcastDispatcher broadcaster = new BroadcastDispatcher( replaceDeviceWithSession, localSink); return new CallbackProxies.DeviceCaptureCallbackProxy(broadcaster); } /** * * Create an internal state callback, to be invoked on the mDeviceHandler * *

It has a few behaviors: *

    *
  • Convert device state changes into session state changes. *
  • Keep track of async tasks that the session began (idle, abort). *
*

* */ @Override public CameraDeviceImpl.StateCallbackKK getDeviceStateCallback() { final CameraCaptureSession session = this; return new CameraDeviceImpl.StateCallbackKK() { private boolean mBusy = false; private boolean mActive = false; @Override public void onOpened(CameraDevice camera) { throw new AssertionError("Camera must already be open before creating a session"); } @Override public void onDisconnected(CameraDevice camera) { if (DEBUG) Log.v(TAG, mIdString + "onDisconnected"); close(); } @Override public void onError(CameraDevice camera, int error) { // Should not be reached, handled by device code Log.wtf(TAG, mIdString + "Got device error " + error); } @Override public void onActive(CameraDevice camera) { mIdleDrainer.taskStarted(); mActive = true; if (DEBUG) Log.v(TAG, mIdString + "onActive"); mStateCallback.onActive(session); } @Override public void onIdle(CameraDevice camera) { boolean isAborting; if (DEBUG) Log.v(TAG, mIdString + "onIdle"); synchronized (session) { isAborting = mAborting; } /* * Check which states we transitioned through: * * (ACTIVE -> IDLE) * (BUSY -> IDLE) * * Note that this is also legal: * (ACTIVE -> BUSY -> IDLE) * * and mark those tasks as finished */ if (mBusy && isAborting) { mAbortDrainer.taskFinished(); synchronized (session) { mAborting = false; } } if (mActive) { mIdleDrainer.taskFinished(); } mBusy = false; mActive = false; mStateCallback.onReady(session); } @Override public void onBusy(CameraDevice camera) { mBusy = true; // TODO: Queue captures during abort instead of failing them // since the app won't be able to distinguish the two actives // Don't signal the application since there's no clean mapping here if (DEBUG) Log.v(TAG, mIdString + "onBusy"); } @Override public void onUnconfigured(CameraDevice camera) { if (DEBUG) Log.v(TAG, mIdString + "onUnconfigured"); } @Override public void onSurfacePrepared(Surface surface) { if (DEBUG) Log.v(TAG, mIdString + "onPrepared"); mStateCallback.onSurfacePrepared(session, surface); } }; } @Override protected void finalize() throws Throwable { try { close(); } finally { super.finalize(); } } private void checkNotClosed() { if (mClosed) { throw new IllegalStateException( "Session has been closed; further changes are illegal."); } } /** * Notify the session that a pending capture sequence has just been queued. * *

During a shutdown/close, the session waits until all pending sessions are finished * before taking any further steps to shut down itself.

* * @see #finishPendingSequence */ private int addPendingSequence(int sequenceId) { mSequenceDrainer.taskStarted(sequenceId); return sequenceId; } /** * Notify the session that a pending capture sequence is now finished. * *

During a shutdown/close, once all pending sequences finish, it is safe to * close the camera further by unconfiguring and then firing {@code onClosed}.

*/ private void finishPendingSequence(int sequenceId) { mSequenceDrainer.taskFinished(sequenceId); } private class SequenceDrainListener implements TaskDrainer.DrainListener { @Override public void onDrained() { /* * No repeating request is set; and the capture queue has fully drained. * * If no captures were queued to begin with, and an abort was queued, * it's still possible to get another BUSY before the last IDLE. * * If the camera is already "IDLE" and no aborts are pending, * then the drain immediately finishes. */ if (DEBUG) Log.v(TAG, mIdString + "onSequenceDrained"); // Fire session close as soon as all sequences are complete. // We may still need to unconfigure the device, but a new session might be created // past this point, and notifications would then stop to this instance. mStateCallback.onClosed(CameraCaptureSessionImpl.this); // Fast path: A new capture session has replaced this one; don't wait for abort/idle // as we won't get state updates any more anyway. if (mSkipUnconfigure) { return; } mAbortDrainer.beginDrain(); } } private class AbortDrainListener implements TaskDrainer.DrainListener { @Override public void onDrained() { if (DEBUG) Log.v(TAG, mIdString + "onAbortDrained"); synchronized (CameraCaptureSessionImpl.this) { /* * Any queued aborts have now completed. * * It's now safe to wait to receive the final "IDLE" event, as the camera device * will no longer again transition to "ACTIVE" by itself. * * If the camera is already "IDLE", then the drain immediately finishes. */ // Fast path: A new capture session has replaced this one; don't wait for idle // as we won't get state updates any more anyway. if (mSkipUnconfigure) { return; } mIdleDrainer.beginDrain(); } } } private class IdleDrainListener implements TaskDrainer.DrainListener { @Override public void onDrained() { if (DEBUG) Log.v(TAG, mIdString + "onIdleDrained"); // Take device lock before session lock so that we can call back into device // without causing a deadlock synchronized (mDeviceImpl.mInterfaceLock) { synchronized (CameraCaptureSessionImpl.this) { /* * The device is now IDLE, and has settled. It will not transition to * ACTIVE or BUSY again by itself. * * It's now safe to unconfigure the outputs. * * This operation is idempotent; a session will not be closed twice. */ if (DEBUG) Log.v(TAG, mIdString + "Session drain complete, skip unconfigure: " + mSkipUnconfigure); // Fast path: A new capture session has replaced this one; don't wait for idle // as we won't get state updates any more anyway. if (mSkipUnconfigure) { return; } // Final slow path: unconfigure the camera, no session has replaced us and // everything is idle. try { // begin transition to unconfigured mDeviceImpl.configureStreamsChecked(/*inputConfig*/null, /*outputs*/null, /*isConstrainedHighSpeed*/false); } catch (CameraAccessException e) { // OK: do not throw checked exceptions. Log.e(TAG, mIdString + "Exception while unconfiguring outputs: ", e); // TODO: call onError instead of onClosed if this happens } catch (IllegalStateException e) { // Camera is already closed, so nothing left to do if (DEBUG) Log.v(TAG, mIdString + "Camera was already closed or busy, skipping unconfigure"); } } } } } }