/* * Copyright (C) 2012 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 com.android.camera; import android.annotation.TargetApi; import android.app.Activity; import android.content.ActivityNotFoundException; import android.content.BroadcastReceiver; import android.content.ContentResolver; import android.content.ContentValues; import android.content.Context; import android.content.Intent; import android.content.IntentFilter; import android.graphics.Bitmap; import android.graphics.Point; import android.graphics.SurfaceTexture; import android.location.Location; import android.media.AudioManager; import android.media.CamcorderProfile; import android.media.CameraProfile; import android.media.MediaRecorder; import android.net.Uri; import android.os.Build; import android.os.Bundle; import android.os.Handler; import android.os.Looper; import android.os.Message; import android.os.ParcelFileDescriptor; import android.os.SystemClock; import android.provider.MediaStore; import android.provider.MediaStore.MediaColumns; import android.provider.MediaStore.Video; import android.view.KeyEvent; import android.view.OrientationEventListener; import android.view.View; import android.widget.Toast; import com.android.camera.app.AppController; import com.android.camera.app.CameraAppUI; import com.android.camera.app.LocationManager; import com.android.camera.app.MediaSaver; import com.android.camera.app.MemoryManager; import com.android.camera.app.MemoryManager.MemoryListener; import com.android.camera.debug.Log; import com.android.camera.exif.ExifInterface; import com.android.camera.hardware.HardwareSpec; import com.android.camera.hardware.HardwareSpecImpl; import com.android.camera.module.ModuleController; import com.android.camera.settings.Keys; import com.android.camera.settings.SettingsManager; import com.android.camera.settings.SettingsUtil; import com.android.camera.ui.TouchCoordinate; import com.android.camera.util.ApiHelper; import com.android.camera.util.CameraUtil; import com.android.camera.util.UsageStatistics; import com.android.camera2.R; import com.android.ex.camera2.portability.CameraAgent; import com.android.ex.camera2.portability.CameraAgent.CameraPictureCallback; import com.android.ex.camera2.portability.CameraAgent.CameraProxy; import com.android.ex.camera2.portability.CameraCapabilities; import com.android.ex.camera2.portability.CameraDeviceInfo.Characteristics; import com.android.ex.camera2.portability.CameraSettings; import com.android.ex.camera2.portability.Size; import com.google.common.logging.eventprotos; import java.io.File; import java.io.IOException; import java.text.SimpleDateFormat; import java.util.ArrayList; import java.util.Date; import java.util.Iterator; import java.util.List; import java.util.Set; public class VideoModule extends CameraModule implements ModuleController, VideoController, MemoryListener, MediaRecorder.OnErrorListener, MediaRecorder.OnInfoListener, FocusOverlayManager.Listener { private static final String VIDEO_MODULE_STRING_ID = "VideoModule"; private static final Log.Tag TAG = new Log.Tag(VIDEO_MODULE_STRING_ID); // Messages defined for the UI thread handler. private static final int MSG_CHECK_DISPLAY_ROTATION = 4; private static final int MSG_UPDATE_RECORD_TIME = 5; private static final int MSG_ENABLE_SHUTTER_BUTTON = 6; private static final int MSG_SWITCH_CAMERA = 8; private static final int MSG_SWITCH_CAMERA_START_ANIMATION = 9; private static final long SHUTTER_BUTTON_TIMEOUT = 500L; // 500ms /** * An unpublished intent flag requesting to start recording straight away * and return as soon as recording is stopped. * TODO: consider publishing by moving into MediaStore. */ private static final String EXTRA_QUICK_CAPTURE = "android.intent.extra.quickCapture"; // module fields private CameraActivity mActivity; private boolean mPaused; // if, during and intent capture, the activity is paused (e.g. when app switching or reviewing a // shot video), we don't want the bottom bar intent ui to reset to the capture button private boolean mDontResetIntentUiOnResume; private int mCameraId; private CameraSettings mCameraSettings; private CameraCapabilities mCameraCapabilities; private boolean mIsInReviewMode; private boolean mSnapshotInProgress = false; private final CameraErrorCallback mErrorCallback = new CameraErrorCallback(); // Preference must be read before starting preview. We check this before starting // preview. private boolean mPreferenceRead; private boolean mIsVideoCaptureIntent; private boolean mQuickCapture; private MediaRecorder mMediaRecorder; private boolean mSwitchingCamera; private boolean mMediaRecorderRecording = false; private long mRecordingStartTime; private boolean mRecordingTimeCountsDown = false; private long mOnResumeTime; // The video file that the hardware camera is about to record into // (or is recording into. private String mVideoFilename; private ParcelFileDescriptor mVideoFileDescriptor; // The video file that has already been recorded, and that is being // examined by the user. private String mCurrentVideoFilename; private Uri mCurrentVideoUri; private boolean mCurrentVideoUriFromMediaSaved; private ContentValues mCurrentVideoValues; private CamcorderProfile mProfile; // The video duration limit. 0 means no limit. private int mMaxVideoDurationInMs; boolean mPreviewing = false; // True if preview is started. // The display rotation in degrees. This is only valid when mPreviewing is // true. private int mDisplayRotation; private int mCameraDisplayOrientation; private AppController mAppController; private int mDesiredPreviewWidth; private int mDesiredPreviewHeight; private ContentResolver mContentResolver; private LocationManager mLocationManager; private int mPendingSwitchCameraId; private final Handler mHandler = new MainHandler(); private VideoUI mUI; private CameraProxy mCameraDevice; // The degrees of the device rotated clockwise from its natural orientation. private int mOrientation = OrientationEventListener.ORIENTATION_UNKNOWN; private float mZoomValue; // The current zoom ratio. private final MediaSaver.OnMediaSavedListener mOnVideoSavedListener = new MediaSaver.OnMediaSavedListener() { @Override public void onMediaSaved(Uri uri) { if (uri != null) { mCurrentVideoUri = uri; mCurrentVideoUriFromMediaSaved = true; onVideoSaved(); mActivity.notifyNewMedia(uri); } } }; private final MediaSaver.OnMediaSavedListener mOnPhotoSavedListener = new MediaSaver.OnMediaSavedListener() { @Override public void onMediaSaved(Uri uri) { if (uri != null) { mActivity.notifyNewMedia(uri); } } }; private FocusOverlayManager mFocusManager; private boolean mMirror; private boolean mFocusAreaSupported; private boolean mMeteringAreaSupported; private final CameraAgent.CameraAFCallback mAutoFocusCallback = new CameraAgent.CameraAFCallback() { @Override public void onAutoFocus(boolean focused, CameraProxy camera) { if (mPaused) { return; } mFocusManager.onAutoFocus(focused, false); } }; private final Object mAutoFocusMoveCallback = ApiHelper.HAS_AUTO_FOCUS_MOVE_CALLBACK ? new CameraAgent.CameraAFMoveCallback() { @Override public void onAutoFocusMoving(boolean moving, CameraProxy camera) { // mFocusManager.onAutoFocusMoving(moving) not called because UI // not compatible with vertical video hint UI. } } : null; /** * This Handler is used to post message back onto the main thread of the * application. */ private class MainHandler extends Handler { @Override public void handleMessage(Message msg) { switch (msg.what) { case MSG_ENABLE_SHUTTER_BUTTON: mAppController.setShutterEnabled(true); break; case MSG_UPDATE_RECORD_TIME: { updateRecordingTime(); break; } case MSG_CHECK_DISPLAY_ROTATION: { // Restart the preview if display rotation has changed. // Sometimes this happens when the device is held upside // down and camera app is opened. Rotation animation will // take some time and the rotation value we have got may be // wrong. Framework does not have a callback for this now. if ((CameraUtil.getDisplayRotation(mActivity) != mDisplayRotation) && !mMediaRecorderRecording && !mSwitchingCamera) { startPreview(); } if (SystemClock.uptimeMillis() - mOnResumeTime < 5000) { mHandler.sendEmptyMessageDelayed(MSG_CHECK_DISPLAY_ROTATION, 100); } break; } case MSG_SWITCH_CAMERA: { switchCamera(); break; } case MSG_SWITCH_CAMERA_START_ANIMATION: { //TODO: //((CameraScreenNail) mActivity.mCameraScreenNail).animateSwitchCamera(); // Enable all camera controls. mSwitchingCamera = false; break; } default: Log.v(TAG, "Unhandled message: " + msg.what); break; } } } private BroadcastReceiver mReceiver = null; private class MyBroadcastReceiver extends BroadcastReceiver { @Override public void onReceive(Context context, Intent intent) { String action = intent.getAction(); if (action.equals(Intent.ACTION_MEDIA_EJECT)) { stopVideoRecording(); } else if (action.equals(Intent.ACTION_MEDIA_SCANNER_STARTED)) { Toast.makeText(mActivity, mActivity.getResources().getString(R.string.wait), Toast.LENGTH_LONG).show(); } } } private int mShutterIconId; /** * Construct a new video module. */ public VideoModule(AppController app) { super(app); } @Override public String getPeekAccessibilityString() { return mAppController.getAndroidContext() .getResources().getString(R.string.video_accessibility_peek); } private String createName(long dateTaken) { Date date = new Date(dateTaken); SimpleDateFormat dateFormat = new SimpleDateFormat( mActivity.getString(R.string.video_file_name_format)); return dateFormat.format(date); } @Override public String getModuleStringIdentifier() { return VIDEO_MODULE_STRING_ID; } @Override public void init(CameraActivity activity, boolean isSecureCamera, boolean isCaptureIntent) { mActivity = activity; // TODO: Need to look at the controller interface to see if we can get // rid of passing in the activity directly. mAppController = mActivity; mActivity.updateStorageSpaceAndHint(null); mUI = new VideoUI(mActivity, this, mActivity.getModuleLayoutRoot()); mActivity.setPreviewStatusListener(mUI); SettingsManager settingsManager = mActivity.getSettingsManager(); mCameraId = settingsManager.getInteger(mAppController.getModuleScope(), Keys.KEY_CAMERA_ID); /* * To reduce startup time, we start the preview in another thread. * We make sure the preview is started at the end of onCreate. */ requestCamera(mCameraId); mContentResolver = mActivity.getContentResolver(); // Surface texture is from camera screen nail and startPreview needs it. // This must be done before startPreview. mIsVideoCaptureIntent = isVideoCaptureIntent(); mQuickCapture = mActivity.getIntent().getBooleanExtra(EXTRA_QUICK_CAPTURE, false); mLocationManager = mActivity.getLocationManager(); mUI.setOrientationIndicator(0, false); setDisplayOrientation(); mPendingSwitchCameraId = -1; mShutterIconId = CameraUtil.getCameraShutterIconId( mAppController.getCurrentModuleIndex(), mAppController.getAndroidContext()); } @Override public boolean isUsingBottomBar() { return true; } private void initializeControlByIntent() { if (isVideoCaptureIntent()) { if (!mDontResetIntentUiOnResume) { mActivity.getCameraAppUI().transitionToIntentCaptureLayout(); } // reset the flag mDontResetIntentUiOnResume = false; } } @Override public void onSingleTapUp(View view, int x, int y) { if (mPaused || mCameraDevice == null) { return; } if (mMediaRecorderRecording) { if (!mSnapshotInProgress) { takeASnapshot(); } return; } // Check if metering area or focus area is supported. if (!mFocusAreaSupported && !mMeteringAreaSupported) { return; } // Tap to focus. mFocusManager.onSingleTapUp(x, y); } private void takeASnapshot() { // Only take snapshots if video snapshot is supported by device if(!mCameraCapabilities.supports(CameraCapabilities.Feature.VIDEO_SNAPSHOT)) { Log.w(TAG, "Cannot take a video snapshot - not supported by hardware"); return; } if (!mIsVideoCaptureIntent) { if (!mMediaRecorderRecording || mPaused || mSnapshotInProgress || !mAppController.isShutterEnabled() || mCameraDevice == null) { return; } Location loc = mLocationManager.getCurrentLocation(); CameraUtil.setGpsParameters(mCameraSettings, loc); mCameraDevice.applySettings(mCameraSettings); Log.i(TAG, "Video snapshot start"); mCameraDevice.takePicture(mHandler, null, null, null, new JpegPictureCallback(loc)); showVideoSnapshotUI(true); mSnapshotInProgress = true; } } @TargetApi(Build.VERSION_CODES.JELLY_BEAN) private void updateAutoFocusMoveCallback() { if (mPaused || mCameraDevice == null) { return; } if (mCameraSettings.getCurrentFocusMode() == CameraCapabilities.FocusMode.CONTINUOUS_PICTURE) { mCameraDevice.setAutoFocusMoveCallback(mHandler, (CameraAgent.CameraAFMoveCallback) mAutoFocusMoveCallback); } else { mCameraDevice.setAutoFocusMoveCallback(null, null); } } /** * @return Whether the currently active camera is front-facing. */ private boolean isCameraFrontFacing() { return mAppController.getCameraProvider().getCharacteristics(mCameraId) .isFacingFront(); } /** * @return Whether the currently active camera is back-facing. */ private boolean isCameraBackFacing() { return mAppController.getCameraProvider().getCharacteristics(mCameraId) .isFacingBack(); } /** * The focus manager gets initialized after camera is available. */ private void initializeFocusManager() { // Create FocusManager object. startPreview needs it. // if mFocusManager not null, reuse it // otherwise create a new instance if (mFocusManager != null) { mFocusManager.removeMessages(); } else { mMirror = isCameraFrontFacing(); String[] defaultFocusModesStrings = mActivity.getResources().getStringArray( R.array.pref_camera_focusmode_default_array); CameraCapabilities.Stringifier stringifier = mCameraCapabilities.getStringifier(); ArrayList defaultFocusModes = new ArrayList(); for (String modeString : defaultFocusModesStrings) { CameraCapabilities.FocusMode mode = stringifier.focusModeFromString(modeString); if (mode != null) { defaultFocusModes.add(mode); } } mFocusManager = new FocusOverlayManager(mAppController, defaultFocusModes, mCameraCapabilities, this, mMirror, mActivity.getMainLooper(), mUI.getFocusUI()); } mAppController.addPreviewAreaSizeChangedListener(mFocusManager); } @Override public void onOrientationChanged(int orientation) { // We keep the last known orientation. So if the user first orient // the camera then point the camera to floor or sky, we still have // the correct orientation. if (orientation == OrientationEventListener.ORIENTATION_UNKNOWN) { return; } int newOrientation = CameraUtil.roundOrientation(orientation, mOrientation); if (mOrientation != newOrientation) { mOrientation = newOrientation; } mUI.onOrientationChanged(orientation); } private final ButtonManager.ButtonCallback mFlashCallback = new ButtonManager.ButtonCallback() { @Override public void onStateChanged(int state) { // Update flash parameters. enableTorchMode(true); } }; private final ButtonManager.ButtonCallback mCameraCallback = new ButtonManager.ButtonCallback() { @Override public void onStateChanged(int state) { if (mPaused || mAppController.getCameraProvider().waitingForCamera()) { return; } mPendingSwitchCameraId = state; Log.d(TAG, "Start to copy texture."); // Disable all camera controls. mSwitchingCamera = true; switchCamera(); } }; private final View.OnClickListener mCancelCallback = new View.OnClickListener() { @Override public void onClick(View v) { onReviewCancelClicked(v); } }; private final View.OnClickListener mDoneCallback = new View.OnClickListener() { @Override public void onClick(View v) { onReviewDoneClicked(v); } }; private final View.OnClickListener mReviewCallback = new View.OnClickListener() { @Override public void onClick(View v) { onReviewPlayClicked(v); } }; @Override public void hardResetSettings(SettingsManager settingsManager) { // VideoModule does not need to hard reset any settings. } @Override public HardwareSpec getHardwareSpec() { return (mCameraSettings != null ? new HardwareSpecImpl(getCameraProvider(), mCameraCapabilities) : null); } @Override public CameraAppUI.BottomBarUISpec getBottomBarSpec() { CameraAppUI.BottomBarUISpec bottomBarSpec = new CameraAppUI.BottomBarUISpec(); bottomBarSpec.enableCamera = true; bottomBarSpec.cameraCallback = mCameraCallback; bottomBarSpec.enableTorchFlash = true; bottomBarSpec.flashCallback = mFlashCallback; bottomBarSpec.hideHdr = true; bottomBarSpec.enableGridLines = true; if (isVideoCaptureIntent()) { bottomBarSpec.showCancel = true; bottomBarSpec.cancelCallback = mCancelCallback; bottomBarSpec.showDone = true; bottomBarSpec.doneCallback = mDoneCallback; bottomBarSpec.showReview = true; bottomBarSpec.reviewCallback = mReviewCallback; } return bottomBarSpec; } @Override public void onCameraAvailable(CameraProxy cameraProxy) { if (cameraProxy == null) { Log.w(TAG, "onCameraAvailable returns a null CameraProxy object"); return; } mCameraDevice = cameraProxy; mCameraCapabilities = mCameraDevice.getCapabilities(); mCameraSettings = mCameraDevice.getSettings(); mFocusAreaSupported = mCameraCapabilities.supports(CameraCapabilities.Feature.FOCUS_AREA); mMeteringAreaSupported = mCameraCapabilities.supports(CameraCapabilities.Feature.METERING_AREA); readVideoPreferences(); resizeForPreviewAspectRatio(); initializeFocusManager(); // TODO: Having focus overlay manager caching the parameters is prone to error, // we should consider passing the parameters to focus overlay to ensure the // parameters are up to date. mFocusManager.updateCapabilities(mCameraCapabilities); startPreview(); initializeVideoSnapshot(); mUI.initializeZoom(mCameraSettings, mCameraCapabilities); initializeControlByIntent(); } private void startPlayVideoActivity() { Intent intent = new Intent(Intent.ACTION_VIEW); intent.setDataAndType(mCurrentVideoUri, convertOutputFormatToMimeType(mProfile.fileFormat)); try { mActivity.launchActivityByIntent(intent); } catch (ActivityNotFoundException ex) { Log.e(TAG, "Couldn't view video " + mCurrentVideoUri, ex); } } @Override @OnClickAttr public void onReviewPlayClicked(View v) { startPlayVideoActivity(); } @Override @OnClickAttr public void onReviewDoneClicked(View v) { mIsInReviewMode = false; doReturnToCaller(true); } @Override @OnClickAttr public void onReviewCancelClicked(View v) { // TODO: It should be better to not even insert the URI at all before we // confirm done in review, which means we need to handle temporary video // files in a quite different way than we currently had. // Make sure we don't delete the Uri sent from the video capture intent. if (mCurrentVideoUriFromMediaSaved) { mContentResolver.delete(mCurrentVideoUri, null, null); } mIsInReviewMode = false; doReturnToCaller(false); } @Override public boolean isInReviewMode() { return mIsInReviewMode; } private void onStopVideoRecording() { mAppController.getCameraAppUI().setSwipeEnabled(true); boolean recordFail = stopVideoRecording(); if (mIsVideoCaptureIntent) { if (mQuickCapture) { doReturnToCaller(!recordFail); } else if (!recordFail) { showCaptureResult(); } } else if (!recordFail){ // Start capture animation. if (!mPaused && ApiHelper.HAS_SURFACE_TEXTURE_RECORDING) { // The capture animation is disabled on ICS because we use SurfaceView // for preview during recording. When the recording is done, we switch // back to use SurfaceTexture for preview and we need to stop then start // the preview. This will cause the preview flicker since the preview // will not be continuous for a short period of time. mUI.animateFlash(); } } } public void onVideoSaved() { if (mIsVideoCaptureIntent) { showCaptureResult(); } } public void onProtectiveCurtainClick(View v) { // Consume clicks } @Override public void onShutterButtonClick() { if (mSwitchingCamera) { return; } boolean stop = mMediaRecorderRecording; if (stop) { onStopVideoRecording(); } else { startVideoRecording(); } mAppController.setShutterEnabled(false); if (mCameraSettings != null) { mFocusManager.onShutterUp(mCameraSettings.getCurrentFocusMode()); } // Keep the shutter button disabled when in video capture intent // mode and recording is stopped. It'll be re-enabled when // re-take button is clicked. if (!(mIsVideoCaptureIntent && stop)) { mHandler.sendEmptyMessageDelayed(MSG_ENABLE_SHUTTER_BUTTON, SHUTTER_BUTTON_TIMEOUT); } } @Override public void onShutterCoordinate(TouchCoordinate coord) { // Do nothing. } @Override public void onShutterButtonFocus(boolean pressed) { // TODO: Remove this when old camera controls are removed from the UI. } private void readVideoPreferences() { // The preference stores values from ListPreference and is thus string type for all values. // We need to convert it to int manually. SettingsManager settingsManager = mActivity.getSettingsManager(); String videoQualityKey = isCameraFrontFacing() ? Keys.KEY_VIDEO_QUALITY_FRONT : Keys.KEY_VIDEO_QUALITY_BACK; String videoQuality = settingsManager .getString(SettingsManager.SCOPE_GLOBAL, videoQualityKey); int quality = SettingsUtil.getVideoQuality(videoQuality, mCameraId); Log.d(TAG, "Selected video quality for '" + videoQuality + "' is " + quality); // Set video quality. Intent intent = mActivity.getIntent(); if (intent.hasExtra(MediaStore.EXTRA_VIDEO_QUALITY)) { int extraVideoQuality = intent.getIntExtra(MediaStore.EXTRA_VIDEO_QUALITY, 0); if (extraVideoQuality > 0) { quality = CamcorderProfile.QUALITY_HIGH; } else { // 0 is mms. quality = CamcorderProfile.QUALITY_LOW; } } // Set video duration limit. The limit is read from the preference, // unless it is specified in the intent. if (intent.hasExtra(MediaStore.EXTRA_DURATION_LIMIT)) { int seconds = intent.getIntExtra(MediaStore.EXTRA_DURATION_LIMIT, 0); mMaxVideoDurationInMs = 1000 * seconds; } else { mMaxVideoDurationInMs = SettingsUtil.getMaxVideoDuration(mActivity .getAndroidContext()); } // If quality is not supported, request QUALITY_HIGH which is always supported. if (CamcorderProfile.hasProfile(mCameraId, quality) == false) { quality = CamcorderProfile.QUALITY_HIGH; } mProfile = CamcorderProfile.get(mCameraId, quality); mPreferenceRead = true; if (mCameraDevice == null) { return; } mCameraSettings = mCameraDevice.getSettings(); Point desiredPreviewSize = getDesiredPreviewSize(mAppController.getAndroidContext(), mCameraSettings, mCameraCapabilities, mProfile, mUI.getPreviewScreenSize()); mDesiredPreviewWidth = desiredPreviewSize.x; mDesiredPreviewHeight = desiredPreviewSize.y; mUI.setPreviewSize(mDesiredPreviewWidth, mDesiredPreviewHeight); Log.v(TAG, "mDesiredPreviewWidth=" + mDesiredPreviewWidth + ". mDesiredPreviewHeight=" + mDesiredPreviewHeight); } @TargetApi(Build.VERSION_CODES.HONEYCOMB) /** * Calculates the preview size and stores it in mDesiredPreviewWidth and * mDesiredPreviewHeight. * *

This function checks {@link * com.android.camera.cameradevice.CameraCapabilities#getPreferredPreviewSizeForVideo()} * but also considers the current preview area size on screen and make sure * the final preview size will not be smaller than 1/2 of the current * on screen preview area in terms of their short sides.

* * @return The preferred preview size or {@code null} if the camera is not * opened yet. */ private static Point getDesiredPreviewSize(Context context, CameraSettings settings, CameraCapabilities capabilities, CamcorderProfile profile, Point previewScreenSize) { if (capabilities.getSupportedVideoSizes() == null) { // Driver doesn't support separate outputs for preview and video. return new Point(profile.videoFrameWidth, profile.videoFrameHeight); } final int previewScreenShortSide = (previewScreenSize.x < previewScreenSize.y ? previewScreenSize.x : previewScreenSize.y); List sizes = capabilities.getSupportedPreviewSizes(); Size preferred = capabilities.getPreferredPreviewSizeForVideo(); final int preferredPreviewSizeShortSide = (preferred.width() < preferred.height() ? preferred.width() : preferred.height()); if (preferredPreviewSizeShortSide * 2 < previewScreenShortSide) { preferred = new Size(profile.videoFrameWidth, profile.videoFrameHeight); } int product = preferred.width() * preferred.height(); Iterator it = sizes.iterator(); // Remove the preview sizes that are not preferred. while (it.hasNext()) { Size size = it.next(); if (size.width() * size.height() > product) { it.remove(); } } Size optimalSize = CameraUtil.getOptimalPreviewSize(context, sizes, (double) profile.videoFrameWidth / profile.videoFrameHeight); return new Point(optimalSize.width(), optimalSize.height()); } private void resizeForPreviewAspectRatio() { mUI.setAspectRatio((float) mProfile.videoFrameWidth / mProfile.videoFrameHeight); } private void installIntentFilter() { // install an intent filter to receive SD card related events. IntentFilter intentFilter = new IntentFilter(Intent.ACTION_MEDIA_EJECT); intentFilter.addAction(Intent.ACTION_MEDIA_SCANNER_STARTED); intentFilter.addDataScheme("file"); mReceiver = new MyBroadcastReceiver(); mActivity.registerReceiver(mReceiver, intentFilter); } private void setDisplayOrientation() { mDisplayRotation = CameraUtil.getDisplayRotation(mActivity); Characteristics info = mActivity.getCameraProvider().getCharacteristics(mCameraId); mCameraDisplayOrientation = info.getPreviewOrientation(mDisplayRotation); // Change the camera display orientation if (mCameraDevice != null) { mCameraDevice.setDisplayOrientation(mDisplayRotation); } if (mFocusManager != null) { mFocusManager.setDisplayOrientation(mCameraDisplayOrientation); } } @Override public void updateCameraOrientation() { if (mMediaRecorderRecording) { return; } if (mDisplayRotation != CameraUtil.getDisplayRotation(mActivity)) { setDisplayOrientation(); } } @Override public void updatePreviewAspectRatio(float aspectRatio) { mAppController.updatePreviewAspectRatio(aspectRatio); } /** * Returns current Zoom value, with 1.0 as the value for no zoom. */ private float currentZoomValue() { return mCameraSettings.getCurrentZoomRatio(); } @Override public void onZoomChanged(float ratio) { // Not useful to change zoom value when the activity is paused. if (mPaused) { return; } mZoomValue = ratio; if (mCameraSettings == null || mCameraDevice == null) { return; } // Set zoom parameters asynchronously mCameraSettings.setZoomRatio(mZoomValue); mCameraDevice.applySettings(mCameraSettings); } private void startPreview() { Log.i(TAG, "startPreview"); SurfaceTexture surfaceTexture = mActivity.getCameraAppUI().getSurfaceTexture(); if (!mPreferenceRead || surfaceTexture == null || mPaused == true || mCameraDevice == null) { return; } mCameraDevice.setErrorCallback(mHandler, mErrorCallback); if (mPreviewing == true) { stopPreview(); } setDisplayOrientation(); mCameraDevice.setDisplayOrientation(mDisplayRotation); setCameraParameters(); if (mFocusManager != null) { // If the focus mode is continuous autofocus, call cancelAutoFocus // to resume it because it may have been paused by autoFocus call. CameraCapabilities.FocusMode focusMode = mFocusManager.getFocusMode(mCameraSettings.getCurrentFocusMode()); if (focusMode == CameraCapabilities.FocusMode.CONTINUOUS_PICTURE) { mCameraDevice.cancelAutoFocus(); } } // This is to notify app controller that preview will start next, so app // controller can set preview callbacks if needed. This has to happen before // preview is started as a workaround of the framework issue related to preview // callbacks that causes preview stretch and crash. (More details see b/12210027 // and b/12591410. Don't apply this to L, see b/16649297. if (!ApiHelper.isLOrHigher()) { Log.v(TAG, "calling onPreviewReadyToStart to set one shot callback"); mAppController.onPreviewReadyToStart(); } else { Log.v(TAG, "on L, no one shot callback necessary"); } try { mCameraDevice.setPreviewTexture(surfaceTexture); mCameraDevice.startPreviewWithCallback(new Handler(Looper.getMainLooper()), new CameraAgent.CameraStartPreviewCallback() { @Override public void onPreviewStarted() { VideoModule.this.onPreviewStarted(); } }); mPreviewing = true; } catch (Throwable ex) { closeCamera(); throw new RuntimeException("startPreview failed", ex); } } private void onPreviewStarted() { mAppController.setShutterEnabled(true); mAppController.onPreviewStarted(); if (mFocusManager != null) { mFocusManager.onPreviewStarted(); } } @Override public void onPreviewInitialDataReceived() { } @Override public void stopPreview() { if (!mPreviewing) { Log.v(TAG, "Skip stopPreview since it's not mPreviewing"); return; } if (mCameraDevice == null) { Log.v(TAG, "Skip stopPreview since mCameraDevice is null"); return; } Log.v(TAG, "stopPreview"); mCameraDevice.stopPreview(); if (mFocusManager != null) { mFocusManager.onPreviewStopped(); } mPreviewing = false; } private void closeCamera() { Log.i(TAG, "closeCamera"); if (mCameraDevice == null) { Log.d(TAG, "already stopped."); return; } mCameraDevice.setZoomChangeListener(null); mCameraDevice.setErrorCallback(null, null); mActivity.getCameraProvider().releaseCamera(mCameraDevice.getCameraId()); mCameraDevice = null; mPreviewing = false; mSnapshotInProgress = false; if (mFocusManager != null) { mFocusManager.onCameraReleased(); } } @Override public boolean onBackPressed() { if (mPaused) { return true; } if (mMediaRecorderRecording) { onStopVideoRecording(); return true; } else { return false; } } @Override public boolean onKeyDown(int keyCode, KeyEvent event) { // Do not handle any key if the activity is paused. if (mPaused) { return true; } switch (keyCode) { case KeyEvent.KEYCODE_CAMERA: if (event.getRepeatCount() == 0) { onShutterButtonClick(); return true; } case KeyEvent.KEYCODE_DPAD_CENTER: if (event.getRepeatCount() == 0) { onShutterButtonClick(); return true; } case KeyEvent.KEYCODE_MENU: // Consume menu button presses during capture. return mMediaRecorderRecording; } return false; } @Override public boolean onKeyUp(int keyCode, KeyEvent event) { switch (keyCode) { case KeyEvent.KEYCODE_CAMERA: onShutterButtonClick(); return true; case KeyEvent.KEYCODE_MENU: // Consume menu button presses during capture. return mMediaRecorderRecording; } return false; } @Override public boolean isVideoCaptureIntent() { String action = mActivity.getIntent().getAction(); return (MediaStore.ACTION_VIDEO_CAPTURE.equals(action)); } private void doReturnToCaller(boolean valid) { Intent resultIntent = new Intent(); int resultCode; if (valid) { resultCode = Activity.RESULT_OK; resultIntent.setData(mCurrentVideoUri); resultIntent.addFlags(Intent.FLAG_GRANT_READ_URI_PERMISSION); } else { resultCode = Activity.RESULT_CANCELED; } mActivity.setResultEx(resultCode, resultIntent); mActivity.finish(); } private void cleanupEmptyFile() { if (mVideoFilename != null) { File f = new File(mVideoFilename); if (f.length() == 0 && f.delete()) { Log.v(TAG, "Empty video file deleted: " + mVideoFilename); mVideoFilename = null; } } } // Prepares media recorder. private void initializeRecorder() { Log.i(TAG, "initializeRecorder: " + Thread.currentThread()); // If the mCameraDevice is null, then this activity is going to finish if (mCameraDevice == null) { return; } Intent intent = mActivity.getIntent(); Bundle myExtras = intent.getExtras(); long requestedSizeLimit = 0; closeVideoFileDescriptor(); mCurrentVideoUriFromMediaSaved = false; if (mIsVideoCaptureIntent && myExtras != null) { Uri saveUri = (Uri) myExtras.getParcelable(MediaStore.EXTRA_OUTPUT); if (saveUri != null) { try { mVideoFileDescriptor = mContentResolver.openFileDescriptor(saveUri, "rw"); mCurrentVideoUri = saveUri; } catch (java.io.FileNotFoundException ex) { // invalid uri Log.e(TAG, ex.toString()); } } requestedSizeLimit = myExtras.getLong(MediaStore.EXTRA_SIZE_LIMIT); } mMediaRecorder = new MediaRecorder(); // Unlock the camera object before passing it to media recorder. mCameraDevice.unlock(); mMediaRecorder.setCamera(mCameraDevice.getCamera()); mMediaRecorder.setAudioSource(MediaRecorder.AudioSource.CAMCORDER); mMediaRecorder.setVideoSource(MediaRecorder.VideoSource.CAMERA); mMediaRecorder.setProfile(mProfile); mMediaRecorder.setVideoSize(mProfile.videoFrameWidth, mProfile.videoFrameHeight); mMediaRecorder.setMaxDuration(mMaxVideoDurationInMs); setRecordLocation(); // Set output file. // Try Uri in the intent first. If it doesn't exist, use our own // instead. if (mVideoFileDescriptor != null) { mMediaRecorder.setOutputFile(mVideoFileDescriptor.getFileDescriptor()); } else { generateVideoFilename(mProfile.fileFormat); mMediaRecorder.setOutputFile(mVideoFilename); } // Set maximum file size. long maxFileSize = mActivity.getStorageSpaceBytes() - Storage.LOW_STORAGE_THRESHOLD_BYTES; if (requestedSizeLimit > 0 && requestedSizeLimit < maxFileSize) { maxFileSize = requestedSizeLimit; } try { mMediaRecorder.setMaxFileSize(maxFileSize); } catch (RuntimeException exception) { // We are going to ignore failure of setMaxFileSize here, as // a) The composer selected may simply not support it, or // b) The underlying media framework may not handle 64-bit range // on the size restriction. } // See com.android.camera.cameradevice.CameraSettings.setPhotoRotationDegrees // for documentation. // Note that mOrientation here is the device orientation, which is the opposite of // what activity.getWindowManager().getDefaultDisplay().getRotation() would return, // which is the orientation the graphics need to rotate in order to render correctly. int rotation = 0; if (mOrientation != OrientationEventListener.ORIENTATION_UNKNOWN) { Characteristics info = mActivity.getCameraProvider().getCharacteristics(mCameraId); if (isCameraFrontFacing()) { rotation = (info.getSensorOrientation() - mOrientation + 360) % 360; } else if (isCameraBackFacing()) { rotation = (info.getSensorOrientation() + mOrientation) % 360; } else { Log.e(TAG, "Camera is facing unhandled direction"); } } mMediaRecorder.setOrientationHint(rotation); try { mMediaRecorder.prepare(); } catch (IOException e) { Log.e(TAG, "prepare failed for " + mVideoFilename, e); releaseMediaRecorder(); throw new RuntimeException(e); } mMediaRecorder.setOnErrorListener(this); mMediaRecorder.setOnInfoListener(this); } private static void setCaptureRate(MediaRecorder recorder, double fps) { recorder.setCaptureRate(fps); } private void setRecordLocation() { Location loc = mLocationManager.getCurrentLocation(); if (loc != null) { mMediaRecorder.setLocation((float) loc.getLatitude(), (float) loc.getLongitude()); } } private void releaseMediaRecorder() { Log.i(TAG, "Releasing media recorder."); if (mMediaRecorder != null) { cleanupEmptyFile(); mMediaRecorder.reset(); mMediaRecorder.release(); mMediaRecorder = null; } mVideoFilename = null; } private void generateVideoFilename(int outputFileFormat) { long dateTaken = System.currentTimeMillis(); String title = createName(dateTaken); // Used when emailing. String filename = title + convertOutputFormatToFileExt(outputFileFormat); String mime = convertOutputFormatToMimeType(outputFileFormat); String path = Storage.DIRECTORY + '/' + filename; String tmpPath = path + ".tmp"; mCurrentVideoValues = new ContentValues(9); mCurrentVideoValues.put(Video.Media.TITLE, title); mCurrentVideoValues.put(Video.Media.DISPLAY_NAME, filename); mCurrentVideoValues.put(Video.Media.DATE_TAKEN, dateTaken); mCurrentVideoValues.put(MediaColumns.DATE_MODIFIED, dateTaken / 1000); mCurrentVideoValues.put(Video.Media.MIME_TYPE, mime); mCurrentVideoValues.put(Video.Media.DATA, path); mCurrentVideoValues.put(Video.Media.WIDTH, mProfile.videoFrameWidth); mCurrentVideoValues.put(Video.Media.HEIGHT, mProfile.videoFrameHeight); mCurrentVideoValues.put(Video.Media.RESOLUTION, Integer.toString(mProfile.videoFrameWidth) + "x" + Integer.toString(mProfile.videoFrameHeight)); Location loc = mLocationManager.getCurrentLocation(); if (loc != null) { mCurrentVideoValues.put(Video.Media.LATITUDE, loc.getLatitude()); mCurrentVideoValues.put(Video.Media.LONGITUDE, loc.getLongitude()); } mVideoFilename = tmpPath; Log.v(TAG, "New video filename: " + mVideoFilename); } private void logVideoCapture(long duration) { String flashSetting = mActivity.getSettingsManager() .getString(mAppController.getCameraScope(), Keys.KEY_VIDEOCAMERA_FLASH_MODE); boolean gridLinesOn = Keys.areGridLinesOn(mActivity.getSettingsManager()); int width = (Integer) mCurrentVideoValues.get(Video.Media.WIDTH); int height = (Integer) mCurrentVideoValues.get(Video.Media.HEIGHT); long size = new File(mCurrentVideoFilename).length(); String name = new File(mCurrentVideoValues.getAsString(Video.Media.DATA)).getName(); UsageStatistics.instance().videoCaptureDoneEvent(name, duration, isCameraFrontFacing(), currentZoomValue(), width, height, size, flashSetting, gridLinesOn); } private void saveVideo() { if (mVideoFileDescriptor == null) { long duration = SystemClock.uptimeMillis() - mRecordingStartTime; if (duration > 0) { // } else { Log.w(TAG, "Video duration <= 0 : " + duration); } mCurrentVideoValues.put(Video.Media.SIZE, new File(mCurrentVideoFilename).length()); mCurrentVideoValues.put(Video.Media.DURATION, duration); getServices().getMediaSaver().addVideo(mCurrentVideoFilename, mCurrentVideoValues, mOnVideoSavedListener, mContentResolver); logVideoCapture(duration); } mCurrentVideoValues = null; } private void deleteVideoFile(String fileName) { Log.v(TAG, "Deleting video " + fileName); File f = new File(fileName); if (!f.delete()) { Log.v(TAG, "Could not delete " + fileName); } } // from MediaRecorder.OnErrorListener @Override public void onError(MediaRecorder mr, int what, int extra) { Log.e(TAG, "MediaRecorder error. what=" + what + ". extra=" + extra); if (what == MediaRecorder.MEDIA_RECORDER_ERROR_UNKNOWN) { // We may have run out of space on the sdcard. stopVideoRecording(); mActivity.updateStorageSpaceAndHint(null); } } // from MediaRecorder.OnInfoListener @Override public void onInfo(MediaRecorder mr, int what, int extra) { if (what == MediaRecorder.MEDIA_RECORDER_INFO_MAX_DURATION_REACHED) { if (mMediaRecorderRecording) { onStopVideoRecording(); } } else if (what == MediaRecorder.MEDIA_RECORDER_INFO_MAX_FILESIZE_REACHED) { if (mMediaRecorderRecording) { onStopVideoRecording(); } // Show the toast. Toast.makeText(mActivity, R.string.video_reach_size_limit, Toast.LENGTH_LONG).show(); } } /* * Make sure we're not recording music playing in the background, ask the * MediaPlaybackService to pause playback. */ private void pauseAudioPlayback() { AudioManager am = (AudioManager) mActivity.getSystemService(Context.AUDIO_SERVICE); am.requestAudioFocus(null, AudioManager.STREAM_MUSIC, AudioManager.AUDIOFOCUS_GAIN); } // For testing. public boolean isRecording() { return mMediaRecorderRecording; } private void startVideoRecording() { Log.i(TAG, "startVideoRecording: " + Thread.currentThread()); mUI.cancelAnimations(); mUI.setSwipingEnabled(false); mUI.showFocusUI(false); mUI.showVideoRecordingHints(false); mActivity.updateStorageSpaceAndHint(new CameraActivity.OnStorageUpdateDoneListener() { @Override public void onStorageUpdateDone(long bytes) { if (bytes <= Storage.LOW_STORAGE_THRESHOLD_BYTES) { Log.w(TAG, "Storage issue, ignore the start request"); } else { if (mCameraDevice == null) { Log.v(TAG, "in storage callback after camera closed"); return; } if (mPaused == true) { Log.v(TAG, "in storage callback after module paused"); return; } // Monkey is so fast so it could trigger startVideoRecording twice. To prevent // app crash (b/17313985), do nothing here for the second storage-checking // callback because recording is already started. if (mMediaRecorderRecording) { Log.v(TAG, "in storage callback after recording started"); return; } mCurrentVideoUri = null; initializeRecorder(); if (mMediaRecorder == null) { Log.e(TAG, "Fail to initialize media recorder"); return; } pauseAudioPlayback(); try { mMediaRecorder.start(); // Recording is now started } catch (RuntimeException e) { Log.e(TAG, "Could not start media recorder. ", e); releaseMediaRecorder(); // If start fails, frameworks will not lock the camera for us. mCameraDevice.lock(); return; } mAppController.getCameraAppUI().setSwipeEnabled(false); // The parameters might have been altered by MediaRecorder already. // We need to force mCameraDevice to refresh before getting it. mCameraDevice.refreshSettings(); // The parameters may have been changed by MediaRecorder upon starting // recording. We need to alter the parameters if we support camcorder // zoom. To reduce latency when setting the parameters during zoom, we // update the settings here once. mCameraSettings = mCameraDevice.getSettings(); mMediaRecorderRecording = true; mActivity.lockOrientation(); mRecordingStartTime = SystemClock.uptimeMillis(); // A special case of mode options closing: during capture it should // not be possible to change mode state. mAppController.getCameraAppUI().hideModeOptions(); mAppController.getCameraAppUI().animateBottomBarToVideoStop(R.drawable.ic_stop); mUI.showRecordingUI(true); setFocusParameters(); updateRecordingTime(); mActivity.enableKeepScreenOn(true); } } }); } private Bitmap getVideoThumbnail() { Bitmap bitmap = null; if (mVideoFileDescriptor != null) { bitmap = Thumbnail.createVideoThumbnailBitmap(mVideoFileDescriptor.getFileDescriptor(), mDesiredPreviewWidth); } else if (mCurrentVideoUri != null) { try { mVideoFileDescriptor = mContentResolver.openFileDescriptor(mCurrentVideoUri, "r"); bitmap = Thumbnail.createVideoThumbnailBitmap( mVideoFileDescriptor.getFileDescriptor(), mDesiredPreviewWidth); } catch (java.io.FileNotFoundException ex) { // invalid uri Log.e(TAG, ex.toString()); } } if (bitmap != null) { // MetadataRetriever already rotates the thumbnail. We should rotate // it to match the UI orientation (and mirror if it is front-facing camera). bitmap = CameraUtil.rotateAndMirror(bitmap, 0, isCameraFrontFacing()); } return bitmap; } private void showCaptureResult() { mIsInReviewMode = true; Bitmap bitmap = getVideoThumbnail(); if (bitmap != null) { mUI.showReviewImage(bitmap); } mUI.showReviewControls(); } private boolean stopVideoRecording() { // Do nothing if camera device is still capturing photo. Monkey test can trigger app crashes // (b/17313985) without this check. Crash could also be reproduced by continuously tapping // on shutter button and preview with two fingers. if (mSnapshotInProgress) { Log.v(TAG, "Skip stopVideoRecording since snapshot in progress"); return true; } Log.v(TAG, "stopVideoRecording"); mUI.setSwipingEnabled(true); mUI.showFocusUI(true); mUI.showVideoRecordingHints(true); boolean fail = false; if (mMediaRecorderRecording) { boolean shouldAddToMediaStoreNow = false; try { mMediaRecorder.setOnErrorListener(null); mMediaRecorder.setOnInfoListener(null); mMediaRecorder.stop(); shouldAddToMediaStoreNow = true; mCurrentVideoFilename = mVideoFilename; Log.v(TAG, "stopVideoRecording: current video filename: " + mCurrentVideoFilename); } catch (RuntimeException e) { Log.e(TAG, "stop fail", e); if (mVideoFilename != null) { deleteVideoFile(mVideoFilename); } fail = true; } mMediaRecorderRecording = false; mActivity.unlockOrientation(); // If the activity is paused, this means activity is interrupted // during recording. Release the camera as soon as possible because // face unlock or other applications may need to use the camera. if (mPaused) { // b/16300704: Monkey is fast so it could pause the module while recording. // stopPreview should definitely be called before switching off. stopPreview(); closeCamera(); } mUI.showRecordingUI(false); // The orientation was fixed during video recording. Now make it // reflect the device orientation as video recording is stopped. mUI.setOrientationIndicator(0, true); mActivity.enableKeepScreenOn(false); if (shouldAddToMediaStoreNow && !fail) { if (mVideoFileDescriptor == null) { saveVideo(); } else if (mIsVideoCaptureIntent) { // if no file save is needed, we can show the post capture UI now showCaptureResult(); } } } // release media recorder releaseMediaRecorder(); mAppController.getCameraAppUI().showModeOptions(); mAppController.getCameraAppUI().animateBottomBarToFullSize(mShutterIconId); if (!mPaused && mCameraDevice != null) { setFocusParameters(); mCameraDevice.lock(); if (!ApiHelper.HAS_SURFACE_TEXTURE_RECORDING) { stopPreview(); // Switch back to use SurfaceTexture for preview. startPreview(); } // Update the parameters here because the parameters might have been altered // by MediaRecorder. mCameraSettings = mCameraDevice.getSettings(); } // Check this in advance of each shot so we don't add to shutter // latency. It's true that someone else could write to the SD card // in the mean time and fill it, but that could have happened // between the shutter press and saving the file too. mActivity.updateStorageSpaceAndHint(null); return fail; } private static String millisecondToTimeString(long milliSeconds, boolean displayCentiSeconds) { long seconds = milliSeconds / 1000; // round down to compute seconds long minutes = seconds / 60; long hours = minutes / 60; long remainderMinutes = minutes - (hours * 60); long remainderSeconds = seconds - (minutes * 60); StringBuilder timeStringBuilder = new StringBuilder(); // Hours if (hours > 0) { if (hours < 10) { timeStringBuilder.append('0'); } timeStringBuilder.append(hours); timeStringBuilder.append(':'); } // Minutes if (remainderMinutes < 10) { timeStringBuilder.append('0'); } timeStringBuilder.append(remainderMinutes); timeStringBuilder.append(':'); // Seconds if (remainderSeconds < 10) { timeStringBuilder.append('0'); } timeStringBuilder.append(remainderSeconds); // Centi seconds if (displayCentiSeconds) { timeStringBuilder.append('.'); long remainderCentiSeconds = (milliSeconds - seconds * 1000) / 10; if (remainderCentiSeconds < 10) { timeStringBuilder.append('0'); } timeStringBuilder.append(remainderCentiSeconds); } return timeStringBuilder.toString(); } private void updateRecordingTime() { if (!mMediaRecorderRecording) { return; } long now = SystemClock.uptimeMillis(); long delta = now - mRecordingStartTime; // Starting a minute before reaching the max duration // limit, we'll countdown the remaining time instead. boolean countdownRemainingTime = (mMaxVideoDurationInMs != 0 && delta >= mMaxVideoDurationInMs - 60000); long deltaAdjusted = delta; if (countdownRemainingTime) { deltaAdjusted = Math.max(0, mMaxVideoDurationInMs - deltaAdjusted) + 999; } String text; long targetNextUpdateDelay; text = millisecondToTimeString(deltaAdjusted, false); targetNextUpdateDelay = 1000; mUI.setRecordingTime(text); if (mRecordingTimeCountsDown != countdownRemainingTime) { // Avoid setting the color on every update, do it only // when it needs changing. mRecordingTimeCountsDown = countdownRemainingTime; int color = mActivity.getResources().getColor(R.color.recording_time_remaining_text); mUI.setRecordingTimeTextColor(color); } long actualNextUpdateDelay = targetNextUpdateDelay - (delta % targetNextUpdateDelay); mHandler.sendEmptyMessageDelayed(MSG_UPDATE_RECORD_TIME, actualNextUpdateDelay); } private static boolean isSupported(String value, List supported) { return supported == null ? false : supported.indexOf(value) >= 0; } @SuppressWarnings("deprecation") private void setCameraParameters() { SettingsManager settingsManager = mActivity.getSettingsManager(); mCameraSettings.setPreviewSize(new Size(mDesiredPreviewWidth, mDesiredPreviewHeight)); // This is required for Samsung SGH-I337 and probably other Samsung S4 versions if (Build.BRAND.toLowerCase().contains("samsung")) { mCameraSettings.setSetting("video-size", mProfile.videoFrameWidth + "x" + mProfile.videoFrameHeight); } int[] fpsRange = CameraUtil.getMaxPreviewFpsRange(mCameraCapabilities.getSupportedPreviewFpsRange()); if (fpsRange.length > 0) { mCameraSettings.setPreviewFpsRange(fpsRange[0], fpsRange[1]); } else { mCameraSettings.setPreviewFrameRate(mProfile.videoFrameRate); } enableTorchMode(Keys.isCameraBackFacing(settingsManager, mAppController.getModuleScope())); // Set zoom. if (mCameraCapabilities.supports(CameraCapabilities.Feature.ZOOM)) { mCameraSettings.setZoomRatio(mZoomValue); } updateFocusParameters(); mCameraSettings.setRecordingHintEnabled(true); if (mCameraCapabilities.supports(CameraCapabilities.Feature.VIDEO_STABILIZATION)) { mCameraSettings.setVideoStabilization(true); } // Set picture size. // The logic here is different from the logic in still-mode camera. // There we determine the preview size based on the picture size, but // here we determine the picture size based on the preview size. List supported = mCameraCapabilities.getSupportedPhotoSizes(); Size optimalSize = CameraUtil.getOptimalVideoSnapshotPictureSize(supported, (double) mDesiredPreviewWidth / mDesiredPreviewHeight); Size original = new Size(mCameraSettings.getCurrentPhotoSize()); if (!original.equals(optimalSize)) { mCameraSettings.setPhotoSize(optimalSize); } Log.d(TAG, "Video snapshot size is " + optimalSize); // Set JPEG quality. int jpegQuality = CameraProfile.getJpegEncodingQualityParameter(mCameraId, CameraProfile.QUALITY_HIGH); mCameraSettings.setPhotoJpegCompressionQuality(jpegQuality); if (mCameraDevice != null) { mCameraDevice.applySettings(mCameraSettings); // Nexus 5 through KitKat 4.4.2 requires a second call to // .setParameters() for frame rate settings to take effect. mCameraDevice.applySettings(mCameraSettings); } // Update UI based on the new parameters. mUI.updateOnScreenIndicators(mCameraSettings); } private void updateFocusParameters() { // Set continuous autofocus. During recording, we use "continuous-video" // auto focus mode to ensure smooth focusing. Whereas during preview (i.e. // before recording starts) we use "continuous-picture" auto focus mode // for faster but slightly jittery focusing. Set supportedFocus = mCameraCapabilities .getSupportedFocusModes(); if (mMediaRecorderRecording) { if (mCameraCapabilities.supports(CameraCapabilities.FocusMode.CONTINUOUS_VIDEO)) { mCameraSettings.setFocusMode(CameraCapabilities.FocusMode.CONTINUOUS_VIDEO); mFocusManager.overrideFocusMode(CameraCapabilities.FocusMode.CONTINUOUS_VIDEO); } else { mFocusManager.overrideFocusMode(null); } } else { // FIXME(b/16984793): This is broken. For some reasons, CONTINUOUS_PICTURE is not on // when preview starts. mFocusManager.overrideFocusMode(null); if (mCameraCapabilities.supports(CameraCapabilities.FocusMode.CONTINUOUS_PICTURE)) { mCameraSettings.setFocusMode( mFocusManager.getFocusMode(mCameraSettings.getCurrentFocusMode())); if (mFocusAreaSupported) { mCameraSettings.setFocusAreas(mFocusManager.getFocusAreas()); } } } updateAutoFocusMoveCallback(); } @Override public void resume() { if (isVideoCaptureIntent()) { mDontResetIntentUiOnResume = mPaused; } mPaused = false; installIntentFilter(); mAppController.setShutterEnabled(false); mZoomValue = 1.0f; showVideoSnapshotUI(false); if (!mPreviewing) { requestCamera(mCameraId); } else { // preview already started mAppController.setShutterEnabled(true); } if (mFocusManager != null) { // If camera is not open when resume is called, focus manager will not // be initialized yet, in which case it will start listening to // preview area size change later in the initialization. mAppController.addPreviewAreaSizeChangedListener(mFocusManager); } if (mPreviewing) { mOnResumeTime = SystemClock.uptimeMillis(); mHandler.sendEmptyMessageDelayed(MSG_CHECK_DISPLAY_ROTATION, 100); } getServices().getMemoryManager().addListener(this); } @Override public void pause() { mPaused = true; if (mFocusManager != null) { // If camera is not open when resume is called, focus manager will not // be initialized yet, in which case it will start listening to // preview area size change later in the initialization. mAppController.removePreviewAreaSizeChangedListener(mFocusManager); mFocusManager.removeMessages(); } if (mMediaRecorderRecording) { // Camera will be released in onStopVideoRecording. onStopVideoRecording(); } else { stopPreview(); closeCamera(); releaseMediaRecorder(); } closeVideoFileDescriptor(); if (mReceiver != null) { mActivity.unregisterReceiver(mReceiver); mReceiver = null; } mHandler.removeMessages(MSG_CHECK_DISPLAY_ROTATION); mHandler.removeMessages(MSG_SWITCH_CAMERA); mHandler.removeMessages(MSG_SWITCH_CAMERA_START_ANIMATION); mPendingSwitchCameraId = -1; mSwitchingCamera = false; mPreferenceRead = false; getServices().getMemoryManager().removeListener(this); mUI.onPause(); } @Override public void destroy() { } @Override public void onLayoutOrientationChanged(boolean isLandscape) { setDisplayOrientation(); } // TODO: integrate this into the SettingsManager listeners. public void onSharedPreferenceChanged() { } private void switchCamera() { if (mPaused) { return; } SettingsManager settingsManager = mActivity.getSettingsManager(); Log.d(TAG, "Start to switch camera."); mCameraId = mPendingSwitchCameraId; mPendingSwitchCameraId = -1; settingsManager.set(mAppController.getModuleScope(), Keys.KEY_CAMERA_ID, mCameraId); if (mFocusManager != null) { mFocusManager.removeMessages(); } closeCamera(); requestCamera(mCameraId); mMirror = isCameraFrontFacing(); if (mFocusManager != null) { mFocusManager.setMirror(mMirror); } // From onResume mZoomValue = 1.0f; mUI.setOrientationIndicator(0, false); // Start switch camera animation. Post a message because // onFrameAvailable from the old camera may already exist. mHandler.sendEmptyMessage(MSG_SWITCH_CAMERA_START_ANIMATION); mUI.updateOnScreenIndicators(mCameraSettings); } private void initializeVideoSnapshot() { if (mCameraSettings == null) { return; } } void showVideoSnapshotUI(boolean enabled) { if (mCameraSettings == null) { return; } if (mCameraCapabilities.supports(CameraCapabilities.Feature.VIDEO_SNAPSHOT) && !mIsVideoCaptureIntent) { if (enabled) { mUI.animateFlash(); } else { mUI.showPreviewBorder(enabled); } mAppController.setShutterEnabled(!enabled); } } /** * Used to update the flash mode. Video mode can turn on the flash as torch * mode, which we would like to turn on and off when we switching in and * out to the preview. * * @param enable Whether torch mode can be enabled. */ private void enableTorchMode(boolean enable) { if (mCameraSettings.getCurrentFlashMode() == null) { return; } SettingsManager settingsManager = mActivity.getSettingsManager(); CameraCapabilities.Stringifier stringifier = mCameraCapabilities.getStringifier(); CameraCapabilities.FlashMode flashMode; if (enable) { flashMode = stringifier .flashModeFromString(settingsManager.getString(mAppController.getCameraScope(), Keys.KEY_VIDEOCAMERA_FLASH_MODE)); } else { flashMode = CameraCapabilities.FlashMode.OFF; } if (mCameraCapabilities.supports(flashMode)) { mCameraSettings.setFlashMode(flashMode); } /* TODO: Find out how to deal with the following code piece: else { flashMode = mCameraSettings.getCurrentFlashMode(); if (flashMode == null) { flashMode = mActivity.getString( R.string.pref_camera_flashmode_no_flash); mParameters.setFlashMode(flashMode); } }*/ if (mCameraDevice != null) { mCameraDevice.applySettings(mCameraSettings); } mUI.updateOnScreenIndicators(mCameraSettings); } @Override public void onPreviewVisibilityChanged(int visibility) { if (mPreviewing) { enableTorchMode(visibility == ModuleController.VISIBILITY_VISIBLE); } } private final class JpegPictureCallback implements CameraPictureCallback { Location mLocation; public JpegPictureCallback(Location loc) { mLocation = loc; } @Override public void onPictureTaken(byte [] jpegData, CameraProxy camera) { Log.i(TAG, "Video snapshot taken."); mSnapshotInProgress = false; showVideoSnapshotUI(false); storeImage(jpegData, mLocation); } } private void storeImage(final byte[] data, Location loc) { long dateTaken = System.currentTimeMillis(); String title = CameraUtil.createJpegName(dateTaken); ExifInterface exif = Exif.getExif(data); int orientation = Exif.getOrientation(exif); String flashSetting = mActivity.getSettingsManager() .getString(mAppController.getCameraScope(), Keys.KEY_VIDEOCAMERA_FLASH_MODE); Boolean gridLinesOn = Keys.areGridLinesOn(mActivity.getSettingsManager()); UsageStatistics.instance().photoCaptureDoneEvent( eventprotos.NavigationChange.Mode.VIDEO_STILL, title + ".jpeg", exif, isCameraFrontFacing(), false, currentZoomValue(), flashSetting, gridLinesOn, null, null, null); getServices().getMediaSaver().addImage( data, title, dateTaken, loc, orientation, exif, mOnPhotoSavedListener, mContentResolver); } private String convertOutputFormatToMimeType(int outputFileFormat) { if (outputFileFormat == MediaRecorder.OutputFormat.MPEG_4) { return "video/mp4"; } return "video/3gpp"; } private String convertOutputFormatToFileExt(int outputFileFormat) { if (outputFileFormat == MediaRecorder.OutputFormat.MPEG_4) { return ".mp4"; } return ".3gp"; } private void closeVideoFileDescriptor() { if (mVideoFileDescriptor != null) { try { mVideoFileDescriptor.close(); } catch (IOException e) { Log.e(TAG, "Fail to close fd", e); } mVideoFileDescriptor = null; } } @Override public void onPreviewUIReady() { startPreview(); } @Override public void onPreviewUIDestroyed() { stopPreview(); } @Override public void startPreCaptureAnimation() { mAppController.startPreCaptureAnimation(); } private void requestCamera(int id) { mActivity.getCameraProvider().requestCamera(id); } @Override public void onMemoryStateChanged(int state) { mAppController.setShutterEnabled(state == MemoryManager.STATE_OK); } @Override public void onLowMemory() { // Not much we can do in the video module. } /***********************FocusOverlayManager Listener****************************/ @Override public void autoFocus() { if (mCameraDevice != null) { mCameraDevice.autoFocus(mHandler, mAutoFocusCallback); } } @Override public void cancelAutoFocus() { if (mCameraDevice != null) { mCameraDevice.cancelAutoFocus(); setFocusParameters(); } } @Override public boolean capture() { return false; } @Override public void startFaceDetection() { } @Override public void stopFaceDetection() { } @Override public void setFocusParameters() { if (mCameraDevice != null) { updateFocusParameters(); mCameraDevice.applySettings(mCameraSettings); } } }