package com.mrousavy.camera import android.Manifest import android.content.Context import android.content.pm.PackageManager import android.hardware.camera2.CameraCharacteristics import android.hardware.camera2.CameraManager import android.media.ImageReader import android.media.MediaRecorder import android.os.Build import android.util.Log import androidx.camera.core.CameraSelector import androidx.camera.core.ImageCapture import androidx.camera.extensions.HdrImageCaptureExtender import androidx.camera.extensions.NightImageCaptureExtender import androidx.core.content.ContextCompat import com.mrousavy.camera.parsers.* import com.mrousavy.camera.utils.* import com.facebook.react.bridge.* import com.facebook.react.modules.core.PermissionAwareActivity import com.facebook.react.modules.core.PermissionListener import kotlinx.coroutines.Dispatchers import kotlinx.coroutines.GlobalScope import kotlinx.coroutines.launch class CameraViewModule(reactContext: ReactApplicationContext) : ReactContextBaseJavaModule(reactContext) { companion object { const val REACT_CLASS = "CameraView" var RequestCode = 10 fun parsePermissionStatus(status: Int): String { return when(status) { PackageManager.PERMISSION_DENIED -> "denied" PackageManager.PERMISSION_GRANTED -> "authorized" else -> "not-determined" } } } override fun getName(): String { return REACT_CLASS } private fun findCameraView(id: Int): CameraView = reactApplicationContext.currentActivity?.findViewById(id) ?: throw ViewNotFoundError(id) @ReactMethod fun takePhoto(viewTag: Int, options: ReadableMap, promise: Promise) { GlobalScope.launch(Dispatchers.Main) { withPromise(promise) { val view = findCameraView(viewTag) view.takePhoto(options) } } } @ReactMethod fun takeSnapshot(viewTag: Int, options: ReadableMap, promise: Promise) { GlobalScope.launch(Dispatchers.Main) { withPromise(promise) { val view = findCameraView(viewTag) view.takeSnapshot(options) } } } // TODO: startRecording() cannot be awaited, because I can't have a Promise and a onRecordedCallback in the same function. Hopefully TurboModules allows that @ReactMethod(isBlockingSynchronousMethod = true) fun startRecording(viewTag: Int, options: ReadableMap, onRecordCallback: Callback) { GlobalScope.launch(Dispatchers.Main) { val view = findCameraView(viewTag) view.startRecording(options, onRecordCallback) } } @ReactMethod fun stopRecording(viewTag: Int, promise: Promise) { withPromise(promise) { val view = findCameraView(viewTag) view.stopRecording() return@withPromise null } } @ReactMethod fun focus(viewTag: Int, point: ReadableMap, promise: Promise) { GlobalScope.launch(Dispatchers.Main) { withPromise(promise) { val view = findCameraView(viewTag) view.focus(point) return@withPromise null } } } @ReactMethod fun getAvailableVideoCodecs(viewTag: Int, promise: Promise) { withPromise(promise) { val view = findCameraView(viewTag) view.getAvailableVideoCodecs() } } @ReactMethod fun getAvailablePhotoCodecs(viewTag: Int, promise: Promise) { withPromise(promise) { val view = findCameraView(viewTag) view.getAvailablePhotoCodecs() } } // TODO: This uses the Camera2 API to list all characteristics of a camera device and therefore doesn't work with Camera1. Find a way to use CameraX for this @ReactMethod fun getAvailableCameraDevices(promise: Promise) { withPromise(promise) { val manager = reactApplicationContext.getSystemService(Context.CAMERA_SERVICE) as? CameraManager ?: throw CameraManagerUnavailableError() val cameraDevices: WritableArray = Arguments.createArray() manager.cameraIdList.forEach loop@{ id -> val cameraSelector = CameraSelector.Builder().byID(id).build() // TODO: ImageCapture.Builder - I'm not setting the target resolution, does that matter? val imageCaptureBuilder = ImageCapture.Builder() val characteristics = manager.getCameraCharacteristics(id) val capabilities = characteristics.get(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES)!! // Check if the device is actually a "basic camera" (i.e. filter out depth-only sensors) if (!capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_BACKWARD_COMPATIBLE)) { Log.d(REACT_CLASS, "Skipping Camera #${id} because it does not support backward compatible capabilities..") return@loop } val isMultiCam = Build.VERSION.SDK_INT >= Build.VERSION_CODES.P && capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_LOGICAL_MULTI_CAMERA) val deviceTypes = characteristics.getDeviceTypes() val cameraConfig = characteristics.get(CameraCharacteristics.SCALER_STREAM_CONFIGURATION_MAP)!! val lensFacing = characteristics.get(CameraCharacteristics.LENS_FACING)!! val hasFlash = characteristics.get(CameraCharacteristics.FLASH_INFO_AVAILABLE)!! val maxScalerZoom = characteristics.get(CameraCharacteristics.SCALER_AVAILABLE_MAX_DIGITAL_ZOOM)!! val supportsDepthCapture = Build.VERSION.SDK_INT >= Build.VERSION_CODES.M && capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_DEPTH_OUTPUT) val supportsRawCapture = capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_RAW) val isoRange = characteristics.get(CameraCharacteristics.SENSOR_INFO_SENSITIVITY_RANGE) val stabilizationModes = characteristics.get(CameraCharacteristics.CONTROL_AVAILABLE_VIDEO_STABILIZATION_MODES)!! // only digital, no optical val zoomRange = if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.R) characteristics.get(CameraCharacteristics.CONTROL_ZOOM_RATIO_RANGE) else null val name = if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.P) characteristics.get(CameraCharacteristics.INFO_VERSION) else null val fpsRanges = characteristics.get(CameraCharacteristics.CONTROL_AE_AVAILABLE_TARGET_FPS_RANGES)!! var supportsHdr = false var supportsLowLightBoost = false try { val hdrExtension = HdrImageCaptureExtender.create(imageCaptureBuilder) supportsHdr = hdrExtension.isExtensionAvailable(cameraSelector) val nightExtension = NightImageCaptureExtender.create(imageCaptureBuilder) supportsLowLightBoost = nightExtension.isExtensionAvailable(cameraSelector) } catch (e: Throwable) { // error on checking availability. falls back to "false" Log.e(REACT_CLASS, "Failed to check HDR/Night Mode extension availability.", e) } val fieldOfView = characteristics.getFieldOfView() val map = Arguments.createMap() val formats = Arguments.createArray() map.putString("id", id) map.putArray("devices", deviceTypes) map.putString("position", parseLensFacing(lensFacing)) map.putString("name", name ?: "${parseLensFacing(lensFacing)} ($id)") map.putBoolean("hasFlash", hasFlash) map.putBoolean("hasTorch", hasFlash) map.putBoolean("isMultiCam", isMultiCam) map.putBoolean("supportsRawCapture", supportsRawCapture) map.putBoolean("supportsDepthCapture", supportsDepthCapture) map.putBoolean("supportsLowLightBoost", supportsLowLightBoost) if (zoomRange != null) { map.putDouble("minZoom", zoomRange.lower.toDouble()) map.putDouble("maxZoom", zoomRange.upper.toDouble()) } else { map.putDouble("minZoom", 1.0) map.putDouble("maxZoom", maxScalerZoom.toDouble()) } map.putDouble("neutralZoom", characteristics.neutralZoomPercent.toDouble()) val maxImageOutputSize = cameraConfig.getOutputSizes(ImageReader::class.java).maxByOrNull { it.width * it.height }!! // TODO: Should I really check MediaRecorder::class instead of SurfaceView::class? // Recording should always be done in the most efficient format, which is the format native to the camera framework cameraConfig.getOutputSizes(MediaRecorder::class.java).forEach { size -> val isHighestPhotoQualitySupported = areUltimatelyEqual(size, maxImageOutputSize) // Get the number of seconds that each frame will take to process val secondsPerFrame = cameraConfig.getOutputMinFrameDuration(MediaRecorder::class.java, size) / 1_000_000_000.0 val frameRateRanges = Arguments.createArray() if (secondsPerFrame > 0) { val fps = (1.0 / secondsPerFrame).toInt() val frameRateRange = Arguments.createMap() frameRateRange.putInt("minFrameRate", 1) frameRateRange.putInt("maxFrameRate", fps) frameRateRanges.pushMap(frameRateRange) } fpsRanges.forEach { range -> val frameRateRange = Arguments.createMap() frameRateRange.putInt("minFrameRate", range.lower) frameRateRange.putInt("maxFrameRate", range.upper) frameRateRanges.pushMap(frameRateRange) } // TODO Revisit getAvailableCameraDevices (colorSpaces, more than YUV?) val colorSpaces = Arguments.createArray() colorSpaces.pushString("yuv") // TODO Revisit getAvailableCameraDevices (more accurate video stabilization modes) val videoStabilizationModes = Arguments.createArray() if (stabilizationModes.contains(CameraCharacteristics.CONTROL_VIDEO_STABILIZATION_MODE_OFF)) videoStabilizationModes.pushString("off") if (stabilizationModes.contains(CameraCharacteristics.CONTROL_VIDEO_STABILIZATION_MODE_ON)) { videoStabilizationModes.pushString("auto") videoStabilizationModes.pushString("standard") } val format = Arguments.createMap() format.putDouble("photoHeight", size.height.toDouble()) format.putDouble("photoWidth", size.width.toDouble()) format.putDouble("videoHeight", size.height.toDouble()) // TODO: Revisit getAvailableCameraDevices (videoHeight == photoHeight?) format.putDouble("videoWidth", size.width.toDouble()) // TODO: Revisit getAvailableCameraDevices (videoWidth == photoWidth?) format.putBoolean("isHighestPhotoQualitySupported", isHighestPhotoQualitySupported) format.putInt("maxISO", isoRange?.upper) format.putInt("minISO", isoRange?.lower) format.putDouble("fieldOfView", fieldOfView) // TODO: Revisit getAvailableCameraDevices (is fieldOfView accurate?) format.putDouble("maxZoom", (zoomRange?.upper ?: maxScalerZoom).toDouble()) format.putArray("colorSpaces", colorSpaces) format.putBoolean("supportsVideoHDR", false) // TODO: supportsVideoHDR format.putBoolean("supportsPhotoHDR", supportsHdr) format.putArray("frameRateRanges", frameRateRanges) format.putString("autoFocusSystem", "none") // TODO: Revisit getAvailableCameraDevices (autoFocusSystem) (CameraCharacteristics.CONTROL_AF_AVAILABLE_MODES or CameraCharacteristics.LENS_INFO_FOCUS_DISTANCE_CALIBRATION) format.putArray("videoStabilizationModes", videoStabilizationModes) formats.pushMap(format) } map.putArray("formats", formats) cameraDevices.pushMap(map) } return@withPromise cameraDevices } } @ReactMethod fun getCameraPermissionStatus(promise: Promise) { val status = ContextCompat.checkSelfPermission(reactApplicationContext, Manifest.permission.CAMERA) promise.resolve(parsePermissionStatus(status)) } @ReactMethod fun getMicrophonePermissionStatus(promise: Promise) { val status = ContextCompat.checkSelfPermission(reactApplicationContext, Manifest.permission.RECORD_AUDIO) promise.resolve(parsePermissionStatus(status)) } @ReactMethod fun requestCameraPermission(promise: Promise) { val activity = reactApplicationContext.currentActivity if (activity is PermissionAwareActivity) { val currentRequestCode = RequestCode RequestCode++ val listener = PermissionListener { requestCode: Int, _: Array, grantResults: IntArray -> if (requestCode == currentRequestCode) { val permissionStatus = grantResults[0] promise.resolve(parsePermissionStatus(permissionStatus)) return@PermissionListener true } return@PermissionListener false } activity.requestPermissions(arrayOf(Manifest.permission.CAMERA), currentRequestCode, listener) } else { promise.reject("NO_ACTIVITY", "No PermissionAwareActivity was found! Make sure the app has launched before calling this function.") } } @ReactMethod fun requestMicrophonePermission(promise: Promise) { val activity = reactApplicationContext.currentActivity if (activity is PermissionAwareActivity) { val currentRequestCode = RequestCode RequestCode++ val listener = PermissionListener { requestCode: Int, _: Array, grantResults: IntArray -> if (requestCode == currentRequestCode) { val permissionStatus = grantResults[0] promise.resolve(parsePermissionStatus(permissionStatus)) return@PermissionListener true } return@PermissionListener false } activity.requestPermissions(arrayOf(Manifest.permission.RECORD_AUDIO), currentRequestCode, listener) } else { promise.reject("NO_ACTIVITY", "No PermissionAwareActivity was found! Make sure the app has launched before calling this function.") } } }