Merge tag 'v3.9.2' into HEAD

Release 3.9.2
2024-07-23 13:10:44 -06:00 · 2024-07-23 13:10:44 -06:00 · 65021b895a
commit 65021b895a
parent b006b1e744 83168044a6
77 changed files with 2213 additions and 942 deletions
--- a/.github/workflows/build-android.yml
+++ b/.github/workflows/build-android.yml
@ -30,11 +30,11 @@ jobs:
    steps:
      - uses: actions/checkout@v4
-      - name: Setup JDK 11
+      - name: Setup JDK 17
        uses: actions/setup-java@v4
        with:
          distribution: 'zulu'
-          java-version: 11
+          java-version: 17
          java-package: jdk
      - name: Get yarn cache directory path
@ -74,11 +74,11 @@ jobs:
    steps:
      - uses: actions/checkout@v4
-      - name: Setup JDK 11
+      - name: Setup JDK 17
        uses: actions/setup-java@v4
        with:
          distribution: 'zulu'
-          java-version: 11
+          java-version: 17
          java-package: jdk
      - name: Get yarn cache directory path
--- a/.github/workflows/build-ios.yml
+++ b/.github/workflows/build-ios.yml
@ -54,7 +54,7 @@ jobs:
          working-directory: package/example/ios
      - name: Restore Pods cache
-        uses: actions/cache@v3
+        uses: actions/cache@v4
        with:
          path: package/example/ios/Pods
          key: ${{ runner.os }}-pods-${{ hashFiles('**/Podfile.lock') }}
@ -113,7 +113,7 @@ jobs:
          working-directory: package/example/ios
      - name: Restore Pods cache
-        uses: actions/cache@v3
+        uses: actions/cache@v4
        with:
          path: package/example/ios/Pods
          key: ${{ runner.os }}-pods-${{ hashFiles('**/Podfile.lock') }}
--- a/.github/workflows/compress-images.yml
+++ b/.github/workflows/compress-images.yml
@ -0,0 +1,33 @@
 name: Compress Images (docs)
 on:
  pull_request:
    # Run Image Actions when JPG, JPEG, PNG or WebP files are added or changed.
    # See https://help.github.com/en/actions/automating-your-workflow-with-github-actions/workflow-syntax-for-github-actions#onpushpull_requestpaths for reference.
    paths:
      - ".github/workflows/compress-images.yml"
      - "**.jpg"
      - "**.jpeg"
      - "**.png"
      - "**.webp"
 jobs:
  compress-images:
    # Only run on Pull Requests within the same repository, and not from forks.
    if: github.event.pull_request.head.repo.full_name == github.repository
    name: 🗂 Compress images
    runs-on: ubuntu-latest
    steps:
      - name: Checkout Repo
        uses: actions/checkout@v4
      - name: Compress Images
        uses: calibreapp/image-actions@main
        with:
          # The `GITHUB_TOKEN` is automatically generated by GitHub and scoped only to the repository that is currently running the action. By default, the action can’t update Pull Requests initiated from forked repositories.
          # See https://docs.github.com/en/actions/reference/authentication-in-a-workflow and https://help.github.com/en/articles/virtual-environments-for-github-actions#token-permissions
          githubToken: ${{ secrets.GITHUB_TOKEN }}
          ignorePaths: "e2e/**"
          jpegQuality: "80"
          jpegProgressive: false
          pngQuality: "80"
          webpQuality: "80"
--- a/README.md
+++ b/README.md
@ -47,6 +47,15 @@ cd ios && pod install
 To see VisionCamera in action, check out [ShadowLens](https://mrousavy.com/projects/shadowlens)!
 <div>
  <a href="https://apps.apple.com/app/shadowlens/id6471849004">
    <img height="40" src="docs/static/img/appstore.svg" />
  </a>
  <a href="https://play.google.com/store/apps/details?id=com.mrousavy.shadowlens">
    <img height="40" src="docs/static/img/googleplay.svg" />
  </a>
 </div>
 ### Example
 ```tsx
--- a/docs/docs/guides/CODE_SCANNING.mdx
+++ b/docs/docs/guides/CODE_SCANNING.mdx
@ -130,4 +130,23 @@ The Code Scanner will call your [`onCodeScanned`](/docs/api/interfaces/CodeScann
 <br />
 ## UPC-A vs EAN-13 codes
 UPC-A is a special case to handle if you need to cater for it. Android's SDK officially supports UPC-A but iOS does not, instead they handle the code as EAN-13. Since EAN-13 is a superset of UPC-A, with an extra 0 digit at the front.
 This means, the `upc-a` types are reported under the `ean-13` umbrella type on iOS:
 ```jsx
 const codeScanner = useCodeScanner({
  codeTypes: ['upc-a'], // <-- ✅ We configure for 'upc-a' types
  onCodeScanned: (codes) => {
    for (const code of codes) {
      console.log(code.type); // <-- ❌ On iOS, we receive 'ean-13'
    }
  }
 })
 ```
 You will need to keep this in mind and do the conversion from EAN-13 to UPC-A yourself. This can be done by removing the front `0` digit from the code to get a UPC-A code.
 #### 🚀 Next section: [Frame Processors](frame-processors)
--- a/docs/docs/guides/FORMATS.mdx
+++ b/docs/docs/guides/FORMATS.mdx
@ -34,12 +34,13 @@ To understand a bit more about camera formats, you first need to understand a fe
  * 4k Photos, 1080p Videos, 240 FPS (ultra high FPS/slow motion)
  * 720p Photos, 720p Videos, 30 FPS (smaller buffers/e.g. faster face detection)
 * Each app has different requirements, so the format filtering is up to you.
 * The `videoResolution` and `videoAspectRatio` options also affect the preview, as preview is also running in the video stream.
 To get all available formats, simply use the `CameraDevice`'s [`formats` property](/docs/api/interfaces/CameraDevice#formats).  These are a [CameraFormat's](/docs/api/interfaces/CameraDeviceFormat) props:
 - [`photoHeight`](/docs/api/interfaces/CameraDeviceFormat#photoheight)/[`photoWidth`](/docs/api/interfaces/CameraDeviceFormat#photoWidth): The resolution that will be used for taking photos. Choose a format with your desired resolution.
- [`videoHeight`](/docs/api/interfaces/CameraDeviceFormat#videoheight)/[`videoWidth`](/docs/api/interfaces/CameraDeviceFormat#videoWidth): The resolution that will be used for recording videos. Choose a format with your desired resolution.
+- [`videoHeight`](/docs/api/interfaces/CameraDeviceFormat#videoheight)/[`videoWidth`](/docs/api/interfaces/CameraDeviceFormat#videoWidth): The resolution that will be used for recording videos and streaming into frame processors. This also affects the preview's aspect ratio. Choose a format with your desired resolution.
- [`minFps`](/docs/api/interfaces/CameraDeviceFormat#minfps)/[`maxFps`](/docs/api/interfaces/CameraDeviceFormat#maxfps): A range of possible values for the `fps` property. For example, if your format has `minFps: 1` and `maxFps: 60`, you can either use `fps={30}`, `fps={60}` or any other value in between for recording videos.
+- [`minFps`](/docs/api/interfaces/CameraDeviceFormat#minfps)/[`maxFps`](/docs/api/interfaces/CameraDeviceFormat#maxfps): A range of possible values for the `fps` property. For example, if your format has `minFps: 1` and `maxFps: 60`, you can either use `fps={30}`, `fps={60}` or any other value in between for recording videos and streaming into frame processors.
 - [`videoStabilizationModes`](/docs/api/interfaces/CameraDeviceFormat#videostabilizationmodes): All supported Video Stabilization Modes, digital and optical. If this specific format contains your desired [`VideoStabilizationMode`](/docs/api/#videostabilizationmode), you can pass it to your `<Camera>` via the [`videoStabilizationMode` property](/docs/api/interfaces/CameraProps#videoStabilizationMode).
 - [`pixelFormats`](/docs/api/interfaces/CameraDeviceFormat#pixelformats): All supported Pixel Formats. If this specific format contains your desired [`PixelFormat`](/docs/api/#PixelFormat), you can pass it to your `<Camera>` via the [`pixelFormat` property](/docs/api/interfaces/CameraProps#pixelFormat).
 - [`supportsVideoHdr`](/docs/api/interfaces/CameraDeviceFormat#supportsvideohdr): Whether this specific format supports true 10-bit HDR for video capture. If this is `true`, you can enable `videoHdr` on your `<Camera>`.
@ -61,6 +62,7 @@ You can either find a matching format manually by looping through your `CameraDe
 ```ts
 const device = ...
 const format = useCameraFormat(device, [
  { videoAspectRatio: 16 / 9 },
  { videoResolution: { width: 3048, height: 2160 } },
  { fps: 60 }
 ])
@ -72,6 +74,7 @@ const format = useCameraFormat(device, [
 ```ts
 const device = ...
 const format = getCameraFormat(device, [
  { videoAspectRatio: 16 / 9 },
  { videoResolution: { width: 3048, height: 2160 } },
  { fps: 60 }
 ])
--- a/docs/docs/guides/FRAME_PROCESSORS.mdx
+++ b/docs/docs/guides/FRAME_PROCESSORS.mdx
@ -89,7 +89,8 @@ Additionally, you can also directly access the Frame's pixel data using [`toArra
 const frameProcessor = useFrameProcessor((frame) => {
  'worklet'
  if (frame.pixelFormat === 'rgb') {
-    const data = frame.toArrayBuffer()
+    const buffer = frame.toArrayBuffer()
    const data = new Uint8Array(buffer)
    console.log(`Pixel at 0,0: RGB(${data[0]}, ${data[1]}, ${data[2]})`)
  }
 }, [])
--- a/docs/docs/guides/FRAME_PROCESSOR_PLUGINS.mdx
+++ b/docs/docs/guides/FRAME_PROCESSOR_PLUGINS.mdx
@ -33,6 +33,7 @@ cd ios && pod install
 * [xulihang/**vision-camera-dynamsoft-barcode-reader**](https://github.com/xulihang/vision-camera-dynamsoft-barcode-reader): A plugin to read barcodes using Dynamsoft Barcode Reader.
 * [xulihang/**vision-camera-dynamsoft-label-recognizer**](https://github.com/xulihang/vision-camera-dynamsoft-label-recognizer): A plugin to recognize text on labels, MRZ passports, etc. using Dynamsoft Label Recognizer.
 * [tony-xlh/**vision-camera-dynamsoft-document-normalizer**](https://github.com/tony-xlh/vision-camera-dynamsoft-document-normalizer): A plugin to scan documents using Dynamsoft Document Normalizer with features like document border detection and perspective transformation.
 * [tony-xlh/**vision-camera-cropper**](https://github.com/tony-xlh/vision-camera-cropper): A plugin to crop frames and save frames to files or as base64.
 * [aarongrider/**vision-camera-ocr**](https://github.com/aarongrider/vision-camera-ocr): A plugin to detect text in real time using MLKit Text Detector (OCR).
 * [yasintorun/**vision-camera-base64**](https://github.com/yasintorun/vision-camera-base64): A plugin to convert a Frame to a base64 string.
@ -40,7 +41,7 @@ cd ios && pod install
 <!-- Add your Frame Processor Plugin here! -->
-
+* [nonam4/**react-native-vision-camera-face-detector**](https://github.com/nonam4/react-native-vision-camera-face-detector): A V3 frame processor plugin to detect faces using MLKit Vision Face Detector.
@ -50,7 +51,7 @@ cd ios && pod install
 <br />
 <p align="center">
 <b>
-<a href="https://github.com/mrousavy/react-native-vision-camera/edit/main/docs/docs/guides/FRAME_PROCESSOR_PLUGIN_LIST.mdx">Click here</a> to add your Frame Processor Plugin to this list!
+<a href="https://github.com/mrousavy/react-native-vision-camera/edit/main/docs/docs/guides/FRAME_PROCESSOR_PLUGINS.mdx">Click here</a> to add your Frame Processor Plugin to this list!
 </b>
 </p>
 <br />
--- a/docs/docs/guides/PERFORMANCE.mdx
+++ b/docs/docs/guides/PERFORMANCE.mdx
@ -70,6 +70,13 @@ Enable Buffer Compression ([`enableBufferCompression`](/docs/api/interfaces/Came
 Note: When not using a `frameProcessor`, buffer compression is automatically enabled.
 ### GPU buffers
 Enable GPU Buffer flags ([`enableGpuBuffers`](/docs/api/interfaces/CameraProps#enablegpubuffers)) to optimize the Video Pipeline for zero-copy buffer forwarding.
 If this is enabled, the Video Pipeline can avoid an additional CPU -> GPU copy, resulting in better performance and more efficiency.
 Note: This only takes effect when using a `frameProcessor`.
 ### Video Stabilization
 Video Stabilization requires additional overhead to start the algorithm, so disabling [`videoStabilizationMode`](/docs/api/interfaces/CameraProps#videostabilizationmode) can significantly speed up the Camera initialization time.
--- a/docs/docs/guides/SHADOW_LENS.mdx
+++ b/docs/docs/guides/SHADOW_LENS.mdx
@ -21,10 +21,10 @@ import useBaseUrl from '@docusaurus/useBaseUrl'
 **Download now:**
 <div style={{ display: 'flex', flexDirection: 'row', alignItems: 'center' }}>
-  <a href="https://apps.apple.com/at/app/shadowlens/id6471849004">
+  <a href="https://apps.apple.com/app/shadowlens/id6471849004">
    <img height={40} src={useBaseUrl("img/appstore.svg")} />
  </a>
  <a href="https://play.google.com/store/apps/details?id=com.mrousavy.shadowlens">
-    <img height={58} src={useBaseUrl("img/playstore.png")} />
+    <img height={40} src={useBaseUrl("img/googleplay.svg")} />
  </a>
 </div>
--- a/docs/docs/guides/TROUBLESHOOTING.mdx
+++ b/docs/docs/guides/TROUBLESHOOTING.mdx
@ -112,7 +112,7 @@ If you're experiencing build issues or runtime issues in VisionCamera, make sure
 2. If a camera device is not being returned by [`Camera.getAvailableCameraDevices()`](/docs/api/classes/Camera#getavailablecameradevices), make sure it is a Camera2 compatible device. See [this section in the Android docs](https://developer.android.com/reference/android/hardware/camera2/CameraDevice#reprocessing) for more information.
 3. If your Frame Processor is not running, make sure you check the native Android Studio/Logcat logs. There is useful information about the Frame Processor Runtime that will tell you if something goes wrong.
 4. If your Frame Processor is not running, make sure you are not using a remote JS debugger such as Google Chrome, since those don't work with JSI.
-5. If you are experiencing black-screens, try removing all properties such as `fps`, `videoHdr` or `format` on the `<Camera>` component except for the required ones:
+5. If you are experiencing black-screens, try removing all properties such as `fps`, `videoHdr`, `enableGpuBuffers` or `format` on the `<Camera>` component except for the required ones:
   ```tsx
   <Camera device={device} isActive={true} style={{ width: 500, height: 500 }} />
   ```
--- a/docs/docusaurus.config.js
+++ b/docs/docusaurus.config.js
@ -25,7 +25,7 @@ module.exports = {
    },
    announcementBar: {
      id: 'shadowlens',
-      content: '<b>ShadowLens is out!!! 🥳🥳</b> Download the iOS app to see VisionCamera in action: <a target="_blank" rel="noopener noreferrer" href="https://apps.apple.com/at/app/shadowlens/id6471849004?l=en-GB">apps.apple.com/shadowlens</a>',
+      content: '<b>ShadowLens is out!!! 🥳🥳</b> See VisionCamera in action: <a target="_blank" rel="noopener noreferrer" href="https://apps.apple.com/app/shadowlens/id6471849004">Download ShadowLens for iOS</a> or <a target="_blank" rel="noopener noreferrer" href="https://play.google.com/store/apps/details?id=com.mrousavy.shadowlens">Download ShadowLens for Android</a>',
      backgroundColor: '#e39600',
      textColor: '#ffffff',
      isCloseable: false,
--- a/docs/static/img/googleplay.svg
+++ b/docs/static/img/googleplay.svg
--- a/docs/static/img/playstore.png
+++ b/docs/static/img/playstore.png
--- a/package/android/build.gradle
+++ b/package/android/build.gradle
@ -46,6 +46,10 @@ def safeExtGet(prop, fallback) {
  rootProject.ext.has(prop) ? rootProject.ext.get(prop) : fallback
 }
 def safeExtGetBool(prop, fallback) {
  Boolean.parseBoolean("${safeExtGet(prop, fallback)}")
 }
 def reactNativeArchitectures() {
  def value = project.getProperties().get("reactNativeArchitectures")
  return value ? value.split(",") : ["armeabi-v7a", "x86", "x86_64", "arm64-v8a"]
@ -68,10 +72,10 @@ static def findNodeModules(baseDir) {
 def nodeModules = findNodeModules(projectDir)
-def hasWorklets = !safeExtGet("VisionCamera_disableFrameProcessors", false) && findProject(":react-native-worklets-core") != null
+def hasWorklets = !safeExtGetBool('VisionCamera_disableFrameProcessors', false) && findProject(":react-native-worklets-core") != null
 logger.warn("[VisionCamera] react-native-worklets-core ${hasWorklets ? "found" : "not found"}, Frame Processors ${hasWorklets ? "enabled" : "disabled"}!")
-def enableCodeScanner = safeExtGet("VisionCamera_enableCodeScanner", false)
+def enableCodeScanner = safeExtGetBool('VisionCamera_enableCodeScanner', false)
 repositories {
  google()
--- a/package/android/src/main/cpp/MutableJByteBuffer.cpp
+++ b/package/android/src/main/cpp/MutableJByteBuffer.cpp
@ -14,7 +14,7 @@ MutableJByteBuffer::MutableJByteBuffer(jni::alias_ref<jni::JByteBuffer> byteBuff
  _byteBuffer = jni::make_global(byteBuffer);
 }
-MutableJByteBuffer::~MutableJByteBuffer() noexcept {
+MutableJByteBuffer::~MutableJByteBuffer() {
  // Hermes GC might destroy HostObjects on an arbitrary Thread which might not be
  // connected to the JNI environment. To make sure fbjni can properly destroy
  // the Java method, we connect to a JNI environment first.
--- a/package/android/src/main/cpp/OpenGLRenderer.cpp
+++ b/package/android/src/main/cpp/OpenGLRenderer.cpp
@ -29,10 +29,11 @@ OpenGLRenderer::OpenGLRenderer(std::shared_ptr<OpenGLContext> context, ANativeWi
 }
 OpenGLRenderer::~OpenGLRenderer() {
  __android_log_print(ANDROID_LOG_INFO, TAG, "Destroying OpenGLRenderer...");
  destroy();
  if (_outputSurface != nullptr) {
    ANativeWindow_release(_outputSurface);
  }
  destroy();
 }
 void OpenGLRenderer::destroy() {
--- a/package/android/src/main/cpp/frameprocessor/java-bindings/JSharedArray.cpp
+++ b/package/android/src/main/cpp/frameprocessor/java-bindings/JSharedArray.cpp
@ -34,7 +34,7 @@ JSharedArray::JSharedArray(const jni::alias_ref<jhybridobject>& javaThis, const
 #else
  jsi::Runtime& runtime = *proxy->cthis()->getJSRuntime();
 #endif
-  __android_log_print(ANDROID_LOG_INFO, TAG, "Wrapping Java ByteBuffer with size %i...", byteBuffer->getDirectSize());
+  __android_log_print(ANDROID_LOG_INFO, TAG, "Wrapping Java ByteBuffer with size %zu...", byteBuffer->getDirectSize());
  _byteBuffer = jni::make_global(byteBuffer);
  _size = _byteBuffer->getDirectSize();
--- a/package/android/src/main/cpp/frameprocessor/java-bindings/JVisionCameraScheduler.cpp
+++ b/package/android/src/main/cpp/frameprocessor/java-bindings/JVisionCameraScheduler.cpp
@ -15,6 +15,7 @@ TSelf JVisionCameraScheduler::initHybrid(jni::alias_ref<jhybridobject> jThis) {
 }
 void JVisionCameraScheduler::dispatchAsync(const std::function<void()>& job) {
  std::unique_lock<std::mutex> lock(_mutex);
  // 1. add job to queue
  _jobs.push(job);
  scheduleTrigger();
--- a/package/android/src/main/java/com/mrousavy/camera/CameraView+Events.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/CameraView+Events.kt
@ -5,6 +5,8 @@ import com.facebook.react.bridge.Arguments
 import com.facebook.react.bridge.ReactContext
 import com.facebook.react.bridge.WritableMap
 import com.facebook.react.uimanager.events.RCTEventEmitter
 import com.facebook.react.uimanager.UIManagerHelper
 import com.facebook.react.uimanager.events.Event
 import com.google.mlkit.vision.barcode.common.Barcode
 import com.mrousavy.camera.core.CameraError
 import com.mrousavy.camera.core.CodeScannerFrame
@ -12,26 +14,30 @@ import com.mrousavy.camera.core.UnknownCameraError
 import com.mrousavy.camera.core.code
 import com.mrousavy.camera.types.CodeType
 import java.io.File
 import com.mrousavy.camera.types.*
 fun CameraView.invokeOnInitialized() {
  Log.i(CameraView.TAG, "invokeOnInitialized()")
-  val reactContext = context as ReactContext
+  val surfaceId = UIManagerHelper.getSurfaceId(this)
-  reactContext.getJSModule(RCTEventEmitter::class.java).receiveEvent(id, "cameraInitialized", null)
+  val event = CameraInitializedEvent(surfaceId, id)
  this.sendEvent(event)
 }
 fun CameraView.invokeOnStarted() {
  Log.i(CameraView.TAG, "invokeOnStarted()")
-  val reactContext = context as ReactContext
+  val surfaceId = UIManagerHelper.getSurfaceId(this)
-  reactContext.getJSModule(RCTEventEmitter::class.java).receiveEvent(id, "cameraStarted", null)
+  val event = CameraStartedEvent(surfaceId, id)
  this.sendEvent(event)
 }
 fun CameraView.invokeOnStopped() {
  Log.i(CameraView.TAG, "invokeOnStopped()")
-  val reactContext = context as ReactContext
+  val surfaceId = UIManagerHelper.getSurfaceId(this)
-  reactContext.getJSModule(RCTEventEmitter::class.java).receiveEvent(id, "cameraStopped", null)
+  val event = CameraStoppedEvent(surfaceId, id)
  this.sendEvent(event)
 }
 fun CameraView.invokeOnChunkReady(filepath: File, index: Int) {
@ -47,24 +53,27 @@ fun CameraView.invokeOnError(error: Throwable) {
  Log.e(CameraView.TAG, "invokeOnError(...):")
  error.printStackTrace()
-  val cameraError = when (error) {
+  val cameraError =
    when (error) {
      is CameraError -> error
      else -> UnknownCameraError(error)
    }
-  val event = Arguments.createMap()
+  val data = Arguments.createMap()
-  event.putString("code", cameraError.code)
+  data.putString("code", cameraError.code)
-  event.putString("message", cameraError.message)
+  data.putString("message", cameraError.message)
  cameraError.cause?.let { cause ->
-    event.putMap("cause", errorToMap(cause))
+    data.putMap("cause", errorToMap(cause))
  }
-  val reactContext = context as ReactContext
+
-  reactContext.getJSModule(RCTEventEmitter::class.java).receiveEvent(id, "cameraError", event)
+  val surfaceId = UIManagerHelper.getSurfaceId(this)
  val event = CameraErrorEvent(surfaceId, id, data)
  this.sendEvent(event)
 }
 fun CameraView.invokeOnViewReady() {
-  val event = Arguments.createMap()
+  val surfaceId = UIManagerHelper.getSurfaceId(this)
-  val reactContext = context as ReactContext
+  val event = CameraViewReadyEvent(surfaceId, id)
-  reactContext.getJSModule(RCTEventEmitter::class.java).receiveEvent(id, "cameraViewReady", event)
+  this.sendEvent(event)
 }
 fun CameraView.invokeOnCodeScanned(barcodes: List<Barcode>, scannerFrame: CodeScannerFrame) {
@ -97,14 +106,23 @@ fun CameraView.invokeOnCodeScanned(barcodes: List<Barcode>, scannerFrame: CodeSc
    codes.pushMap(code)
  }
-  val event = Arguments.createMap()
+  val data = Arguments.createMap()
-  event.putArray("codes", codes)
+  data.putArray("codes", codes)
  val codeScannerFrame = Arguments.createMap()
  codeScannerFrame.putInt("width", scannerFrame.width)
  codeScannerFrame.putInt("height", scannerFrame.height)
-  event.putMap("frame", codeScannerFrame)
+  data.putMap("frame", codeScannerFrame)
  val surfaceId = UIManagerHelper.getSurfaceId(this)
  val event = CameraCodeScannedEvent(surfaceId, id, data)
  this.sendEvent(event)
 }
 private fun CameraView.sendEvent(event: Event<*>) {
  val reactContext = context as ReactContext
-  reactContext.getJSModule(RCTEventEmitter::class.java).receiveEvent(id, "cameraCodeScanned", event)
+  val dispatcher =
    UIManagerHelper.getEventDispatcherForReactTag(reactContext, id)
  dispatcher?.dispatchEvent(event)
 }
 private fun errorToMap(error: Throwable): WritableMap {
--- a/package/android/src/main/java/com/mrousavy/camera/CameraView+TakePhoto.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/CameraView+TakePhoto.kt
@ -30,9 +30,12 @@ suspend fun CameraView.takePhoto(optionsMap: ReadableMap): WritableMap {
  val qualityPrioritization = options["qualityPrioritization"] as? String ?: "balanced"
  val flash = options["flash"] as? String ?: "off"
  val enableAutoRedEyeReduction = options["enableAutoRedEyeReduction"] == true
  val enableAutoStabilization = options["enableAutoStabilization"] == true
  val enableShutterSound = options["enableShutterSound"] as? Boolean ?: true
  val enablePrecapture = options["enablePrecapture"] as? Boolean ?: false
  // TODO: Implement Red Eye Reduction
  options["enableAutoRedEyeReduction"]
  val flashMode = Flash.fromUnionValue(flash)
  val qualityPrioritizationMode = QualityPrioritization.fromUnionValue(qualityPrioritization)
@ -41,8 +44,8 @@ suspend fun CameraView.takePhoto(optionsMap: ReadableMap): WritableMap {
    qualityPrioritizationMode,
    flashMode,
    enableShutterSound,
    enableAutoRedEyeReduction,
    enableAutoStabilization,
    enablePrecapture,
    orientation
  )
--- a/package/android/src/main/java/com/mrousavy/camera/CameraView.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/CameraView.kt
@ -4,9 +4,9 @@ import android.annotation.SuppressLint
 import android.content.Context
 import android.hardware.camera2.CameraManager
 import android.util.Log
 import android.view.Gravity
 import android.view.ScaleGestureDetector
 import android.widget.FrameLayout
 import com.facebook.react.bridge.ReadableMap
 import com.google.mlkit.vision.barcode.common.Barcode
 import com.mrousavy.camera.core.CameraConfiguration
 import com.mrousavy.camera.core.CameraQueues
@ -48,23 +48,23 @@ class CameraView(context: Context) :
  // props that require reconfiguring
  var cameraId: String? = null
  var enableDepthData = false
  var enableHighQualityPhotos: Boolean? = null
  var enablePortraitEffectsMatteDelivery = false
  // use-cases
-  var photo: Boolean? = null
+  var photo = false
-  var video: Boolean? = null
+  var video = false
-  var audio: Boolean? = null
+  var audio = false
  var enableFrameProcessor = false
  var pixelFormat: PixelFormat = PixelFormat.NATIVE
  // props that require format reconfiguring
-  var format: ReadableMap? = null
+  var format: CameraDeviceFormat? = null
  var fps: Int? = null
  var videoStabilizationMode: VideoStabilizationMode? = null
  var videoHdr = false
  var photoHdr = false
-  var lowLightBoost: Boolean? = null // nullable bool
+  var lowLightBoost = false
  var enableGpuBuffers = false
  // other props
  var isActive = false
@ -72,7 +72,7 @@ class CameraView(context: Context) :
  var zoom: Float = 1f // in "factor"
  var exposure: Double = 1.0
  var orientation: Orientation = Orientation.PORTRAIT
-  var enableZoomGesture: Boolean = false
+  var enableZoomGesture = false
    set(value) {
      field = value
      updateZoomGesture()
@ -82,7 +82,7 @@ class CameraView(context: Context) :
      previewView.resizeMode = value
      field = value
    }
-  var enableFpsGraph: Boolean = false
+  var enableFpsGraph = false
    set(value) {
      field = value
      updateFpsGraph()
@ -110,21 +110,26 @@ class CameraView(context: Context) :
    clipToOutline = true
    cameraSession = CameraSession(context, cameraManager, this)
    previewView = cameraSession.createPreviewView(context)
    previewView.layoutParams = LayoutParams(
      LayoutParams.MATCH_PARENT,
      LayoutParams.MATCH_PARENT,
      Gravity.CENTER
    )
    addView(previewView)
  }
  override fun onAttachedToWindow() {
    super.onAttachedToWindow()
    if (!isMounted) {
      isMounted = true
      invokeOnViewReady()
    }
    update()
    super.onAttachedToWindow()
  }
  override fun onDetachedFromWindow() {
    update()
    super.onDetachedFromWindow()
    update()
  }
  fun destroy() {
@ -149,19 +154,20 @@ class CameraView(context: Context) :
        config.cameraId = cameraId
        // Photo
-        if (photo == true) {
+        if (photo) {
          config.photo = CameraConfiguration.Output.Enabled.create(CameraConfiguration.Photo(photoHdr))
        } else {
          config.photo = CameraConfiguration.Output.Disabled.create()
        }
        // Video/Frame Processor
-        if (video == true || enableFrameProcessor) {
+        if (video || enableFrameProcessor) {
          config.video = CameraConfiguration.Output.Enabled.create(
            CameraConfiguration.Video(
              videoHdr,
              pixelFormat,
-              enableFrameProcessor
+              enableFrameProcessor,
              enableGpuBuffers
            )
          )
        } else {
@ -169,7 +175,7 @@ class CameraView(context: Context) :
        }
        // Audio
-        if (audio == true) {
+        if (audio) {
          config.audio = CameraConfiguration.Output.Enabled.create(CameraConfiguration.Audio(Unit))
        } else {
          config.audio = CameraConfiguration.Output.Disabled.create()
@ -189,12 +195,7 @@ class CameraView(context: Context) :
        config.orientation = orientation
        // Format
-        val format = format
+        config.format = format
        if (format != null) {
          config.format = CameraDeviceFormat.fromJSValue(format)
        } else {
          config.format = null
        }
        // Side-Props
        config.fps = fps
--- a/package/android/src/main/java/com/mrousavy/camera/CameraViewManager.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/CameraViewManager.kt
@ -5,6 +5,7 @@ import com.facebook.react.common.MapBuilder
 import com.facebook.react.uimanager.ThemedReactContext
 import com.facebook.react.uimanager.ViewGroupManager
 import com.facebook.react.uimanager.annotations.ReactProp
 import com.mrousavy.camera.types.CameraDeviceFormat
 import com.mrousavy.camera.types.CodeScannerOptions
 import com.mrousavy.camera.types.Orientation
 import com.mrousavy.camera.types.PixelFormat
@ -45,17 +46,17 @@ class CameraViewManager : ViewGroupManager<CameraView>() {
  }
  @ReactProp(name = "photo")
-  fun setPhoto(view: CameraView, photo: Boolean?) {
+  fun setPhoto(view: CameraView, photo: Boolean) {
    view.photo = photo
  }
  @ReactProp(name = "video")
-  fun setVideo(view: CameraView, video: Boolean?) {
+  fun setVideo(view: CameraView, video: Boolean) {
    view.video = video
  }
  @ReactProp(name = "audio")
-  fun setAudio(view: CameraView, audio: Boolean?) {
+  fun setAudio(view: CameraView, audio: Boolean) {
    view.audio = audio
  }
@ -66,8 +67,12 @@ class CameraViewManager : ViewGroupManager<CameraView>() {
  @ReactProp(name = "pixelFormat")
  fun setPixelFormat(view: CameraView, pixelFormat: String?) {
    if (pixelFormat != null) {
      val newPixelFormat = PixelFormat.fromUnionValue(pixelFormat)
      view.pixelFormat = newPixelFormat
    } else {
      view.pixelFormat = PixelFormat.NATIVE
    }
  }
  @ReactProp(name = "enableDepthData")
@ -85,15 +90,19 @@ class CameraViewManager : ViewGroupManager<CameraView>() {
    view.enableFpsGraph = enableFpsGraph
  }
-  @ReactProp(name = "videoStabilizationMode")
+  @ReactProp(name = "enableGpuBuffers")
-  fun setVideoStabilizationMode(view: CameraView, videoStabilizationMode: String?) {
+  fun setEnableGpuBuffers(view: CameraView, enableGpuBuffers: Boolean) {
-    val newMode = VideoStabilizationMode.fromUnionValue(videoStabilizationMode)
+    view.enableGpuBuffers = enableGpuBuffers
    view.videoStabilizationMode = newMode
  }
-  @ReactProp(name = "enableHighQualityPhotos")
+  @ReactProp(name = "videoStabilizationMode")
-  fun setEnableHighQualityPhotos(view: CameraView, enableHighQualityPhotos: Boolean?) {
+  fun setVideoStabilizationMode(view: CameraView, videoStabilizationMode: String?) {
-    view.enableHighQualityPhotos = enableHighQualityPhotos
+    if (videoStabilizationMode != null) {
      val newMode = VideoStabilizationMode.fromUnionValue(videoStabilizationMode)
      view.videoStabilizationMode = newMode
    } else {
      view.videoStabilizationMode = null
    }
  }
  @ReactProp(name = "enablePortraitEffectsMatteDelivery")
@ -103,13 +112,22 @@ class CameraViewManager : ViewGroupManager<CameraView>() {
  @ReactProp(name = "format")
  fun setFormat(view: CameraView, format: ReadableMap?) {
-    view.format = format
+    if (format != null) {
      val newFormat = CameraDeviceFormat.fromJSValue(format)
      view.format = newFormat
    } else {
      view.format = null
    }
  }
  @ReactProp(name = "resizeMode")
-  fun setResizeMode(view: CameraView, resizeMode: String) {
+  fun setResizeMode(view: CameraView, resizeMode: String?) {
    if (resizeMode != null) {
      val newMode = ResizeMode.fromUnionValue(resizeMode)
      view.resizeMode = newMode
    } else {
      view.resizeMode = ResizeMode.COVER
    }
  }
  // TODO: Change when TurboModules release.
@ -120,30 +138,34 @@ class CameraViewManager : ViewGroupManager<CameraView>() {
    view.fps = if (fps > 0) fps else null
  }
-  @ReactProp(name = "photoHdr", defaultBoolean = false)
+  @ReactProp(name = "photoHdr")
  fun setPhotoHdr(view: CameraView, photoHdr: Boolean) {
    view.photoHdr = photoHdr
  }
-  @ReactProp(name = "videoHdr", defaultBoolean = false)
+  @ReactProp(name = "videoHdr")
  fun setVideoHdr(view: CameraView, videoHdr: Boolean) {
    view.videoHdr = videoHdr
  }
  @ReactProp(name = "lowLightBoost")
-  fun setLowLightBoost(view: CameraView, lowLightBoost: Boolean?) {
+  fun setLowLightBoost(view: CameraView, lowLightBoost: Boolean) {
    view.lowLightBoost = lowLightBoost
  }
-  @ReactProp(name = "isActive", defaultBoolean = false)
+  @ReactProp(name = "isActive")
  fun setIsActive(view: CameraView, isActive: Boolean) {
    view.isActive = isActive
  }
  @ReactProp(name = "torch")
-  fun setTorch(view: CameraView, torch: String) {
+  fun setTorch(view: CameraView, torch: String?) {
    if (torch != null) {
      val newMode = Torch.fromUnionValue(torch)
      view.torch = newMode
    } else {
      view.torch = Torch.OFF
    }
  }
  @ReactProp(name = "zoom")
@ -158,14 +180,22 @@ class CameraViewManager : ViewGroupManager<CameraView>() {
  @ReactProp(name = "orientation")
  fun setOrientation(view: CameraView, orientation: String?) {
    if (orientation != null) {
      val newMode = Orientation.fromUnionValue(orientation)
      view.orientation = newMode
    } else {
      view.orientation = Orientation.PORTRAIT
    }
  }
  @ReactProp(name = "codeScannerOptions")
-  fun setCodeScanner(view: CameraView, codeScannerOptions: ReadableMap) {
+  fun setCodeScanner(view: CameraView, codeScannerOptions: ReadableMap?) {
-    val newCodeScannerOptions = CodeScannerOptions(codeScannerOptions)
+    if (codeScannerOptions != null) {
      val newCodeScannerOptions = CodeScannerOptions.fromJSValue(codeScannerOptions)
      view.codeScannerOptions = newCodeScannerOptions
    } else {
      view.codeScannerOptions = null
    }
  }
  companion object {
--- a/package/android/src/main/java/com/mrousavy/camera/core/CameraConfiguration.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/core/CameraConfiguration.kt
@ -44,7 +44,7 @@ data class CameraConfiguration(
  // Output<T> types, those need to be comparable
  data class CodeScanner(val codeTypes: List<CodeType>)
  data class Photo(val enableHdr: Boolean)
-  data class Video(val enableHdr: Boolean, val pixelFormat: PixelFormat, val enableFrameProcessor: Boolean)
+  data class Video(val enableHdr: Boolean, val pixelFormat: PixelFormat, val enableFrameProcessor: Boolean, val enableGpuBuffers: Boolean)
  data class Audio(val nothing: Unit)
  data class Preview(val surface: Surface)
@ -67,7 +67,7 @@ data class CameraConfiguration(
  }
  data class Difference(
-    // Input Camera (cameraId, isActive)
+    // Input Camera (cameraId)
    val deviceChanged: Boolean,
    // Outputs & Session (Photo, Video, CodeScanner, HDR, Format)
    val outputsChanged: Boolean,
@ -75,14 +75,17 @@ data class CameraConfiguration(
    val sidePropsChanged: Boolean,
    // (isActive) changed
    val isActiveChanged: Boolean
-  )
+  ) {
    val hasChanges: Boolean
      get() = deviceChanged || outputsChanged || sidePropsChanged || isActiveChanged
  }
  companion object {
    fun copyOf(other: CameraConfiguration?): CameraConfiguration = other?.copy() ?: CameraConfiguration()
    fun difference(left: CameraConfiguration?, right: CameraConfiguration): Difference {
      // input device
-      val deviceChanged = left?.cameraId != right.cameraId || left?.isActive != right.isActive
+      val deviceChanged = left?.cameraId != right.cameraId
      // outputs
      val outputsChanged = deviceChanged ||
@ -101,7 +104,7 @@ data class CameraConfiguration(
        left.videoStabilizationMode != right.videoStabilizationMode ||
        left.exposure != right.exposure
-      val isActiveChanged = left?.isActive != right.isActive
+      val isActiveChanged = sidePropsChanged || left?.isActive != right.isActive
      return Difference(
        deviceChanged,
--- a/package/android/src/main/java/com/mrousavy/camera/core/CameraDeviceDetails.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/core/CameraDeviceDetails.kt
@ -1,17 +1,24 @@
 package com.mrousavy.camera.core
 import android.content.res.Resources
 import android.graphics.ImageFormat
 import android.hardware.camera2.CameraCharacteristics
 import android.hardware.camera2.CameraExtensionCharacteristics
 import android.hardware.camera2.CameraManager
 import android.hardware.camera2.CameraMetadata
 import android.os.Build
 import android.util.Log
 import android.util.Range
 import android.util.Size
 import android.util.SizeF
 import android.view.SurfaceHolder
 import com.facebook.react.bridge.Arguments
 import com.facebook.react.bridge.ReadableArray
 import com.facebook.react.bridge.ReadableMap
 import com.mrousavy.camera.extensions.bigger
 import com.mrousavy.camera.extensions.getPhotoSizes
 import com.mrousavy.camera.extensions.getVideoSizes
 import com.mrousavy.camera.extensions.smaller
 import com.mrousavy.camera.extensions.toJSValue
 import com.mrousavy.camera.types.AutoFocusSystem
 import com.mrousavy.camera.types.DeviceType
@ -20,65 +27,127 @@ import com.mrousavy.camera.types.LensFacing
 import com.mrousavy.camera.types.Orientation
 import com.mrousavy.camera.types.PixelFormat
 import com.mrousavy.camera.types.VideoStabilizationMode
 import com.mrousavy.camera.utils.CamcorderProfileUtils
 import kotlin.math.atan2
 import kotlin.math.sqrt
-class CameraDeviceDetails(val cameraManager: CameraManager, val cameraId: String) {
+class CameraDeviceDetails(private val cameraManager: CameraManager, val cameraId: String) {
-  val characteristics = cameraManager.getCameraCharacteristics(cameraId)
+  companion object {
-  val hardwareLevel = HardwareLevel.fromCameraCharacteristics(characteristics)
+    private const val TAG = "CameraDeviceDetails"
-  val capabilities = characteristics.get(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES) ?: IntArray(0)
+
-  val extensions = getSupportedExtensions()
+    fun getMaximumPreviewSize(): Size {
      // See https://developer.android.com/reference/android/hardware/camera2/params/StreamConfigurationMap
      // According to the Android Developer documentation, PREVIEW streams can have a resolution
      // of up to the phone's display's resolution, with a maximum of 1920x1080.
      val display1080p = Size(1920, 1080)
      val displaySize = Size(
        Resources.getSystem().displayMetrics.widthPixels,
        Resources.getSystem().displayMetrics.heightPixels
      )
      val isHighResScreen = displaySize.bigger >= display1080p.bigger || displaySize.smaller >= display1080p.smaller
      return if (isHighResScreen) display1080p else displaySize
    }
  }
  val characteristics by lazy { cameraManager.getCameraCharacteristics(cameraId) }
  val hardwareLevel by lazy { HardwareLevel.fromCameraCharacteristics(characteristics) }
  val capabilities by lazy { characteristics.get(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES) ?: IntArray(0) }
  val extensions by lazy { getSupportedExtensions() }
  // device characteristics
-  val isMultiCam = capabilities.contains(11) // TODO: CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_LOGICAL_MULTI_CAMERA
+  val isMultiCam by lazy { capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_LOGICAL_MULTI_CAMERA) }
-  val supportsDepthCapture = capabilities.contains(8) // TODO: CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_DEPTH_OUTPUT
+  val supportsDepthCapture by lazy { capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_DEPTH_OUTPUT) }
-  val supportsRawCapture = capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_RAW)
+  val supportsRawCapture by lazy { capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_RAW) }
-  val supportsLowLightBoost = extensions.contains(4) // TODO: CameraExtensionCharacteristics.EXTENSION_NIGHT
+  val supportsLowLightBoost by lazy {
-  val lensFacing = LensFacing.fromCameraCharacteristics(characteristics)
+    extensions.contains(CameraExtensionCharacteristics.EXTENSION_NIGHT) &&
-  val hasFlash = characteristics.get(CameraCharacteristics.FLASH_INFO_AVAILABLE) ?: false
+      modes.contains(CameraCharacteristics.CONTROL_MODE_USE_SCENE_MODE)
-  val focalLengths =
+  }
-    characteristics.get(CameraCharacteristics.LENS_INFO_AVAILABLE_FOCAL_LENGTHS)
+  val lensFacing by lazy { LensFacing.fromCameraCharacteristics(characteristics) }
-      // 35mm is the film standard sensor size
+  val hasFlash by lazy { characteristics.get(CameraCharacteristics.FLASH_INFO_AVAILABLE) ?: false }
-      ?: floatArrayOf(35f)
+  val focalLengths by lazy {
-  val sensorSize = characteristics.get(CameraCharacteristics.SENSOR_INFO_PHYSICAL_SIZE)!!
+    // 35mm is the film standard sensor size
-  val sensorOrientation = characteristics.get(CameraCharacteristics.SENSOR_ORIENTATION)!!
+    characteristics.get(CameraCharacteristics.LENS_INFO_AVAILABLE_FOCAL_LENGTHS) ?: floatArrayOf(35f)
-  val minFocusDistance = getMinFocusDistanceCm()
+  }
-  val name = (
+  val sensorSize by lazy { characteristics.get(CameraCharacteristics.SENSOR_INFO_PHYSICAL_SIZE) ?: SizeF(0f, 0f) }
-    if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.P) {
+  val activeSize
-      characteristics.get(CameraCharacteristics.INFO_VERSION)
+    get() = characteristics.get(CameraCharacteristics.SENSOR_INFO_ACTIVE_ARRAY_SIZE)!!
-    } else {
+  val sensorOrientation by lazy {
-      null
+    val degrees = characteristics.get(CameraCharacteristics.SENSOR_ORIENTATION) ?: 0
    return@lazy Orientation.fromRotationDegrees(degrees)
  }
  val minFocusDistance by lazy { getMinFocusDistanceCm() }
  val name by lazy {
    val info = if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.P) characteristics.get(CameraCharacteristics.INFO_VERSION) else null
    return@lazy info ?: "$lensFacing ($cameraId)"
  }
    ) ?: "$lensFacing ($cameraId)"
  // "formats" (all possible configurations for this device)
-  val zoomRange = (
+  val maxDigitalZoom by lazy { characteristics.get(CameraCharacteristics.SCALER_AVAILABLE_MAX_DIGITAL_ZOOM) ?: 1f }
-    if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.R) {
+  val zoomRange by lazy {
    val range = if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.R) {
      characteristics.get(CameraCharacteristics.CONTROL_ZOOM_RATIO_RANGE)
    } else {
      null
    }
-    ) ?: Range(1f, characteristics.get(CameraCharacteristics.SCALER_AVAILABLE_MAX_DIGITAL_ZOOM) ?: 1f)
+    return@lazy range ?: Range(1f, maxDigitalZoom)
-  val physicalDevices = if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.P && characteristics.physicalCameraIds.isNotEmpty()) {
+  }
  val physicalDevices by lazy {
    if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.P && characteristics.physicalCameraIds.isNotEmpty()) {
      characteristics.physicalCameraIds
    } else {
      setOf(cameraId)
    }
-  val minZoom = zoomRange.lower.toDouble()
+  }
-  val maxZoom = zoomRange.upper.toDouble()
+  val minZoom by lazy { zoomRange.lower.toDouble() }
  val maxZoom by lazy { zoomRange.upper.toDouble() }
-  val cameraConfig = characteristics.get(CameraCharacteristics.SCALER_STREAM_CONFIGURATION_MAP)!!
+  val cameraConfig by lazy { characteristics.get(CameraCharacteristics.SCALER_STREAM_CONFIGURATION_MAP)!! }
-  val isoRange = characteristics.get(CameraCharacteristics.SENSOR_INFO_SENSITIVITY_RANGE) ?: Range(0, 0)
+  val isoRange by lazy { characteristics.get(CameraCharacteristics.SENSOR_INFO_SENSITIVITY_RANGE) ?: Range(0, 0) }
-  val exposureRange = characteristics.get(CameraCharacteristics.CONTROL_AE_COMPENSATION_RANGE) ?: Range(0, 0)
+  val exposureRange by lazy { characteristics.get(CameraCharacteristics.CONTROL_AE_COMPENSATION_RANGE) ?: Range(0, 0) }
-  val digitalStabilizationModes =
+  val digitalStabilizationModes by lazy {
    characteristics.get(CameraCharacteristics.CONTROL_AVAILABLE_VIDEO_STABILIZATION_MODES) ?: IntArray(0)
-  val opticalStabilizationModes =
+  }
  val opticalStabilizationModes by lazy {
    characteristics.get(CameraCharacteristics.LENS_INFO_AVAILABLE_OPTICAL_STABILIZATION) ?: IntArray(0)
-  val supportsPhotoHdr = extensions.contains(3) // TODO: CameraExtensionCharacteristics.EXTENSION_HDR
+  }
-  val supportsVideoHdr = getHasVideoHdr()
+  val supportsPhotoHdr by lazy { extensions.contains(CameraExtensionCharacteristics.EXTENSION_HDR) }
-  val autoFocusSystem = getAutoFocusSystemMode()
+  val supportsVideoHdr by lazy { getHasVideoHdr() }
  val autoFocusSystem by lazy { getAutoFocusSystemMode() }
  val supportsYuvProcessing by lazy { capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_YUV_REPROCESSING) }
  val supportsPrivateProcessing by lazy { capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_PRIVATE_REPROCESSING) }
  val supportsZsl by lazy { supportsYuvProcessing || supportsPrivateProcessing }
  val isBackwardsCompatible by lazy { capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_BACKWARD_COMPATIBLE) }
  val supportsSnapshotCapture by lazy { supportsSnapshotCapture() }
  val supportsFocusRegions by lazy { (characteristics.get(CameraCharacteristics.CONTROL_MAX_REGIONS_AF) ?: 0) > 0 }
  val supportsExposureRegions by lazy { (characteristics.get(CameraCharacteristics.CONTROL_MAX_REGIONS_AE) ?: 0) > 0 }
  val supportsWhiteBalanceRegions by lazy { (characteristics.get(CameraCharacteristics.CONTROL_MAX_REGIONS_AWB) ?: 0) > 0 }
  val modes by lazy { characteristics.get(CameraCharacteristics.CONTROL_AVAILABLE_MODES)?.toList() ?: emptyList() }
  val afModes by lazy { characteristics.get(CameraCharacteristics.CONTROL_AF_AVAILABLE_MODES)?.toList() ?: emptyList() }
  val aeModes by lazy { characteristics.get(CameraCharacteristics.CONTROL_AE_AVAILABLE_MODES)?.toList() ?: emptyList() }
  val awbModes by lazy { characteristics.get(CameraCharacteristics.CONTROL_AWB_AVAILABLE_MODES)?.toList() ?: emptyList() }
  val availableAberrationModes by lazy {
    characteristics.get(CameraCharacteristics.COLOR_CORRECTION_AVAILABLE_ABERRATION_MODES)
      ?: intArrayOf()
  }
  val availableHotPixelModes by lazy { characteristics.get(CameraCharacteristics.HOT_PIXEL_AVAILABLE_HOT_PIXEL_MODES) ?: intArrayOf() }
  val availableEdgeModes by lazy { characteristics.get(CameraCharacteristics.EDGE_AVAILABLE_EDGE_MODES) ?: intArrayOf() }
  val availableDistortionCorrectionModes by lazy { getAvailableDistortionCorrectionModesOrEmptyArray() }
  val availableShadingModes by lazy { characteristics.get(CameraCharacteristics.SHADING_AVAILABLE_MODES) ?: intArrayOf() }
  val availableToneMapModes by lazy { characteristics.get(CameraCharacteristics.TONEMAP_AVAILABLE_TONE_MAP_MODES) ?: intArrayOf() }
  val availableNoiseReductionModes by lazy {
    characteristics.get(CameraCharacteristics.NOISE_REDUCTION_AVAILABLE_NOISE_REDUCTION_MODES)
      ?: intArrayOf()
  }
  // TODO: Also add 10-bit YUV here?
  val videoFormat = ImageFormat.YUV_420_888
  val photoFormat = ImageFormat.JPEG
  // get extensions (HDR, Night Mode, ..)
  private fun getSupportedExtensions(): List<Int> =
@ -89,6 +158,13 @@ class CameraDeviceDetails(val cameraManager: CameraManager, val cameraId: String
      emptyList()
    }
  private fun getAvailableDistortionCorrectionModesOrEmptyArray(): IntArray =
    if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.P) {
      characteristics.get(CameraCharacteristics.DISTORTION_CORRECTION_AVAILABLE_MODES) ?: intArrayOf()
    } else {
      intArrayOf()
    }
  private fun getHasVideoHdr(): Boolean {
    if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.TIRAMISU) {
      if (capabilities.contains(CameraMetadata.REQUEST_AVAILABLE_CAPABILITIES_DYNAMIC_RANGE_TEN_BIT)) {
@ -102,10 +178,19 @@ class CameraDeviceDetails(val cameraManager: CameraManager, val cameraId: String
  private fun getMinFocusDistanceCm(): Double {
    val distance = characteristics.get(CameraCharacteristics.LENS_INFO_MINIMUM_FOCUS_DISTANCE)
    if (distance == null || distance == 0f) return 0.0
    if (distance.isNaN() || distance.isInfinite()) return 0.0
    // distance is in "diopters", meaning 1/meter. Convert to meters, then centi-meters
    return 1.0 / distance * 100.0
  }
  @Suppress("RedundantIf")
  private fun supportsSnapshotCapture(): Boolean {
    // As per CameraDevice.TEMPLATE_VIDEO_SNAPSHOT in documentation:
    if (hardwareLevel == HardwareLevel.LEGACY) return false
    if (supportsDepthCapture && !isBackwardsCompatible) return false
    return true
  }
  private fun createStabilizationModes(): ReadableArray {
    val array = Arguments.createArray()
    digitalStabilizationModes.forEach { videoStabilizationMode ->
@ -146,6 +231,9 @@ class CameraDeviceDetails(val cameraManager: CameraManager, val cameraId: String
  }
  private fun getFieldOfView(focalLength: Float): Double {
    if ((sensorSize.width == 0f) || (sensorSize.height == 0f)) {
      return 0.0
    }
    val sensorDiagonal = sqrt((sensorSize.width * sensorSize.width + sensorSize.height * sensorSize.height).toDouble())
    val fovRadians = 2.0 * atan2(sensorDiagonal, (2.0 * focalLength))
    return Math.toDegrees(fovRadians)
@ -156,18 +244,31 @@ class CameraDeviceDetails(val cameraManager: CameraManager, val cameraId: String
    return getFieldOfView(smallestFocalLength)
  }
-  private fun getVideoSizes(): List<Size> = characteristics.getVideoSizes(cameraId, videoFormat)
+  fun getVideoSizes(format: Int): List<Size> = characteristics.getVideoSizes(cameraId, format)
-  private fun getPhotoSizes(): List<Size> = characteristics.getPhotoSizes(ImageFormat.JPEG)
+  fun getPhotoSizes(): List<Size> = characteristics.getPhotoSizes(photoFormat)
  fun getPreviewSizes(): List<Size> {
    val maximumPreviewSize = getMaximumPreviewSize()
    return cameraConfig.getOutputSizes(SurfaceHolder::class.java)
      .filter { it.bigger <= maximumPreviewSize.bigger && it.smaller <= maximumPreviewSize.smaller }
  }
  private fun getFormats(): ReadableArray {
    val array = Arguments.createArray()
-    val videoSizes = getVideoSizes()
+    val videoSizes = getVideoSizes(videoFormat)
    val photoSizes = getPhotoSizes()
    videoSizes.forEach { videoSize ->
      val frameDuration = cameraConfig.getOutputMinFrameDuration(videoFormat, videoSize)
-      val maxFps = (1.0 / (frameDuration.toDouble() / 1_000_000_000)).toInt()
+      var maxFps = (1.0 / (frameDuration.toDouble() / 1_000_000_000)).toInt()
      val maxEncoderFps = CamcorderProfileUtils.getMaximumFps(cameraId, videoSize)
      if (maxEncoderFps != null && maxEncoderFps < maxFps) {
        Log.i(
          TAG,
          "Camera could do $maxFps FPS at $videoSize, but Media Encoder can only do $maxEncoderFps FPS. Clamping to $maxEncoderFps FPS..."
        )
        maxFps = maxEncoderFps
      }
      photoSizes.forEach { photoSize ->
        val map = buildFormatMap(photoSize, videoSize, Range(1, maxFps))
@ -175,8 +276,6 @@ class CameraDeviceDetails(val cameraManager: CameraManager, val cameraId: String
      }
    }
    // TODO: Add high-speed video ranges (high-fps / slow-motion)
    return array
  }
@ -223,14 +322,14 @@ class CameraDeviceDetails(val cameraManager: CameraManager, val cameraId: String
    map.putBoolean("isMultiCam", isMultiCam)
    map.putBoolean("supportsRawCapture", supportsRawCapture)
    map.putBoolean("supportsLowLightBoost", supportsLowLightBoost)
-    map.putBoolean("supportsFocus", true) // I believe every device here supports focussing
+    map.putBoolean("supportsFocus", supportsFocusRegions)
    map.putDouble("minZoom", minZoom)
    map.putDouble("maxZoom", maxZoom)
    map.putDouble("neutralZoom", 1.0) // Zoom is always relative to 1.0 on Android
    map.putDouble("minExposure", exposureRange.lower.toDouble())
    map.putDouble("maxExposure", exposureRange.upper.toDouble())
    map.putString("hardwareLevel", hardwareLevel.unionValue)
-    map.putString("sensorOrientation", Orientation.fromRotationDegrees(sensorOrientation).unionValue)
+    map.putString("sensorOrientation", sensorOrientation.unionValue)
    map.putArray("formats", getFormats())
    return map
  }
--- a/package/android/src/main/java/com/mrousavy/camera/core/CameraError.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/core/CameraError.kt
@ -62,6 +62,8 @@ class FlashUnavailableError :
    "flash-unavailable",
    "The Camera Device does not have a flash unit! Make sure you select a device where `device.hasFlash`/`device.hasTorch` is true."
  )
 class FocusNotSupportedError :
  CameraError("device", "focus-not-supported", "The currently selected camera device does not support focusing!")
 class CameraNotReadyError :
  CameraError("session", "camera-not-ready", "The Camera is not ready yet! Wait for the onInitialized() callback!")
@ -71,6 +73,8 @@ class CameraSessionCannotBeConfiguredError(cameraId: String) :
  CameraError("session", "cannot-create-session", "Failed to create a Camera Session for Camera #$cameraId!")
 class CameraDisconnectedError(cameraId: String, error: CameraDeviceError) :
  CameraError("session", "camera-has-been-disconnected", "The given Camera device (id: $cameraId) has been disconnected! Error: $error")
 class NoOutputsError :
  CameraError("session", "no-outputs", "Cannot create a CameraCaptureSession without any outputs! (PREVIEW, PHOTO, VIDEO, ...)")
 class PropRequiresFormatToBeNonNullError(propName: String) :
  CameraError("format", "format-required", "The prop \"$propName\" requires a format to be set, but format was null!")
@ -100,6 +104,8 @@ class PhotoNotEnabledError :
  CameraError("capture", "photo-not-enabled", "Photo capture is disabled! Pass `photo={true}` to enable photo capture.")
 class CaptureAbortedError(wasImageCaptured: Boolean) :
  CameraError("capture", "aborted", "The image capture was aborted! Was Image captured: $wasImageCaptured")
 class FocusCanceledError : CameraError("capture", "focus-canceled", "The focus operation was canceled.")
 class CaptureTimedOutError : CameraError("capture", "timed-out", "The image capture was aborted because it timed out.")
 class UnknownCaptureError(wasImageCaptured: Boolean) :
  CameraError("capture", "unknown", "An unknown error occurred while trying to capture an Image! Was Image captured: $wasImageCaptured")
 class RecorderError(name: String, extra: Int) :
@ -113,6 +119,16 @@ class RecordingInProgressError :
    "recording-in-progress",
    "There is already an active video recording in progress! Did you call startRecording() twice?"
  )
 class FrameInvalidError :
  CameraError(
    "capture",
    "frame-invalid",
    "Trying to access an already closed Frame! " +
      "Are you trying to access the Image data outside of a Frame Processor's lifetime?\n" +
      "- If you want to use `console.log(frame)`, use `console.log(frame.toString())` instead.\n" +
      "- If you want to do async processing, use `runAsync(...)` instead.\n" +
      "- If you want to use runOnJS, increment it's ref-count: `frame.incrementRefCount()`"
  )
 class CodeTypeNotSupportedError(codeType: String) :
  CameraError(
--- a/package/android/src/main/java/com/mrousavy/camera/core/CameraSession.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/core/CameraSession.kt
@ -5,50 +5,33 @@ import android.content.Context
 import android.content.pm.PackageManager
 import android.graphics.ImageFormat
 import android.graphics.Point
 import android.hardware.camera2.CameraCaptureSession
 import android.hardware.camera2.CameraCharacteristics
 import android.hardware.camera2.CameraDevice
 import android.hardware.camera2.CameraManager
 import android.hardware.camera2.CameraMetadata
 import android.hardware.camera2.CaptureRequest
 import android.hardware.camera2.CaptureResult
 import android.hardware.camera2.TotalCaptureResult
 import android.hardware.camera2.params.MeteringRectangle
 import android.media.Image
 import android.media.ImageReader
 import android.os.Build
 import android.util.Log
 import android.util.Range
 import android.util.Size
 import android.view.Surface
 import android.view.SurfaceHolder
 import androidx.core.content.ContextCompat
 import com.google.mlkit.vision.barcode.common.Barcode
 import com.mrousavy.camera.core.capture.RepeatingCaptureRequest
 import com.mrousavy.camera.core.outputs.BarcodeScannerOutput
 import com.mrousavy.camera.core.outputs.PhotoOutput
 import com.mrousavy.camera.core.outputs.SurfaceOutput
 import com.mrousavy.camera.core.outputs.VideoPipelineOutput
 import com.mrousavy.camera.extensions.capture
 import com.mrousavy.camera.extensions.closestToOrMax
 import com.mrousavy.camera.extensions.createCaptureSession
 import com.mrousavy.camera.extensions.createPhotoCaptureRequest
 import com.mrousavy.camera.extensions.getPhotoSizes
 import com.mrousavy.camera.extensions.getPreviewTargetSize
 import com.mrousavy.camera.extensions.getVideoSizes
 import com.mrousavy.camera.extensions.openCamera
 import com.mrousavy.camera.extensions.setZoom
 import com.mrousavy.camera.frameprocessor.Frame
 import com.mrousavy.camera.frameprocessor.FrameProcessor
 import com.mrousavy.camera.types.Flash
 import com.mrousavy.camera.types.LensFacing
 import com.mrousavy.camera.types.Orientation
 import com.mrousavy.camera.types.QualityPrioritization
 import com.mrousavy.camera.types.RecordVideoOptions
 import com.mrousavy.camera.types.Torch
 import com.mrousavy.camera.types.VideoStabilizationMode
 import com.mrousavy.camera.utils.ImageFormatUtils
 import java.io.Closeable
-import java.lang.IllegalStateException
+import kotlin.coroutines.cancellation.CancellationException
 import java.util.concurrent.CancellationException
 import kotlinx.coroutines.CoroutineScope
 import kotlinx.coroutines.launch
 import kotlinx.coroutines.runBlocking
@ -57,8 +40,8 @@ import kotlinx.coroutines.sync.withLock
 import java.io.File
 class CameraSession(private val context: Context, private val cameraManager: CameraManager, private val callback: Callback) :
-  CameraManager.AvailabilityCallback(),
+  Closeable,
-  Closeable {
+  PersistentCameraCaptureSession.Callback {
  companion object {
    private const val TAG = "CameraSession"
  }
@ -67,14 +50,7 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
  private var configuration: CameraConfiguration? = null
  // Camera State
-  private var cameraDevice: CameraDevice? = null
+  private val captureSession = PersistentCameraCaptureSession(cameraManager, this)
    set(value) {
      field = value
      cameraDeviceDetails = if (value != null) CameraDeviceDetails(cameraManager, value.id) else null
    }
  private var cameraDeviceDetails: CameraDeviceDetails? = null
  private var captureSession: CameraCaptureSession? = null
  private var previewRequest: CaptureRequest.Builder? = null
  private var photoOutput: PhotoOutput? = null
  private var videoOutput: VideoPipelineOutput? = null
  private var codeScannerOutput: BarcodeScannerOutput? = null
@ -102,11 +78,6 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
      field = value
      updateVideoOutputs()
    }
  var frameProcessor: FrameProcessor? = null
    set(value) {
      field = value
      updateVideoOutputs()
    }
  val orientation: Orientation
    get() {
@ -116,14 +87,9 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
      return Orientation.fromRotationDegrees(sensorRotation)
    }
  init {
    cameraManager.registerAvailabilityCallback(this, CameraQueues.cameraQueue.handler)
  }
  override fun close() {
    Log.i(TAG, "Closing CameraSession...")
    isDestroyed = true
    cameraManager.unregisterAvailabilityCallback(this)
    runBlocking {
      mutex.withLock {
        destroy()
@ -133,18 +99,6 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
    Log.i(TAG, "CameraSession closed!")
  }
  override fun onCameraAvailable(cameraId: String) {
    super.onCameraAvailable(cameraId)
    if (this.configuration?.cameraId == cameraId && cameraDevice == null && configuration?.isActive == true) {
      Log.i(TAG, "Camera #$cameraId is now available again, trying to re-open it now...")
      coroutineScope.launch {
        configure {
          // re-open CameraDevice if needed
        }
      }
    }
  }
  suspend fun configure(lambda: (configuration: CameraConfiguration) -> Unit) {
    Log.i(TAG, "configure { ... }: Waiting for lock...")
@ -153,6 +107,12 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
      val config = CameraConfiguration.copyOf(this.configuration)
      lambda(config)
      val diff = CameraConfiguration.difference(this.configuration, config)
      this.configuration = config
      if (!diff.hasChanges) {
        Log.i(TAG, "Nothing changed, aborting configure { ... }")
        return@withLock
      }
      if (isDestroyed) {
        Log.i(TAG, "CameraSession is already destroyed. Skipping configure { ... }")
@ -162,29 +122,11 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
      Log.i(TAG, "configure { ... }: Updating CameraSession Configuration... $diff")
      try {
-        val needsRebuild = cameraDevice == null || captureSession == null
+        captureSession.withConfiguration {
        if (needsRebuild) {
          Log.i(TAG, "Need to rebuild CameraDevice and CameraCaptureSession...")
        }
        // Since cameraDevice and captureSession are OS resources, we have three possible paths here:
        if (needsRebuild) {
          if (config.isActive) {
            // A: The Camera has been torn down by the OS and we want it to be active - rebuild everything
            Log.i(TAG, "Need to rebuild CameraDevice and CameraCaptureSession...")
            configureCameraDevice(config)
            configureOutputs(config)
            configureCaptureRequest(config)
          } else {
            // B: The Camera has been torn down by the OS but it's currently in the background - ignore this
            Log.i(TAG, "CameraDevice and CameraCaptureSession is torn down but Camera is not active, skipping update...")
          }
        } else {
          // C: The Camera has not been torn down and we just want to update some props - update incrementally
          // Build up session or update any props
          if (diff.deviceChanged) {
            // 1. cameraId changed, open device
-            configureCameraDevice(config)
+            configureInput(config)
          }
          if (diff.outputsChanged) {
            // 2. outputs changed, build new session
@ -194,10 +136,18 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
            // 3. zoom etc changed, update repeating request
            configureCaptureRequest(config)
          }
          if (diff.isActiveChanged) {
            // 4. Either start or stop the session
            val isActive = config.isActive && config.preview.isEnabled
            captureSession.setIsActive(isActive)
          }
        }
-        Log.i(TAG, "Successfully updated CameraSession Configuration! isActive: ${config.isActive}")
+        Log.i(
-        this.configuration = config
+          TAG,
          "configure { ... }: Completed CameraSession Configuration! (isActive: ${config.isActive}, isRunning: ${captureSession.isRunning})"
        )
        isRunning = captureSession.isRunning
        // Notify about Camera initialization
        if (diff.deviceChanged) {
@ -212,8 +162,7 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
  private fun destroy() {
    Log.i(TAG, "Destroying session..")
-    cameraDevice?.close()
+    captureSession.close()
    cameraDevice = null
    photoOutput?.close()
    photoOutput = null
@ -269,66 +218,20 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
    Log.i(TAG, "Preview Output destroyed!")
  }
-  /**
+  private fun configureInput(configuration: CameraConfiguration) {
-   * Set up the `CameraDevice` (`cameraId`)
+    Log.i(TAG, "Configuring inputs for CameraSession...")
   */
  private suspend fun configureCameraDevice(configuration: CameraConfiguration) {
    if (!configuration.isActive) {
      // If isActive=false, we don't care if the device is opened or closed.
      // Android OS can close the CameraDevice if it needs it, otherwise we keep it warm.
      Log.i(TAG, "isActive is false, skipping CameraDevice configuration.")
      return
    }
    if (cameraDevice != null) {
      // Close existing device
      Log.i(TAG, "Closing previous Camera #${cameraDevice?.id}...")
      cameraDevice?.close()
      cameraDevice = null
    }
    isRunning = false
    // Check Camera Permission
    val cameraPermission = ContextCompat.checkSelfPermission(context, Manifest.permission.CAMERA)
    if (cameraPermission != PackageManager.PERMISSION_GRANTED) throw CameraPermissionError()
    // Open new device
    val cameraId = configuration.cameraId ?: throw NoCameraDeviceError()
-    Log.i(TAG, "Configuring Camera #$cameraId...")
+    val status = ContextCompat.checkSelfPermission(context, Manifest.permission.CAMERA)
-    cameraDevice = cameraManager.openCamera(cameraId, { device, error ->
+    if (status != PackageManager.PERMISSION_GRANTED) throw CameraPermissionError()
      if (cameraDevice != device) {
        // a previous device has been disconnected, but we already have a new one.
        // this is just normal behavior
        return@openCamera
      }
      this.cameraDevice = null
    isRunning = false
-
+    captureSession.setInput(cameraId)
      if (error != null) {
        Log.e(TAG, "Camera #${device.id} has been unexpectedly disconnected!", error)
        callback.onError(error)
      } else {
        Log.i(TAG, "Camera #${device.id} has been gracefully disconnected!")
      }
    }, CameraQueues.cameraQueue)
    Log.i(TAG, "Successfully configured Camera #$cameraId!")
  }
  /**
   * Set up the `CaptureSession` with all outputs (preview, photo, video, codeScanner) and their HDR/Format settings.
   */
  private suspend fun configureOutputs(configuration: CameraConfiguration) {
-    if (!configuration.isActive) {
+    val cameraId = configuration.cameraId ?: throw NoCameraDeviceError()
      Log.i(TAG, "isActive is false, skipping CameraCaptureSession configuration.")
      return
    }
    val cameraDevice = cameraDevice
    if (cameraDevice == null) {
      Log.i(TAG, "CameraSession hasn't configured a CameraDevice, skipping session configuration...")
      return
    }
    // Destroy previous outputs
    Log.i(TAG, "Destroying previous outputs...")
@ -340,20 +243,20 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
    codeScannerOutput = null
    isRunning = false
-    val characteristics = cameraManager.getCameraCharacteristics(cameraDevice.id)
+    val deviceDetails = CameraDeviceDetails(cameraManager, cameraId)
    val format = configuration.format
-    Log.i(TAG, "Creating outputs for Camera #${cameraDevice.id}...")
+    Log.i(TAG, "Creating outputs for Camera #$cameraId...")
-    val isSelfie = characteristics.get(CameraCharacteristics.LENS_FACING) == CameraCharacteristics.LENS_FACING_FRONT
+    val isSelfie = deviceDetails.lensFacing == LensFacing.FRONT
    val outputs = mutableListOf<SurfaceOutput>()
    // Photo Output
    val photo = configuration.photo as? CameraConfiguration.Output.Enabled<CameraConfiguration.Photo>
    if (photo != null) {
-      val imageFormat = ImageFormat.JPEG
+      val imageFormat = deviceDetails.photoFormat
-      val sizes = characteristics.getPhotoSizes(imageFormat)
+      val sizes = deviceDetails.getPhotoSizes()
      val size = sizes.closestToOrMax(format?.photoSize)
      val maxImages = 10
@ -373,7 +276,7 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
    val video = configuration.video as? CameraConfiguration.Output.Enabled<CameraConfiguration.Video>
    if (video != null) {
      val imageFormat = video.config.pixelFormat.toImageFormat()
-      val sizes = characteristics.getVideoSizes(cameraDevice.id, imageFormat)
+      val sizes = deviceDetails.getVideoSizes(imageFormat)
      val size = sizes.closestToOrMax(format?.videoSize)
      Log.i(TAG, "Adding ${size.width}x${size.height} Video Output in ${ImageFormatUtils.imageFormatToString(imageFormat)}...")
@ -383,6 +286,7 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
        video.config.pixelFormat,
        isSelfie,
        video.config.enableFrameProcessor,
        video.config.enableGpuBuffers,
        callback
      )
      val output = VideoPipelineOutput(videoPipeline, video.config.enableHdr)
@ -395,7 +299,8 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
    if (preview != null) {
      // Compute Preview Size based on chosen video size
      val videoSize = videoOutput?.size ?: format?.videoSize
-      val size = characteristics.getPreviewTargetSize(videoSize)
+      val sizes = deviceDetails.getPreviewSizes()
      val size = sizes.closestToOrMax(videoSize)
      val enableHdr = video?.config?.enableHdr ?: false
@ -408,7 +313,7 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
      )
      outputs.add(output)
      // Size is usually landscape, so we flip it here
-      previewView?.size = Size(size.height, size.width)
+      previewView?.setSurfaceSize(size.width, size.height, deviceDetails.sensorOrientation)
    }
    // CodeScanner Output
@ -421,7 +326,7 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
      }
      val imageFormat = ImageFormat.YUV_420_888
-      val sizes = characteristics.getVideoSizes(cameraDevice.id, imageFormat)
+      val sizes = deviceDetails.getVideoSizes(imageFormat)
      val size = sizes.closestToOrMax(Size(1280, 720))
      Log.i(TAG, "Adding ${size.width}x${size.height} CodeScanner Output in ${ImageFormatUtils.imageFormatToString(imageFormat)}...")
@ -432,175 +337,63 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
    }
    // Create session
-    captureSession = cameraDevice.createCaptureSession(cameraManager, outputs, { session ->
+    captureSession.setOutputs(outputs)
      if (this.captureSession != session) {
        // a previous session has been closed, but we already have a new one.
        // this is just normal behavior
        return@createCaptureSession
      }
-      // onClosed
+    Log.i(TAG, "Successfully configured Session with ${outputs.size} outputs for Camera #$cameraId!")
      this.captureSession = null
      isRunning = false
      Log.i(TAG, "Camera Session $session has been closed.")
    }, CameraQueues.cameraQueue)
    Log.i(TAG, "Successfully configured Session with ${outputs.size} outputs for Camera #${cameraDevice.id}!")
    // Update Frame Processor and RecordingSession for newly changed output
    updateVideoOutputs()
  }
  private fun createRepeatingRequest(device: CameraDevice, targets: List<Surface>, config: CameraConfiguration): CaptureRequest {
    val deviceDetails = cameraDeviceDetails ?: CameraDeviceDetails(cameraManager, device.id)
    val template = if (config.video.isEnabled) CameraDevice.TEMPLATE_RECORD else CameraDevice.TEMPLATE_PREVIEW
    val captureRequest = device.createCaptureRequest(template)
    targets.forEach { t -> captureRequest.addTarget(t) }
    val format = config.format
    // Set FPS
    val fps = config.fps
    if (fps != null) {
      if (format == null) throw PropRequiresFormatToBeNonNullError("fps")
      if (format.maxFps < fps) throw InvalidFpsError(fps)
      captureRequest.set(CaptureRequest.CONTROL_AE_TARGET_FPS_RANGE, Range(fps, fps))
    }
    // Set Video Stabilization
    if (config.videoStabilizationMode != VideoStabilizationMode.OFF) {
      if (format == null) throw PropRequiresFormatToBeNonNullError("videoStabilizationMode")
      if (!format.videoStabilizationModes.contains(
          config.videoStabilizationMode
        )
      ) {
        throw InvalidVideoStabilizationMode(config.videoStabilizationMode)
      }
    }
    when (config.videoStabilizationMode) {
      VideoStabilizationMode.OFF -> {
        // do nothing
      }
      VideoStabilizationMode.STANDARD -> {
        val mode = if (Build.VERSION.SDK_INT >=
          Build.VERSION_CODES.TIRAMISU
        ) {
          CaptureRequest.CONTROL_VIDEO_STABILIZATION_MODE_PREVIEW_STABILIZATION
        } else {
          CaptureRequest.CONTROL_VIDEO_STABILIZATION_MODE_ON
        }
        captureRequest.set(CaptureRequest.CONTROL_VIDEO_STABILIZATION_MODE, mode)
      }
      VideoStabilizationMode.CINEMATIC, VideoStabilizationMode.CINEMATIC_EXTENDED -> {
        captureRequest.set(CaptureRequest.LENS_OPTICAL_STABILIZATION_MODE, CaptureRequest.LENS_OPTICAL_STABILIZATION_MODE_ON)
      }
    }
    // Set HDR
    val video = config.video as? CameraConfiguration.Output.Enabled<CameraConfiguration.Video>
    val videoHdr = video?.config?.enableHdr
    if (videoHdr == true) {
      if (format == null) throw PropRequiresFormatToBeNonNullError("videoHdr")
      if (!format.supportsVideoHdr) throw InvalidVideoHdrError()
      captureRequest.set(CaptureRequest.CONTROL_SCENE_MODE, CaptureRequest.CONTROL_SCENE_MODE_HDR)
    } else if (config.enableLowLightBoost) {
      if (!deviceDetails.supportsLowLightBoost) throw LowLightBoostNotSupportedError()
      captureRequest.set(CaptureRequest.CONTROL_SCENE_MODE, CaptureRequest.CONTROL_SCENE_MODE_NIGHT)
    }
    // Set Exposure Bias
    val exposure = config.exposure?.toInt()
    if (exposure != null) {
      val clamped = deviceDetails.exposureRange.clamp(exposure)
      captureRequest.set(CaptureRequest.CONTROL_AE_EXPOSURE_COMPENSATION, clamped)
    }
    // Set Zoom
    // TODO: Cache camera characteristics? Check perf.
    val cameraCharacteristics = cameraManager.getCameraCharacteristics(device.id)
    captureRequest.setZoom(config.zoom, cameraCharacteristics)
    // Set Torch
    if (config.torch == Torch.ON) {
      if (!deviceDetails.hasFlash) throw FlashUnavailableError()
      captureRequest.set(CaptureRequest.FLASH_MODE, CaptureRequest.FLASH_MODE_TORCH)
    }
    // Start repeating request if the Camera is active
    return captureRequest.build()
  }
  private fun configureCaptureRequest(config: CameraConfiguration) {
-    val captureSession = captureSession
+    val video = config.video as? CameraConfiguration.Output.Enabled<CameraConfiguration.Video>
    val enableVideo = video != null
    val enableVideoHdr = video?.config?.enableHdr == true
-    if (!config.isActive) {
+    captureSession.setRepeatingRequest(
-      isRunning = false
+      RepeatingCaptureRequest(
-      try {
+        enableVideo,
-        captureSession?.stopRepeating()
+        config.torch,
-      } catch (e: IllegalStateException) {
+        config.fps,
-        // ignore - captureSession is already closed.
+        config.videoStabilizationMode,
-      }
+        enableVideoHdr,
-      return
+        config.enableLowLightBoost,
-    }
+        config.exposure,
-    if (captureSession == null) {
+        config.zoom,
-      Log.i(TAG, "CameraSession hasn't configured the capture session, skipping CaptureRequest...")
+        config.format
-      return
+      )
-    }
+    )
    val preview = config.preview as? CameraConfiguration.Output.Enabled<CameraConfiguration.Preview>
    val previewSurface = preview?.config?.surface
    val targets = listOfNotNull(previewSurface, videoOutput?.surface, codeScannerOutput?.surface)
    if (targets.isEmpty()) {
      Log.i(TAG, "CameraSession has no repeating outputs (Preview, Video, CodeScanner), skipping CaptureRequest...")
      return
    }
    val request = createRepeatingRequest(captureSession.device, targets, config)
    captureSession.setRepeatingRequest(request, null, null)
    isRunning = true
  }
  suspend fun takePhoto(
    qualityPrioritization: QualityPrioritization,
-    flashMode: Flash,
+    flash: Flash,
    enableShutterSound: Boolean,
    enableRedEyeReduction: Boolean,
    enableAutoStabilization: Boolean,
    enablePrecapture: Boolean,
    outputOrientation: Orientation
  ): CapturedPhoto {
    val captureSession = captureSession ?: throw CameraNotReadyError()
    val photoOutput = photoOutput ?: throw PhotoNotEnabledError()
-    Log.i(TAG, "Photo capture 0/3 - preparing capture request (${photoOutput.size.width}x${photoOutput.size.height})...")
+    Log.i(TAG, "Photo capture 1/3 - capturing ${photoOutput.size.width}x${photoOutput.size.height} image...")
-
+    val result = captureSession.capture(
    val zoom = configuration?.zoom ?: 1f
    val cameraCharacteristics = cameraManager.getCameraCharacteristics(captureSession.device.id)
    val orientation = outputOrientation.toSensorRelativeOrientation(cameraCharacteristics)
    val captureRequest = captureSession.device.createPhotoCaptureRequest(
      cameraManager,
      photoOutput.surface,
      zoom,
      qualityPrioritization,
-      flashMode,
+      flash,
      enableRedEyeReduction,
      enableAutoStabilization,
      photoOutput.enableHdr,
-      orientation
+      outputOrientation,
      enableShutterSound,
      enablePrecapture
    )
-    Log.i(TAG, "Photo capture 1/3 - starting capture...")
+
    val result = captureSession.capture(captureRequest, enableShutterSound)
    val timestamp = result[CaptureResult.SENSOR_TIMESTAMP]!!
    Log.i(TAG, "Photo capture 2/3 complete - received metadata with timestamp $timestamp")
    try {
      val timestamp = result[CaptureResult.SENSOR_TIMESTAMP]!!
      Log.i(TAG, "Photo capture 2/3 - waiting for image with timestamp $timestamp now...")
      val image = photoOutputSynchronizer.await(timestamp)
-      val isMirrored = cameraCharacteristics.get(CameraCharacteristics.LENS_FACING) == CameraCharacteristics.LENS_FACING_FRONT
+      Log.i(TAG, "Photo capture 3/3 - received ${image.width} x ${image.height} image, preparing result...")
-
+      val deviceDetails = captureSession.getActiveDeviceDetails()
-      Log.i(TAG, "Photo capture 3/3 complete - received ${image.width} x ${image.height} image.")
+      val isMirrored = deviceDetails?.lensFacing == LensFacing.FRONT
      return CapturedPhoto(image, result, orientation, isMirrored, image.format)
    } catch (e: CancellationException) {
      throw CaptureAbortedError(false)
@ -628,13 +421,13 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
    mutex.withLock {
      if (recording != null) throw RecordingInProgressError()
      val videoOutput = videoOutput ?: throw VideoNotEnabledError()
-      val cameraDevice = cameraDevice ?: throw CameraNotReadyError()
+      val cameraId = configuration?.cameraId ?: throw NoCameraDeviceError()
      val fps = configuration?.fps ?: 30
      val recording = RecordingSession(
        context,
-        cameraDevice.id,
+        cameraId,
        videoOutput.size,
        enableAudio,
        fps,
@ -674,40 +467,16 @@ class CameraSession(private val context: Context, private val cameraManager: Cam
    }
  }
-  suspend fun focus(x: Int, y: Int): Unit = throw NotImplementedError("focus() is not yet implemented!")
+  override fun onError(error: Throwable) {
-
+    callback.onError(error)
  private suspend fun focus(point: Point) {
    mutex.withLock {
      // TODO: Fix this method
      val captureSession = captureSession ?: throw CameraNotReadyError()
      val request = previewRequest ?: throw CameraNotReadyError()
      val weight = MeteringRectangle.METERING_WEIGHT_MAX - 1
      val focusAreaTouch = MeteringRectangle(point, Size(150, 150), weight)
      // Quickly pause preview
      captureSession.stopRepeating()
      request.set(CaptureRequest.CONTROL_AF_TRIGGER, CameraMetadata.CONTROL_AF_TRIGGER_CANCEL)
      request.set(CaptureRequest.CONTROL_AF_MODE, CaptureRequest.CONTROL_AF_MODE_OFF)
      captureSession.capture(request.build(), null, null)
      // Add AF trigger with focus region
      val characteristics = cameraManager.getCameraCharacteristics(captureSession.device.id)
      val maxSupportedFocusRegions = characteristics.get(CameraCharacteristics.CONTROL_MAX_REGIONS_AE) ?: 0
      if (maxSupportedFocusRegions >= 1) {
        request.set(CaptureRequest.CONTROL_AF_REGIONS, arrayOf(focusAreaTouch))
  }
      request.set(CaptureRequest.CONTROL_MODE, CameraMetadata.CONTROL_MODE_AUTO)
      request.set(CaptureRequest.CONTROL_AF_MODE, CaptureRequest.CONTROL_AF_MODE_AUTO)
      request.set(CaptureRequest.CONTROL_AF_TRIGGER, CameraMetadata.CONTROL_AF_TRIGGER_START)
-      captureSession.capture(request.build(), false)
+  suspend fun focus(x: Int, y: Int) {
    val previewView = previewView ?: throw CameraNotReadyError()
    val deviceDetails = captureSession.getActiveDeviceDetails() ?: throw CameraNotReadyError()
-      // Resume preview
+    val cameraPoint = previewView.convertLayerPointToCameraCoordinates(Point(x, y), deviceDetails)
-      request.set(CaptureRequest.CONTROL_AF_TRIGGER, CaptureRequest.CONTROL_AF_TRIGGER_IDLE)
+    captureSession.focus(cameraPoint)
      captureSession.setRepeatingRequest(request.build(), null, null)
    }
  }
  data class CapturedPhoto(
--- a/package/android/src/main/java/com/mrousavy/camera/core/CodeScannerPipeline.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/core/CodeScannerPipeline.kt
@ -39,7 +39,7 @@ class CodeScannerPipeline(
    var isBusy = false
    imageReader = ImageReader.newInstance(size.width, size.height, format, MAX_IMAGES)
    imageReader.setOnImageAvailableListener({ reader ->
-      val image = reader.acquireNextImage() ?: return@setOnImageAvailableListener
+      val image = reader.acquireLatestImage() ?: return@setOnImageAvailableListener
      if (isBusy) {
        // We're currently executing on a previous Frame, so we skip this one.
--- a/package/android/src/main/java/com/mrousavy/camera/core/PersistentCameraCaptureSession.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/core/PersistentCameraCaptureSession.kt
@ -0,0 +1,378 @@
 package com.mrousavy.camera.core
 import android.graphics.Point
 import android.hardware.camera2.CameraAccessException
 import android.hardware.camera2.CameraCaptureSession
 import android.hardware.camera2.CameraDevice
 import android.hardware.camera2.CameraManager
 import android.hardware.camera2.CaptureRequest
 import android.hardware.camera2.TotalCaptureResult
 import android.util.Log
 import com.mrousavy.camera.core.capture.PhotoCaptureRequest
 import com.mrousavy.camera.core.capture.RepeatingCaptureRequest
 import com.mrousavy.camera.core.outputs.SurfaceOutput
 import com.mrousavy.camera.extensions.PrecaptureOptions
 import com.mrousavy.camera.extensions.PrecaptureTrigger
 import com.mrousavy.camera.extensions.capture
 import com.mrousavy.camera.extensions.createCaptureSession
 import com.mrousavy.camera.extensions.isValid
 import com.mrousavy.camera.extensions.openCamera
 import com.mrousavy.camera.extensions.precapture
 import com.mrousavy.camera.extensions.tryAbortCaptures
 import com.mrousavy.camera.extensions.tryStopRepeating
 import com.mrousavy.camera.types.Flash
 import com.mrousavy.camera.types.Orientation
 import com.mrousavy.camera.types.QualityPrioritization
 import java.io.Closeable
 import kotlinx.coroutines.CoroutineScope
 import kotlinx.coroutines.Job
 import kotlinx.coroutines.coroutineScope
 import kotlinx.coroutines.delay
 import kotlinx.coroutines.isActive
 import kotlinx.coroutines.launch
 import kotlinx.coroutines.sync.Mutex
 import kotlinx.coroutines.sync.withLock
 /**
 * A [CameraCaptureSession] wrapper that safely handles interruptions and remains open whenever available.
 *
 * This class aims to be similar to Apple's `AVCaptureSession`.
 */
 class PersistentCameraCaptureSession(private val cameraManager: CameraManager, private val callback: Callback) : Closeable {
  companion object {
    private const val TAG = "PersistentCameraCaptureSession"
    private const val FOCUS_RESET_TIMEOUT = 3000L
    private const val PRECAPTURE_LOCK_TIMEOUT = 5000L
  }
  // Inputs/Dependencies
  private var cameraId: String? = null
  private var outputs: List<SurfaceOutput> = emptyList()
  private var repeatingRequest: RepeatingCaptureRequest? = null
  private var isActive = false
  // State/Dependants
  private var device: CameraDevice? = null // depends on [cameraId]
  private var session: CameraCaptureSession? = null // depends on [device, surfaceOutputs]
  private var cameraDeviceDetails: CameraDeviceDetails? = null // depends on [device]
  private val mutex = Mutex()
  private var didDestroyFromOutside = false
  private var focusJob: Job? = null
  private val coroutineScope = CoroutineScope(CameraQueues.cameraQueue.coroutineDispatcher)
  val isRunning: Boolean
    get() = isActive && session != null && device != null && !didDestroyFromOutside
  override fun close() {
    focusJob?.cancel()
    session?.tryAbortCaptures()
    device?.close()
  }
  private fun assertLocked(method: String) {
    if (!mutex.isLocked) {
      throw SessionIsNotLockedError("Failed to call $method, session is not locked! Call beginConfiguration() first.")
    }
  }
  suspend fun withConfiguration(block: suspend () -> Unit) {
    // Cancel any ongoing focus jobs
    focusJob?.cancel()
    focusJob = null
    mutex.withLock {
      block()
      configure()
    }
  }
  fun setInput(cameraId: String) {
    Log.d(TAG, "--> setInput($cameraId)")
    assertLocked("setInput")
    if (this.cameraId != cameraId || device?.id != cameraId) {
      this.cameraId = cameraId
      // Abort any captures in the session so we get the onCaptureFailed handler for any outstanding photos
      session?.tryAbortCaptures()
      session = null
      // Closing the device will also close the session above - even faster than manually closing it.
      device?.close()
      device = null
    }
  }
  fun setOutputs(outputs: List<SurfaceOutput>) {
    Log.d(TAG, "--> setOutputs($outputs)")
    assertLocked("setOutputs")
    if (this.outputs != outputs) {
      this.outputs = outputs
      if (outputs.isNotEmpty()) {
        // Outputs have changed to something else, we don't wanna destroy the session directly
        // so the outputs can be kept warm. The session that gets created next will take over the outputs.
        session?.tryAbortCaptures()
      } else {
        // Just stop it, we don't have any outputs
        session?.close()
      }
      session = null
    }
  }
  fun setRepeatingRequest(request: RepeatingCaptureRequest) {
    assertLocked("setRepeatingRequest")
    Log.d(TAG, "--> setRepeatingRequest(...)")
    if (this.repeatingRequest != request) {
      this.repeatingRequest = request
    }
  }
  fun setIsActive(isActive: Boolean) {
    assertLocked("setIsActive")
    Log.d(TAG, "--> setIsActive($isActive)")
    if (this.isActive != isActive) {
      this.isActive = isActive
    }
    if (isActive && didDestroyFromOutside) {
      didDestroyFromOutside = false
    }
  }
  suspend fun capture(
    qualityPrioritization: QualityPrioritization,
    flash: Flash,
    enableAutoStabilization: Boolean,
    enablePhotoHdr: Boolean,
    orientation: Orientation,
    enableShutterSound: Boolean,
    enablePrecapture: Boolean
  ): TotalCaptureResult {
    // Cancel any ongoing focus jobs
    focusJob?.cancel()
    focusJob = null
    mutex.withLock {
      Log.i(TAG, "Capturing photo...")
      val session = session ?: throw CameraNotReadyError()
      val repeatingRequest = repeatingRequest ?: throw CameraNotReadyError()
      val photoRequest = PhotoCaptureRequest(
        repeatingRequest,
        qualityPrioritization,
        enableAutoStabilization,
        enablePhotoHdr,
        orientation
      )
      val device = session.device
      val deviceDetails = getOrCreateCameraDeviceDetails(device)
      // Submit a single high-res capture to photo output as well as all preview outputs
      val outputs = outputs
      val repeatingOutputs = outputs.filter { it.isRepeating }
      val skipPrecapture = !enablePrecapture || qualityPrioritization == QualityPrioritization.SPEED
      if (skipPrecapture && flash == Flash.OFF) {
        // 0. We want to take a picture as fast as possible, so skip any precapture sequence and just capture one Frame.
        Log.i(TAG, "Using fast capture path without pre-capture sequence...")
        val singleRequest = photoRequest.createCaptureRequest(device, deviceDetails, outputs)
        return session.capture(singleRequest.build(), enableShutterSound)
      }
      Log.i(TAG, "Locking AF/AE/AWB...")
      // 1. Run precapture sequence
      var needsFlash: Boolean
      try {
        val precaptureRequest = repeatingRequest.createCaptureRequest(device, deviceDetails, repeatingOutputs)
        val skipIfPassivelyFocused = flash == Flash.OFF
        val options = PrecaptureOptions(
          listOf(PrecaptureTrigger.AF, PrecaptureTrigger.AE, PrecaptureTrigger.AWB),
          flash,
          emptyList(),
          skipIfPassivelyFocused,
          PRECAPTURE_LOCK_TIMEOUT
        )
        val result = session.precapture(precaptureRequest, deviceDetails, options)
        needsFlash = result.needsFlash
      } catch (e: CaptureTimedOutError) {
        // the precapture just timed out after 5 seconds, take picture anyways without focus.
        needsFlash = false
      } catch (e: FocusCanceledError) {
        throw CaptureAbortedError(false)
      }
      try {
        // 2. Once precapture AF/AE/AWB successfully locked, capture the actual photo
        val singleRequest = photoRequest.createCaptureRequest(device, deviceDetails, outputs)
        if (needsFlash) {
          singleRequest.set(CaptureRequest.CONTROL_AE_MODE, CaptureRequest.CONTROL_AE_MODE_ON)
          singleRequest.set(CaptureRequest.FLASH_MODE, CaptureRequest.FLASH_MODE_SINGLE)
        }
        return session.capture(singleRequest.build(), enableShutterSound)
      } finally {
        // 3. After taking a photo we set the repeating request back to idle to remove the AE/AF/AWB locks again
        val idleRequest = repeatingRequest.createCaptureRequest(device, deviceDetails, repeatingOutputs)
        session.setRepeatingRequest(idleRequest.build(), null, null)
      }
    }
  }
  suspend fun focus(point: Point) {
    // Cancel any previous focus jobs
    focusJob?.cancel()
    focusJob = null
    mutex.withLock {
      Log.i(TAG, "Focusing to $point...")
      val session = session ?: throw CameraNotReadyError()
      val repeatingRequest = repeatingRequest ?: throw CameraNotReadyError()
      val device = session.device
      val deviceDetails = getOrCreateCameraDeviceDetails(device)
      if (!deviceDetails.supportsFocusRegions) {
        throw FocusNotSupportedError()
      }
      val outputs = outputs.filter { it.isRepeating }
      // 1. Run a precapture sequence for AF, AE and AWB.
      focusJob = coroutineScope.launch {
        val request = repeatingRequest.createCaptureRequest(device, deviceDetails, outputs)
        val options =
          PrecaptureOptions(listOf(PrecaptureTrigger.AF, PrecaptureTrigger.AE), Flash.OFF, listOf(point), false, FOCUS_RESET_TIMEOUT)
        session.precapture(request, deviceDetails, options)
      }
      focusJob?.join()
      // 2. Reset AF/AE/AWB again after 3 seconds timeout
      focusJob = coroutineScope.launch {
        delay(FOCUS_RESET_TIMEOUT)
        if (!this.isActive) {
          // this job got canceled from the outside
          return@launch
        }
        if (!isRunning || this@PersistentCameraCaptureSession.session != session) {
          // the view/session has already been destroyed in the meantime
          return@launch
        }
        Log.i(TAG, "Resetting focus to auto-focus...")
        repeatingRequest.createCaptureRequest(device, deviceDetails, outputs).also { request ->
          session.setRepeatingRequest(request.build(), null, null)
        }
      }
    }
  }
  fun getActiveDeviceDetails(): CameraDeviceDetails? {
    val device = device ?: return null
    return getOrCreateCameraDeviceDetails(device)
  }
  private suspend fun configure() {
    if (didDestroyFromOutside && !isActive) {
      Log.d(TAG, "CameraCaptureSession has been destroyed by Android, skipping configuration until isActive is set to `true` again.")
      return
    }
    Log.d(TAG, "Configure() with isActive: $isActive, ID: $cameraId, device: $device, session: $session")
    val cameraId = cameraId ?: throw NoCameraDeviceError()
    val repeatingRequest = repeatingRequest ?: throw CameraNotReadyError()
    val outputs = outputs
    try {
      didDestroyFromOutside = false
      val device = getOrCreateDevice(cameraId)
      if (didDestroyFromOutside) return
      if (outputs.isEmpty()) return
      val session = getOrCreateSession(device, outputs)
      if (didDestroyFromOutside) return
      if (isActive) {
        Log.d(TAG, "Updating repeating request...")
        val details = getOrCreateCameraDeviceDetails(device)
        val repeatingOutputs = outputs.filter { it.isRepeating }
        val builder = repeatingRequest.createCaptureRequest(device, details, repeatingOutputs)
        session.setRepeatingRequest(builder.build(), null, null)
      } else {
        Log.d(TAG, "Stopping repeating request...")
        session.tryStopRepeating()
      }
      Log.d(TAG, "Configure() done! isActive: $isActive, ID: $cameraId, device: $device, session: $session")
    } catch (e: CameraAccessException) {
      if (didDestroyFromOutside) {
        // Camera device has been destroyed in the meantime, that's fine.
        Log.d(TAG, "Configure() canceled, session has been destroyed in the meantime!")
      } else {
        // Camera should still be active, so not sure what went wrong. Rethrow
        throw e
      }
    }
  }
  private suspend fun getOrCreateDevice(cameraId: String): CameraDevice {
    val currentDevice = device
    if (currentDevice?.id == cameraId && currentDevice.isValid) {
      return currentDevice
    }
    this.session?.tryAbortCaptures()
    this.device?.close()
    this.device = null
    this.session = null
    Log.i(TAG, "Creating new device...")
    val newDevice = cameraManager.openCamera(cameraId, { device, error ->
      Log.i(TAG, "Camera $device closed!")
      if (this.device == device) {
        this.didDestroyFromOutside = true
        this.session?.tryAbortCaptures()
        this.session = null
        this.device = null
        this.isActive = false
      }
      if (error != null) {
        callback.onError(error)
      }
    }, CameraQueues.videoQueue)
    this.device = newDevice
    return newDevice
  }
  private suspend fun getOrCreateSession(device: CameraDevice, outputs: List<SurfaceOutput>): CameraCaptureSession {
    val currentSession = session
    if (currentSession?.device == device) {
      return currentSession
    }
    if (outputs.isEmpty()) throw NoOutputsError()
    Log.i(TAG, "Creating new session...")
    val newSession = device.createCaptureSession(cameraManager, outputs, { session ->
      Log.i(TAG, "Session $session closed!")
      if (this.session == session) {
        this.didDestroyFromOutside = true
        this.session?.tryAbortCaptures()
        this.session = null
        this.isActive = false
      }
    }, CameraQueues.videoQueue)
    session = newSession
    return newSession
  }
  private fun getOrCreateCameraDeviceDetails(device: CameraDevice): CameraDeviceDetails {
    val currentDetails = cameraDeviceDetails
    if (currentDetails?.cameraId == device.id) {
      return currentDetails
    }
    val newDetails = CameraDeviceDetails(cameraManager, device.id)
    cameraDeviceDetails = newDetails
    return newDetails
  }
  interface Callback {
    fun onError(error: Throwable)
  }
  class SessionIsNotLockedError(message: String) : Error(message)
 }
--- a/package/android/src/main/java/com/mrousavy/camera/core/PreviewView.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/core/PreviewView.kt
@ -2,51 +2,111 @@ package com.mrousavy.camera.core
 import android.annotation.SuppressLint
 import android.content.Context
 import android.graphics.Point
 import android.util.Log
 import android.util.Size
 import android.view.Gravity
 import android.view.SurfaceHolder
 import android.view.SurfaceView
 import android.widget.FrameLayout
 import com.facebook.react.bridge.UiThreadUtil
-import com.mrousavy.camera.extensions.getMaximumPreviewSize
+import com.mrousavy.camera.extensions.resize
 import com.mrousavy.camera.extensions.rotatedBy
 import com.mrousavy.camera.types.Orientation
 import com.mrousavy.camera.types.ResizeMode
 import kotlin.math.roundToInt
 import kotlinx.coroutines.Dispatchers
 import kotlinx.coroutines.withContext
@SuppressLint("ViewConstructor")
-class PreviewView(context: Context, callback: SurfaceHolder.Callback) : SurfaceView(context) {
+class PreviewView(context: Context, callback: SurfaceHolder.Callback) :
-  var size: Size = getMaximumPreviewSize()
+  SurfaceView(context),
  SurfaceHolder.Callback {
  var size: Size = CameraDeviceDetails.getMaximumPreviewSize()
    set(value) {
      if (field != value) {
        Log.i(TAG, "Surface Size changed: $field -> $value")
        field = value
-      UiThreadUtil.runOnUiThread {
+        updateLayout()
        Log.i(TAG, "Setting PreviewView Surface Size to $width x $height...")
        holder.setFixedSize(value.height, value.width)
        requestLayout()
        invalidate()
      }
    }
  var resizeMode: ResizeMode = ResizeMode.COVER
    set(value) {
      if (field != value) {
        Log.i(TAG, "Resize Mode changed: $field -> $value")
        field = value
        updateLayout()
      }
    }
  private var inputOrientation: Orientation = Orientation.LANDSCAPE_LEFT
    set(value) {
      if (field != value) {
        Log.i(TAG, "Input Orientation changed: $field -> $value")
        field = value
        updateLayout()
      }
    }
  private val viewSize: Size
    get() {
      val displayMetrics = context.resources.displayMetrics
      val dpX = width / displayMetrics.density
      val dpY = height / displayMetrics.density
      return Size(dpX.toInt(), dpY.toInt())
    }
  init {
    Log.i(TAG, "Creating PreviewView...")
    holder.setKeepScreenOn(true)
    holder.addCallback(this)
    holder.addCallback(callback)
    holder.setFixedSize(size.width, size.height)
  }
  override fun surfaceCreated(holder: SurfaceHolder) = Unit
  override fun surfaceDestroyed(holder: SurfaceHolder) = Unit
  override fun surfaceChanged(holder: SurfaceHolder, format: Int, width: Int, height: Int) {
    size = Size(width, height)
  }
  suspend fun setSurfaceSize(width: Int, height: Int, cameraSensorOrientation: Orientation) {
    withContext(Dispatchers.Main) {
      inputOrientation = cameraSensorOrientation
      holder.resize(width, height)
    }
  }
  fun convertLayerPointToCameraCoordinates(point: Point, cameraDeviceDetails: CameraDeviceDetails): Point {
    val sensorOrientation = cameraDeviceDetails.sensorOrientation
    val cameraSize = Size(cameraDeviceDetails.activeSize.width(), cameraDeviceDetails.activeSize.height())
    val viewOrientation = Orientation.PORTRAIT
    val rotated = point.rotatedBy(viewSize, cameraSize, viewOrientation, sensorOrientation)
    Log.i(TAG, "Converted layer point $point to camera point $rotated! ($sensorOrientation, $cameraSize -> $viewSize)")
    return rotated
  }
  private fun updateLayout() {
    UiThreadUtil.runOnUiThread {
      requestLayout()
      invalidate()
    }
  }
-  init {
+  override fun requestLayout() {
-    Log.i(TAG, "Creating PreviewView...")
+    super.requestLayout()
-    layoutParams = FrameLayout.LayoutParams(
+    // Manually trigger measure & layout, as RN on Android skips those.
-      FrameLayout.LayoutParams.MATCH_PARENT,
+    // See this issue: https://github.com/facebook/react-native/issues/17968#issuecomment-721958427
-      FrameLayout.LayoutParams.MATCH_PARENT,
+    post {
-      Gravity.CENTER
+      measure(MeasureSpec.makeMeasureSpec(width, MeasureSpec.EXACTLY), MeasureSpec.makeMeasureSpec(height, MeasureSpec.EXACTLY))
-    )
+      layout(left, top, right, bottom)
-    holder.addCallback(callback)
+    }
  }
  private fun getSize(contentSize: Size, containerSize: Size, resizeMode: ResizeMode): Size {
    val contentAspectRatio = contentSize.width.toDouble() / contentSize.height
    val containerAspectRatio = containerSize.width.toDouble() / containerSize.height
    if (!(contentAspectRatio > 0 && containerAspectRatio > 0)) {
      // One of the aspect ratios is 0 or NaN, maybe the view hasn't been laid out yet.
      return contentSize
    }
    val widthOverHeight = when (resizeMode) {
      ResizeMode.COVER -> contentAspectRatio > containerAspectRatio
@ -69,9 +129,10 @@ class PreviewView(context: Context, callback: SurfaceHolder.Callback) : SurfaceV
    super.onMeasure(widthMeasureSpec, heightMeasureSpec)
    val viewSize = Size(MeasureSpec.getSize(widthMeasureSpec), MeasureSpec.getSize(heightMeasureSpec))
-    val fittedSize = getSize(size, viewSize, resizeMode)
+    val surfaceSize = size.rotatedBy(inputOrientation)
    val fittedSize = getSize(surfaceSize, viewSize, resizeMode)
-    Log.i(TAG, "PreviewView is $viewSize, rendering $size content. Resizing to: $fittedSize ($resizeMode)")
+    Log.i(TAG, "PreviewView is $viewSize, rendering $surfaceSize content ($inputOrientation). Resizing to: $fittedSize ($resizeMode)")
    setMeasuredDimension(fittedSize.width, fittedSize.height)
  }
--- a/package/android/src/main/java/com/mrousavy/camera/core/VideoPipeline.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/core/VideoPipeline.kt
@ -33,6 +33,7 @@ class VideoPipeline(
  val format: PixelFormat = PixelFormat.NATIVE,
  private val isMirrored: Boolean = false,
  private val enableFrameProcessor: Boolean = false,
  enableGpuBuffers: Boolean = false,
  private val callback: CameraSession.Callback
 ) : SurfaceTexture.OnFrameAvailableListener,
  Closeable {
@ -79,17 +80,25 @@ class VideoPipeline(
      val format = getImageReaderFormat()
      Log.i(TAG, "Using ImageReader round-trip (format: #$format)")
-      if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.Q) {
+      // Create ImageReader
-        Log.i(TAG, "Using API 29 for GPU ImageReader...")
+      if (enableGpuBuffers && Build.VERSION.SDK_INT >= Build.VERSION_CODES.Q) {
        val usageFlags = getRecommendedHardwareBufferFlags()
-        Log.i(TAG, "Using ImageReader flags: $usageFlags")
+        Log.i(TAG, "Creating ImageReader with GPU-optimized usage flags: $usageFlags")
        imageReader = ImageReader.newInstance(width, height, format, MAX_IMAGES, usageFlags)
      } else {
        Log.i(TAG, "Creating ImageReader with default usage flags...")
        imageReader = ImageReader.newInstance(width, height, format, MAX_IMAGES)
      }
      // Create ImageWriter
      if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.Q) {
        Log.i(TAG, "Creating ImageWriter with format #$format...")
        imageWriter = ImageWriter.newInstance(glSurface, MAX_IMAGES, format)
      } else {
-        Log.i(TAG, "Using legacy API for CPU ImageReader...")
+        Log.i(TAG, "Creating ImageWriter with default format...")
        imageReader = ImageReader.newInstance(width, height, format, MAX_IMAGES)
        imageWriter = ImageWriter.newInstance(glSurface, MAX_IMAGES)
      }
      imageReader!!.setOnImageAvailableListener({ reader ->
        // Log.i(TAG, "ImageReader::onImageAvailable!")s
        val image = reader.acquireNextImage() ?: return@setOnImageAvailableListener
@ -107,7 +116,7 @@ class VideoPipeline(
          }
        } catch (e: Throwable) {
          Log.e(TAG, "FrameProcessor/ImageReader pipeline threw an error!", e)
-          throw e
+          callback.onError(e)
        } finally {
          frame.decrementRefCount()
        }
@ -125,8 +134,11 @@ class VideoPipeline(
      isActive = false
      imageWriter?.close()
      imageReader?.close()
      removeRecordingSessionOutputSurface()
      recordingSession = null
      surfaceTexture.setOnFrameAvailableListener(null, null)
      surfaceTexture.release()
      surface.release()
    }
  }
@ -173,7 +185,7 @@ class VideoPipeline(
    synchronized(this) {
      if (recordingSession != null) {
        // Configure OpenGL pipeline to stream Frames into the Recording Session's surface
-        Log.i(TAG, "Setting $width x $height RecordingSession Output...")
+        Log.i(TAG, "Setting ${recordingSession.size} RecordingSession Output...")
        setRecordingSessionOutputSurface(recordingSession.surface)
        this.recordingSession = recordingSession
      } else {
@ -228,7 +240,11 @@ class VideoPipeline(
  @RequiresApi(Build.VERSION_CODES.Q)
  private fun supportsHardwareBufferFlags(flags: Long): Boolean {
    val hardwareBufferFormat = format.toHardwareBufferFormat()
    try {
      return HardwareBuffer.isSupported(width, height, hardwareBufferFormat, 1, flags)
    } catch (_: Throwable) {
      return false
    }
  }
  private external fun getInputTextureId(): Int
--- a/package/android/src/main/java/com/mrousavy/camera/core/capture/CameraCaptureRequest.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/core/capture/CameraCaptureRequest.kt
@ -0,0 +1,88 @@
 package com.mrousavy.camera.core.capture
 import android.hardware.camera2.CameraDevice
 import android.hardware.camera2.CaptureRequest
 import com.mrousavy.camera.core.CameraDeviceDetails
 import com.mrousavy.camera.core.FlashUnavailableError
 import com.mrousavy.camera.core.InvalidVideoHdrError
 import com.mrousavy.camera.core.LowLightBoostNotSupportedError
 import com.mrousavy.camera.core.PropRequiresFormatToBeNonNullError
 import com.mrousavy.camera.core.outputs.SurfaceOutput
 import com.mrousavy.camera.extensions.setZoom
 import com.mrousavy.camera.types.CameraDeviceFormat
 import com.mrousavy.camera.types.Torch
 abstract class CameraCaptureRequest(
  private val torch: Torch = Torch.OFF,
  private val enableVideoHdr: Boolean = false,
  val enableLowLightBoost: Boolean = false,
  val exposureBias: Double? = null,
  val zoom: Float = 1.0f,
  val format: CameraDeviceFormat? = null
 ) {
  enum class Template {
    RECORD,
    PHOTO,
    PHOTO_ZSL,
    PHOTO_SNAPSHOT,
    PREVIEW;
    fun toRequestTemplate(): Int =
      when (this) {
        RECORD -> CameraDevice.TEMPLATE_RECORD
        PHOTO -> CameraDevice.TEMPLATE_STILL_CAPTURE
        PHOTO_ZSL -> CameraDevice.TEMPLATE_ZERO_SHUTTER_LAG
        PHOTO_SNAPSHOT -> CameraDevice.TEMPLATE_VIDEO_SNAPSHOT
        PREVIEW -> CameraDevice.TEMPLATE_PREVIEW
      }
  }
  abstract fun createCaptureRequest(
    device: CameraDevice,
    deviceDetails: CameraDeviceDetails,
    outputs: List<SurfaceOutput>
  ): CaptureRequest.Builder
  protected open fun createCaptureRequest(
    template: Template,
    device: CameraDevice,
    deviceDetails: CameraDeviceDetails,
    outputs: List<SurfaceOutput>
  ): CaptureRequest.Builder {
    val builder = device.createCaptureRequest(template.toRequestTemplate())
    // Add all repeating output surfaces
    outputs.forEach { output ->
      builder.addTarget(output.surface)
    }
    // Set HDR
    if (enableVideoHdr) {
      if (format == null) throw PropRequiresFormatToBeNonNullError("videoHdr")
      if (!format.supportsVideoHdr) throw InvalidVideoHdrError()
      builder.set(CaptureRequest.CONTROL_SCENE_MODE, CaptureRequest.CONTROL_SCENE_MODE_HDR)
      builder.set(CaptureRequest.CONTROL_MODE, CaptureRequest.CONTROL_MODE_USE_SCENE_MODE)
    } else if (enableLowLightBoost) {
      if (!deviceDetails.supportsLowLightBoost) throw LowLightBoostNotSupportedError()
      builder.set(CaptureRequest.CONTROL_SCENE_MODE, CaptureRequest.CONTROL_SCENE_MODE_NIGHT)
      builder.set(CaptureRequest.CONTROL_MODE, CaptureRequest.CONTROL_MODE_USE_SCENE_MODE)
    }
    // Set Exposure Bias
    if (exposureBias != null) {
      val clamped = deviceDetails.exposureRange.clamp(exposureBias.toInt())
      builder.set(CaptureRequest.CONTROL_AE_EXPOSURE_COMPENSATION, clamped)
    }
    // Set Zoom
    builder.setZoom(zoom, deviceDetails)
    // Set Torch
    if (torch == Torch.ON) {
      if (!deviceDetails.hasFlash) throw FlashUnavailableError()
      builder.set(CaptureRequest.FLASH_MODE, CaptureRequest.FLASH_MODE_TORCH)
    }
    return builder
  }
 }
--- a/package/android/src/main/java/com/mrousavy/camera/core/capture/PhotoCaptureRequest.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/core/capture/PhotoCaptureRequest.kt
@ -0,0 +1,149 @@
 package com.mrousavy.camera.core.capture
 import android.hardware.camera2.CameraCharacteristics
 import android.hardware.camera2.CameraDevice
 import android.hardware.camera2.CaptureRequest
 import android.os.Build
 import android.util.Log
 import com.mrousavy.camera.core.CameraDeviceDetails
 import com.mrousavy.camera.core.outputs.SurfaceOutput
 import com.mrousavy.camera.types.HardwareLevel
 import com.mrousavy.camera.types.Orientation
 import com.mrousavy.camera.types.QualityPrioritization
 import com.mrousavy.camera.types.Torch
 class PhotoCaptureRequest(
  repeatingRequest: RepeatingCaptureRequest,
  private val qualityPrioritization: QualityPrioritization,
  private val enableAutoStabilization: Boolean,
  enablePhotoHdr: Boolean,
  private val outputOrientation: Orientation
 ) : CameraCaptureRequest(
  Torch.OFF,
  enablePhotoHdr,
  repeatingRequest.enableLowLightBoost,
  repeatingRequest.exposureBias,
  repeatingRequest.zoom,
  repeatingRequest.format
 ) {
  companion object {
    private const val TAG = "PhotoCaptureRequest"
  }
  override fun createCaptureRequest(
    device: CameraDevice,
    deviceDetails: CameraDeviceDetails,
    outputs: List<SurfaceOutput>
  ): CaptureRequest.Builder {
    val template = when (qualityPrioritization) {
      QualityPrioritization.QUALITY -> Template.PHOTO
      QualityPrioritization.BALANCED -> {
        if (deviceDetails.supportsZsl) {
          Template.PHOTO_ZSL
        } else {
          Template.PHOTO
        }
      }
      QualityPrioritization.SPEED -> {
        if (deviceDetails.supportsSnapshotCapture) {
          Template.PHOTO_SNAPSHOT
        } else if (deviceDetails.supportsZsl) {
          Template.PHOTO_ZSL
        } else {
          Template.PHOTO
        }
      }
    }
    Log.i(TAG, "Using CaptureRequest Template $template...")
    return this.createCaptureRequest(template, device, deviceDetails, outputs)
  }
  override fun createCaptureRequest(
    template: Template,
    device: CameraDevice,
    deviceDetails: CameraDeviceDetails,
    outputs: List<SurfaceOutput>
  ): CaptureRequest.Builder {
    val builder = super.createCaptureRequest(template, device, deviceDetails, outputs)
    // Set various speed vs quality optimization flags
    when (qualityPrioritization) {
      QualityPrioritization.SPEED -> {
        if (deviceDetails.hardwareLevel.isAtLeast(HardwareLevel.FULL)) {
          builder.set(CaptureRequest.COLOR_CORRECTION_MODE, CaptureRequest.COLOR_CORRECTION_MODE_FAST)
          if (deviceDetails.availableEdgeModes.contains(CaptureRequest.EDGE_MODE_FAST)) {
            builder.set(CaptureRequest.EDGE_MODE, CaptureRequest.EDGE_MODE_FAST)
          }
        }
        if (deviceDetails.availableAberrationModes.contains(CaptureRequest.COLOR_CORRECTION_ABERRATION_MODE_FAST)) {
          builder.set(CaptureRequest.COLOR_CORRECTION_ABERRATION_MODE, CaptureRequest.COLOR_CORRECTION_ABERRATION_MODE_FAST)
        }
        if (deviceDetails.availableHotPixelModes.contains(CaptureRequest.HOT_PIXEL_MODE_FAST)) {
          builder.set(CaptureRequest.HOT_PIXEL_MODE, CaptureRequest.HOT_PIXEL_MODE_FAST)
        }
        if (deviceDetails.availableDistortionCorrectionModes.contains(CaptureRequest.DISTORTION_CORRECTION_MODE_FAST) &&
          Build.VERSION.SDK_INT >= Build.VERSION_CODES.P
        ) {
          builder.set(CaptureRequest.DISTORTION_CORRECTION_MODE, CaptureRequest.DISTORTION_CORRECTION_MODE_FAST)
        }
        if (deviceDetails.availableNoiseReductionModes.contains(CaptureRequest.NOISE_REDUCTION_MODE_FAST)) {
          builder.set(CaptureRequest.NOISE_REDUCTION_MODE, CaptureRequest.NOISE_REDUCTION_MODE_FAST)
        }
        if (deviceDetails.availableShadingModes.contains(CaptureRequest.SHADING_MODE_FAST)) {
          builder.set(CaptureRequest.SHADING_MODE, CaptureRequest.SHADING_MODE_FAST)
        }
        if (deviceDetails.availableToneMapModes.contains(CaptureRequest.TONEMAP_MODE_FAST)) {
          builder.set(CaptureRequest.TONEMAP_MODE, CaptureRequest.TONEMAP_MODE_FAST)
        }
        builder.set(CaptureRequest.JPEG_QUALITY, 85)
      }
      QualityPrioritization.BALANCED -> {
        builder.set(CaptureRequest.JPEG_QUALITY, 92)
      }
      QualityPrioritization.QUALITY -> {
        if (deviceDetails.hardwareLevel.isAtLeast(HardwareLevel.FULL)) {
          builder.set(CaptureRequest.COLOR_CORRECTION_MODE, CaptureRequest.COLOR_CORRECTION_MODE_HIGH_QUALITY)
          if (deviceDetails.availableEdgeModes.contains(CaptureRequest.EDGE_MODE_HIGH_QUALITY)) {
            builder.set(CaptureRequest.EDGE_MODE, CaptureRequest.EDGE_MODE_HIGH_QUALITY)
          }
        }
        if (deviceDetails.availableAberrationModes.contains(CaptureRequest.COLOR_CORRECTION_ABERRATION_MODE_HIGH_QUALITY)) {
          builder.set(CaptureRequest.COLOR_CORRECTION_ABERRATION_MODE, CaptureRequest.COLOR_CORRECTION_ABERRATION_MODE_HIGH_QUALITY)
        }
        if (deviceDetails.availableHotPixelModes.contains(CaptureRequest.HOT_PIXEL_MODE_HIGH_QUALITY)) {
          builder.set(CaptureRequest.HOT_PIXEL_MODE, CaptureRequest.HOT_PIXEL_MODE_HIGH_QUALITY)
        }
        if (deviceDetails.availableDistortionCorrectionModes.contains(CaptureRequest.DISTORTION_CORRECTION_MODE_HIGH_QUALITY) &&
          Build.VERSION.SDK_INT >= Build.VERSION_CODES.P
        ) {
          builder.set(CaptureRequest.DISTORTION_CORRECTION_MODE, CaptureRequest.DISTORTION_CORRECTION_MODE_HIGH_QUALITY)
        }
        if (deviceDetails.availableNoiseReductionModes.contains(CaptureRequest.NOISE_REDUCTION_MODE_HIGH_QUALITY)) {
          builder.set(CaptureRequest.NOISE_REDUCTION_MODE, CaptureRequest.NOISE_REDUCTION_MODE_HIGH_QUALITY)
        }
        if (deviceDetails.availableShadingModes.contains(CaptureRequest.SHADING_MODE_HIGH_QUALITY)) {
          builder.set(CaptureRequest.SHADING_MODE, CaptureRequest.SHADING_MODE_HIGH_QUALITY)
        }
        if (deviceDetails.availableToneMapModes.contains(CaptureRequest.TONEMAP_MODE_HIGH_QUALITY)) {
          builder.set(CaptureRequest.TONEMAP_MODE, CaptureRequest.TONEMAP_MODE_HIGH_QUALITY)
        }
        builder.set(CaptureRequest.JPEG_QUALITY, 100)
      }
    }
    // Set JPEG Orientation
    val targetOrientation = outputOrientation.toSensorRelativeOrientation(deviceDetails)
    builder.set(CaptureRequest.JPEG_ORIENTATION, targetOrientation.toDegrees())
    // Set stabilization for this Frame
    if (enableAutoStabilization) {
      if (deviceDetails.opticalStabilizationModes.contains(CameraCharacteristics.LENS_OPTICAL_STABILIZATION_MODE_ON)) {
        builder.set(CaptureRequest.LENS_OPTICAL_STABILIZATION_MODE, CameraCharacteristics.LENS_OPTICAL_STABILIZATION_MODE_ON)
      } else if (deviceDetails.digitalStabilizationModes.contains(CameraCharacteristics.CONTROL_VIDEO_STABILIZATION_MODE_ON)) {
        builder.set(CaptureRequest.CONTROL_VIDEO_STABILIZATION_MODE, CaptureRequest.CONTROL_VIDEO_STABILIZATION_MODE_ON)
      }
    }
    return builder
  }
 }
--- a/package/android/src/main/java/com/mrousavy/camera/core/capture/RepeatingCaptureRequest.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/core/capture/RepeatingCaptureRequest.kt
@ -0,0 +1,113 @@
 package com.mrousavy.camera.core.capture
 import android.hardware.camera2.CameraCharacteristics
 import android.hardware.camera2.CameraDevice
 import android.hardware.camera2.CaptureRequest
 import android.os.Build
 import android.util.Range
 import com.mrousavy.camera.core.CameraDeviceDetails
 import com.mrousavy.camera.core.InvalidFpsError
 import com.mrousavy.camera.core.InvalidVideoStabilizationMode
 import com.mrousavy.camera.core.PropRequiresFormatToBeNonNullError
 import com.mrousavy.camera.core.outputs.SurfaceOutput
 import com.mrousavy.camera.types.CameraDeviceFormat
 import com.mrousavy.camera.types.HardwareLevel
 import com.mrousavy.camera.types.Torch
 import com.mrousavy.camera.types.VideoStabilizationMode
 class RepeatingCaptureRequest(
  private val enableVideoPipeline: Boolean,
  torch: Torch = Torch.OFF,
  private val fps: Int? = null,
  private val videoStabilizationMode: VideoStabilizationMode = VideoStabilizationMode.OFF,
  enableVideoHdr: Boolean = false,
  enableLowLightBoost: Boolean = false,
  exposureBias: Double? = null,
  zoom: Float = 1.0f,
  format: CameraDeviceFormat? = null
 ) : CameraCaptureRequest(torch, enableVideoHdr, enableLowLightBoost, exposureBias, zoom, format) {
  override fun createCaptureRequest(
    device: CameraDevice,
    deviceDetails: CameraDeviceDetails,
    outputs: List<SurfaceOutput>
  ): CaptureRequest.Builder {
    val template = if (enableVideoPipeline) Template.RECORD else Template.PREVIEW
    return this.createCaptureRequest(template, device, deviceDetails, outputs)
  }
  private fun getBestDigitalStabilizationMode(deviceDetails: CameraDeviceDetails): Int {
    if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.TIRAMISU) {
      if (deviceDetails.digitalStabilizationModes.contains(CameraCharacteristics.CONTROL_VIDEO_STABILIZATION_MODE_PREVIEW_STABILIZATION)) {
        return CameraCharacteristics.CONTROL_VIDEO_STABILIZATION_MODE_PREVIEW_STABILIZATION
      }
    }
    return CameraCharacteristics.CONTROL_VIDEO_STABILIZATION_MODE_ON
  }
  override fun createCaptureRequest(
    template: Template,
    device: CameraDevice,
    deviceDetails: CameraDeviceDetails,
    outputs: List<SurfaceOutput>
  ): CaptureRequest.Builder {
    val builder = super.createCaptureRequest(template, device, deviceDetails, outputs)
    if (deviceDetails.modes.contains(CameraCharacteristics.CONTROL_MODE_AUTO)) {
      builder.set(CaptureRequest.CONTROL_MODE, CaptureRequest.CONTROL_MODE_AUTO)
    }
    // Set AF
    if (enableVideoPipeline && deviceDetails.afModes.contains(CameraCharacteristics.CONTROL_AF_MODE_CONTINUOUS_VIDEO)) {
      builder.set(CaptureRequest.CONTROL_AF_MODE, CaptureRequest.CONTROL_AF_MODE_CONTINUOUS_VIDEO)
    } else if (deviceDetails.afModes.contains(CameraCharacteristics.CONTROL_AF_MODE_CONTINUOUS_PICTURE)) {
      builder.set(CaptureRequest.CONTROL_AF_MODE, CaptureRequest.CONTROL_AF_MODE_CONTINUOUS_PICTURE)
    } else if (deviceDetails.afModes.contains(CameraCharacteristics.CONTROL_AF_MODE_AUTO)) {
      builder.set(CaptureRequest.CONTROL_AF_MODE, CaptureRequest.CONTROL_AF_MODE_AUTO)
    } else if (deviceDetails.afModes.contains(CameraCharacteristics.CONTROL_AF_MODE_OFF)) {
      builder.set(CaptureRequest.CONTROL_AF_MODE, CaptureRequest.CONTROL_AF_MODE_OFF)
      builder.set(CaptureRequest.LENS_FOCUS_DISTANCE, 0f)
    }
    // Set AE
    if (deviceDetails.aeModes.contains(CameraCharacteristics.CONTROL_AE_MODE_ON)) {
      builder.set(CaptureRequest.CONTROL_AE_MODE, CaptureRequest.CONTROL_AE_MODE_ON)
    } else if (deviceDetails.aeModes.contains(CameraCharacteristics.CONTROL_AE_MODE_OFF)) {
      builder.set(CaptureRequest.CONTROL_AE_MODE, CaptureRequest.CONTROL_AE_MODE_OFF)
    }
    // Set AWB
    if (deviceDetails.awbModes.contains(CameraCharacteristics.CONTROL_AWB_MODE_AUTO)) {
      builder.set(CaptureRequest.CONTROL_AWB_MODE, CaptureRequest.CONTROL_AWB_MODE_AUTO)
    }
    // Set FPS
    if (fps != null) {
      if (format == null) throw PropRequiresFormatToBeNonNullError("fps")
      if (format.maxFps < fps) throw InvalidFpsError(fps)
      builder.set(CaptureRequest.CONTROL_AE_TARGET_FPS_RANGE, Range(fps, fps))
    }
    // Set Video Stabilization
    if (videoStabilizationMode != VideoStabilizationMode.OFF) {
      if (format == null) throw PropRequiresFormatToBeNonNullError("videoStabilizationMode")
      if (!format.videoStabilizationModes.contains(videoStabilizationMode)) {
        throw InvalidVideoStabilizationMode(videoStabilizationMode)
      }
      when (videoStabilizationMode) {
        VideoStabilizationMode.STANDARD -> {
          builder.set(CaptureRequest.CONTROL_VIDEO_STABILIZATION_MODE, getBestDigitalStabilizationMode(deviceDetails))
        }
        VideoStabilizationMode.CINEMATIC, VideoStabilizationMode.CINEMATIC_EXTENDED -> {
          if (deviceDetails.hardwareLevel.isAtLeast(HardwareLevel.LIMITED)) {
            builder.set(CaptureRequest.LENS_OPTICAL_STABILIZATION_MODE, CaptureRequest.LENS_OPTICAL_STABILIZATION_MODE_ON)
          } else {
            builder.set(CaptureRequest.CONTROL_VIDEO_STABILIZATION_MODE, getBestDigitalStabilizationMode(deviceDetails))
          }
        }
        else -> throw InvalidVideoStabilizationMode(videoStabilizationMode)
      }
    }
    return builder
  }
 }
--- a/package/android/src/main/java/com/mrousavy/camera/core/outputs/SurfaceOutput.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/core/outputs/SurfaceOutput.kt
@ -10,13 +10,7 @@ import android.view.Surface
 import androidx.annotation.RequiresApi
 import java.io.Closeable
-open class SurfaceOutput(
+open class SurfaceOutput(val surface: Surface, val size: Size, val outputType: OutputType, val enableHdr: Boolean = false) : Closeable {
  val surface: Surface,
  val size: Size,
  val outputType: OutputType,
  val enableHdr: Boolean = false,
  private val closeSurfaceOnEnd: Boolean = false
 ) : Closeable {
  companion object {
    const val TAG = "SurfaceOutput"
@ -52,12 +46,18 @@ open class SurfaceOutput(
    return result
  }
  val isRepeating: Boolean
    get() {
      return when (outputType) {
        OutputType.VIDEO, OutputType.PREVIEW, OutputType.VIDEO_AND_PREVIEW -> true
        OutputType.PHOTO -> false
      }
    }
  override fun toString(): String = "$outputType (${size.width} x ${size.height})"
  override fun close() {
-    if (closeSurfaceOnEnd) {
+    // close() does nothing by default
      surface.release()
    }
  }
  enum class OutputType {
--- a/package/android/src/main/java/com/mrousavy/camera/extensions/CameraCaptureSession+capture.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/extensions/CameraCaptureSession+capture.kt
@ -5,38 +5,60 @@ import android.hardware.camera2.CaptureFailure
 import android.hardware.camera2.CaptureRequest
 import android.hardware.camera2.TotalCaptureResult
 import android.media.MediaActionSound
-import com.mrousavy.camera.core.CameraQueues
+import android.util.Log
 import com.mrousavy.camera.core.CaptureAbortedError
 import com.mrousavy.camera.core.CaptureTimedOutError
 import com.mrousavy.camera.core.UnknownCaptureError
 import kotlin.coroutines.resume
 import kotlin.coroutines.resumeWithException
-import kotlin.coroutines.suspendCoroutine
+import kotlinx.coroutines.CoroutineScope
 import kotlinx.coroutines.Dispatchers
 import kotlinx.coroutines.delay
 import kotlinx.coroutines.launch
 import kotlinx.coroutines.suspendCancellableCoroutine
 private const val TAG = "CameraCaptureSession"
 suspend fun CameraCaptureSession.capture(captureRequest: CaptureRequest, enableShutterSound: Boolean): TotalCaptureResult =
-  suspendCoroutine { continuation ->
+  suspendCancellableCoroutine { continuation ->
    val shutterSound = if (enableShutterSound) MediaActionSound() else null
    shutterSound?.load(MediaActionSound.SHUTTER_CLICK)
    CoroutineScope(Dispatchers.Default).launch {
      delay(5000) // after 5s, cancel capture
      if (continuation.isActive) {
        Log.e(TAG, "Capture timed out after 5 seconds!")
        continuation.resumeWithException(CaptureTimedOutError())
        tryAbortCaptures()
      }
    }
    this.capture(
      captureRequest,
      object : CameraCaptureSession.CaptureCallback() {
        override fun onCaptureCompleted(session: CameraCaptureSession, request: CaptureRequest, result: TotalCaptureResult) {
          super.onCaptureCompleted(session, request, result)
          if (request == captureRequest) {
            continuation.resume(result)
            shutterSound?.release()
          }
        }
        override fun onCaptureStarted(session: CameraCaptureSession, request: CaptureRequest, timestamp: Long, frameNumber: Long) {
          super.onCaptureStarted(session, request, timestamp, frameNumber)
          if (request == captureRequest) {
            if (enableShutterSound) {
              shutterSound?.play(MediaActionSound.SHUTTER_CLICK)
            }
          }
        }
        override fun onCaptureFailed(session: CameraCaptureSession, request: CaptureRequest, failure: CaptureFailure) {
          super.onCaptureFailed(session, request, failure)
          if (request == captureRequest) {
            val wasImageCaptured = failure.wasImageCaptured()
            val error = when (failure.reason) {
              CaptureFailure.REASON_ERROR -> UnknownCaptureError(wasImageCaptured)
@ -45,7 +67,8 @@ suspend fun CameraCaptureSession.capture(captureRequest: CaptureRequest, enableS
            }
            continuation.resumeWithException(error)
          }
        }
      },
-      CameraQueues.cameraQueue.handler
+      null
    )
  }
--- a/package/android/src/main/java/com/mrousavy/camera/extensions/CameraCaptureSession+precapture.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/extensions/CameraCaptureSession+precapture.kt
@ -0,0 +1,151 @@
 package com.mrousavy.camera.extensions
 import android.graphics.Point
 import android.hardware.camera2.CameraCaptureSession
 import android.hardware.camera2.CaptureRequest
 import android.hardware.camera2.CaptureResult
 import android.hardware.camera2.params.MeteringRectangle
 import android.util.Log
 import android.util.Size
 import com.mrousavy.camera.core.CameraDeviceDetails
 import com.mrousavy.camera.core.FocusCanceledError
 import com.mrousavy.camera.types.Flash
 import com.mrousavy.camera.types.HardwareLevel
 import kotlin.coroutines.coroutineContext
 import kotlinx.coroutines.isActive
 data class PrecaptureOptions(
  val modes: List<PrecaptureTrigger>,
  val flash: Flash = Flash.OFF,
  val pointsOfInterest: List<Point>,
  val skipIfPassivelyFocused: Boolean,
  val timeoutMs: Long
 )
 data class PrecaptureResult(val needsFlash: Boolean)
 private const val TAG = "Precapture"
 private val DEFAULT_METERING_SIZE = Size(100, 100)
 /**
 * Run a precapture sequence to trigger an AF, AE or AWB scan and lock to the optimal values.
 * After this function completes, you can capture high quality photos as AF/AE/AWB are in focused state.
 *
 * To reset to auto-focus again, create a new `RepeatingRequest` with a fresh set of CONTROL_MODEs set.
 */
 suspend fun CameraCaptureSession.precapture(
  request: CaptureRequest.Builder,
  deviceDetails: CameraDeviceDetails,
  options: PrecaptureOptions
 ): PrecaptureResult {
  Log.i(TAG, "Running precapture sequence... ($options)")
  request.set(CaptureRequest.CONTROL_MODE, CaptureRequest.CONTROL_MODE_AUTO)
  var enableFlash = options.flash == Flash.ON
  var afState = FocusState.Inactive
  var aeState = ExposureState.Inactive
  var awbState = WhiteBalanceState.Inactive
  val precaptureModes = options.modes.toMutableList()
  // 1. Cancel any ongoing precapture sequences
  request.set(CaptureRequest.CONTROL_AF_TRIGGER, CaptureRequest.CONTROL_AF_TRIGGER_CANCEL)
  request.set(CaptureRequest.CONTROL_AE_PRECAPTURE_TRIGGER, CaptureRequest.CONTROL_AE_PRECAPTURE_TRIGGER_CANCEL)
  if (options.flash == Flash.AUTO || options.skipIfPassivelyFocused) {
    // We want to read the current AE/AF/AWB values to determine if we need flash or can skip AF/AE/AWB precapture
    val result = this.capture(request.build(), false)
    afState = FocusState.fromAFState(result.get(CaptureResult.CONTROL_AF_STATE) ?: CaptureResult.CONTROL_AF_STATE_INACTIVE)
    aeState = ExposureState.fromAEState(result.get(CaptureResult.CONTROL_AE_STATE) ?: CaptureResult.CONTROL_AE_STATE_INACTIVE)
    awbState = WhiteBalanceState.fromAWBState(result.get(CaptureResult.CONTROL_AWB_STATE) ?: CaptureResult.CONTROL_AWB_STATE_INACTIVE)
    Log.i(TAG, "Precapture current states: AF: $afState, AE: $aeState, AWB: $awbState")
    enableFlash = aeState == ExposureState.FlashRequired && options.flash == Flash.AUTO
  } else {
    // we either want Flash ON or OFF, so we don't care about lighting conditions - do a fast capture.
    this.capture(request.build(), null, null)
  }
  if (!coroutineContext.isActive) throw FocusCanceledError()
  val meteringWeight = MeteringRectangle.METERING_WEIGHT_MAX - 1
  val meteringRectangles = options.pointsOfInterest.map { point ->
    MeteringRectangle(point, DEFAULT_METERING_SIZE, meteringWeight)
  }.toTypedArray()
  if (options.skipIfPassivelyFocused) {
    // If user allows us to skip precapture for values that are already focused, remove them from the precapture modes.
    if (afState.isPassivelyFocused) {
      Log.i(TAG, "AF is already focused, skipping...")
      precaptureModes.remove(PrecaptureTrigger.AF)
    }
    if (aeState.isPassivelyFocused) {
      Log.i(TAG, "AE is already focused, skipping...")
      precaptureModes.remove(PrecaptureTrigger.AE)
    }
    if (awbState.isPassivelyFocused) {
      Log.i(TAG, "AWB is already focused, skipping...")
      precaptureModes.remove(PrecaptureTrigger.AWB)
    }
  }
  // 2. Submit a precapture start sequence
  if (enableFlash && deviceDetails.hasFlash) {
    request.set(CaptureRequest.FLASH_MODE, CaptureRequest.FLASH_MODE_TORCH)
  }
  if (precaptureModes.contains(PrecaptureTrigger.AF)) {
    // AF Precapture
    if (deviceDetails.afModes.contains(CaptureRequest.CONTROL_AF_MODE_AUTO)) {
      request.set(CaptureRequest.CONTROL_AF_MODE, CaptureRequest.CONTROL_AF_MODE_AUTO)
      request.set(CaptureRequest.CONTROL_AF_TRIGGER, CaptureRequest.CONTROL_AF_TRIGGER_START)
      if (meteringRectangles.isNotEmpty() && deviceDetails.supportsFocusRegions) {
        request.set(CaptureRequest.CONTROL_AF_REGIONS, meteringRectangles)
      }
    } else {
      // AF is not supported on this device.
      precaptureModes.remove(PrecaptureTrigger.AF)
    }
  }
  if (precaptureModes.contains(PrecaptureTrigger.AE)) {
    // AE Precapture
    if (deviceDetails.aeModes.contains(CaptureRequest.CONTROL_AE_MODE_ON) && deviceDetails.hardwareLevel.isAtLeast(HardwareLevel.LIMITED)) {
      request.set(CaptureRequest.CONTROL_AE_MODE, CaptureRequest.CONTROL_AE_MODE_ON)
      request.set(CaptureRequest.CONTROL_AE_PRECAPTURE_TRIGGER, CaptureRequest.CONTROL_AE_PRECAPTURE_TRIGGER_START)
      if (meteringRectangles.isNotEmpty() &&
        deviceDetails.supportsExposureRegions &&
        deviceDetails.hardwareLevel.isAtLeast(HardwareLevel.LIMITED)
      ) {
        request.set(CaptureRequest.CONTROL_AE_REGIONS, meteringRectangles)
      }
    } else {
      // AE is not supported on this device.
      precaptureModes.remove(PrecaptureTrigger.AE)
    }
  }
  if (precaptureModes.contains(PrecaptureTrigger.AWB)) {
    // AWB Precapture
    if (deviceDetails.awbModes.contains(CaptureRequest.CONTROL_AWB_MODE_AUTO)) {
      request.set(CaptureRequest.CONTROL_AWB_MODE, CaptureRequest.CONTROL_AWB_MODE_AUTO)
      if (meteringRectangles.isNotEmpty() && deviceDetails.supportsWhiteBalanceRegions) {
        request.set(CaptureRequest.CONTROL_AWB_REGIONS, meteringRectangles)
      }
    } else {
      // AWB is not supported on this device.
      precaptureModes.remove(PrecaptureTrigger.AWB)
    }
  }
  this.capture(request.build(), null, null)
  if (!coroutineContext.isActive) throw FocusCanceledError()
  // 3. Start a repeating request without the trigger and wait until AF/AE/AWB locks
  request.set(CaptureRequest.CONTROL_AF_TRIGGER, null)
  request.set(CaptureRequest.CONTROL_AE_PRECAPTURE_TRIGGER, null)
  val result = this.setRepeatingRequestAndWaitForPrecapture(request.build(), options.timeoutMs, *precaptureModes.toTypedArray())
  if (!coroutineContext.isActive) throw FocusCanceledError()
  Log.i(TAG, "AF/AE/AWB successfully locked!")
  val needsFlash = result.exposureState == ExposureState.FlashRequired
  return PrecaptureResult(needsFlash)
 }
--- a/package/android/src/main/java/com/mrousavy/camera/extensions/CameraCaptureSession+setRepeatingRequestAndWaitForPrecapture.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/extensions/CameraCaptureSession+setRepeatingRequestAndWaitForPrecapture.kt
@ -0,0 +1,193 @@
 package com.mrousavy.camera.extensions
 import android.hardware.camera2.CameraCaptureSession
 import android.hardware.camera2.CaptureFailure
 import android.hardware.camera2.CaptureRequest
 import android.hardware.camera2.CaptureResult
 import android.hardware.camera2.TotalCaptureResult
 import android.util.Log
 import com.mrousavy.camera.core.CaptureAbortedError
 import com.mrousavy.camera.core.CaptureTimedOutError
 import kotlin.coroutines.resume
 import kotlin.coroutines.resumeWithException
 import kotlinx.coroutines.CoroutineScope
 import kotlinx.coroutines.Dispatchers
 import kotlinx.coroutines.delay
 import kotlinx.coroutines.launch
 import kotlinx.coroutines.suspendCancellableCoroutine
 private const val TAG = "CameraCaptureSession"
 enum class PrecaptureTrigger {
  AE,
  AF,
  AWB
 }
 interface AutoState {
  val isCompleted: Boolean
  val isPassivelyFocused: Boolean
 }
 enum class FocusState : AutoState {
  Unknown,
  Inactive,
  Scanning,
  Focused,
  Unfocused,
  PassiveScanning,
  PassiveFocused,
  PassiveUnfocused;
  override val isCompleted: Boolean
    get() = this == Focused || this == Unfocused
  override val isPassivelyFocused: Boolean
    get() = this == PassiveFocused
  companion object {
    fun fromAFState(afState: Int): FocusState =
      when (afState) {
        CaptureResult.CONTROL_AF_STATE_INACTIVE -> Inactive
        CaptureResult.CONTROL_AF_STATE_ACTIVE_SCAN -> Scanning
        CaptureResult.CONTROL_AF_STATE_FOCUSED_LOCKED -> Focused
        CaptureResult.CONTROL_AF_STATE_NOT_FOCUSED_LOCKED -> Unfocused
        CaptureResult.CONTROL_AF_STATE_PASSIVE_SCAN -> PassiveScanning
        CaptureResult.CONTROL_AF_STATE_PASSIVE_FOCUSED -> PassiveFocused
        CaptureResult.CONTROL_AF_STATE_PASSIVE_UNFOCUSED -> PassiveUnfocused
        else -> Unknown
      }
  }
 }
 enum class ExposureState : AutoState {
  Unknown,
  Locked,
  Inactive,
  Precapture,
  Searching,
  Converged,
  FlashRequired;
  override val isCompleted: Boolean
    get() = this == Converged || this == FlashRequired
  override val isPassivelyFocused: Boolean
    get() = this == Converged
  companion object {
    fun fromAEState(aeState: Int): ExposureState =
      when (aeState) {
        CaptureResult.CONTROL_AE_STATE_INACTIVE -> Inactive
        CaptureResult.CONTROL_AE_STATE_SEARCHING -> Searching
        CaptureResult.CONTROL_AE_STATE_PRECAPTURE -> Precapture
        CaptureResult.CONTROL_AE_STATE_CONVERGED -> Converged
        CaptureResult.CONTROL_AE_STATE_FLASH_REQUIRED -> FlashRequired
        CaptureResult.CONTROL_AE_STATE_LOCKED -> Locked
        else -> Unknown
      }
  }
 }
 enum class WhiteBalanceState : AutoState {
  Unknown,
  Inactive,
  Locked,
  Searching,
  Converged;
  override val isCompleted: Boolean
    get() = this == Converged
  override val isPassivelyFocused: Boolean
    get() = this == Converged
  companion object {
    fun fromAWBState(awbState: Int): WhiteBalanceState =
      when (awbState) {
        CaptureResult.CONTROL_AWB_STATE_INACTIVE -> Inactive
        CaptureResult.CONTROL_AWB_STATE_SEARCHING -> Searching
        CaptureResult.CONTROL_AWB_STATE_CONVERGED -> Converged
        CaptureResult.CONTROL_AWB_STATE_LOCKED -> Locked
        else -> Unknown
      }
  }
 }
 data class ResultState(val focusState: FocusState, val exposureState: ExposureState, val whiteBalanceState: WhiteBalanceState)
 /**
 * Set a new repeating request for the [CameraCaptureSession] that contains a precapture trigger, and wait until the given precaptures have locked.
 */
 suspend fun CameraCaptureSession.setRepeatingRequestAndWaitForPrecapture(
  request: CaptureRequest,
  timeoutMs: Long,
  vararg precaptureTriggers: PrecaptureTrigger
 ): ResultState =
  suspendCancellableCoroutine { continuation ->
    // Map<PrecaptureTrigger, Boolean> of all completed precaptures
    val completed = precaptureTriggers.associateWith { false }.toMutableMap()
    CoroutineScope(Dispatchers.Default).launch {
      delay(timeoutMs) // after timeout, cancel capture
      if (continuation.isActive) {
        Log.e(TAG, "Precapture timed out after ${timeoutMs / 1000} seconds!")
        continuation.resumeWithException(CaptureTimedOutError())
        try {
          setRepeatingRequest(request, null, null)
        } catch (e: Throwable) {
          // session might have already been closed
          Log.e(TAG, "Error resetting session repeating request..", e)
        }
      }
    }
    this.setRepeatingRequest(
      request,
      object : CameraCaptureSession.CaptureCallback() {
        override fun onCaptureCompleted(session: CameraCaptureSession, request: CaptureRequest, result: TotalCaptureResult) {
          super.onCaptureCompleted(session, request, result)
          if (continuation.isActive) {
            val afState = FocusState.fromAFState(result.get(CaptureResult.CONTROL_AF_STATE) ?: CaptureResult.CONTROL_AF_STATE_INACTIVE)
            val aeState = ExposureState.fromAEState(
              result.get(CaptureResult.CONTROL_AE_STATE) ?: CaptureResult.CONTROL_AE_STATE_INACTIVE
            )
            val awbState = WhiteBalanceState.fromAWBState(
              result.get(CaptureResult.CONTROL_AWB_STATE) ?: CaptureResult.CONTROL_AWB_STATE_INACTIVE
            )
            Log.i(TAG, "Precapture state: AF: $afState, AE: $aeState, AWB: $awbState")
            // AF Precapture
            if (precaptureTriggers.contains(PrecaptureTrigger.AF)) {
              completed[PrecaptureTrigger.AF] = afState.isCompleted
            }
            // AE Precapture
            if (precaptureTriggers.contains(PrecaptureTrigger.AE)) {
              completed[PrecaptureTrigger.AE] = aeState.isCompleted
            }
            // AWB Precapture
            if (precaptureTriggers.contains(PrecaptureTrigger.AWB)) {
              completed[PrecaptureTrigger.AWB] = awbState.isCompleted
            }
            if (completed.values.all { it == true }) {
              // All precaptures did complete!
              continuation.resume(ResultState(afState, aeState, awbState))
              session.setRepeatingRequest(request, null, null)
            }
          }
        }
        override fun onCaptureFailed(session: CameraCaptureSession, request: CaptureRequest, failure: CaptureFailure) {
          super.onCaptureFailed(session, request, failure)
          if (continuation.isActive) {
            // Capture failed or session closed.
            continuation.resumeWithException(CaptureAbortedError(failure.wasImageCaptured()))
            try {
              session.setRepeatingRequest(request, null, null)
            } catch (e: Throwable) {
              Log.e(TAG, "Failed to continue repeating request!", e)
            }
          }
        }
      },
      null
    )
  }
--- a/package/android/src/main/java/com/mrousavy/camera/extensions/CameraCaptureSession+tryAbortCaptures.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/extensions/CameraCaptureSession+tryAbortCaptures.kt
@ -0,0 +1,9 @@
 package com.mrousavy.camera.extensions
 import android.hardware.camera2.CameraCaptureSession
 fun CameraCaptureSession.tryAbortCaptures() {
  try {
    abortCaptures()
  } catch (_: Throwable) {}
 }
--- a/package/android/src/main/java/com/mrousavy/camera/extensions/CameraCaptureSession+tryStopRepeating.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/extensions/CameraCaptureSession+tryStopRepeating.kt
@ -0,0 +1,9 @@
 package com.mrousavy.camera.extensions
 import android.hardware.camera2.CameraCaptureSession
 fun CameraCaptureSession.tryStopRepeating() {
  try {
    stopRepeating()
  } catch (_: Throwable) {}
 }
--- a/package/android/src/main/java/com/mrousavy/camera/extensions/CameraCharacteristics+getOutputSizes.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/extensions/CameraCharacteristics+getOutputSizes.kt
@ -1,39 +1,13 @@
 package com.mrousavy.camera.extensions
 import android.hardware.camera2.CameraCharacteristics
 import android.media.CamcorderProfile
 import android.os.Build
 import android.util.Size
-
+import com.mrousavy.camera.utils.CamcorderProfileUtils
 private fun getMaximumVideoSize(cameraId: String): Size? {
  try {
    if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.S) {
      val profiles = CamcorderProfile.getAll(cameraId, CamcorderProfile.QUALITY_HIGH)
      if (profiles != null) {
        val largestProfile = profiles.videoProfiles.filterNotNull().maxByOrNull { it.width * it.height }
        if (largestProfile != null) {
          return Size(largestProfile.width, largestProfile.height)
        }
      }
    }
    val cameraIdInt = cameraId.toIntOrNull()
    if (cameraIdInt != null) {
      val profile = CamcorderProfile.get(cameraIdInt, CamcorderProfile.QUALITY_HIGH)
      return Size(profile.videoFrameWidth, profile.videoFrameHeight)
    }
    return null
  } catch (e: Throwable) {
    // some Samsung phones just crash when trying to get the CamcorderProfile. Only god knows why.
    return null
  }
 }
 fun CameraCharacteristics.getVideoSizes(cameraId: String, format: Int): List<Size> {
  val config = this.get(CameraCharacteristics.SCALER_STREAM_CONFIGURATION_MAP)!!
  val sizes = config.getOutputSizes(format) ?: emptyArray()
-  val maxVideoSize = getMaximumVideoSize(cameraId)
+  val maxVideoSize = CamcorderProfileUtils.getMaximumVideoSize(cameraId)
  if (maxVideoSize != null) {
    return sizes.filter { it.bigger <= maxVideoSize.bigger }
  }
--- a/package/android/src/main/java/com/mrousavy/camera/extensions/CameraCharacteristics+getPreviewSize.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/extensions/CameraCharacteristics+getPreviewSize.kt
@ -1,29 +0,0 @@
 package com.mrousavy.camera.extensions
 import android.content.res.Resources
 import android.hardware.camera2.CameraCharacteristics
 import android.util.Size
 import android.view.SurfaceHolder
 fun getMaximumPreviewSize(): Size {
  // See https://developer.android.com/reference/android/hardware/camera2/params/StreamConfigurationMap
  // According to the Android Developer documentation, PREVIEW streams can have a resolution
  // of up to the phone's display's resolution, with a maximum of 1920x1080.
  val display1080p = Size(1080, 1920)
  val displaySize = Size(
    Resources.getSystem().displayMetrics.widthPixels,
    Resources.getSystem().displayMetrics.heightPixels
  )
  val isHighResScreen = displaySize.bigger >= display1080p.bigger || displaySize.smaller >= display1080p.smaller
  return if (isHighResScreen) display1080p else displaySize
 }
 fun CameraCharacteristics.getPreviewTargetSize(targetSize: Size?): Size {
  val config = this.get(CameraCharacteristics.SCALER_STREAM_CONFIGURATION_MAP)!!
  val maximumPreviewSize = getMaximumPreviewSize()
  val outputSizes = config.getOutputSizes(SurfaceHolder::class.java)
    .filter { it.bigger <= maximumPreviewSize.bigger && it.smaller <= maximumPreviewSize.smaller }
  return outputSizes.closestToOrMax(targetSize)
 }
--- a/package/android/src/main/java/com/mrousavy/camera/extensions/CameraDevice+createPhotoCaptureRequest.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/extensions/CameraDevice+createPhotoCaptureRequest.kt
@ -1,104 +0,0 @@
 package com.mrousavy.camera.extensions
 import android.hardware.camera2.CameraCharacteristics
 import android.hardware.camera2.CameraDevice
 import android.hardware.camera2.CameraManager
 import android.hardware.camera2.CaptureRequest
 import android.view.Surface
 import com.mrousavy.camera.types.Flash
 import com.mrousavy.camera.types.Orientation
 import com.mrousavy.camera.types.QualityPrioritization
 private fun supportsSnapshotCapture(cameraCharacteristics: CameraCharacteristics): Boolean {
  // As per CameraDevice.TEMPLATE_VIDEO_SNAPSHOT in documentation:
  val hardwareLevel = cameraCharacteristics.get(CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL)!!
  if (hardwareLevel == CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL_LEGACY) return false
  val capabilities = cameraCharacteristics.get(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES)!!
  val hasDepth = capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_DEPTH_OUTPUT)
  val isBackwardsCompatible = !capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_BACKWARD_COMPATIBLE)
  if (hasDepth && !isBackwardsCompatible) return false
  return true
 }
 fun CameraDevice.createPhotoCaptureRequest(
  cameraManager: CameraManager,
  surface: Surface,
  zoom: Float,
  qualityPrioritization: QualityPrioritization,
  flashMode: Flash,
  enableRedEyeReduction: Boolean,
  enableAutoStabilization: Boolean,
  enableHdr: Boolean,
  orientation: Orientation
 ): CaptureRequest {
  val cameraCharacteristics = cameraManager.getCameraCharacteristics(this.id)
  val template = if (qualityPrioritization == QualityPrioritization.SPEED && supportsSnapshotCapture(cameraCharacteristics)) {
    CameraDevice.TEMPLATE_VIDEO_SNAPSHOT
  } else {
    CameraDevice.TEMPLATE_STILL_CAPTURE
  }
  val captureRequest = this.createCaptureRequest(template)
  captureRequest.addTarget(surface)
  // TODO: Maybe we can even expose that prop directly?
  val jpegQuality = when (qualityPrioritization) {
    QualityPrioritization.SPEED -> 85
    QualityPrioritization.BALANCED -> 92
    QualityPrioritization.QUALITY -> 100
  }
  captureRequest.set(CaptureRequest.JPEG_QUALITY, jpegQuality.toByte())
  captureRequest.set(CaptureRequest.JPEG_ORIENTATION, orientation.toDegrees())
  // TODO: Use the same options as from the preview request. This is duplicate code!
  when (flashMode) {
    // Set the Flash Mode
    Flash.OFF -> {
      captureRequest.set(CaptureRequest.CONTROL_AE_MODE, CaptureRequest.CONTROL_AE_MODE_ON)
      captureRequest.set(CaptureRequest.FLASH_MODE, CaptureRequest.FLASH_MODE_OFF)
    }
    Flash.ON -> {
      captureRequest.set(CaptureRequest.CONTROL_AE_MODE, CaptureRequest.CONTROL_AE_MODE_ON)
      captureRequest.set(CaptureRequest.FLASH_MODE, CaptureRequest.FLASH_MODE_TORCH)
    }
    Flash.AUTO -> {
      if (enableRedEyeReduction) {
        captureRequest.set(CaptureRequest.CONTROL_AE_MODE, CaptureRequest.CONTROL_AE_MODE_ON_AUTO_FLASH_REDEYE)
      } else {
        captureRequest.set(CaptureRequest.CONTROL_AE_MODE, CaptureRequest.CONTROL_AE_MODE_ON_AUTO_FLASH)
      }
    }
  }
  if (enableAutoStabilization) {
    // Enable optical or digital image stabilization
    val digitalStabilization = cameraCharacteristics.get(CameraCharacteristics.CONTROL_AVAILABLE_VIDEO_STABILIZATION_MODES)
    val hasDigitalStabilization = digitalStabilization?.contains(CameraCharacteristics.CONTROL_VIDEO_STABILIZATION_MODE_ON) ?: false
    val opticalStabilization = cameraCharacteristics.get(CameraCharacteristics.LENS_INFO_AVAILABLE_OPTICAL_STABILIZATION)
    val hasOpticalStabilization = opticalStabilization?.contains(CameraCharacteristics.LENS_OPTICAL_STABILIZATION_MODE_ON) ?: false
    if (hasOpticalStabilization) {
      captureRequest.set(CaptureRequest.CONTROL_VIDEO_STABILIZATION_MODE, CaptureRequest.CONTROL_VIDEO_STABILIZATION_MODE_OFF)
      captureRequest.set(CaptureRequest.LENS_OPTICAL_STABILIZATION_MODE, CaptureRequest.LENS_OPTICAL_STABILIZATION_MODE_ON)
    } else if (hasDigitalStabilization) {
      captureRequest.set(CaptureRequest.CONTROL_VIDEO_STABILIZATION_MODE, CaptureRequest.CONTROL_VIDEO_STABILIZATION_MODE_ON)
    } else {
      // no stabilization is supported. ignore it
    }
  }
  // TODO: Check if that zoom value is even supported.
  captureRequest.setZoom(zoom, cameraCharacteristics)
  // Set HDR
  // TODO: Check if that value is even supported
  if (enableHdr) {
    captureRequest.set(CaptureRequest.CONTROL_SCENE_MODE, CaptureRequest.CONTROL_SCENE_MODE_HDR)
  }
  return captureRequest.build()
 }
--- a/package/android/src/main/java/com/mrousavy/camera/extensions/CameraDevice+isValid.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/extensions/CameraDevice+isValid.kt
@ -0,0 +1,13 @@
 package com.mrousavy.camera.extensions
 import android.hardware.camera2.CameraDevice
 val CameraDevice.isValid: Boolean
  get() {
    try {
      this.createCaptureRequest(CameraDevice.TEMPLATE_PREVIEW)
      return true
    } catch (e: Throwable) {
      return false
    }
  }
--- a/package/android/src/main/java/com/mrousavy/camera/extensions/CaptureRequest+setZoom.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/extensions/CaptureRequest+setZoom.kt
@ -1,20 +1,18 @@
 package com.mrousavy.camera.extensions
 import android.hardware.camera2.CameraCharacteristics
 import android.hardware.camera2.CaptureRequest
 import android.os.Build
-import android.util.Range
+import com.mrousavy.camera.core.CameraDeviceDetails
 import com.mrousavy.camera.types.HardwareLevel
-fun CaptureRequest.Builder.setZoom(zoom: Float, cameraCharacteristics: CameraCharacteristics) {
+fun CaptureRequest.Builder.setZoom(zoom: Float, deviceDetails: CameraDeviceDetails) {
-  if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.R) {
+  val zoomRange = deviceDetails.zoomRange
    val zoomRange = cameraCharacteristics.get(CameraCharacteristics.CONTROL_ZOOM_RATIO_RANGE) ?: Range(1f, 1f)
  val zoomClamped = zoomRange.clamp(zoom)
  if (deviceDetails.hardwareLevel.isAtLeast(HardwareLevel.LIMITED) && Build.VERSION.SDK_INT >= Build.VERSION_CODES.R) {
    this.set(CaptureRequest.CONTROL_ZOOM_RATIO, zoomClamped)
  } else {
-    val maxZoom = cameraCharacteristics.get(CameraCharacteristics.SCALER_AVAILABLE_MAX_DIGITAL_ZOOM)
+    val size = deviceDetails.activeSize
    val zoomRange = Range(1f, maxZoom ?: 1f)
    val size = cameraCharacteristics.get(CameraCharacteristics.SENSOR_INFO_ACTIVE_ARRAY_SIZE)!!
    val zoomClamped = zoomRange.clamp(zoom)
    this.set(CaptureRequest.SCALER_CROP_REGION, size.zoomed(zoomClamped))
  }
 }
--- a/package/android/src/main/java/com/mrousavy/camera/extensions/Point+rotatedBy.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/extensions/Point+rotatedBy.kt
@ -0,0 +1,25 @@
 package com.mrousavy.camera.extensions
 import android.graphics.Point
 import android.graphics.PointF
 import android.util.Log
 import android.util.Size
 import com.mrousavy.camera.types.Orientation
 fun Point.rotatedBy(fromSize: Size, toSize: Size, fromOrientation: Orientation, toOrientation: Orientation): Point {
  val differenceDegrees = (fromOrientation.toDegrees() + toOrientation.toDegrees()) % 360
  val difference = Orientation.fromRotationDegrees(differenceDegrees)
  val normalizedPoint = PointF(this.x / fromSize.width.toFloat(), this.y / fromSize.height.toFloat())
  val rotatedNormalizedPoint = when (difference) {
    Orientation.PORTRAIT -> normalizedPoint
    Orientation.PORTRAIT_UPSIDE_DOWN -> PointF(1 - normalizedPoint.x, 1 - normalizedPoint.y)
    Orientation.LANDSCAPE_LEFT -> PointF(normalizedPoint.y, 1 - normalizedPoint.x)
    Orientation.LANDSCAPE_RIGHT -> PointF(1 - normalizedPoint.y, normalizedPoint.x)
  }
  val rotatedX = rotatedNormalizedPoint.x * toSize.width
  val rotatedY = rotatedNormalizedPoint.y * toSize.height
  Log.i("ROTATE", "$this -> $normalizedPoint -> $difference -> $rotatedX, $rotatedY")
  return Point(rotatedX.toInt(), rotatedY.toInt())
 }
--- a/package/android/src/main/java/com/mrousavy/camera/extensions/RecordingSession+getRecommendedBitRate.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/extensions/RecordingSession+getRecommendedBitRate.kt
@ -4,9 +4,9 @@ import android.media.CamcorderProfile
 import android.media.MediaRecorder.VideoEncoder
 import android.os.Build
 import android.util.Log
 import android.util.Size
 import com.mrousavy.camera.core.RecordingSession
 import com.mrousavy.camera.types.VideoCodec
 import com.mrousavy.camera.utils.CamcorderProfileUtils
 import kotlin.math.abs
 data class RecommendedProfile(
@ -23,7 +23,7 @@ fun RecordingSession.getRecommendedBitRate(fps: Int, codec: VideoCodec, hdr: Boo
  val targetResolution = size
  val encoder = codec.toVideoEncoder()
  val bitDepth = if (hdr) 10 else 8
-  val quality = findClosestCamcorderProfileQuality(cameraId, targetResolution)
+  val quality = CamcorderProfileUtils.findClosestCamcorderProfileQuality(cameraId, targetResolution, true)
  Log.i("CamcorderProfile", "Closest matching CamcorderProfile: $quality")
  var recommendedProfile: RecommendedProfile? = null
@ -75,39 +75,3 @@ fun RecordingSession.getRecommendedBitRate(fps: Int, codec: VideoCodec, hdr: Boo
  }
  return bitRate.toInt()
 }
 private fun getResolutionForCamcorderProfileQuality(camcorderProfile: Int): Int =
  when (camcorderProfile) {
    CamcorderProfile.QUALITY_QCIF -> 176 * 144
    CamcorderProfile.QUALITY_QVGA -> 320 * 240
    CamcorderProfile.QUALITY_CIF -> 352 * 288
    CamcorderProfile.QUALITY_VGA -> 640 * 480
    CamcorderProfile.QUALITY_480P -> 720 * 480
    CamcorderProfile.QUALITY_720P -> 1280 * 720
    CamcorderProfile.QUALITY_1080P -> 1920 * 1080
    CamcorderProfile.QUALITY_2K -> 2048 * 1080
    CamcorderProfile.QUALITY_QHD -> 2560 * 1440
    CamcorderProfile.QUALITY_2160P -> 3840 * 2160
    CamcorderProfile.QUALITY_4KDCI -> 4096 * 2160
    CamcorderProfile.QUALITY_8KUHD -> 7680 * 4320
    else -> throw Error("Invalid CamcorderProfile \"$camcorderProfile\"!")
  }
 private fun findClosestCamcorderProfileQuality(cameraId: String, resolution: Size): Int {
  // Iterate through all available CamcorderProfiles and find the one that matches the closest
  val targetResolution = resolution.width * resolution.height
  val cameraIdInt = cameraId.toIntOrNull()
  val profiles = (CamcorderProfile.QUALITY_QCIF..CamcorderProfile.QUALITY_8KUHD).filter { profile ->
    if (cameraIdInt != null) {
      return@filter CamcorderProfile.hasProfile(cameraIdInt, profile)
    } else {
      return@filter CamcorderProfile.hasProfile(profile)
    }
  }
  val closestProfile = profiles.minBy { profile ->
    val currentResolution = getResolutionForCamcorderProfileQuality(profile)
    return@minBy abs(currentResolution - targetResolution)
  }
  return closestProfile
 }
--- a/package/android/src/main/java/com/mrousavy/camera/extensions/Size+Extensions.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/extensions/Size+Extensions.kt
@ -2,7 +2,7 @@ package com.mrousavy.camera.extensions
 import android.util.Size
 import android.util.SizeF
-import android.view.Surface
+import com.mrousavy.camera.types.Orientation
 import kotlin.math.abs
 import kotlin.math.max
 import kotlin.math.min
@ -14,13 +14,10 @@ fun List<Size>.closestToOrMax(size: Size?): Size =
    this.maxBy { it.width * it.height }
  }
-fun Size.rotated(surfaceRotation: Int): Size =
+fun Size.rotatedBy(orientation: Orientation): Size =
-  when (surfaceRotation) {
+  when (orientation) {
-    Surface.ROTATION_0 -> Size(width, height)
+    Orientation.PORTRAIT, Orientation.PORTRAIT_UPSIDE_DOWN -> this
-    Surface.ROTATION_90 -> Size(height, width)
+    Orientation.LANDSCAPE_LEFT, Orientation.LANDSCAPE_RIGHT -> Size(height, width)
    Surface.ROTATION_180 -> Size(width, height)
    Surface.ROTATION_270 -> Size(height, width)
    else -> Size(width, height)
  }
 val Size.bigger: Int
--- a/package/android/src/main/java/com/mrousavy/camera/extensions/SurfaceHolder+resize.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/extensions/SurfaceHolder+resize.kt
@ -0,0 +1,41 @@
 package com.mrousavy.camera.extensions
 import android.util.Log
 import android.view.SurfaceHolder
 import androidx.annotation.UiThread
 import kotlin.coroutines.resume
 import kotlinx.coroutines.suspendCancellableCoroutine
 private const val TAG = "SurfaceHolder"
@UiThread
 suspend fun SurfaceHolder.resize(targetWidth: Int, targetHeight: Int) {
  return suspendCancellableCoroutine { continuation ->
    val currentSize = this.surfaceFrame
    if (currentSize.width() == targetWidth && currentSize.height() == targetHeight) {
      // Already in target size
      continuation.resume(Unit)
      return@suspendCancellableCoroutine
    }
    Log.i(TAG, "Resizing SurfaceHolder to $targetWidth x $targetHeight...")
    val callback = object : SurfaceHolder.Callback {
      override fun surfaceCreated(holder: SurfaceHolder) = Unit
      override fun surfaceChanged(holder: SurfaceHolder, format: Int, width: Int, height: Int) {
        if (width == targetWidth && height == targetHeight) {
          holder.removeCallback(this)
          Log.i(TAG, "Resized SurfaceHolder to $width x $height!")
          continuation.resume(Unit)
        }
      }
      override fun surfaceDestroyed(holder: SurfaceHolder) {
        holder.removeCallback(this)
        Log.e(TAG, "Failed to resize SurfaceHolder to $targetWidth x $targetHeight!")
        continuation.cancel(Error("Tried to resize SurfaceView, but Surface has been destroyed!"))
      }
    }
    this.addCallback(callback)
    this.setFixedSize(targetWidth, targetHeight)
  }
 }
--- a/package/android/src/main/java/com/mrousavy/camera/frameprocessor/Frame.java
+++ b/package/android/src/main/java/com/mrousavy/camera/frameprocessor/Frame.java
@ -4,6 +4,7 @@ import android.hardware.HardwareBuffer;
 import android.media.Image;
 import android.os.Build;
 import com.facebook.proguard.annotations.DoNotStrip;
 import com.mrousavy.camera.core.FrameInvalidError;
 import com.mrousavy.camera.core.HardwareBuffersNotAvailableError;
 import com.mrousavy.camera.types.PixelFormat;
 import com.mrousavy.camera.types.Orientation;
@ -23,42 +24,17 @@ public class Frame {
        this.isMirrored = isMirrored;
    }
-    public Image getImage() {
+    private void assertIsValid() throws FrameInvalidError {
-        synchronized (this) {
+        if (!getIsImageValid(image)) {
-            Image img = image;
+            throw new FrameInvalidError();
            if (!getIsImageValid(img)) {
                throw new RuntimeException("Frame is already closed! " +
                    "Are you trying to access the Image data outside of a Frame Processor's lifetime?\n" +
                    "- If you want to use `console.log(frame)`, use `console.log(frame.toString())` instead.\n" +
                    "- If you want to do async processing, use `runAsync(...)` instead.\n" +
                    "- If you want to use runOnJS, increment it's ref-count: `frame.incrementRefCount()`");
            }
            return img;
        }
    }
-    @SuppressWarnings("unused")
+    private synchronized boolean getIsImageValid(Image image) {
-    @DoNotStrip
+        if (refCount <= 0) return false;
    public int getWidth() {
        return getImage().getWidth();
    }
    @SuppressWarnings("unused")
    @DoNotStrip
    public int getHeight() {
        return getImage().getHeight();
    }
    @SuppressWarnings("unused")
    @DoNotStrip
    public boolean getIsValid() {
        return getIsImageValid(getImage());
    }
    private boolean getIsImageValid(Image image) {
        try {
            // will throw an exception if the image is already closed
-            synchronized (this) { image.getFormat(); }
+            image.getFormat();
            // no exception thrown, image must still be valid.
            return true;
        } catch (IllegalStateException e) {
@ -67,78 +43,104 @@ public class Frame {
        }
    }
    public synchronized Image getImage() {
        return image;
    }
    @SuppressWarnings("unused")
    @DoNotStrip
-    public boolean getIsMirrored() {
+    public synchronized int getWidth() throws FrameInvalidError {
        assertIsValid();
        return image.getWidth();
    }
    @SuppressWarnings("unused")
    @DoNotStrip
    public synchronized int getHeight() throws FrameInvalidError {
        assertIsValid();
        return image.getHeight();
    }
    @SuppressWarnings("unused")
    @DoNotStrip
    public synchronized boolean getIsValid() throws FrameInvalidError {
        assertIsValid();
        return getIsImageValid(image);
    }
    @SuppressWarnings("unused")
    @DoNotStrip
    public synchronized boolean getIsMirrored() throws FrameInvalidError {
        assertIsValid();
        return isMirrored;
    }
    @SuppressWarnings("unused")
    @DoNotStrip
-    public long getTimestamp() {
+    public synchronized long getTimestamp() throws FrameInvalidError {
        assertIsValid();
        return timestamp;
    }
    @SuppressWarnings("unused")
    @DoNotStrip
-    public Orientation getOrientation() {
+    public synchronized Orientation getOrientation() throws FrameInvalidError {
        assertIsValid();
        return orientation;
    }
    @SuppressWarnings("unused")
    @DoNotStrip
-    public PixelFormat getPixelFormat() {
+    public synchronized PixelFormat getPixelFormat() throws FrameInvalidError {
-        return PixelFormat.Companion.fromImageFormat(getImage().getFormat());
+        assertIsValid();
        return PixelFormat.Companion.fromImageFormat(image.getFormat());
    }
    @SuppressWarnings("unused")
    @DoNotStrip
-    public int getPlanesCount() {
+    public synchronized int getPlanesCount() throws FrameInvalidError {
-        return getImage().getPlanes().length;
+        assertIsValid();
        return image.getPlanes().length;
    }
    @SuppressWarnings("unused")
    @DoNotStrip
-    public int getBytesPerRow() {
+    public synchronized int getBytesPerRow() throws FrameInvalidError {
-        return getImage().getPlanes()[0].getRowStride();
+        assertIsValid();
        return image.getPlanes()[0].getRowStride();
    }
    @SuppressWarnings("unused")
    @DoNotStrip
-    public Object getHardwareBufferBoxed() throws HardwareBuffersNotAvailableError {
+    private Object getHardwareBufferBoxed() throws HardwareBuffersNotAvailableError, FrameInvalidError {
        return getHardwareBuffer();
    }
-    public HardwareBuffer getHardwareBuffer() throws HardwareBuffersNotAvailableError {
+    public synchronized HardwareBuffer getHardwareBuffer() throws HardwareBuffersNotAvailableError, FrameInvalidError {
        if (Build.VERSION.SDK_INT < Build.VERSION_CODES.P) {
            throw new HardwareBuffersNotAvailableError();
        }
-        return getImage().getHardwareBuffer();
+        assertIsValid();
        return image.getHardwareBuffer();
    }
    @SuppressWarnings("unused")
    @DoNotStrip
-    public void incrementRefCount() {
+    public synchronized void incrementRefCount() {
        synchronized (this) {
        refCount++;
    }
    }
    @SuppressWarnings("unused")
    @DoNotStrip
-    public void decrementRefCount() {
+    public synchronized void decrementRefCount() {
        synchronized (this) {
        refCount--;
        if (refCount <= 0) {
            // If no reference is held on this Image, close it.
            close();
        }
    }
    }
-    private void close() {
+    private synchronized void close() {
        synchronized (this) {
        image.close();
    }
    }
 }
--- a/package/android/src/main/java/com/mrousavy/camera/frameprocessor/FrameProcessor.java
+++ b/package/android/src/main/java/com/mrousavy/camera/frameprocessor/FrameProcessor.java
@ -21,6 +21,8 @@ public final class FrameProcessor {
    @Keep
    private final HybridData mHybridData;
    @DoNotStrip
    @Keep
    public FrameProcessor(HybridData hybridData) {
        mHybridData = hybridData;
    }
--- a/package/android/src/main/java/com/mrousavy/camera/frameprocessor/VisionCameraProxy.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/frameprocessor/VisionCameraProxy.kt
@ -14,7 +14,7 @@ import com.mrousavy.camera.core.ViewNotFoundError
 import java.lang.ref.WeakReference
@Suppress("KotlinJniMissingFunction") // we use fbjni.
-class VisionCameraProxy(context: ReactApplicationContext) {
+class VisionCameraProxy(private val reactContext: ReactApplicationContext) {
  companion object {
    const val TAG = "VisionCameraProxy"
  }
@ -24,6 +24,8 @@ class VisionCameraProxy(context: ReactApplicationContext) {
  private var mHybridData: HybridData
  private var mContext: WeakReference<ReactApplicationContext>
  private var mScheduler: VisionCameraScheduler
  val context: ReactApplicationContext
    get() = reactContext
  init {
    val jsCallInvokerHolder = context.catalystInstance.jsCallInvokerHolder as CallInvokerHolderImpl
--- a/package/android/src/main/java/com/mrousavy/camera/types/CodeScannerOptions.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/types/CodeScannerOptions.kt
@ -3,20 +3,12 @@ package com.mrousavy.camera.types
 import com.facebook.react.bridge.ReadableMap
 import com.mrousavy.camera.core.InvalidTypeScriptUnionError
-class CodeScannerOptions(map: ReadableMap) {
+data class CodeScannerOptions(val codeTypes: List<CodeType>) {
-  val codeTypes: List<CodeType>
+  companion object {
-
+    fun fromJSValue(value: ReadableMap): CodeScannerOptions {
-  init {
+      val jsCodeTypes = value.getArray("codeTypes") ?: throw InvalidTypeScriptUnionError("codeScanner", value.toString())
-    val codeTypes = map.getArray("codeTypes")?.toArrayList() ?: throw InvalidTypeScriptUnionError("codeScanner", map.toString())
+      val codeTypes = jsCodeTypes.toArrayList().map { CodeType.fromUnionValue(it as String) }
-    this.codeTypes = codeTypes.map {
+      return CodeScannerOptions(codeTypes)
      return@map CodeType.fromUnionValue(it as String)
    }
  }
  override fun equals(other: Any?): Boolean {
    if (other !is CodeScannerOptions) return false
    return codeTypes.size == other.codeTypes.size && codeTypes.containsAll(other.codeTypes)
  }
  override fun hashCode(): Int = codeTypes.hashCode()
 }
--- a/package/android/src/main/java/com/mrousavy/camera/types/CodeType.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/types/CodeType.kt
@ -13,6 +13,7 @@ enum class CodeType(override val unionValue: String) : JSUnionValue {
  EAN_8("ean-8"),
  ITF("itf"),
  UPC_E("upc-e"),
  UPC_A("upc-a"),
  QR("qr"),
  PDF_417("pdf-417"),
  AZTEC("aztec"),
@ -29,6 +30,7 @@ enum class CodeType(override val unionValue: String) : JSUnionValue {
      EAN_8 -> Barcode.FORMAT_EAN_8
      ITF -> Barcode.FORMAT_ITF
      UPC_E -> Barcode.FORMAT_UPC_E
      UPC_A -> Barcode.FORMAT_UPC_A
      QR -> Barcode.FORMAT_QR_CODE
      PDF_417 -> Barcode.FORMAT_PDF417
      AZTEC -> Barcode.FORMAT_AZTEC
@ -47,6 +49,7 @@ enum class CodeType(override val unionValue: String) : JSUnionValue {
        Barcode.FORMAT_EAN_8 -> EAN_8
        Barcode.FORMAT_ITF -> ITF
        Barcode.FORMAT_UPC_E -> UPC_E
        Barcode.FORMAT_UPC_A -> UPC_A
        Barcode.FORMAT_QR_CODE -> QR
        Barcode.FORMAT_PDF417 -> PDF_417
        Barcode.FORMAT_AZTEC -> AZTEC
@ -64,6 +67,7 @@ enum class CodeType(override val unionValue: String) : JSUnionValue {
        "ean-8" -> EAN_8
        "itf" -> ITF
        "upc-e" -> UPC_E
        "upc-a" -> UPC_A
        "qr" -> QR
        "pdf-417" -> PDF_417
        "aztec" -> AZTEC
--- a/package/android/src/main/java/com/mrousavy/camera/types/Events.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/types/Events.kt
@ -0,0 +1,36 @@
 package com.mrousavy.camera.types
 import com.facebook.react.bridge.Arguments
 import com.facebook.react.bridge.WritableMap
 import com.facebook.react.uimanager.events.Event
 class CameraInitializedEvent(surfaceId: Int, viewId: Int) : Event<CameraInitializedEvent>(surfaceId, viewId) {
  override fun getEventName() = "cameraInitialized"
  override fun getEventData(): WritableMap = Arguments.createMap()
 }
 class CameraStartedEvent(surfaceId: Int, viewId: Int) : Event<CameraStartedEvent>(surfaceId, viewId) {
  override fun getEventName() = "cameraStarted"
  override fun getEventData(): WritableMap = Arguments.createMap()
 }
 class CameraStoppedEvent(surfaceId: Int, viewId: Int) : Event<CameraStoppedEvent>(surfaceId, viewId) {
  override fun getEventName() = "cameraStopped"
  override fun getEventData(): WritableMap = Arguments.createMap()
 }
 class CameraErrorEvent(surfaceId: Int, viewId: Int, private val data: WritableMap) : Event<CameraErrorEvent>(surfaceId, viewId) {
  override fun getEventName() = "cameraError"
  override fun getEventData() = data
 }
 class CameraViewReadyEvent(surfaceId: Int, viewId: Int) : Event<CameraViewReadyEvent>(surfaceId, viewId) {
  override fun getEventName() = "cameraViewReady"
  override fun getEventData(): WritableMap = Arguments.createMap()
 }
 class CameraCodeScannedEvent(surfaceId: Int, viewId: Int, private val data: WritableMap) :
  Event<CameraCodeScannedEvent>(surfaceId, viewId) {
  override fun getEventName() = "cameraCodeScanned"
  override fun getEventData() = data
 }
--- a/package/android/src/main/java/com/mrousavy/camera/types/HardwareLevel.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/types/HardwareLevel.kt
@ -9,6 +9,19 @@ enum class HardwareLevel(override val unionValue: String) : JSUnionValue {
  FULL("full"),
  LEVEL_3("full");
  private val rank: Int
    get() {
      return when (this) {
        LEGACY -> 0
        LIMITED -> 1
        EXTERNAL -> 1
        FULL -> 2
        LEVEL_3 -> 3
      }
    }
  fun isAtLeast(level: HardwareLevel): Boolean = this.rank >= level.rank
  companion object {
    fun fromCameraCharacteristics(cameraCharacteristics: CameraCharacteristics): HardwareLevel =
      when (cameraCharacteristics.get(CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL)) {
--- a/package/android/src/main/java/com/mrousavy/camera/types/Orientation.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/types/Orientation.kt
@ -1,6 +1,6 @@
 package com.mrousavy.camera.types
-import android.hardware.camera2.CameraCharacteristics
+import com.mrousavy.camera.core.CameraDeviceDetails
 enum class Orientation(override val unionValue: String) : JSUnionValue {
  PORTRAIT("portrait"),
@ -19,23 +19,22 @@ enum class Orientation(override val unionValue: String) : JSUnionValue {
  fun toDegrees(): Int =
    when (this) {
      PORTRAIT -> 0
-      LANDSCAPE_RIGHT -> 90
+      LANDSCAPE_LEFT -> 90
      PORTRAIT_UPSIDE_DOWN -> 180
-      LANDSCAPE_LEFT -> 270
+      LANDSCAPE_RIGHT -> 270
    }
-  fun toSensorRelativeOrientation(cameraCharacteristics: CameraCharacteristics): Orientation {
+  fun toSensorRelativeOrientation(deviceDetails: CameraDeviceDetails): Orientation {
    val sensorOrientation = cameraCharacteristics.get(CameraCharacteristics.SENSOR_ORIENTATION)!!
    // Convert target orientation to rotation degrees (0, 90, 180, 270)
    var rotationDegrees = this.toDegrees()
    // Reverse device orientation for front-facing cameras
-    val facingFront = cameraCharacteristics.get(CameraCharacteristics.LENS_FACING) == CameraCharacteristics.LENS_FACING_FRONT
+    if (deviceDetails.lensFacing == LensFacing.FRONT) {
-    if (facingFront) rotationDegrees = -rotationDegrees
+      rotationDegrees = -rotationDegrees
    }
    // Rotate sensor rotation by target rotation
-    val newRotationDegrees = (sensorOrientation + rotationDegrees + 360) % 360
+    val newRotationDegrees = (deviceDetails.sensorOrientation.toDegrees() + rotationDegrees + 360) % 360
    return fromRotationDegrees(newRotationDegrees)
  }
@ -52,9 +51,9 @@ enum class Orientation(override val unionValue: String) : JSUnionValue {
    fun fromRotationDegrees(rotationDegrees: Int): Orientation =
      when (rotationDegrees) {
-        in 45..135 -> LANDSCAPE_RIGHT
+        in 45..135 -> LANDSCAPE_LEFT
        in 135..225 -> PORTRAIT_UPSIDE_DOWN
-        in 225..315 -> LANDSCAPE_LEFT
+        in 225..315 -> LANDSCAPE_RIGHT
        else -> PORTRAIT
      }
  }
--- a/package/android/src/main/java/com/mrousavy/camera/types/ResizeMode.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/types/ResizeMode.kt
@ -1,5 +1,7 @@
 package com.mrousavy.camera.types
 import com.mrousavy.camera.core.InvalidTypeScriptUnionError
 enum class ResizeMode(override val unionValue: String) : JSUnionValue {
  COVER("cover"),
  CONTAIN("contain");
@ -9,7 +11,7 @@ enum class ResizeMode(override val unionValue: String) : JSUnionValue {
      when (unionValue) {
        "cover" -> COVER
        "contain" -> CONTAIN
-        else -> COVER
+        else -> throw InvalidTypeScriptUnionError("resizeMode", unionValue)
      }
  }
 }
--- a/package/android/src/main/java/com/mrousavy/camera/types/VideoStabilizationMode.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/types/VideoStabilizationMode.kt
@ -13,21 +13,6 @@ enum class VideoStabilizationMode(override val unionValue: String) : JSUnionValu
  CINEMATIC("cinematic"),
  CINEMATIC_EXTENDED("cinematic-extended");
  fun toDigitalStabilizationMode(): Int =
    when (this) {
      OFF -> CONTROL_VIDEO_STABILIZATION_MODE_OFF
      STANDARD -> CONTROL_VIDEO_STABILIZATION_MODE_ON
      CINEMATIC -> 2 // TODO: CONTROL_VIDEO_STABILIZATION_MODE_PREVIEW_STABILIZATION
      else -> CONTROL_VIDEO_STABILIZATION_MODE_OFF
    }
  fun toOpticalStabilizationMode(): Int =
    when (this) {
      OFF -> LENS_OPTICAL_STABILIZATION_MODE_OFF
      CINEMATIC_EXTENDED -> LENS_OPTICAL_STABILIZATION_MODE_ON
      else -> LENS_OPTICAL_STABILIZATION_MODE_OFF
    }
  companion object : JSUnionValue.Companion<VideoStabilizationMode> {
    override fun fromUnionValue(unionValue: String?): VideoStabilizationMode =
      when (unionValue) {
--- a/package/android/src/main/java/com/mrousavy/camera/utils/CamcorderProfileUtils.kt
+++ b/package/android/src/main/java/com/mrousavy/camera/utils/CamcorderProfileUtils.kt
@ -0,0 +1,101 @@
 package com.mrousavy.camera.utils
 import android.media.CamcorderProfile
 import android.os.Build
 import android.util.Size
 import kotlin.math.abs
 class CamcorderProfileUtils {
  companion object {
    private fun getResolutionForCamcorderProfileQuality(camcorderProfile: Int): Int =
      when (camcorderProfile) {
        CamcorderProfile.QUALITY_QCIF -> 176 * 144
        CamcorderProfile.QUALITY_QVGA -> 320 * 240
        CamcorderProfile.QUALITY_CIF -> 352 * 288
        CamcorderProfile.QUALITY_VGA -> 640 * 480
        CamcorderProfile.QUALITY_480P -> 720 * 480
        CamcorderProfile.QUALITY_720P -> 1280 * 720
        CamcorderProfile.QUALITY_1080P -> 1920 * 1080
        CamcorderProfile.QUALITY_2K -> 2048 * 1080
        CamcorderProfile.QUALITY_QHD -> 2560 * 1440
        CamcorderProfile.QUALITY_2160P -> 3840 * 2160
        CamcorderProfile.QUALITY_4KDCI -> 4096 * 2160
        CamcorderProfile.QUALITY_8KUHD -> 7680 * 4320
        else -> throw Error("Invalid CamcorderProfile \"$camcorderProfile\"!")
      }
    fun findClosestCamcorderProfileQuality(cameraId: String, resolution: Size, allowLargerSize: Boolean): Int {
      // Iterate through all available CamcorderProfiles and find the one that matches the closest
      val targetResolution = resolution.width * resolution.height
      val cameraIdInt = cameraId.toIntOrNull()
      var profiles = (CamcorderProfile.QUALITY_QCIF..CamcorderProfile.QUALITY_8KUHD).filter { profile ->
        if (cameraIdInt != null) {
          return@filter CamcorderProfile.hasProfile(cameraIdInt, profile)
        } else {
          return@filter CamcorderProfile.hasProfile(profile)
        }
      }
      if (!allowLargerSize) {
        profiles = profiles.filter { profile ->
          val currentResolution = getResolutionForCamcorderProfileQuality(profile)
          return@filter currentResolution <= targetResolution
        }
      }
      val closestProfile = profiles.minBy { profile ->
        val currentResolution = getResolutionForCamcorderProfileQuality(profile)
        return@minBy abs(currentResolution - targetResolution)
      }
      return closestProfile
    }
    fun getMaximumVideoSize(cameraId: String): Size? {
      try {
        if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.S) {
          val profiles = CamcorderProfile.getAll(cameraId, CamcorderProfile.QUALITY_HIGH)
          if (profiles != null) {
            val largestProfile = profiles.videoProfiles.filterNotNull().maxByOrNull { it.width * it.height }
            if (largestProfile != null) {
              return Size(largestProfile.width, largestProfile.height)
            }
          }
        }
        val cameraIdInt = cameraId.toIntOrNull()
        if (cameraIdInt != null) {
          val profile = CamcorderProfile.get(cameraIdInt, CamcorderProfile.QUALITY_HIGH)
          return Size(profile.videoFrameWidth, profile.videoFrameHeight)
        }
        return null
      } catch (e: Throwable) {
        // some Samsung phones just crash when trying to get the CamcorderProfile. Only god knows why.
        return null
      }
    }
    fun getMaximumFps(cameraId: String, size: Size): Int? {
      try {
        val quality = findClosestCamcorderProfileQuality(cameraId, size, false)
        if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.S) {
          val profiles = CamcorderProfile.getAll(cameraId, quality)
          if (profiles != null) {
            return profiles.videoProfiles.maxOf { profile -> profile.frameRate }
          }
        }
        val cameraIdInt = cameraId.toIntOrNull()
        if (cameraIdInt != null) {
          val profile = CamcorderProfile.get(cameraIdInt, quality)
          return profile.videoFrameRate
        }
        return null
      } catch (e: Throwable) {
        // some Samsung phones just crash when trying to get the CamcorderProfile. Only god knows why.
        return null
      }
    }
  }
 }
--- a/package/example/README.md
+++ b/package/example/README.md
@ -30,7 +30,7 @@ To try the playground out for yourself, run the following commands:
 ```sh
 git clone https://github.com/mrousavy/react-native-vision-camera
-cd react-native-vision-camera
+cd react-native-vision-camera/package
 yarn bootstrap
 ```
--- a/package/example/ios/Podfile.lock
+++ b/package/example/ios/Podfile.lock
@ -484,7 +484,7 @@ PODS:
    - libwebp (~> 1.0)
    - SDWebImage/Core (~> 5.10)
  - SocketRocket (0.6.1)
-  - VisionCamera (3.8.2):
+  - VisionCamera (3.9.0-beta.6):
    - React
    - React-callinvoker
    - React-Core
@ -724,9 +724,9 @@ SPEC CHECKSUMS:
  SDWebImage: a7f831e1a65eb5e285e3fb046a23fcfbf08e696d
  SDWebImageWebPCoder: 908b83b6adda48effe7667cd2b7f78c897e5111d
  SocketRocket: f32cd54efbe0f095c4d7594881e52619cfe80b17
-  VisionCamera: edbcd00e27a438b2228f67823e2b8d15a189065f
+  VisionCamera: 33c90675adf75528199f840f81dfbe74a2fe6c3f
  Yoga: 4c3aa327e4a6a23eeacd71f61c81df1bcdf677d5
 PODFILE CHECKSUM: 27f53791141a3303d814e09b55770336416ff4eb
-COCOAPODS: 1.11.3
+COCOAPODS: 1.14.3
--- a/package/ios/Core/CameraError.swift
+++ b/package/ios/Core/CameraError.swift
@ -93,7 +93,7 @@ enum DeviceError: String {
    case .lowLightBoostNotSupported:
      return "The currently selected camera device does not support low-light boost! Select a device where `device.supportsLowLightBoost` is true."
    case .focusNotSupported:
-      return "The currently selected camera device does not support focussing!"
+      return "The currently selected camera device does not support focusing!"
    case .microphoneUnavailable:
      return "The microphone was unavailable."
    case .notAvailableOnSimulator:
--- a/package/ios/Core/CameraSession.swift
+++ b/package/ios/Core/CameraSession.swift
@ -109,6 +109,7 @@ class CameraSession: NSObject, AVCaptureVideoDataOutputSampleBufferDelegate, AVC
        try lambda(config)
      } catch {
        self.onConfigureError(error)
        return
      }
      let difference = CameraConfiguration.Difference(between: self.configuration, and: config)
@ -117,7 +118,8 @@ class CameraSession: NSObject, AVCaptureVideoDataOutputSampleBufferDelegate, AVC
      do {
        // If needed, configure the AVCaptureSession (inputs, outputs)
        if difference.isSessionConfigurationDirty {
-          try self.withSessionLock {
+          self.captureSession.beginConfiguration()
          // 1. Update input device
          if difference.inputChanged {
            try self.configureDevice(configuration: config)
@ -135,11 +137,18 @@ class CameraSession: NSObject, AVCaptureVideoDataOutputSampleBufferDelegate, AVC
            self.configureOrientation(configuration: config)
          }
        }
        guard let device = self.videoDeviceInput?.device else {
          throw CameraError.device(.noDevice)
        }
        // If needed, configure the AVCaptureDevice (format, zoom, low-light-boost, ..)
        if difference.isDeviceConfigurationDirty {
-          try self.withDeviceLock { device in
+          try device.lockForConfiguration()
          defer {
            device.unlockForConfiguration()
          }
          // 4. Configure format
          if difference.formatChanged {
            try self.configureFormat(configuration: config, device: device)
@ -162,6 +171,11 @@ class CameraSession: NSObject, AVCaptureVideoDataOutputSampleBufferDelegate, AVC
            self.configureExposure(configuration: config, device: device)
          }
        }
        if difference.isSessionConfigurationDirty {
          // We commit the session config updates AFTER the device config,
          // that way we can also batch those changes into one update instead of doing two updates.
          self.captureSession.commitConfiguration()
        }
        // 9. Start or stop the session if needed
@ -169,9 +183,11 @@ class CameraSession: NSObject, AVCaptureVideoDataOutputSampleBufferDelegate, AVC
        // 10. Enable or disable the Torch if needed (requires session to be running)
        if difference.torchChanged {
-          try self.withDeviceLock { device in
+          try device.lockForConfiguration()
-            try self.configureTorch(configuration: config, device: device)
+          defer {
            device.unlockForConfiguration()
          }
          try self.configureTorch(configuration: config, device: device)
        }
        // Notify about Camera initialization
@ -206,41 +222,6 @@ class CameraSession: NSObject, AVCaptureVideoDataOutputSampleBufferDelegate, AVC
    }
  }
  /**
   Runs the given [lambda] under an AVCaptureSession configuration lock (`beginConfiguration()`)
   */
  private func withSessionLock(_ lambda: () throws -> Void) throws {
    // Lock Capture Session for configuration
    ReactLogger.log(level: .info, message: "Beginning CameraSession configuration...")
    captureSession.beginConfiguration()
    defer {
      // Unlock Capture Session again and submit configuration to Hardware
      self.captureSession.commitConfiguration()
      ReactLogger.log(level: .info, message: "Committed CameraSession configuration!")
    }
    // Call lambda
    try lambda()
  }
  /**
   Runs the given [lambda] under an AVCaptureDevice configuration lock (`lockForConfiguration()`)
   */
  private func withDeviceLock(_ lambda: (_ device: AVCaptureDevice) throws -> Void) throws {
    guard let device = videoDeviceInput?.device else {
      throw CameraError.session(.cameraNotReady)
    }
    ReactLogger.log(level: .info, message: "Beginning CaptureDevice configuration...")
    try device.lockForConfiguration()
    defer {
      device.unlockForConfiguration()
      ReactLogger.log(level: .info, message: "Committed CaptureDevice configuration!")
    }
    // Call lambda with Device
    try lambda(device)
  }
  /**
   Starts or stops the CaptureSession if needed (`isActive`)
   */
--- a/package/ios/Parsers/AVMetadataObject.ObjectType+descriptor.swift
+++ b/package/ios/Parsers/AVMetadataObject.ObjectType+descriptor.swift
@ -40,6 +40,9 @@ extension AVMetadataObject.ObjectType {
    case "upc-e":
      self = .upce
      return
    case "upc-a":
      self = .ean13
      return
    case "qr":
      self = .qr
      return
--- a/package/package.json
+++ b/package/package.json
@ -1,6 +1,6 @@
 {
  "name": "react-native-vision-camera",
-  "version": "3.8.2",
+  "version": "3.9.2",
  "description": "A powerful, high-performance React Native Camera library.",
  "main": "lib/commonjs/index",
  "module": "lib/module/index",
@ -49,26 +49,33 @@
    "postpack": "rm ./README.md"
  },
  "keywords": [
    "react-native",
    "ios",
    "android",
    "camera",
    "vision",
    "native",
    "module",
    "react",
    "native",
    "camera",
    "react-native",
    "react-native-camera",
    "vision",
    "javascript",
    "typescript",
    "android",
    "ios",
    "library",
    "instagram",
    "snapchat",
    "ai",
    "ar",
    "qr",
    "qr-code",
    "barcode",
    "scanner",
    "qrcode",
    "barcode",
    "qr-code",
    "jsi",
    "worklet",
    "module",
    "frame",
    "processing",
    "realtime"
  ],
  "repository": "https://github.com/mrousavy/react-native-vision-camera",
-  "author": "Marc Rousavy <marcrousavy@hotmail.com> (https://github.com/mrousavy)",
+  "author": "Marc Rousavy <me@mrousavy.com> (https://github.com/mrousavy)",
  "license": "MIT",
  "bugs": {
    "url": "https://github.com/mrousavy/react-native-vision-camera/issues"
@ -159,5 +166,6 @@
        }
      ]
    ]
-  }
+  },
  "packageManager": "yarn@1.22.19+sha1.4ba7fc5c6e704fce2066ecbfb0b0d8976fe62447"
 }
--- a/package/scripts/clang-format.sh
+++ b/package/scripts/clang-format.sh
@ -5,5 +5,6 @@ if which clang-format >/dev/null; then
    clang-format -style=file:./cpp/.clang-format -i "$file"
  done
 else
-  echo "warning: clang-format not installed, install with 'brew install clang-format' (or manually from https://clang.llvm.org/docs/ClangFormat.html)"
+  echo "error: clang-format not installed, install with 'brew install clang-format' (or manually from https://clang.llvm.org/docs/ClangFormat.html)"
  exit 1
 fi
--- a/package/scripts/ktlint.sh
+++ b/package/scripts/ktlint.sh
@ -3,5 +3,6 @@
 if which ktlint >/dev/null; then
  cd android && ktlint --color --relative --editorconfig=./.editorconfig -F ./**/*.kt*
 else
-  echo "warning: KTLint not installed, install with 'brew install ktlint' (or manually from https://github.com/pinterest/ktlint)"
+  echo "error: KTLint not installed, install with 'brew install ktlint' (or manually from https://github.com/pinterest/ktlint)"
  exit 1
 fi
--- a/package/scripts/swiftformat.sh
+++ b/package/scripts/swiftformat.sh
@ -3,5 +3,6 @@
 if which swiftformat >/dev/null; then
  cd ios && swiftformat --quiet .
 else
-  echo "warning: SwiftFormat not installed, install with 'brew install swiftformat' (or manually from https://github.com/nicklockwood/SwiftFormat)"
+  echo "error: SwiftFormat not installed, install with 'brew install swiftformat' (or manually from https://github.com/nicklockwood/SwiftFormat)"
  exit 1
 fi
--- a/package/scripts/swiftlint.sh
+++ b/package/scripts/swiftlint.sh
@ -3,5 +3,6 @@
 if which swiftlint >/dev/null; then
  cd ios && swiftlint --quiet --fix && swiftlint --quiet
 else
-  echo "warning: SwiftLint not installed, install with 'brew install swiftlint' (or manually from https://github.com/realm/SwiftLint)"
+  echo "error: SwiftLint not installed, install with 'brew install swiftlint' (or manually from https://github.com/realm/SwiftLint)"
  exit 1
 fi
--- a/package/src/Camera.tsx
+++ b/package/src/Camera.tsx
@ -473,7 +473,8 @@ export class Camera extends React.PureComponent<CameraProps, CameraState> {
    // eslint-disable-next-line @typescript-eslint/no-unnecessary-condition
    if (device == null) {
-      throw new Error(
+      throw new CameraRuntimeError(
        'device/no-device',
        'Camera: `device` is null! Select a valid Camera device. See: https://mrousavy.com/react-native-vision-camera/docs/guides/devices',
      )
    }
--- a/package/src/CameraError.ts
+++ b/package/src/CameraError.ts
@ -25,6 +25,7 @@ export type SessionError =
  | 'session/camera-cannot-be-opened'
  | 'session/camera-has-been-disconnected'
  | 'session/audio-in-use-by-other-app'
  | 'session/no-outputs'
  | 'session/audio-session-failed-to-activate'
 export type CodeScannerError =
  | 'code-scanner/not-compatible-with-outputs'
@ -40,7 +41,10 @@ export type CaptureError =
  | 'capture/recorder-error'
  | 'capture/video-not-enabled'
  | 'capture/photo-not-enabled'
  | 'capture/frame-invalid'
  | 'capture/aborted'
  | 'capture/focus-canceled'
  | 'capture/timed-out'
  | 'capture/unknown'
 export type SystemError =
  | 'system/camera-module-not-found'
--- a/package/src/CameraProps.ts
+++ b/package/src/CameraProps.ts
@ -183,10 +183,29 @@ export interface CameraProps extends ViewProps {
   *
   * @platform iOS
   * @default
-   * - true // if video={true} and frameProcessor={undefined}
+   * - true // if frameProcessor={undefined}
   * - false // otherwise
   */
  enableBufferCompression?: boolean
  /**
   * Enables or disables GPU-sampled buffers for the video stream. This only takes effect when using a {@linkcode frameProcessor}.
   *
   * When recording a Video ({@linkcode video}) while a Frame Processor is running ({@linkcode frameProcessor}),
   * the {@linkcode Frame | Frames} will need to be forwarded to the Media Encoder.
   *
   * - When `enableGpuBuffers` is `false`, the Video Pipeline will use CPU buffers causing an additional copy
   * from the Frame Processor to the Media Encoder, which potentially results in increased latency.
   * - When `enableGpuBuffers` is `true`, the Video Pipeline will use shared GPU buffers which greatly increases
   * it's efficiency as an additional buffer copy is avoided.
   * (See [`USAGE_GPU_SAMPLED_IMAGE`](https://developer.android.com/reference/android/hardware/HardwareBuffer#USAGE_GPU_SAMPLED_IMAGE))
   *
   * In general, it is recommended to set this to `true` if possible, as this can increase performance and efficiency of the Video Pipeline.
   *
   * @experimental This is an experimental feature flag, use at your own risk. Some devices (especially Samsungs) may crash when trying to use GPU buffers.
   * @platform Android (API 29+)
   * @default false
   */
  enableGpuBuffers?: boolean
  /**
   * Enables or disables low-light boost on this camera device.
   *
@ -227,6 +246,7 @@ export interface CameraProps extends ViewProps {
   * * Dual Device fusion for greater detail ([`isDualCameraDualPhotoDeliveryEnabled`](https://developer.apple.com/documentation/avfoundation/avcapturephotosettings/2873917-isdualcameradualphotodeliveryena))
   * * Sets the maximum quality prioritization to `.quality` ([`maxPhotoQualityPrioritization`](https://developer.apple.com/documentation/avfoundation/avcapturephotooutput/3182995-maxphotoqualityprioritization))
   *
   * @platform iOS
   * @default false
   */
  enableHighQualityPhotos?: boolean
--- a/package/src/CodeScanner.ts
+++ b/package/src/CodeScanner.ts
@ -12,6 +12,7 @@ export type CodeType =
  | 'ean-8'
  | 'itf'
  | 'upc-e'
  | 'upc-a'
  | 'qr'
  | 'pdf-417'
  | 'aztec'
--- a/package/src/PhotoFile.ts
+++ b/package/src/PhotoFile.ts
@ -44,6 +44,14 @@ export interface TakePhotoOptions {
   * @default true
   */
  enableShutterSound?: boolean
  /**
   * Whether to run the pre-capture sequence to properly lock AF, AE and AWB values.
   * Enabling this results in greater photos, but might not work on some devices.
   *
   * @platform Android
   * @default false
   */
  enablePrecapture?: boolean
 }
 /**
--- a/package/src/devices/Templates.ts
+++ b/package/src/devices/Templates.ts
@ -1,9 +1,17 @@
 import { Dimensions } from 'react-native'
 import { FormatFilter } from './getCameraFormat'
-type TTemplates = {
+type PredefinedTemplates =
-  [key: string]: FormatFilter[]
+  | 'Video'
-}
+  | 'Video60Fps'
  | 'VideoSlowMotion'
  | 'VideoStabilized'
  | 'Photo'
  | 'PhotoPortrait'
  | 'FrameProcessingYUV'
  | 'FrameProcessingRGB'
  | 'Snapchat'
  | 'Instagram'
 const SnapchatResolution = { width: 1920, height: 1080 }
 const InstagramResolution = { width: 3840, height: 2160 }
@ -16,7 +24,7 @@ const ScreenAspectRatio = Dimensions.get('window').height / Dimensions.get('wind
 * const format = useCameraFormat(device, Templates.Snapchat)
 * ```
 */
-export const Templates: TTemplates = {
+export const Templates: Record<PredefinedTemplates, FormatFilter[]> = {
  /**
   * Highest resolution video recordings (e.g. 4k)
   */
--- a/tea.yaml
+++ b/tea.yaml
@ -0,0 +1,6 @@
 # https://tea.xyz/what-is-this-file
 ---
 version: 1.0.0
 codeOwners:
  - '0xcF3c286e7cDED19D87f61E85B3370283C885bA88'
 quorum: 1