Temporary workaround for PlatformMetal

filament/backend/CMakeLists.txt

@@ -194,6 +194,8 @@ if (FILAMENT_SUPPORTS_VULKAN)
             src/vulkan/VulkanDriver.cpp
             src/vulkan/VulkanDriver.h
             src/vulkan/VulkanDriverFactory.h
+            src/vulkan/VulkanExternalImageManager.cpp
+            src/vulkan/VulkanExternalImageManager.h
             src/vulkan/VulkanFboCache.cpp
             src/vulkan/VulkanFboCache.h
             src/vulkan/VulkanHandles.cpp

filament/backend/include/backend/Platform.h

@@ -149,6 +149,13 @@ public:
          *      - PlatformEGLAndroid
          */
         bool assertNativeWindowIsValid = false;
+
+        /**
+         * The action to take if a Drawable cannot be acquired. If true, the
+         * frame is aborted instead of panic. This is only supported for:
+         *      - PlatformMetal
+         */
+        bool metalDisablePanicOnDrawableFailure = false;
     };
 
     Platform() noexcept;

filament/backend/include/backend/platforms/VulkanPlatform.h

@@ -294,6 +294,16 @@ public:
     VkQueue getProtectedGraphicsQueue() const noexcept;
 
     struct ExternalImageMetadata {
+        /**
+         * The Filament texture format.
+         */
+        TextureFormat filamentFormat;
+
+        /**
+         * The Filament texture usage.
+         */
+        TextureUsage filamentUsage;
+
         /**
          * The width of the external image
          */
@@ -304,11 +314,6 @@ public:
          */
         uint32_t height;
 
-        /**
-         * The layerCount of the external image
-         */
-        uint32_t layerCount;
-
         /**
          * The layer count of the external image
          */
@@ -324,11 +329,6 @@ public:
          */
         VkFormat format;
 
-        /**
-         * An external buffer can be protected. This tells you if it is.
-         */
-        bool isProtected;
-
         /**
          * The type of external format (opaque int) if used.
          */
@@ -348,20 +348,44 @@ public:
          * Heap information
          */
         uint32_t memoryTypeBits;
+
+        /**
+         * Ycbcr conversion components
+         */
+        VkComponentMapping ycbcrConversionComponents;
+
+        /**
+         * Ycbcr model
+         */
+        VkSamplerYcbcrModelConversion ycbcrModel;
+
+        /**
+         * Ycbcr range
+         */
+        VkSamplerYcbcrRange ycbcrRange;
+
+        /**
+         * Ycbcr x chroma offset
+         */
+        VkChromaLocation xChromaOffset;
+
+        /**
+         * Ycbcr y chroma offset
+         */
+        VkChromaLocation yChromaOffset;
     };
-    virtual ExternalImageMetadata getExternalImageMetadata(ExternalImageHandleRef externalImage);
+
+
+    // Note that the image metadata might change per-frame, hence we need a method for extracting
+    // it.
+    virtual ExternalImageMetadata extractExternalImageMetadata(ExternalImageHandleRef image) const {
+        return {};
+    }
 
     using ImageData = std::pair<VkImage, VkDeviceMemory>;
-    virtual ImageData createExternalImageData(ExternalImageHandleRef externalImage,
-            const ExternalImageMetadata& metadata, uint32_t memoryTypeIndex,
-            VkImageUsageFlags usage);
-
-    virtual VkSampler createExternalSampler(SamplerYcbcrConversion chroma,
-            SamplerParams sampler, uint32_t internalFormat);
-
-    virtual VkImageView createExternalImageView(SamplerYcbcrConversion chroma,
-            uint32_t internalFormat, VkImage image, VkImageSubresourceRange range,
-            VkImageViewType viewType, VkComponentMapping swizzle);
+    virtual ImageData createVkImageFromExternal(ExternalImageHandleRef image) const {
+        return { VK_NULL_HANDLE, VK_NULL_HANDLE };
+    }
 
 protected:
     virtual ExtensionSet getSwapchainInstanceExtensions() const;
@@ -374,20 +398,6 @@ private:
     // Platform dependent helper methods
     static ExtensionSet getSwapchainInstanceExtensionsImpl();
 
-    static ExternalImageMetadata getExternalImageMetadataImpl(ExternalImageHandleRef externalImage,
-            VkDevice device);
-
-    static ImageData createExternalImageDataImpl(ExternalImageHandleRef externalImage,
-            VkDevice device, const ExternalImageMetadata& metadata, uint32_t memoryTypeIndex,
-            VkImageUsageFlags usage);
-    static VkSampler createExternalSamplerImpl(VkDevice device,
-            SamplerYcbcrConversion chroma, SamplerParams sampler,
-            uint32_t internalFormat);
-    static VkImageView createExternalImageViewImpl(VkDevice device,
-            SamplerYcbcrConversion chroma, uint32_t internalFormat, VkImage image,
-            VkImageSubresourceRange range, VkImageViewType viewType,
-            VkComponentMapping swizzle);
-
     // Platform dependent helper methods
     static SurfaceBundle createVkSurfaceKHRImpl(void* nativeWindow, VkInstance instance,
             uint64_t flags) noexcept;

filament/backend/include/backend/platforms/VulkanPlatformAndroid.h

@@ -26,7 +26,7 @@ namespace filament::backend {
 
 class VulkanPlatformAndroid : public VulkanPlatform {
 public:
-    Platform::ExternalImageHandle UTILS_PUBLIC createExternalImage(AHardwareBuffer const* buffer,
+    ExternalImageHandle UTILS_PUBLIC createExternalImage(AHardwareBuffer const* buffer,
             bool sRGB) noexcept;
 
     struct UTILS_PUBLIC ExternalImageDescAndroid {
@@ -39,31 +39,26 @@ public:
     ExternalImageDescAndroid UTILS_PUBLIC getExternalImageDesc(
             ExternalImageHandleRef externalImage) const noexcept;
 
+    virtual ExternalImageMetadata extractExternalImageMetadata(
+            ExternalImageHandleRef image) const override;
+
+    virtual ImageData createVkImageFromExternal(ExternalImageHandleRef image) const override;
+
 protected:
+    virtual ExtensionSet getSwapchainInstanceExtensions() const override;
+
+    using SurfaceBundle = VulkanPlatform::SurfaceBundle;
+    virtual SurfaceBundle createVkSurfaceKHR(void* nativeWindow, VkInstance instance,
+            uint64_t flags) const noexcept override;
+
+private:
     struct ExternalImageVulkanAndroid : public Platform::ExternalImage {
         AHardwareBuffer* aHardwareBuffer = nullptr;
         bool sRGB = false;
-        unsigned int width;  // Texture width
-        unsigned int height; // Texture height
-        TextureFormat format;// Texture format
-        TextureUsage usage;  // Texture usage flags
 
     protected:
         ~ExternalImageVulkanAndroid() override;
     };
-
-    virtual ExternalImageMetadata getExternalImageMetadata(ExternalImageHandleRef externalImage);
-
-    using ImageData = VulkanPlatform::ImageData;
-    virtual ImageData createExternalImageData(ExternalImageHandleRef externalImage,
-            const ExternalImageMetadata& metadata, uint32_t memoryTypeIndex,
-            VkImageUsageFlags usage);
-
-    virtual ExtensionSet getSwapchainInstanceExtensions() const;
-
-    using SurfaceBundle = VulkanPlatform::SurfaceBundle;
-    virtual SurfaceBundle createVkSurfaceKHR(void* nativeWindow, VkInstance instance,
-            uint64_t flags) const noexcept;
 };
 
 }// namespace filament::backend

filament/backend/src/metal/PlatformMetal.mm

@@ -45,6 +45,9 @@ PlatformMetal::~PlatformMetal() noexcept {
 }
 
 Driver* PlatformMetal::createDriver(void* /*sharedContext*/, const Platform::DriverConfig& driverConfig) noexcept {
+    pImpl->mDrawableFailureBehavior = driverConfig.metalDisablePanicOnDrawableFailure
+            ? DrawableFailureBehavior::ABORT_FRAME
+            : DrawableFailureBehavior::PANIC;
     return MetalDriverFactory::create(this, driverConfig);
 }
 

filament/backend/src/vulkan/VulkanConstants.h

@@ -93,7 +93,7 @@
 #endif
 
 #ifndef NDEBUG
-#define FVK_DEBUG_FLAGS (FVK_DEBUG_PERFORMANCE | FVK_DEBUG_FORWARDED_FLAG)
+#define FVK_DEBUG_FLAGS (FVK_DEBUG_PERFORMANCE | FVK_DEBUG_FORWARDED_FLAG | FVK_DEBUG_VALIDATION)
 #else
 #define FVK_DEBUG_FLAGS 0
 #endif

filament/backend/src/vulkan/VulkanDriver.cpp

@@ -200,9 +200,7 @@ Dispatcher VulkanDriver::getDispatcher() const noexcept {
 VulkanDriver::VulkanDriver(VulkanPlatform* platform, VulkanContext const& context,
         Platform::DriverConfig const& driverConfig) noexcept
     : mPlatform(platform),
-      mResourceManager(
-              driverConfig.handleArenaSize,
-              driverConfig.disableHandleUseAfterFreeCheck,
+      mResourceManager(driverConfig.handleArenaSize, driverConfig.disableHandleUseAfterFreeCheck,
               driverConfig.disableHeapHandleTags),
       mAllocator(createAllocator(mPlatform->getInstance(), mPlatform->getPhysicalDevice(),
               mPlatform->getDevice())),
@@ -221,6 +219,8 @@ VulkanDriver::VulkanDriver(VulkanPlatform* platform, VulkanContext const& contex
       mDescriptorSetLayoutCache(mPlatform->getDevice(), &mResourceManager),
       mDescriptorSetCache(mPlatform->getDevice(), &mResourceManager),
       mQueryManager(mPlatform->getDevice()),
+      mExternalImageManager(platform, &mSamplerCache, &mYcbcrConversionCache, &mDescriptorSetCache,
+              &mDescriptorSetLayoutCache),
       mIsSRGBSwapChainSupported(mPlatform->getCustomization().isSRGBSwapChainSupported),
       mStereoscopicType(driverConfig.stereoscopicType) {
 
@@ -313,7 +313,7 @@ void VulkanDriver::terminate() {
 
     mCurrentSwapChain = {};
     mDefaultRenderTarget = {};
-    mBoundPipeline = {};
+    mPipelineState = {};
 
     mQueryManager.terminate();
 
@@ -325,6 +325,10 @@ void VulkanDriver::terminate() {
 
     mCommands.terminate();
 
+    // Must come before samplerCache, ycbcrConversionCache, descriptorSetCache,
+    // descriptorSetLayoutCache
+    mExternalImageManager.terminate();
+
     mStagePool.terminate();
     mPipelineCache.terminate();
     mFramebufferCache.reset();
@@ -381,6 +385,10 @@ void VulkanDriver::beginFrame(int64_t monotonic_clock_ns,
         int64_t refreshIntervalNs, uint32_t frameId) {
     FVK_PROFILE_MARKER(PROFILE_NAME_BEGINFRAME);
     // Do nothing.
+
+    if (mAppState.hasExternalSamplers()) {
+        mExternalImageManager.onBeginFrame();
+    }
 }
 
 void VulkanDriver::setFrameScheduledCallback(Handle<HwSwapChain> sch, CallbackHandler* handler,
@@ -421,12 +429,16 @@ void VulkanDriver::updateDescriptorSetTexture(
     auto set = resource_ptr<VulkanDescriptorSet>::cast(&mResourceManager, dsh);
     auto texture = resource_ptr<VulkanTexture>::cast(&mResourceManager, th);
 
-    // TODO: YcbcrConversion?
-    VulkanSamplerCache::Params cacheParams = {
-        .sampler = params,
-    };
-    VkSampler const vksampler = mSamplerCache.getSampler(cacheParams);
-    mDescriptorSetCache.updateSampler(set, binding, texture, vksampler);
+    if (mExternalImageManager.isExternallySampledTexture(texture)) {
+        mExternalImageManager.bindExternallySampledTexture(set, binding, texture, params);
+        mAppState.hasBoundExternalImages = true;
+    } else {
+        VulkanSamplerCache::Params cacheParams = {
+            .sampler = params,
+        };
+        VkSampler const vksampler = mSamplerCache.getSampler(cacheParams);
+        mDescriptorSetCache.updateSampler(set, binding, texture, vksampler);
+    }
 }
 
 void VulkanDriver::flush(int) {
@@ -563,41 +575,35 @@ void VulkanDriver::createTextureExternalImage2R(Handle<HwTexture> th, backend::S
         backend::TextureFormat format, uint32_t width, uint32_t height, backend::TextureUsage usage,
         Platform::ExternalImageHandleRef externalImage) {
     FVK_SYSTRACE_SCOPE();
-    auto const& metadata = mPlatform->getExternalImageMetadata(externalImage);
-    if (metadata.isProtected) {
-        usage |= backend::TextureUsage::PROTECTED;
-    }
+    auto const& metadata = mPlatform->extractExternalImageMetadata(externalImage);
 
-    VkImageUsageFlags vkUsage = metadata.usage;
-    if (any(usage & TextureUsage::BLIT_SRC)) {
-        vkUsage |= VK_IMAGE_USAGE_TRANSFER_SRC_BIT;
-    }
-
-    if (any(usage & (TextureUsage::BLIT_DST | TextureUsage::UPLOADABLE))) {
-        vkUsage |= VK_IMAGE_USAGE_TRANSFER_DST_BIT;
-    }
-
-    assert_invariant(width == metadata.width);
-    assert_invariant(height == metadata.height);
-    assert_invariant(fvkutils::getVkFormat(format) == metadata.format);
-
-    VkMemoryPropertyFlags const requiredMemoryFlags = any(usage & TextureUsage::UPLOADABLE)
-                                                              ? VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT
-                                                              : VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT;
-    uint32_t const memoryTypeIndex =
-            mContext.selectMemoryType(metadata.memoryTypeBits, requiredMemoryFlags);
-    FILAMENT_CHECK_POSTCONDITION(memoryTypeIndex != VK_MAX_MEMORY_TYPES)
-            << "failed to find a valid memory type for external image memory.";
+    // In theory the following are reasonable expectations, but in practice it's hard for client's
+    // to match up the dimensions of the texture with that of the AHB.
+    // assert_invariant(width == metadata.width);
+    // assert_invariant(height == metadata.height);
+    // assert_invariant(format == metadata.filamentFormat);
+    // assert_invariant(fvkutils::getVkFormat(format) == metadata.format);
 
     VkImage vkimg;
     VkDeviceMemory deviceMemory;
-    std::tie(vkimg, deviceMemory) =
-            mPlatform->createExternalImageData(externalImage, metadata, memoryTypeIndex, vkUsage);
+    std::tie(vkimg, deviceMemory) = mPlatform->createVkImageFromExternal(externalImage);
+
+    VkSamplerYcbcrConversion conversion =
+            mExternalImageManager.getVkSamplerYcbcrConversion(metadata);
 
     auto texture = resource_ptr<VulkanTexture>::make(&mResourceManager, th, mContext,
             mPlatform->getDevice(), mAllocator, &mResourceManager, &mCommands, vkimg, deviceMemory,
-            metadata.format, VK_NULL_HANDLE, metadata.samples, metadata.width, metadata.height,
-            metadata.layerCount, usage, mStagePool);
+            metadata.format, conversion, metadata.samples, metadata.width, metadata.height,
+            metadata.layers, usage, mStagePool);
+
+    if (conversion != VK_NULL_HANDLE) {
+        mExternalImageManager.addExternallySampledTexture(texture, externalImage);
+    }
+
+    // Unlike uploaded textures or swapchains, we need to explicit transition this
+    // texture into the read layout.
+    auto& commands = mCommands.get();
+    texture->transitionLayout(&commands, texture->getPrimaryViewRange(), VulkanLayout::READ_ONLY);
 
     texture.inc();
 }
@@ -630,6 +636,8 @@ void VulkanDriver::destroyTexture(Handle<HwTexture> th) {
     }
     auto texture = resource_ptr<VulkanTexture>::cast(&mResourceManager, th);
     texture.dec();
+
+    mExternalImageManager.removeExternallySampledTexture(texture);
 }
 
 void VulkanDriver::createProgramR(Handle<HwProgram> ph, Program&& program) {
@@ -798,6 +806,11 @@ void VulkanDriver::createDescriptorSetR(Handle<HwDescriptorSet> dsh,
             fvkmemory::resource_ptr<VulkanDescriptorSetLayout>::cast(&mResourceManager, dslh);
     auto set = mDescriptorSetCache.createSet(dsh, layout);
     set.inc();
+
+    if (layout->hasExternalSamplers()) {
+        mAppState.hasExternalSamplerLayouts = true;
+        mExternalImageManager.addDescriptorSet(layout, set);
+    }
 }
 
 Handle<HwVertexBufferInfo> VulkanDriver::createVertexBufferInfoS() noexcept {
@@ -917,11 +930,19 @@ void VulkanDriver::destroyTimerQuery(Handle<HwTimerQuery> tqh) {
 void VulkanDriver::destroyDescriptorSetLayout(Handle<HwDescriptorSetLayout> dslh) {
     auto layout = resource_ptr<VulkanDescriptorSetLayout>::cast(&mResourceManager, dslh);
     layout.dec();
+
+    if (layout->hasExternalSamplers()) {
+        mExternalImageManager.removeDescriptorSetLayout(layout);
+    }
 }
 
 void VulkanDriver::destroyDescriptorSet(Handle<HwDescriptorSet> dsh) {
     auto set = resource_ptr<VulkanDescriptorSet>::cast(&mResourceManager, dsh);
     set.dec();
+
+    if (mAppState.hasExternalSamplers()) {
+        mExternalImageManager.removeDescriptorSet(set);
+    }
 }
 
 Handle<HwStream> VulkanDriver::createStreamNative(void* nativeStream) {
@@ -1482,7 +1503,6 @@ void VulkanDriver::endRenderPass(int) {
     // pipeline barrier between framebuffer writes and shader reads.
     rt->emitBarriersEndRenderPass(*mCurrentRenderPass.commandBuffer);
 
-    mRenderPassFboInfo = {};
     mCurrentRenderPass.renderTarget = {};
     mCurrentRenderPass.renderPass = VK_NULL_HANDLE;
 
@@ -1542,10 +1562,10 @@ void VulkanDriver::commit(Handle<HwSwapChain> sch) {
 
 void VulkanDriver::setPushConstant(backend::ShaderStage stage, uint8_t index,
         backend::PushConstantVariant value) {
-    assert_invariant(mBoundPipeline.program && "Expect a program when writing to push constants");
+    assert_invariant(mPipelineState.program && "Expect a program when writing to push constants");
     assert_invariant(mCurrentRenderPass.commandBuffer && "Should be called within a renderpass");
-    mBoundPipeline.program->writePushConstant(mCurrentRenderPass.commandBuffer->buffer(),
-            mBoundPipeline.pipelineLayout, stage, index, value);
+    mPipelineState.program->writePushConstant(mCurrentRenderPass.commandBuffer->buffer(),
+            mPipelineState.pipelineLayout, stage, index, value);
 }
 
 void VulkanDriver::insertEventMarker(char const* string) {
@@ -1724,6 +1744,27 @@ void VulkanDriver::blitDEPRECATED(TargetBufferFlags buffers,
 }
 
 void VulkanDriver::bindPipeline(PipelineState const& pipelineState) {
+    // We need to determine whether to delay bindning until draw().
+    mPipelineState.bindInDraw.first = false;
+    if (mAppState.hasExternalSamplers()) {
+        auto& layouts = pipelineState.pipelineLayout.setLayout;
+        auto haveExternalSamplers = [&](auto hwHandle) {
+            if (!hwHandle) {
+                return false;
+            }
+            auto layout =
+                    resource_ptr<VulkanDescriptorSetLayout>::cast(&mResourceManager, hwHandle);
+            return layout->hasExternalSamplers();
+        };
+        if (std::any_of(layouts.begin(), layouts.end(), haveExternalSamplers)) {
+            mPipelineState.bindInDraw = { true, pipelineState };
+            return;
+        }
+    }
+    bindPipelineImpl(pipelineState);
+}
+
+void VulkanDriver::bindPipelineImpl(PipelineState const& pipelineState) {
     FVK_SYSTRACE_SCOPE();
     auto commands = mCurrentRenderPass.commandBuffer;
     auto vbi = resource_ptr<VulkanVertexBufferInfo>::cast(&mResourceManager,
@@ -1792,10 +1833,11 @@ void VulkanDriver::bindPipeline(PipelineState const& pipelineState) {
 
     constexpr uint8_t descriptorSetMaskTable[4] = {0x1, 0x3, 0x7, 0xF};
 
-    mBoundPipeline = {
+    mPipelineState = {
         .program = program,
         .pipelineLayout = pipelineLayout,
         .descriptorSetMask = fvkutils::DescriptorSetMask(descriptorSetMaskTable[layoutCount]),
+        .bindInDraw = {false, {}},
     };
 
     mPipelineCache.bindLayout(pipelineLayout);
@@ -1842,14 +1884,24 @@ void VulkanDriver::draw2(uint32_t indexOffset, uint32_t indexCount, uint32_t ins
     FVK_SYSTRACE_SCOPE();
     VkCommandBuffer cmdbuffer = mCurrentRenderPass.commandBuffer->buffer();
 
+    if (mAppState.hasExternalSamplers()) {
+        auto const& [bindInDraw, pipelineSt] = mPipelineState.bindInDraw;
+        bool const hasUpdated =
+                mExternalImageManager.prepareBindSets(mDescriptorSetCache.getBoundSets());
+        if (bindInDraw || hasUpdated) {
+            bindPipelineImpl(pipelineSt);
+        }
+        mPipelineState.bindInDraw.first = false;
+    }
+
     mDescriptorSetCache.commit(mCurrentRenderPass.commandBuffer,
-            mBoundPipeline.pipelineLayout,
-            mBoundPipeline.descriptorSetMask);
+            mPipelineState.pipelineLayout,
+            mPipelineState.descriptorSetMask);
 
     // Finally, make the actual draw call. TODO: support subranges
-    const uint32_t firstIndex = indexOffset;
-    const int32_t vertexOffset = 0;
-    const uint32_t firstInstId = 0;
+    uint32_t const firstIndex = indexOffset;
+    constexpr int32_t vertexOffset = 0;
+    constexpr uint32_t firstInstId = 0;
 
     vkCmdDrawIndexed(cmdbuffer, indexCount, instanceCount, firstIndex, vertexOffset, firstInstId);
 }

filament/backend/src/vulkan/VulkanDriver.h

@@ -30,6 +30,7 @@
 #include "VulkanYcbcrConversionCache.h"
 #include "vulkan/VulkanDescriptorSetCache.h"
 #include "vulkan/VulkanDescriptorSetLayoutCache.h"
+#include "vulkan/VulkanExternalImageManager.h"
 #include "vulkan/VulkanPipelineLayoutCache.h"
 #include "vulkan/memory/ResourceManager.h"
 #include "vulkan/memory/ResourcePointer.h"
@@ -119,6 +120,7 @@ private:
 
 private:
     void collectGarbage();
+    void bindPipelineImpl(PipelineState const& pipelineState);
 
     VulkanPlatform* mPlatform = nullptr;
     fvkmemory::ResourceManager mResourceManager;
@@ -143,21 +145,29 @@ private:
     VulkanDescriptorSetLayoutCache mDescriptorSetLayoutCache;
     VulkanDescriptorSetCache mDescriptorSetCache;
     VulkanQueryManager mQueryManager;
+    VulkanExternalImageManager mExternalImageManager;
 
     // This is necessary for us to write to push constants after binding a pipeline.
     struct {
+        // For push constant
         resource_ptr<VulkanProgram> program;
+        // For push commiting dynamic ubos in draw()
         VkPipelineLayout pipelineLayout;
         fvkutils::DescriptorSetMask descriptorSetMask;
-    } mBoundPipeline = {};
 
-    // We need to store information about a render pass to enable better barriers at the end of a
-    // renderpass.
+        std::pair<bool, PipelineState> bindInDraw = {false, {}};
+    } mPipelineState = {};
+
     struct {
-        using AttachmentArray =
-                fvkutils::StaticVector<VulkanAttachment, MAX_RENDERTARGET_ATTACHMENT_TEXTURES>;
-        AttachmentArray attachments;
-    } mRenderPassFboInfo = {};
+        // This tracks whether the app has seen external samplers bound to a the descriptor set.
+        // This will force bindPipeline to take a slow path.
+        bool hasExternalSamplerLayouts = false;
+        bool hasBoundExternalImages = false;
+
+        bool hasExternalSamplers() const noexcept {
+            return hasExternalSamplerLayouts && hasBoundExternalImages;
+        }
+    } mAppState;
 
     bool const mIsSRGBSwapChainSupported;
     backend::StereoscopicType const mStereoscopicType;

filament/backend/src/vulkan/VulkanExternalImageManager.cpp

@@ -0,0 +1,280 @@
+/*
+ * Copyright (C) 2025 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#include "VulkanExternalImageManager.h"
+
+#include "VulkanDescriptorSetCache.h"
+#include "VulkanDescriptorSetLayoutCache.h"
+#include "VulkanSamplerCache.h"
+#include "VulkanYcbcrConversionCache.h"
+#include "vulkan/memory/ResourcePointer.h"
+#include "vulkan/utils/Conversion.h"
+
+#include <backend/platforms/VulkanPlatform.h>
+
+#include <algorithm>
+
+namespace filament::backend {
+
+namespace {
+
+template<typename T>
+void erase(std::vector<T>& v, std::function<bool(T const&)> f) {
+    auto newEnd = std::remove_if(v.begin(), v.end(), f);
+    v.erase(newEnd, v.end());
+}
+
+} // anonymous
+
+VulkanExternalImageManager::VulkanExternalImageManager(VulkanPlatform* platform,
+        VulkanSamplerCache* samplerCache, VulkanYcbcrConversionCache* ycbcrConversionCache,
+        VulkanDescriptorSetCache* setCache, VulkanDescriptorSetLayoutCache* layoutCache)
+    : mPlatform(platform),
+      mSamplerCache(samplerCache),
+      mYcbcrConversionCache(ycbcrConversionCache),
+      mDescriptorSetCache(setCache),
+      mDescriptorSetLayoutCache(layoutCache) {
+}
+
+VulkanExternalImageManager::~VulkanExternalImageManager() = default;
+
+void VulkanExternalImageManager::terminate() {
+    mSetAndLayouts.clear();
+    mSetBindings.clear();
+    mImages.clear();
+}
+
+void VulkanExternalImageManager::onBeginFrame() {
+    std::for_each(mImages.begin(), mImages.end(), [](ImageData& image) {
+        image.hasBeenValidated = false;
+    });
+}
+
+bool VulkanExternalImageManager::prepareBindSets(SetArray const& sets) {
+    bool hasUpdated = false;
+    for (auto set: sets) {
+        if (!set) {
+            continue;
+        }
+        if (auto itr = std::find_if(mSetAndLayouts.begin(), mSetAndLayouts.end(),
+                    [&](auto const& setAndLayout) { return setAndLayout.first == set; });
+                itr != mSetAndLayouts.end()) {
+            hasUpdated = updateSetAndLayout(itr->first, itr->second) || hasUpdated;
+        }
+    }
+    return hasUpdated;
+}
+
+bool VulkanExternalImageManager::updateSetAndLayout(
+        fvkmemory::resource_ptr<VulkanDescriptorSet> set,
+        fvkmemory::resource_ptr<VulkanDescriptorSetLayout> layout) {
+    auto findImage = [&](fvkmemory::resource_ptr<VulkanTexture> texture) -> ImageData* {
+        auto itr = std::find_if(mImages.begin(), mImages.end(), [&](ImageData const& data) {
+            return data.ptr == texture;
+        });
+        assert_invariant(itr != mImages.end());
+        return &(*itr);
+    };
+
+    //std::vector<std::pair<uint8_t, ImageData*>> externalImages;
+    utils::FixedCapacityVector<std::pair<uint8_t, VkSampler>> samplerAndBindings;
+    samplerAndBindings.reserve(MAX_SAMPLER_COUNT);
+
+    bool hasImageUpdates = false;
+    for (auto& bindingInfo : mSetBindings) {
+        if (bindingInfo.set != set) {
+            continue;
+        }
+        auto imageData = findImage(bindingInfo.image);
+        hasImageUpdates = updateImage(imageData) || hasImageUpdates;
+
+        auto samplerParams = bindingInfo.samplerParams;
+        // according to spec, these must match chromaFilter
+        // https://registry.khronos.org/vulkan/specs/latest/man/html/VkSamplerCreateInfo.html#VUID-VkSamplerCreateInfo-minFilter-01645
+        samplerParams.filterMag = SamplerMagFilter::NEAREST;
+        samplerParams.filterMin = SamplerMinFilter::NEAREST;
+
+        auto sampler = mSamplerCache->getSampler({
+            .sampler = samplerParams,
+            .conversion = imageData->conversion,
+        });
+        samplerAndBindings.push_back({ bindingInfo.binding, sampler });
+    }
+
+    // We need to sort by binding number
+    std::sort(samplerAndBindings.begin(), samplerAndBindings.end());
+
+    utils::FixedCapacityVector<VkSampler> outSamplers;
+    outSamplers.reserve(MAX_SAMPLER_COUNT);
+    std::for_each(samplerAndBindings.begin(), samplerAndBindings.end(),
+            [&](auto const& b) { outSamplers.push_back(b.second); });
+
+    VkDescriptorSetLayout const oldLayout = layout->getVkLayout();
+    VkDescriptorSetLayout const newLayout =
+            mDescriptorSetLayoutCache->getVkLayout(layout->bitmask, outSamplers);
+    bool const hasLayoutUpdate = oldLayout != newLayout;
+    layout->setVkLayout(newLayout);
+
+    assert_invariant(
+            (!hasImageUpdates && !hasLayoutUpdate) ||
+            (hasImageUpdates && hasLayoutUpdate));
+
+    if (!hasLayoutUpdate) {
+        return false;
+    }
+
+    auto foldBitsInHalf = [](auto bitset) {
+        constexpr size_t BITMASK_LOWER_BITS_LEN = sizeof(bitset) * 4;
+        decltype(bitset) outBitset;
+        bitset.forEachSetBit([&](size_t index) { outBitset.set(index % BITMASK_LOWER_BITS_LEN); });
+        return outBitset;
+    };
+    // We need to build a new descriptor set from the new layout
+    VkDescriptorSet oldSet = set->getVkSet();
+    VkDescriptorSet newSet = mDescriptorSetCache->getVkSet(layout);
+
+    using Bitmask = fvkutils::UniformBufferBitmask;
+    static_assert(sizeof(Bitmask) * 8 == fvkutils::MAX_DESCRIPTOR_SET_BITMASK_BITS);
+
+    auto const ubo = layout->bitmask.ubo | layout->bitmask.dynamicUbo;
+    auto const samplers = layout->bitmask.sampler & (~layout->bitmask.externalSampler);
+
+    // each bitmask denotes a binding index, and separated into two stages - vertex and buffer
+    // We fold the two stages into just the lower half of the bits to denote a combined set of
+    // bindings.
+    Bitmask const copyBindings = foldBitsInHalf(ubo | samplers);
+
+    // TODO: fix the size for better memory
+    std::vector<VkCopyDescriptorSet> copies;
+    copyBindings.forEachSetBit([&](size_t index) {
+        copies.push_back({
+            .sType = VK_STRUCTURE_TYPE_COPY_DESCRIPTOR_SET,
+            .srcSet = oldSet,
+            .srcBinding = (uint32_t) index,
+            .dstSet = newSet,
+            .dstBinding = (uint32_t) index,
+            .descriptorCount = 1,
+        });
+    });
+    vkUpdateDescriptorSets(mPlatform->getDevice(), 0, nullptr, copies.size(), copies.data());
+
+    set->setVkSet(newSet);
+
+    // We need to release the vkset, which is no longer used, back into the pool.
+    mDescriptorSetCache->manualRecyle(layout->count, oldLayout, oldSet);
+
+    // We need to update the external samplers in the set
+    for (auto& bindingInfo: mSetBindings) {
+        if (bindingInfo.set != set) {
+            continue;
+        }
+        mDescriptorSetCache->updateSampler(set, bindingInfo.binding, bindingInfo.image,
+                VK_NULL_HANDLE);
+    }
+    return true;
+}
+
+VkSamplerYcbcrConversion VulkanExternalImageManager::getVkSamplerYcbcrConversion(
+        VulkanPlatform::ExternalImageMetadata const& metadata) {
+    // This external image does not require external sampler (YUV conversion).
+    if (metadata.externalFormat == 0) {
+        return VK_NULL_HANDLE;
+    }
+    VulkanYcbcrConversionCache::Params ycbcrParams = {
+        .conversion = {
+            .ycbcrModel = fvkutils::getYcbcrModelConversionFilament(metadata.ycbcrModel),
+            .r = fvkutils::getSwizzleFilament(metadata.ycbcrConversionComponents.r, 0),
+            .g = fvkutils::getSwizzleFilament(metadata.ycbcrConversionComponents.g, 1),
+            .b = fvkutils::getSwizzleFilament(metadata.ycbcrConversionComponents.b, 2),
+            .a = fvkutils::getSwizzleFilament(metadata.ycbcrConversionComponents.a, 3),
+            .ycbcrRange = fvkutils::getYcbcrRangeFilament(metadata.ycbcrRange),
+            .xChromaOffset = fvkutils::getChromaLocationFilament(metadata.xChromaOffset),
+            .yChromaOffset = fvkutils::getChromaLocationFilament(metadata.yChromaOffset),
+
+            // Unclear where to get the chromaFilter, we just assume it's nearest.
+            .chromaFilter = SamplerMagFilter::NEAREST,
+        },
+        .format = metadata.filamentFormat,
+        .externalFormat = metadata.externalFormat,
+    };
+    return mYcbcrConversionCache->getConversion(ycbcrParams);
+}
+
+bool VulkanExternalImageManager::updateImage(ImageData* image) {
+    if (image->hasBeenValidated) {
+        return false;
+    }
+    image->hasBeenValidated = true;
+
+    auto metadata = mPlatform->extractExternalImageMetadata(image->platformHandle);
+    auto vkYcbcr = getVkSamplerYcbcrConversion(metadata);
+    if (vkYcbcr == image->conversion) {
+        return false;
+    }
+
+    image->ptr->setYcbcrConversion(vkYcbcr, metadata.externalFormat != 0);
+    image->conversion = vkYcbcr;
+    return true;
+}
+
+void VulkanExternalImageManager::addDescriptorSet(
+        fvkmemory::resource_ptr<VulkanDescriptorSetLayout> layout,
+        fvkmemory::resource_ptr<VulkanDescriptorSet> set) {
+    mSetAndLayouts.push_back({set, layout});
+}
+
+void VulkanExternalImageManager::removeDescriptorSet(
+        fvkmemory::resource_ptr<VulkanDescriptorSet> inSet) {
+    erase<SetAndLayout>(mSetAndLayouts,
+            [&](auto const& setLayout) { return (setLayout.first == inSet); });
+    erase<SetBindingInfo>(mSetBindings,
+            [&](auto const& bindingInfo) { return (bindingInfo.set == inSet); });
+}
+
+void VulkanExternalImageManager::removeDescriptorSetLayout(
+        fvkmemory::resource_ptr<VulkanDescriptorSetLayout> inLayout) {
+    erase<SetAndLayout>(mSetAndLayouts,
+            [&](auto const& setLayout) { return (setLayout.second == inLayout); });
+}
+
+void VulkanExternalImageManager::bindExternallySampledTexture(
+        fvkmemory::resource_ptr<VulkanDescriptorSet> set, uint8_t bindingPoint,
+        fvkmemory::resource_ptr<VulkanTexture> image, SamplerParams samplerParams) {
+    // Should we do duplicate validation here?
+    mSetBindings.push_back({ bindingPoint, image, set, samplerParams });
+}
+
+void VulkanExternalImageManager::addExternallySampledTexture(
+        fvkmemory::resource_ptr<VulkanTexture> image,
+        Platform::ExternalImageHandleRef platformHandleRef) {
+    mImages.push_back({ image, platformHandleRef, false });
+}
+
+void VulkanExternalImageManager::removeExternallySampledTexture(
+        fvkmemory::resource_ptr<VulkanTexture> image) {
+    erase<SetBindingInfo>(mSetBindings,
+            [&](auto const& bindingInfo) { return (bindingInfo.image == image); });
+    erase<ImageData>(mImages, [&](auto const& imageData) { return imageData.ptr == image; });
+}
+
+bool VulkanExternalImageManager::isExternallySampledTexture(
+        fvkmemory::resource_ptr<VulkanTexture> image) const {
+    return std::find_if(mImages.begin(), mImages.end(),
+                   [&](auto const& imageData) { return imageData.ptr == image; }) != mImages.end();
+}
+
+
+} // namesapce filament::backend

filament/backend/src/vulkan/VulkanExternalImageManager.h

@@ -0,0 +1,115 @@
+/*
+ * Copyright (C) 2025 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef TNT_FILAMENT_BACKEND_CACHING_VULKANEXTERNALIMAGEMANAGER_H
+#define TNT_FILAMENT_BACKEND_CACHING_VULKANEXTERNALIMAGEMANAGER_H
+
+#include "VulkanHandles.h"
+
+#include <backend/DriverEnums.h>
+
+#include <array>
+#include <vector>
+
+namespace filament::backend {
+
+class VulkanYcbcrConversionCache;
+class VulkanSamplerCache;
+class VulkanDescriptorSetLayoutCache;
+class VulkanDescriptorSetCache;
+
+// Manages the logic of external images and their quirks wrt Vulikan.
+class VulkanExternalImageManager {
+public:
+
+    VulkanExternalImageManager(
+            VulkanPlatform* platform,
+            VulkanSamplerCache* samplerCache,
+            VulkanYcbcrConversionCache* ycbcrConversionCache,
+            VulkanDescriptorSetCache* setCache,
+            VulkanDescriptorSetLayoutCache* layoutCache);
+
+    ~VulkanExternalImageManager();
+
+    void terminate();
+
+    void onBeginFrame();
+
+    using SetArray = std::array<fvkmemory::resource_ptr<VulkanDescriptorSet>,
+            VulkanDescriptorSetLayout::UNIQUE_DESCRIPTOR_SET_COUNT>;
+
+    // This sets the currently bound layouts objects for the pipeline
+    bool prepareBindSets(SetArray const& layouts);
+
+    void addDescriptorSet(fvkmemory::resource_ptr<VulkanDescriptorSetLayout> layout,
+            fvkmemory::resource_ptr<VulkanDescriptorSet> set);
+
+    void removeDescriptorSetLayout(fvkmemory::resource_ptr<VulkanDescriptorSetLayout> layout);
+
+    void removeDescriptorSet(fvkmemory::resource_ptr<VulkanDescriptorSet> set);
+
+    void bindExternallySampledTexture(fvkmemory::resource_ptr<VulkanDescriptorSet> set,
+            uint8_t bindingPoint, fvkmemory::resource_ptr<VulkanTexture> image,
+            SamplerParams samplerParams);
+
+    void addExternallySampledTexture(fvkmemory::resource_ptr<VulkanTexture> image,
+            Platform::ExternalImageHandleRef platformHandleRef);
+
+    void removeExternallySampledTexture(fvkmemory::resource_ptr<VulkanTexture> image);
+
+    bool isExternallySampledTexture(fvkmemory::resource_ptr<VulkanTexture> image) const;
+
+    VkSamplerYcbcrConversion getVkSamplerYcbcrConversion(
+            VulkanPlatform::ExternalImageMetadata const& metadata);
+
+private:
+
+    struct ImageData {
+        fvkmemory::resource_ptr<VulkanTexture> ptr;
+        Platform::ExternalImageHandle platformHandle;
+        bool hasBeenValidated = false; // indicates whether the image has been validated *this frame*
+        VkSamplerYcbcrConversion conversion = VK_NULL_HANDLE;
+    };
+
+    bool updateSetAndLayout(fvkmemory::resource_ptr<VulkanDescriptorSet> set,
+            fvkmemory::resource_ptr<VulkanDescriptorSetLayout> layout);
+    bool updateImage(ImageData* imageData);
+
+    VulkanPlatform* mPlatform;
+    VulkanSamplerCache* mSamplerCache;
+    VulkanYcbcrConversionCache* mYcbcrConversionCache;
+    VulkanDescriptorSetCache* mDescriptorSetCache;
+    VulkanDescriptorSetLayoutCache* mDescriptorSetLayoutCache;
+
+    using SetAndLayout = std::pair<fvkmemory::resource_ptr<VulkanDescriptorSet>,
+            fvkmemory::resource_ptr<VulkanDescriptorSetLayout>>;
+
+    struct SetBindingInfo {
+        uint8_t binding = 0;
+        fvkmemory::resource_ptr<VulkanTexture> image;
+        fvkmemory::resource_ptr<VulkanDescriptorSet> set;
+        SamplerParams samplerParams;
+    };
+
+    // Use vectors instead of hash maps because we only expect small number of entries.
+    std::vector<SetAndLayout> mSetAndLayouts;
+    std::vector<SetBindingInfo> mSetBindings;
+    std::vector<ImageData> mImages;
+};
+
+} // filament::backend
+
+#endif // TNT_FILAMENT_BACKEND_CACHING_VULKANEXTERNALIMAGEMANAGER_H

filament/backend/src/vulkan/VulkanSamplerCache.cpp

@@ -18,6 +18,7 @@
 
 #include "VulkanConstants.h"
 #include "vulkan/utils/Conversion.h"
+#include "vulkan/vulkan_core.h"
 
 #include <utils/Panic.h>
 

filament/backend/src/vulkan/memory/ResourcePointer.h

@@ -132,6 +132,10 @@ public:
         return id() == other.id() && type() == other.type();
     }
 
+    inline bool operator!=(resource_ptr<D> const& other) const {
+        return !((*this) == other);
+    }
+
     inline explicit operator bool() const {
         return bool(mRef);
     }

filament/backend/src/vulkan/platform/VulkanPlatform.cpp

@@ -993,30 +993,6 @@ VkQueue VulkanPlatform::getProtectedGraphicsQueue() const noexcept {
     return mImpl->mProtectedGraphicsQueue;
 }
 
-VulkanPlatform::ExternalImageMetadata VulkanPlatform::getExternalImageMetadata(
-        ExternalImageHandleRef externalImage) {
-    return getExternalImageMetadataImpl(externalImage, mImpl->mDevice);
-}
-
-VulkanPlatform::ImageData VulkanPlatform::createExternalImageData(
-        ExternalImageHandleRef externalImage, const ExternalImageMetadata& metadata,
-        uint32_t memoryTypeIndex, VkImageUsageFlags usage) {
-    return createExternalImageDataImpl(externalImage, mImpl->mDevice, metadata, memoryTypeIndex,
-            usage);
-}
-
-VkSampler VulkanPlatform::createExternalSampler(SamplerYcbcrConversion chroma,
-        SamplerParams sampler, uint32_t internalFormat) {
-    return createExternalSamplerImpl(mImpl->mDevice, chroma, sampler, internalFormat);
-}
-
-VkImageView VulkanPlatform::createExternalImageView(SamplerYcbcrConversion chroma,
-        uint32_t internalFormat, VkImage image, VkImageSubresourceRange range,
-        VkImageViewType viewType, VkComponentMapping swizzle) {
-    return createExternalImageViewImpl(mImpl->mDevice, chroma, internalFormat, image, range,
-            viewType, swizzle);
-}
-
 ExtensionSet VulkanPlatform::getSwapchainInstanceExtensions() const {
     return getSwapchainInstanceExtensionsImpl();
 }

filament/backend/src/vulkan/platform/VulkanPlatformAndroid.cpp

@@ -15,14 +15,14 @@
  */
 #include <backend/platforms/VulkanPlatformAndroid.h>
 
+#include "vulkan/VulkanConstants.h"
+#include "vulkan/VulkanContext.h"
+#include "vulkan/vulkan_core.h"
+
 #include <backend/DriverEnums.h>
 #include <private/backend/BackendUtilsAndroid.h>
 
-#include "vulkan/VulkanConstants.h"
-
 #include <utils/Panic.h>
-#include "vulkan/utils/Image.h"
-#include "vulkan/utils/Conversion.h"
 
 #include <bluevk/BlueVK.h>
 
@@ -57,7 +57,7 @@ VkFormat transformVkFormat(VkFormat format, bool sRGB) {
 }
 
 bool isProtectedFromUsage(uint64_t usage) {
-    return (usage & AHARDWAREBUFFER_USAGE_PROTECTED_CONTENT) ? true : false;
+    return usage & AHARDWAREBUFFER_USAGE_PROTECTED_CONTENT;
 }
 
 std::pair<VkFormat, VkImageUsageFlags> getVKFormatAndUsage(const AHardwareBuffer_Desc& desc,
@@ -120,7 +120,9 @@ std::pair<VkFormat, VkImageUsageFlags> getVKFormatAndUsage(const AHardwareBuffer
     usage = 0;
     if (desc.usage & AHARDWAREBUFFER_USAGE_GPU_SAMPLED_IMAGE) {
         usage |= VK_IMAGE_USAGE_SAMPLED_BIT;
-        usage |= VK_IMAGE_USAGE_INPUT_ATTACHMENT_BIT;
+
+        // We shouldn't be using external samplers as input attachments
+        // usage |= VK_IMAGE_USAGE_INPUT_ATTACHMENT_BIT;
     }
     if (desc.usage & AHARDWAREBUFFER_USAGE_GPU_FRAMEBUFFER) {
         if (isDepthFormat) {
@@ -136,87 +138,38 @@ std::pair<VkFormat, VkImageUsageFlags> getVKFormatAndUsage(const AHardwareBuffer
     return { format, usage };
 }
 
-VulkanPlatform::ImageData allocateExternalImage(AHardwareBuffer* buffer, VkDevice device,
-        VulkanPlatform::ExternalImageMetadata const& metadata, uint32_t memoryTypeIndex,
-        VkImageUsageFlags usage) {
-    VulkanPlatform::ImageData data;
-
-    // if external format we need to specifiy it in the allocation
-    const bool useExternalFormat = metadata.format == VK_FORMAT_UNDEFINED;
-
-    const VkExternalFormatANDROID externalFormat = {
-        .sType = VK_STRUCTURE_TYPE_EXTERNAL_FORMAT_ANDROID,
-        .pNext = nullptr,
-        // pass down the format (external means we don't have it VK defined)
-        .externalFormat = metadata.externalFormat,
+std::pair<TextureFormat, TextureUsage> getFilamentFormatAndUsage(const AHardwareBuffer_Desc& desc,
+        bool sRGB) {
+    auto const format = mapToFilamentFormat(desc.format, sRGB);
+    return {
+        format,
+        mapToFilamentUsage(desc.usage, format),
     };
-    const VkExternalMemoryImageCreateInfo externalCreateInfo = {
-        .sType = VK_STRUCTURE_TYPE_EXTERNAL_MEMORY_IMAGE_CREATE_INFO,
-        .pNext = useExternalFormat ? &externalFormat : nullptr,
-        .handleTypes = VK_EXTERNAL_MEMORY_HANDLE_TYPE_ANDROID_HARDWARE_BUFFER_BIT_ANDROID,
-    };
-
-    VkImageCreateInfo imageInfo{ .sType = VK_STRUCTURE_TYPE_IMAGE_CREATE_INFO };
-    imageInfo.pNext = &externalCreateInfo;
-    imageInfo.format = metadata.format;
-    imageInfo.imageType = VK_IMAGE_TYPE_2D;
-    imageInfo.extent = {
-        metadata.width,
-        metadata.height,
-        1u,
-    };
-    imageInfo.mipLevels = 1;
-    imageInfo.arrayLayers = metadata.layers;
-    imageInfo.samples = metadata.samples;
-    imageInfo.usage = usage;
-
-    VkResult result = vkCreateImage(device, &imageInfo, VKALLOC, &data.first);
-    FILAMENT_CHECK_POSTCONDITION(result == VK_SUCCESS)
-            << "vkCreateImage failed with error=" << static_cast<int32_t>(result);
-
-    // Allocate the memory
-    VkImportAndroidHardwareBufferInfoANDROID androidHardwareBufferInfo = {
-        .sType = VK_STRUCTURE_TYPE_IMPORT_ANDROID_HARDWARE_BUFFER_INFO_ANDROID,
-        .pNext = nullptr,
-        .buffer = buffer,
-    };
-    VkMemoryDedicatedAllocateInfo memoryDedicatedAllocateInfo = {
-        .sType = VK_STRUCTURE_TYPE_MEMORY_DEDICATED_ALLOCATE_INFO,
-        .pNext = &androidHardwareBufferInfo,
-        .image = data.first,
-        .buffer = VK_NULL_HANDLE,
-    };
-    VkMemoryAllocateInfo allocInfo = {
-        .sType = VK_STRUCTURE_TYPE_MEMORY_ALLOCATE_INFO,
-        .pNext = &memoryDedicatedAllocateInfo,
-        .allocationSize = metadata.allocationSize,
-        .memoryTypeIndex = memoryTypeIndex,
-    };
-    result = vkAllocateMemory(device, &allocInfo, VKALLOC, &data.second);
-    FILAMENT_CHECK_POSTCONDITION(result == VK_SUCCESS)
-            << "vkAllocateMemory failed with error=" << static_cast<int32_t>(result);
-
-    return data;
 }
 
+
 }// namespace
 
-VulkanPlatformAndroid::ExternalImageVulkanAndroid::~ExternalImageVulkanAndroid() = default;
+VulkanPlatformAndroid::ExternalImageVulkanAndroid::~ExternalImageVulkanAndroid() {
+    if (__builtin_available(android 26, *)) {
+        if (aHardwareBuffer) {
+            AHardwareBuffer_release(aHardwareBuffer);
+        }
+    }
+}
 
 Platform::ExternalImageHandle VulkanPlatformAndroid::createExternalImage(
         AHardwareBuffer const* buffer, bool sRGB) noexcept {
     if (__builtin_available(android 26, *)) {
+        auto bufferImpl = const_cast<AHardwareBuffer*>(buffer);
+        AHardwareBuffer_acquire(bufferImpl);
+
         AHardwareBuffer_Desc hardwareBufferDescription = {};
         AHardwareBuffer_describe(buffer, &hardwareBufferDescription);
 
         auto* const p = new (std::nothrow) ExternalImageVulkanAndroid;
         p->aHardwareBuffer = const_cast<AHardwareBuffer*>(buffer);
         p->sRGB = sRGB;
-        p->height = hardwareBufferDescription.height;
-        p->width = hardwareBufferDescription.width;
-        TextureFormat textureFormat = mapToFilamentFormat(hardwareBufferDescription.format, sRGB);
-        p->format = textureFormat;
-        p->usage = mapToFilamentUsage(hardwareBufferDescription.usage, textureFormat);
         return Platform::ExternalImageHandle{ p };
     }
 
@@ -225,23 +178,20 @@ Platform::ExternalImageHandle VulkanPlatformAndroid::createExternalImage(
 
 VulkanPlatformAndroid::ExternalImageDescAndroid VulkanPlatformAndroid::getExternalImageDesc(
         ExternalImageHandleRef externalImage) const noexcept {
-    auto const* fvkExternalImage =
-            static_cast<ExternalImageVulkanAndroid const*>(externalImage.get());
-
+    auto metadata = extractExternalImageMetadata(externalImage);
     return {
-        .width = fvkExternalImage->width,
-        .height = fvkExternalImage->height,
-        .format = fvkExternalImage->format,
-        .usage = fvkExternalImage->usage,
+        .width = metadata.width,
+        .height = metadata.height,
+        .format = metadata.filamentFormat,
+        .usage = metadata.filamentUsage,
     };
 }
 
-VulkanPlatform::ExternalImageMetadata VulkanPlatformAndroid::getExternalImageMetadata(
-        ExternalImageHandleRef externalImage) {
-    auto const* fvkExternalImage =
-            static_cast<ExternalImageVulkanAndroid const*>(externalImage.get());
+VulkanPlatform::ExternalImageMetadata VulkanPlatformAndroid::extractExternalImageMetadata(
+        ExternalImageHandleRef image) const {
+    auto const* fvkExternalImage = static_cast<ExternalImageVulkanAndroid const*>(image.get());
 
-    ExternalImageMetadata metadata;
+    ExternalImageMetadata metadata = {};
     AHardwareBuffer* buffer = fvkExternalImage->aHardwareBuffer;
     if (__builtin_available(android 26, *)) {
         AHardwareBuffer_Desc bufferDesc;
@@ -249,16 +199,30 @@ VulkanPlatform::ExternalImageMetadata VulkanPlatformAndroid::getExternalImageMet
         metadata.width = bufferDesc.width;
         metadata.height = bufferDesc.height;
         metadata.layers = bufferDesc.layers;
-        metadata.isProtected = isProtectedFromUsage(bufferDesc.usage);
         std::tie(metadata.format, metadata.usage) =
                 getVKFormatAndUsage(bufferDesc, fvkExternalImage->sRGB);
-    }
+        std::tie(metadata.filamentFormat, metadata.filamentUsage) =
+                getFilamentFormatAndUsage(bufferDesc, fvkExternalImage->sRGB);
 
+        if (isProtectedFromUsage(bufferDesc.usage)) {
+            metadata.filamentUsage |= TextureUsage::PROTECTED;
+        }
+
+        // TODO: The following seems unnecessary. we should be able to discern directly from the
+        // bufferDesc.
+        if (any(metadata.filamentUsage & TextureUsage::BLIT_SRC)) {
+            metadata.usage |= VK_IMAGE_USAGE_TRANSFER_SRC_BIT;
+        }
+
+        if (any(metadata.filamentUsage & (TextureUsage::BLIT_DST | TextureUsage::UPLOADABLE))) {
+            metadata.usage |= VK_IMAGE_USAGE_TRANSFER_DST_BIT;
+        }
+    }
     metadata.samples = VK_SAMPLE_COUNT_1_BIT;
 
+
     VkAndroidHardwareBufferFormatPropertiesANDROID formatInfo = {
         .sType = VK_STRUCTURE_TYPE_ANDROID_HARDWARE_BUFFER_FORMAT_PROPERTIES_ANDROID,
-        .pNext = nullptr,
     };
     VkAndroidHardwareBufferPropertiesANDROID properties = {
         .sType = VK_STRUCTURE_TYPE_ANDROID_HARDWARE_BUFFER_PROPERTIES_ANDROID,
@@ -268,138 +232,116 @@ VulkanPlatform::ExternalImageMetadata VulkanPlatformAndroid::getExternalImageMet
     FILAMENT_CHECK_POSTCONDITION(result == VK_SUCCESS)
             << "vkGetAndroidHardwareBufferProperties failed with error="
             << static_cast<int32_t>(result);
-
     VkFormat bufferPropertiesFormat = transformVkFormat(formatInfo.format, fvkExternalImage->sRGB);
     FILAMENT_CHECK_POSTCONDITION(metadata.format == bufferPropertiesFormat)
             << "mismatched image format( " << metadata.format << ") and queried format("
             << bufferPropertiesFormat << ") for external image (AHB)";
     metadata.externalFormat = formatInfo.externalFormat;
+
+    // Choose either externalFormat > 0 or metadata.format and prefer the latter.
+    if (metadata.externalFormat > 0 &&  metadata.format != VK_FORMAT_UNDEFINED) {
+        // See VUID-VkImageCreateInfo-pNext-09457
+        metadata.usage = VK_IMAGE_USAGE_SAMPLED_BIT;
+        metadata.externalFormat = 0;
+    }
+
     metadata.allocationSize = properties.allocationSize;
     metadata.memoryTypeBits = properties.memoryTypeBits;
+
+    metadata.ycbcrConversionComponents = formatInfo.samplerYcbcrConversionComponents;
+    metadata.ycbcrModel = formatInfo.suggestedYcbcrModel;
+    metadata.ycbcrRange = formatInfo.suggestedYcbcrRange;
+    metadata.xChromaOffset = formatInfo.suggestedXChromaOffset;
+    metadata.yChromaOffset = formatInfo.suggestedYChromaOffset;
+
     return metadata;
 }
 
-VulkanPlatformAndroid::ImageData VulkanPlatformAndroid::createExternalImageData(
-        ExternalImageHandleRef externalImage, const ExternalImageMetadata& metadata,
-        uint32_t memoryTypeIndex, VkImageUsageFlags usage) {
+VulkanPlatformAndroid::ImageData VulkanPlatformAndroid::createVkImageFromExternal(
+        ExternalImageHandleRef externalImage) const {
+    auto const& metadata = extractExternalImageMetadata(externalImage);
+
     auto const* fvkExternalImage =
             static_cast<ExternalImageVulkanAndroid const*>(externalImage.get());
-    ImageData data = allocateExternalImage(fvkExternalImage->aHardwareBuffer, getDevice(), metadata,
-            memoryTypeIndex, usage);
-    VkResult result = vkBindImageMemory(getDevice(), data.first, data.second, 0);
-    FILAMENT_CHECK_POSTCONDITION(result == VK_SUCCESS)
-        << "vkBindImageMemory error=" << static_cast<int32_t>(result);
-    return data;
-}
+    AHardwareBuffer* buffer = fvkExternalImage->aHardwareBuffer;
 
-VkImageView VulkanPlatform::createExternalImageViewImpl(VkDevice device, SamplerYcbcrConversion chroma,
-            uint32_t internalFormat, VkImage image, VkImageSubresourceRange range,
-            VkImageViewType viewType, VkComponentMapping swizzle){
-    VkExternalFormatANDROID externalFormat = {
+    // if external format we need to specifiy it in the allocation
+    bool const useExternalFormat = metadata.format == VK_FORMAT_UNDEFINED;
+
+    VkExternalFormatANDROID const externalFormat = {
         .sType = VK_STRUCTURE_TYPE_EXTERNAL_FORMAT_ANDROID,
-        .externalFormat = internalFormat,
-    };
-
-    TextureSwizzle const swizzleArray[] = {chroma.r, chroma.g, chroma.b, chroma.a};
-    VkSamplerYcbcrConversionCreateInfo conversionInfo = {
-        .sType = VK_STRUCTURE_TYPE_SAMPLER_YCBCR_CONVERSION_CREATE_INFO,
-        .pNext = &externalFormat,
-        .format = VK_FORMAT_UNDEFINED,
-        .ycbcrModel = fvkutils::getYcbcrModelConversion(chroma.ycbcrModel),
-        .ycbcrRange = fvkutils::getYcbcrRange(chroma.ycbcrRange),
-        .components = fvkutils::getSwizzleMap(swizzleArray),
-        .xChromaOffset = fvkutils::getChromaLocation(chroma.xChromaOffset),
-        .yChromaOffset = fvkutils::getChromaLocation(chroma.yChromaOffset),
-        .chromaFilter = fvkutils::getFilter(chroma.chromaFilter),
-    };
-    VkSamplerYcbcrConversion conversion = VK_NULL_HANDLE;
-    VkResult result = vkCreateSamplerYcbcrConversion(device, &conversionInfo,
-                                                     nullptr, &conversion);
-    FILAMENT_CHECK_POSTCONDITION(result == VK_SUCCESS)
-        << "Unable to create Ycbcr Conversion."
-        << " error=" << static_cast<int32_t>(result);
-
-    VkSamplerYcbcrConversionInfo samplerYcbcrConversionInfo = {
-        .sType = VK_STRUCTURE_TYPE_SAMPLER_YCBCR_CONVERSION_INFO,
-        .conversion = conversion,
-    };
-
-    VkImageViewCreateInfo viewInfo = {
-        .sType = VK_STRUCTURE_TYPE_IMAGE_VIEW_CREATE_INFO,
-        .pNext = &samplerYcbcrConversionInfo,
-        .flags = 0,
-        .image = image,
-        .viewType = viewType,
-        .format = VK_FORMAT_UNDEFINED,
-        .components = swizzle,
-        .subresourceRange = range,
-    };
-    VkImageView imageView;
-    result = vkCreateImageView(device, &viewInfo, VKALLOC, &imageView);
-    FILAMENT_CHECK_POSTCONDITION(result == VK_SUCCESS)
-        << "Unable to create VkImageView."
-        << " error=" << static_cast<int32_t>(result);
-
-    return imageView;
-}
-
-VkSampler VulkanPlatform::createExternalSamplerImpl(
-        VkDevice device, SamplerYcbcrConversion chroma, SamplerParams params,
-        uint32_t internalFormat) {
-    VkExternalFormatANDROID externalFormat = {
-        .sType = VK_STRUCTURE_TYPE_EXTERNAL_FORMAT_ANDROID,
-        .externalFormat = internalFormat,
-    };
-
-    TextureSwizzle const swizzleArray[] = {chroma.r, chroma.g, chroma.b, chroma.a};
-    VkSamplerYcbcrConversionCreateInfo conversionInfo = {
-        .sType = VK_STRUCTURE_TYPE_SAMPLER_YCBCR_CONVERSION_CREATE_INFO,
-        .pNext = &externalFormat,
-        .format = VK_FORMAT_UNDEFINED,
-        .ycbcrModel = fvkutils::getYcbcrModelConversion(chroma.ycbcrModel),
-        .ycbcrRange = fvkutils::getYcbcrRange(chroma.ycbcrRange),
-        .components = fvkutils::getSwizzleMap(swizzleArray),
-        .xChromaOffset = fvkutils::getChromaLocation(chroma.xChromaOffset),
-        .yChromaOffset = fvkutils::getChromaLocation(chroma.yChromaOffset),
-        .chromaFilter = fvkutils::getFilter(chroma.chromaFilter),
-    };
-    VkSamplerYcbcrConversion conversion = VK_NULL_HANDLE;
-    VkResult result = vkCreateSamplerYcbcrConversion(device, &conversionInfo,
-                                                     nullptr, &conversion);
-    FILAMENT_CHECK_POSTCONDITION(result == VK_SUCCESS)
-        << "Unable to create Ycbcr Conversion."
-        << " error=" << static_cast<int32_t>(result);
-
-    VkSamplerYcbcrConversionInfo samplerYcbcrConversionInfo = {
-        .sType = VK_STRUCTURE_TYPE_SAMPLER_YCBCR_CONVERSION_INFO,
         .pNext = nullptr,
-        .conversion = conversion,
+        .externalFormat = metadata.externalFormat,
+    };
+    VkExternalMemoryImageCreateInfo const externalCreateInfo = {
+        .sType = VK_STRUCTURE_TYPE_EXTERNAL_MEMORY_IMAGE_CREATE_INFO,
+        .pNext = useExternalFormat ? &externalFormat : nullptr,
+        .handleTypes = VK_EXTERNAL_MEMORY_HANDLE_TYPE_ANDROID_HARDWARE_BUFFER_BIT_ANDROID,
     };
 
-    VkSamplerCreateInfo samplerInfo = {
-        .sType = VK_STRUCTURE_TYPE_SAMPLER_CREATE_INFO,
-        .pNext = &samplerYcbcrConversionInfo,
-        .magFilter = fvkutils::getFilter(params.filterMag),
-        .minFilter = fvkutils::getFilter(params.filterMin),
-        .mipmapMode = fvkutils::getMipmapMode(params.filterMin),
-        .addressModeU = fvkutils::getWrapMode(params.wrapS),
-        .addressModeV = fvkutils::getWrapMode(params.wrapT),
-        .addressModeW = fvkutils::getWrapMode(params.wrapR),
-        .anisotropyEnable = params.anisotropyLog2 == 0 ? VK_FALSE : VK_TRUE,
-        .maxAnisotropy = (float)(1u << params.anisotropyLog2),
-        .compareEnable = fvkutils::getCompareEnable(params.compareMode),
-        .compareOp = fvkutils::getCompareOp(params.compareFunc),
-        .minLod = 0.0f,
-        .maxLod = fvkutils::getMaxLod(params.filterMin),
-        .borderColor = VK_BORDER_COLOR_INT_OPAQUE_BLACK,
-        .unnormalizedCoordinates = VK_FALSE,
+    VkImageCreateInfo const imageInfo{
+        .sType = VK_STRUCTURE_TYPE_IMAGE_CREATE_INFO,
+        .pNext = &externalCreateInfo,
+        .flags = useExternalFormat ? VK_IMAGE_CREATE_ALIAS_BIT : 0u,
+        .imageType = VK_IMAGE_TYPE_2D,
+        .format = metadata.format,
+        .extent = {
+            metadata.width,
+            metadata.height,
+            1u,
+        },
+        .mipLevels = 1,
+        .arrayLayers = metadata.layers,
+        .samples = metadata.samples,
+        .usage = metadata.usage,
     };
-    VkSampler sampler;
-    result = vkCreateSampler(device, &samplerInfo, VKALLOC, &sampler);
+
+    VkDevice const device = getDevice();
+
+    VkImage image;
+    VkResult result = vkCreateImage(device, &imageInfo, VKALLOC, &image);
     FILAMENT_CHECK_POSTCONDITION(result == VK_SUCCESS)
-        << "Unable to create sampler."
-        << " error=" << static_cast<int32_t>(result);
-    return sampler;
+            << "vkCreateImage failed with error=" << static_cast<int32_t>(result);
+
+    // Allocate the memory
+    VkImportAndroidHardwareBufferInfoANDROID const androidHardwareBufferInfo = {
+        .sType = VK_STRUCTURE_TYPE_IMPORT_ANDROID_HARDWARE_BUFFER_INFO_ANDROID,
+        .buffer = buffer,
+    };
+    VkMemoryDedicatedAllocateInfo const memoryDedicatedAllocateInfo = {
+        .sType = VK_STRUCTURE_TYPE_MEMORY_DEDICATED_ALLOCATE_INFO,
+        .pNext = &androidHardwareBufferInfo,
+        .image = image,
+        .buffer = VK_NULL_HANDLE,
+    };
+
+    VkPhysicalDeviceMemoryProperties memoryProperties;
+    vkGetPhysicalDeviceMemoryProperties(getPhysicalDevice(), &memoryProperties);
+
+
+    VkMemoryPropertyFlags const requiredMemoryFlags =
+            any(metadata.filamentUsage & TextureUsage::UPLOADABLE)
+                    ? VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT
+                    : VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT;
+
+    uint32_t const memoryTypeIndex = VulkanContext::selectMemoryType(memoryProperties,
+            metadata.memoryTypeBits, requiredMemoryFlags);
+
+    VkMemoryAllocateInfo const allocInfo = {
+        .sType = VK_STRUCTURE_TYPE_MEMORY_ALLOCATE_INFO,
+        .pNext = &memoryDedicatedAllocateInfo,
+        .allocationSize = metadata.allocationSize,
+        .memoryTypeIndex = memoryTypeIndex,
+    };
+    VkDeviceMemory memory;
+    result = vkAllocateMemory(device, &allocInfo, VKALLOC, &memory);
+    FILAMENT_CHECK_POSTCONDITION(result == VK_SUCCESS)
+            << "vkAllocateMemory failed with error=" << static_cast<int32_t>(result);
+
+    result = vkBindImageMemory(getDevice(), image, memory, 0);
+    FILAMENT_CHECK_POSTCONDITION(result == VK_SUCCESS)
+            << "vkBindImageMemory error=" << static_cast<int32_t>(result);
+    return { image, memory };
 }
 
 VulkanPlatform::ExtensionSet VulkanPlatformAndroid::getSwapchainInstanceExtensions() const {
@@ -427,20 +369,9 @@ VulkanPlatform::SurfaceBundle VulkanPlatformAndroid::createVkSurfaceKHR(void* na
 // Deprecated platform dependent helper methods
 VulkanPlatform::ExtensionSet VulkanPlatform::getSwapchainInstanceExtensionsImpl() { return {}; }
 
-VulkanPlatform::ExternalImageMetadata VulkanPlatform::getExternalImageMetadataImpl(
-        ExternalImageHandleRef externalImage, VkDevice device) {
-    return ExternalImageMetadata{};
-}
-
-VulkanPlatform::ImageData VulkanPlatform::createExternalImageDataImpl(
-        ExternalImageHandleRef externalImage, VkDevice device,
-        const ExternalImageMetadata& metadata, uint32_t memoryTypeIndex, VkImageUsageFlags usage) {
-    return ImageData{};
-}
-
 VulkanPlatform::SurfaceBundle VulkanPlatform::createVkSurfaceKHRImpl(void* nativeWindow,
         VkInstance instance, uint64_t flags) noexcept {
     return SurfaceBundle{};
 }
 
-}// namespace filament::backend
+} // namespace filament::backend

filament/backend/src/vulkan/platform/VulkanPlatformApple.mm

@@ -63,30 +63,6 @@ VulkanPlatform::ExtensionSet VulkanPlatform::getSwapchainInstanceExtensionsImpl(
     return ret;
 }
 
-VulkanPlatform::ExternalImageMetadata VulkanPlatform::getExternalImageMetadataImpl(
-        ExternalImageHandleRef externalImage, VkDevice device) {
-    return {};
-}
-
-VulkanPlatform::ImageData VulkanPlatform::createExternalImageDataImpl(
-        ExternalImageHandleRef externalImage, VkDevice device,
-        const ExternalImageMetadata& metadata, uint32_t memoryTypeIndex, VkImageUsageFlags usage) {
-    return {};
-}
-
-VkSampler VulkanPlatform::createExternalSamplerImpl(VkDevice device,
-    SamplerYcbcrConversion chroma,
-    SamplerParams sampler,
-    uint32_t internalFormat) {
-    return VK_NULL_HANDLE;
-}
-
-VkImageView VulkanPlatform::createExternalImageViewImpl(VkDevice device,
-        SamplerYcbcrConversion chroma, uint32_t internalFormat, VkImage image,
-        VkImageSubresourceRange range, VkImageViewType viewType, VkComponentMapping swizzle) {
-    return VK_NULL_HANDLE;
-}
-
 VulkanPlatform::SurfaceBundle VulkanPlatform::createVkSurfaceKHRImpl(void* nativeWindow,
         VkInstance instance, uint64_t flags) noexcept {
     VkSurfaceKHR surface;

filament/backend/src/vulkan/platform/VulkanPlatformLinuxWindows.cpp

@@ -84,30 +84,6 @@ using namespace bluevk;
 
 namespace filament::backend {
 
-VulkanPlatform::ExternalImageMetadata VulkanPlatform::getExternalImageMetadataImpl(
-        ExternalImageHandleRef externalImage, VkDevice device) {
-    return {};
-}
-
-VulkanPlatform::ImageData VulkanPlatform::createExternalImageDataImpl(
-        ExternalImageHandleRef externalImage, VkDevice device,
-        const ExternalImageMetadata& metadata, uint32_t memoryTypeIndex, VkImageUsageFlags usage) {
-    return {};
-}
-
-VkSampler VulkanPlatform::createExternalSamplerImpl(VkDevice device,
-    SamplerYcbcrConversion chroma,
-    SamplerParams sampler,
-    uint32_t internalFormat) {
-    return VK_NULL_HANDLE;
-}
-
-VkImageView VulkanPlatform::createExternalImageViewImpl(VkDevice device,
-        SamplerYcbcrConversion chroma, uint32_t internalFormat, VkImage image,
-        VkImageSubresourceRange range, VkImageViewType viewType, VkComponentMapping swizzle) {
-    return VK_NULL_HANDLE;
-}
-
 VulkanPlatform::ExtensionSet VulkanPlatform::getSwapchainInstanceExtensionsImpl() {
     VulkanPlatform::ExtensionSet const ret = {
 #if defined(__linux__) && defined(FILAMENT_SUPPORTS_WAYLAND)

filament/include/filament/Engine.h

@@ -317,6 +317,15 @@ public:
          */
         size_t metalUploadBufferSizeBytes = 512 * 1024;
 
+        /**
+         * The action to take if a Drawable cannot be acquired.
+         *
+         * Each frame rendered requires a CAMetalDrawable texture, which is
+         * presented on-screen at the completion of each frame. These are
+         * limited and provided round-robin style by the system.
+         */
+        bool metalDisablePanicOnDrawableFailure = false;
+
         /**
          * Set to `true` to forcibly disable parallel shader compilation in the backend.
          * Currently only honored by the GL and Metal backends.

filament/src/details/Engine.cpp

@@ -138,6 +138,7 @@ Engine* FEngine::create(Builder const& builder) {
                 .forceGLES2Context = instance->getConfig().forceGLES2Context,
                 .stereoscopicType = instance->getConfig().stereoscopicType,
                 .assertNativeWindowIsValid = instance->features.backend.opengl.assert_native_window_is_valid,
+                .metalDisablePanicOnDrawableFailure = instance->getConfig().metalDisablePanicOnDrawableFailure,
         };
         instance->mDriver = platform->createDriver(sharedContext, driverConfig);
 
@@ -733,6 +734,7 @@ int FEngine::loop() {
             .forceGLES2Context = mConfig.forceGLES2Context,
             .stereoscopicType =  mConfig.stereoscopicType,
             .assertNativeWindowIsValid = features.backend.opengl.assert_native_window_is_valid,
+            .metalDisablePanicOnDrawableFailure = mConfig.metalDisablePanicOnDrawableFailure,
     };
     mDriver = mPlatform->createDriver(mSharedGLContext, driverConfig);