/*------------------------------------------------------------------------- * drawElements Quality Program Tester Core * ---------------------------------------- * * Copyright 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * *//*! * \file * \brief Android EGL platform. *//*--------------------------------------------------------------------*/ #include "tcuAndroidPlatform.hpp" #include "tcuAndroidUtil.hpp" #include "gluRenderContext.hpp" #include "egluNativeDisplay.hpp" #include "egluNativeWindow.hpp" #include "egluGLContextFactory.hpp" #include "egluUtil.hpp" #include "eglwLibrary.hpp" #include "eglwEnums.hpp" #include "tcuFunctionLibrary.hpp" #include "vkWsiPlatform.hpp" // Assume no call translation is needed #include struct egl_native_pixmap_t; DE_STATIC_ASSERT(sizeof(eglw::EGLNativeDisplayType) == sizeof(void*)); DE_STATIC_ASSERT(sizeof(eglw::EGLNativePixmapType) == sizeof(struct egl_native_pixmap_t*)); DE_STATIC_ASSERT(sizeof(eglw::EGLNativeWindowType) == sizeof(ANativeWindow*)); namespace tcu { namespace Android { using namespace eglw; static const eglu::NativeDisplay::Capability DISPLAY_CAPABILITIES = eglu::NativeDisplay::CAPABILITY_GET_DISPLAY_LEGACY; static const eglu::NativeWindow::Capability WINDOW_CAPABILITIES = (eglu::NativeWindow::Capability)(eglu::NativeWindow::CAPABILITY_CREATE_SURFACE_LEGACY | eglu::NativeWindow::CAPABILITY_CREATE_SURFACE_PLATFORM | eglu::NativeWindow::CAPABILITY_CREATE_SURFACE_PLATFORM_EXTENSION | eglu::NativeWindow::CAPABILITY_SET_SURFACE_SIZE | eglu::NativeWindow::CAPABILITY_GET_SCREEN_SIZE); class NativeDisplay : public eglu::NativeDisplay { public: NativeDisplay (void) : eglu::NativeDisplay(DISPLAY_CAPABILITIES), m_library("libEGL.so") {} virtual ~NativeDisplay (void) {} virtual EGLNativeDisplayType getLegacyNative (void) { return EGL_DEFAULT_DISPLAY; } virtual const eglw::Library& getLibrary (void) const { return m_library; } private: eglw::DefaultLibrary m_library; }; class NativeDisplayFactory : public eglu::NativeDisplayFactory { public: NativeDisplayFactory (WindowRegistry& windowRegistry); ~NativeDisplayFactory (void) {} virtual eglu::NativeDisplay* createDisplay (const EGLAttrib* attribList) const; }; class NativeWindow : public eglu::NativeWindow { public: NativeWindow (Window* window, int width, int height, int32_t format); virtual ~NativeWindow (void); virtual EGLNativeWindowType getLegacyNative (void) { return m_window->getNativeWindow(); } virtual EGLNativeWindowType getPlatformExtension (void) { return m_window->getNativeWindow(); } virtual EGLNativeWindowType getPlatformNative (void) { return m_window->getNativeWindow(); } IVec2 getScreenSize (void) const { return m_window->getSize(); } void setSurfaceSize (IVec2 size); virtual void processEvents (void); private: Window* m_window; int32_t m_format; }; class NativeWindowFactory : public eglu::NativeWindowFactory { public: NativeWindowFactory (WindowRegistry& windowRegistry); ~NativeWindowFactory (void); virtual eglu::NativeWindow* createWindow (eglu::NativeDisplay* nativeDisplay, const eglu::WindowParams& params) const; virtual eglu::NativeWindow* createWindow (eglu::NativeDisplay* nativeDisplay, EGLDisplay display, EGLConfig config, const EGLAttrib* attribList, const eglu::WindowParams& params) const; private: virtual eglu::NativeWindow* createWindow (const eglu::WindowParams& params, int32_t format) const; WindowRegistry& m_windowRegistry; }; // NativeWindow NativeWindow::NativeWindow (Window* window, int width, int height, int32_t format) : eglu::NativeWindow (WINDOW_CAPABILITIES) , m_window (window) , m_format (format) { // Set up buffers. setSurfaceSize(IVec2(width, height)); } NativeWindow::~NativeWindow (void) { m_window->release(); } void NativeWindow::processEvents (void) { if (m_window->isPendingDestroy()) throw eglu::WindowDestroyedError("Window has been destroyed"); } void NativeWindow::setSurfaceSize (tcu::IVec2 size) { m_window->setBuffersGeometry(size.x() != eglu::WindowParams::SIZE_DONT_CARE ? size.x() : 0, size.y() != eglu::WindowParams::SIZE_DONT_CARE ? size.y() : 0, m_format); } // NativeWindowFactory NativeWindowFactory::NativeWindowFactory (WindowRegistry& windowRegistry) : eglu::NativeWindowFactory ("default", "Default display", WINDOW_CAPABILITIES) , m_windowRegistry (windowRegistry) { } NativeWindowFactory::~NativeWindowFactory (void) { } eglu::NativeWindow* NativeWindowFactory::createWindow (eglu::NativeDisplay* nativeDisplay, const eglu::WindowParams& params) const { DE_UNREF(nativeDisplay); return createWindow(params, WINDOW_FORMAT_RGBA_8888); } eglu::NativeWindow* NativeWindowFactory::createWindow (eglu::NativeDisplay* nativeDisplay, EGLDisplay display, EGLConfig config, const EGLAttrib* attribList, const eglu::WindowParams& params) const { const int32_t format = (int32_t)eglu::getConfigAttribInt(nativeDisplay->getLibrary(), display, config, EGL_NATIVE_VISUAL_ID); DE_UNREF(nativeDisplay && attribList); return createWindow(params, format); } eglu::NativeWindow* NativeWindowFactory::createWindow (const eglu::WindowParams& params, int32_t format) const { Window* window = m_windowRegistry.tryAcquireWindow(); if (!window) throw ResourceError("Native window is not available", DE_NULL, __FILE__, __LINE__); return new NativeWindow(window, params.width, params.height, format); } // NativeDisplayFactory NativeDisplayFactory::NativeDisplayFactory (WindowRegistry& windowRegistry) : eglu::NativeDisplayFactory("default", "Default display", DISPLAY_CAPABILITIES) { m_nativeWindowRegistry.registerFactory(new NativeWindowFactory(windowRegistry)); } eglu::NativeDisplay* NativeDisplayFactory::createDisplay (const EGLAttrib* attribList) const { DE_UNREF(attribList); return new NativeDisplay(); } // Vulkan class VulkanLibrary : public vk::Library { public: VulkanLibrary (void) : m_library ("libvulkan.so") , m_driver (m_library) { } const vk::PlatformInterface& getPlatformInterface (void) const { return m_driver; } const tcu::FunctionLibrary& getFunctionLibrary (void) const { return m_library; } private: const tcu::DynamicFunctionLibrary m_library; const vk::PlatformDriver m_driver; }; DE_STATIC_ASSERT(sizeof(vk::pt::AndroidNativeWindowPtr) == sizeof(ANativeWindow*)); class VulkanWindow : public vk::wsi::AndroidWindowInterface { public: VulkanWindow (tcu::Android::Window& window) : vk::wsi::AndroidWindowInterface (vk::pt::AndroidNativeWindowPtr(window.getNativeWindow())) , m_window (window) { } ~VulkanWindow (void) { m_window.release(); } private: tcu::Android::Window& m_window; }; class VulkanDisplay : public vk::wsi::Display { public: VulkanDisplay (WindowRegistry& windowRegistry) : m_windowRegistry(windowRegistry) { } vk::wsi::Window* createWindow (const Maybe& initialSize) const { Window* const window = m_windowRegistry.tryAcquireWindow(); if (window) { try { if (initialSize) window->setBuffersGeometry((int)initialSize->x(), (int)initialSize->y(), WINDOW_FORMAT_RGBA_8888); return new VulkanWindow(*window); } catch (...) { window->release(); throw; } } else TCU_THROW(ResourceError, "Native window is not available"); } private: WindowRegistry& m_windowRegistry; }; static size_t getTotalSystemMemory (ANativeActivity* activity) { const size_t MiB = (size_t)(1<<20); try { const size_t cddRequiredSize = getCDDRequiredSystemMemory(activity); print("Device has at least %.2f MiB total system memory per Android CDD\n", double(cddRequiredSize) / double(MiB)); return cddRequiredSize; } catch (const std::exception& e) { // Use relatively high fallback size to encourage CDD-compliant behavior const size_t fallbackSize = (sizeof(void*) == sizeof(deUint64)) ? 2048*MiB : 1024*MiB; print("WARNING: Failed to determine system memory size required by CDD: %s\n", e.what()); print("WARNING: Using fall-back size of %.2f MiB\n", double(fallbackSize) / double(MiB)); return fallbackSize; } } // Platform Platform::Platform (NativeActivity& activity) : m_activity (activity) , m_totalSystemMemory (getTotalSystemMemory(activity.getNativeActivity())) { m_nativeDisplayFactoryRegistry.registerFactory(new NativeDisplayFactory(m_windowRegistry)); m_contextFactoryRegistry.registerFactory(new eglu::GLContextFactory(m_nativeDisplayFactoryRegistry)); } Platform::~Platform (void) { } bool Platform::processEvents (void) { m_windowRegistry.garbageCollect(); return true; } vk::Library* Platform::createLibrary (void) const { return new VulkanLibrary(); } void Platform::describePlatform (std::ostream& dst) const { tcu::Android::describePlatform(m_activity.getNativeActivity(), dst); } void Platform::getMemoryLimits (vk::PlatformMemoryLimits& limits) const { // Worst-case estimates const size_t MiB = (size_t)(1<<20); const size_t baseMemUsage = 400*MiB; const double safeUsageRatio = 0.25; limits.totalSystemMemory = de::max((size_t)(double(deInt64(m_totalSystemMemory)-deInt64(baseMemUsage)) * safeUsageRatio), 16*MiB); // Assume UMA architecture limits.totalDeviceLocalMemory = 0; // Reasonable worst-case estimates limits.deviceMemoryAllocationGranularity = 64*1024; limits.devicePageSize = 4096; limits.devicePageTableEntrySize = 8; limits.devicePageTableHierarchyLevels = 3; } vk::wsi::Display* Platform::createWsiDisplay (vk::wsi::Type wsiType) const { if (wsiType == vk::wsi::TYPE_ANDROID) return new VulkanDisplay(const_cast(m_windowRegistry)); else TCU_THROW(NotSupportedError, "WSI type not supported on Android"); } bool Platform::hasDisplay (vk::wsi::Type wsiType) const { if (wsiType == vk::wsi::TYPE_ANDROID) return true; return false; } } // Android } // tcu