blob: a721f994b44ad4d6c4c0ec527dfd46e41bcfcdef [file] [log] [blame]
// Copyright (c) 2013 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include <stdint.h>
#include <memory>
#include <vector>
#include "base/callback.h"
#include "base/component_export.h"
#include "base/macros.h"
#include "base/memory/ref_counted.h"
#include "base/native_library.h"
#include "gpu/vulkan/buildflags.h"
#include "ui/gfx/buffer_types.h"
#include "ui/gfx/geometry/rect.h"
#include "ui/gfx/native_pixmap.h"
#include "ui/gfx/native_widget_types.h"
#include "ui/gfx/overlay_transform.h"
#include "ui/gl/gl_implementation.h"
#include "ui/ozone/public/gl_ozone.h"
#include "gpu/vulkan/vulkan_implementation.h"
namespace gfx {
class NativePixmap;
namespace ui {
class SurfaceOzoneCanvas;
class OverlaySurface;
class PlatformWindowSurface;
// The Ozone interface allows external implementations to hook into Chromium to
// provide a system specific implementation. The Ozone interface supports two
// drawing modes: 1) accelerated drawing using GL and 2) software drawing
// through Skia.
// If you want to paint on a window with ozone, you need to create a GLSurface
// or SurfaceOzoneCanvas for that window. The platform can support software, GL,
// or both for painting on the window. The following functionality is specific
// to the drawing mode and may not have any meaningful implementation in the
// other mode. An implementation must provide functionality for at least one
// mode.
// 1) Accelerated Drawing (GL path):
// The following functions are specific to GL:
// - GetAllowedGLImplementations
// - GetGLOzone (along with the associated GLOzone)
// 2) Software Drawing (Skia):
// The following function is specific to the software path:
// - CreateCanvasForWidget
// The accelerated path can optionally provide support for the software drawing
// path.
// The remaining functions are not covered since they are needed in both drawing
// modes (See comments below for descriptions).
class COMPONENT_EXPORT(OZONE_BASE) SurfaceFactoryOzone {
// Returns a list of allowed GL implementations. The default implementation
// will be the first item.
virtual std::vector<gl::GLImplementation> GetAllowedGLImplementations();
// Returns the GLOzone to use for the specified GL implementation, or null if
// GL implementation doesn't exist.
virtual GLOzone* GetGLOzone(gl::GLImplementation implementation);
// Creates the vulkan implementation. This object should be capable of
// creating surfaces that swap to a platform window.
// |allow_protected_memory| suggests that the vulkan implementation should
// create protected-capable resources, such as VkQueue.
// |enforce_protected_memory| suggests that the vulkan implementation should
// always use protected memory and resources, such as CommandBuffers.
virtual std::unique_ptr<gpu::VulkanImplementation> CreateVulkanImplementation(
bool allow_protected_memory,
bool enforce_protected_memory);
// Creates a scanout NativePixmap that can be rendered using Vulkan.
// TODO(spang): Remove this once VK_EXT_image_drm_format_modifier is
// available.
virtual scoped_refptr<gfx::NativePixmap> CreateNativePixmapForVulkan(
gfx::AcceleratedWidget widget,
gfx::Size size,
gfx::BufferFormat format,
gfx::BufferUsage usage,
VkDevice vk_device,
VkDeviceMemory* vk_device_memory,
VkImage* vk_image);
// Creates a rendering and presentation API agnostic surface for a platform
// window.
virtual std::unique_ptr<PlatformWindowSurface> CreatePlatformWindowSurface(
gfx::AcceleratedWidget window);
// Creates an overlay surface for a platform window.
virtual std::unique_ptr<OverlaySurface> CreateOverlaySurface(
gfx::AcceleratedWidget window);
// Create SurfaceOzoneCanvas for the specified gfx::AcceleratedWidget. The
// |task_runner| may be null if the gpu service runs in a host process.
// Note: The platform must support creation of SurfaceOzoneCanvas from the
// Browser Process using only the handle contained in gfx::AcceleratedWidget.
virtual std::unique_ptr<SurfaceOzoneCanvas> CreateCanvasForWidget(
gfx::AcceleratedWidget widget,
base::TaskRunner* task_runner);
// Create a single native buffer to be used for overlay planes or zero copy
// for |widget| representing a particular display controller or default
// display controller for kNullAcceleratedWidget.
// It can be called on any thread.
virtual scoped_refptr<gfx::NativePixmap> CreateNativePixmap(
gfx::AcceleratedWidget widget,
VkDevice vk_device,
gfx::Size size,
gfx::BufferFormat format,
gfx::BufferUsage usage);
// Similar to CreateNativePixmap, but returns the result asynchronously.
using NativePixmapCallback =
virtual void CreateNativePixmapAsync(gfx::AcceleratedWidget widget,
VkDevice vk_device,
gfx::Size size,
gfx::BufferFormat format,
gfx::BufferUsage usage,
NativePixmapCallback callback);
// Create a single native buffer from an existing handle. Takes ownership of
// |handle| and can be called on any thread.
virtual scoped_refptr<gfx::NativePixmap> CreateNativePixmapFromHandle(
gfx::AcceleratedWidget widget,
gfx::Size size,
gfx::BufferFormat format,
gfx::NativePixmapHandle handle);
// A temporary solution that allows protected NativePixmap management to be
// handled outside the Ozone platform (
// The current implementation uses dummy NativePixmaps as transparent handles
// to separate NativePixmaps with actual contents. This method takes
// a NativePixmapHandle to such a dummy pixmap, and creates a NativePixmap
// instance for it.
virtual scoped_refptr<gfx::NativePixmap>
CreateNativePixmapForProtectedBufferHandle(gfx::AcceleratedWidget widget,
gfx::Size size,
gfx::BufferFormat format,
gfx::NativePixmapHandle handle);
// This callback can be used by implementations of this interface to query
// for a NativePixmap for the given NativePixmapHandle, instead of importing
// it via standard means. This happens if an external service is maintaining
// a separate mapping of NativePixmapHandles to NativePixmaps.
// If this callback returns non-nullptr, the returned NativePixmap should
// be used instead of the NativePixmap that would have been produced by the
// standard, implementation-specific NativePixmapHandle import mechanism.
using GetProtectedNativePixmapCallback =
const gfx::NativePixmapHandle& handle)>;
// Called by an external service to set the GetProtectedNativePixmapCallback,
// to be used by the implementation when importing NativePixmapHandles.
// TODO(posciak):, move this to platform-specific
// implementation(s) and make protected pixmap handling transparent to the
// clients of this interface, removing the need for this callback.
virtual void SetGetProtectedNativePixmapDelegate(
const GetProtectedNativePixmapCallback&
// Enumerates the BufferFormats that the platform can allocate (and use for
// texturing) via CreateNativePixmap(), or returns empty if those could not be
// retrieved or the platform doesn't know in advance.
// Enumeration should not be assumed to take a trivial amount of time.
virtual std::vector<gfx::BufferFormat> GetSupportedFormatsForTexturing()
virtual ~SurfaceFactoryOzone();
} // namespace ui