Oopenharmony_ciCVE 492218546
3a76412c创建于 24 天前历史提交
//
// Copyright 2002 The ANGLE Project Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
//

// Buffer.h: Defines the gl::Buffer class, representing storage of vertex and/or
// index data. Implements GL buffer objects and related functionality.
// [OpenGL ES 2.0.24] section 2.9 page 21.

#ifndef LIBANGLE_BUFFER_H_
#define LIBANGLE_BUFFER_H_

#include "common/PackedEnums.h"
#include "common/angleutils.h"
#include "libANGLE/Debug.h"
#include "libANGLE/Error.h"
#include "libANGLE/IndexRangeCache.h"
#include "libANGLE/Observer.h"
#include "libANGLE/RefCountObject.h"
#include "libANGLE/angletypes.h"

namespace rx
{
class BufferImpl;
struct BufferFeedback;
class GLImplFactory;
}  // namespace rx

namespace gl
{
class Buffer;
class Context;

enum class WebGLBufferType
{
    Undefined,
    ElementArray,
    OtherData,
};

// Track vertex array's binding index of all contexts that a buffer is bound to
class VertexArrayBufferBindingMaskAndContext final
{
  public:
    VertexArrayBufferBindingMaskAndContext();
    ~VertexArrayBufferBindingMaskAndContext();

    void add(const gl::Context *context, size_t bindingIndex);
    void remove(const gl::Context *context, size_t bindingIndex);
    VertexArrayBufferBindingMask getBufferBindingMask(const gl::Context *context) const;

  private:
    // The expectation is that one buffer will only used in a very small number of shared contexts,
    // the cost of searching in a vector is negligible.
    std::vector<std::pair<const gl::Context *, VertexArrayBufferBindingMask>> mBufferBindingMask;
};

class BufferState final : angle::NonCopyable
{
  public:
    BufferState();
    ~BufferState();

    BufferUsage getUsage() const { return mUsage; }
    GLbitfield getAccessFlags() const { return mAccessFlags; }
    GLenum getAccess() const { return mAccess; }
    GLboolean isMapped() const { return mMapped; }
    void *getMapPointer() const { return mMapPointer; }
    GLint64 getMapOffset() const { return mMapOffset; }
    GLint64 getMapLength() const { return mMapLength; }
    GLint64 getSize() const { return mSize; }
    std::string getLabel() const { return mLabel; }
    WebGLBufferType getWebGLType() const { return mWebGLType; }

  private:
    friend class Buffer;

    std::string mLabel;

    BufferUsage mUsage;
    GLint64 mSize;
    GLbitfield mAccessFlags;
    GLenum mAccess;
    GLboolean mMapped;
    void *mMapPointer;
    GLint64 mMapOffset;
    GLint64 mMapLength;
    int mBindingCount;
    int mTransformFeedbackIndexedBindingCount;
    int mTransformFeedbackGenericBindingCount;
    int mActiveTransformFeedbackCount;
    GLboolean mImmutable;
    GLbitfield mStorageExtUsageFlags;
    GLboolean mExternal;
    WebGLBufferType mWebGLType;
};

// Vertex Array and Texture track buffer data updates.
struct ContentsObserver
{
    static constexpr uint32_t kBufferTextureIndex = std::numeric_limits<uint32_t>::max();
    uint32_t bufferIndex                          = 0;

    // VertexArray* (bufferIndex != kBufferTextureIndex) or Texture*
    void *observer = nullptr;
};

ANGLE_INLINE bool operator==(const ContentsObserver &lhs, const ContentsObserver &rhs)
{
    return lhs.bufferIndex == rhs.bufferIndex && lhs.observer == rhs.observer;
}

class Buffer final : public ThreadSafeRefCountObject<BufferID>,
                     public LabeledObject,
                     public angle::Subject
{
  public:
    Buffer(rx::GLImplFactory *factory, BufferID id);
    ~Buffer() override;
    void onDestroy(const Context *context) override;

    void onBind(const Context *context, BufferBinding target);

    angle::Result setLabel(const Context *context, const std::string &label) override;
    const std::string &getLabel() const override;

    angle::Result bufferStorageExternal(Context *context,
                                        BufferBinding target,
                                        GLsizeiptr size,
                                        GLeglClientBufferEXT clientBuffer,
                                        GLbitfield flags);
    angle::Result bufferStorage(Context *context,
                                BufferBinding target,
                                GLsizeiptr size,
                                const void *data,
                                GLbitfield flags);
    angle::Result bufferData(Context *context,
                             BufferBinding target,
                             const void *data,
                             GLsizeiptr size,
                             BufferUsage usage);
    angle::Result bufferSubData(const Context *context,
                                BufferBinding target,
                                const void *data,
                                GLsizeiptr size,
                                GLintptr offset);
    angle::Result copyBufferSubData(const Context *context,
                                    Buffer *source,
                                    GLintptr sourceOffset,
                                    GLintptr destOffset,
                                    GLsizeiptr size);
    angle::Result map(const Context *context, GLenum access);
    angle::Result mapRange(const Context *context,
                           GLintptr offset,
                           GLsizeiptr length,
                           GLbitfield access);
    angle::Result unmap(const Context *context, GLboolean *result);

    // These are called when another operation changes Buffer data.
    void onDataChanged(const Context *context);

    angle::Result getIndexRange(const gl::Context *context,
                                DrawElementsType type,
                                size_t offset,
                                size_t count,
                                bool primitiveRestartEnabled,
                                IndexRange *outRange) const;
    const BufferState &getState() const { return mState; }
    BufferUsage getUsage() const { return mState.mUsage; }
    GLbitfield getAccessFlags() const { return mState.mAccessFlags; }
    GLenum getAccess() const { return mState.mAccess; }
    GLboolean isMapped() const { return mState.mMapped; }
    bool isPersistentlyMapped() const
    {
        return (mState.mStorageExtUsageFlags & GL_MAP_PERSISTENT_BIT_EXT) != 0;
    }
    void *getMapPointer() const { return mState.mMapPointer; }
    GLint64 getMapOffset() const { return mState.mMapOffset; }
    GLint64 getMapLength() const { return mState.mMapLength; }
    GLint64 getSize() const { return mState.mSize; }
    GLint64 getMemorySize() const;
    GLboolean isImmutable() const { return mState.mImmutable; }
    GLbitfield getStorageExtUsageFlags() const { return mState.mStorageExtUsageFlags; }

    // Buffers are always initialized immediately when allocated
    InitState initState() const { return InitState::Initialized; }

    rx::BufferImpl *getImplementation() const { return mImpl; }

    ANGLE_INLINE bool isBoundToTFAndNonTFSimultaneously() const
    {
        // The transform feedback generic binding point is not an indexed binding point but it also
        // does not count as a non-transform-feedback use of the buffer, so we subtract it from the
        // binding count when checking if the buffer is bound to a non-transform-feedback location.
        // See https://crbug.com/853978
        return mState.mTransformFeedbackIndexedBindingCount > 0 &&
               mState.mTransformFeedbackIndexedBindingCount !=
                   mState.mBindingCount - mState.mTransformFeedbackGenericBindingCount;
    }

    // If this buffer is bound as a transform feedback output, even if that transform feedback is
    // paused and not the current transform feedback.
    ANGLE_INLINE bool isBoundToActiveTransformFeedback() const
    {
        return mState.mActiveTransformFeedbackCount > 0;
    }

    ANGLE_INLINE bool hasTFBBindingConflict() const
    {
        return isBoundToTFAndNonTFSimultaneously() || isBoundToActiveTransformFeedback();
    }

    bool isDoubleBoundForTransformFeedback() const;
    void onTFBindingChanged(const Context *context, bool bound, bool indexed);
    void onTFActiveChanged(const Context *context, bool active);
    void onNonTFBindingChanged(int incr) { mState.mBindingCount += incr; }
    angle::Result getSubData(const gl::Context *context,
                             GLintptr offset,
                             GLsizeiptr size,
                             void *outData);

    void addVertexArrayBinding(const gl::Context *context, size_t bindingIndex)
    {
        mVertexArrayBufferBindingMaskAndContext.add(context, bindingIndex);
    }
    void removeVertexArrayBinding(const gl::Context *context, size_t bindingIndex)
    {
        mVertexArrayBufferBindingMaskAndContext.remove(context, bindingIndex);
    }
    VertexArrayBufferBindingMask getVertexArrayBinding(const gl::Context *context) const
    {
        return mVertexArrayBufferBindingMaskAndContext.getBufferBindingMask(context);
    }

    void addContentsObserver(VertexArray *vertexArray, uint32_t bufferIndex);
    void removeContentsObserver(VertexArray *vertexArray, uint32_t bufferIndex);
    void addContentsObserver(Texture *texture);
    void removeContentsObserver(Texture *texture);
    bool hasContentsObserver(Texture *texture) const;

    void applyImplFeedback(const gl::Context *context, const rx::BufferFeedback &feedback);

  private:
    angle::Result bufferDataImpl(Context *context,
                                 BufferBinding target,
                                 const void *data,
                                 GLsizeiptr size,
                                 BufferUsage usage,
                                 GLbitfield flags,
                                 BufferStorage bufferStorage);
    angle::Result bufferExternalDataImpl(Context *context,
                                         BufferBinding target,
                                         GLeglClientBufferEXT clientBuffer,
                                         GLsizeiptr size,
                                         GLbitfield flags);

    void onStateChange(const Context *context, angle::SubjectMessage message);
    void onContentsChange(const Context *context);
    size_t getContentsObserverIndex(void *observer, uint32_t bufferIndex) const;
    void removeContentsObserverImpl(void *observer, uint32_t bufferIndex);

    angle::Result setDataWithUsageFlags(const gl::Context *context,
                                        gl::BufferBinding target,
                                        GLeglClientBufferEXT clientBuffer,
                                        const void *data,
                                        size_t size,
                                        gl::BufferUsage usage,
                                        GLbitfield flags,
                                        gl::BufferStorage bufferStorage);

    BufferState mState;
    rx::BufferImpl *mImpl;

    // Current VertexArray's binding index bitmask
    VertexArrayBufferBindingMaskAndContext mVertexArrayBufferBindingMaskAndContext;

    angle::FastVector<ContentsObserver, angle::kMaxFixedObservers> mContentsObservers;
    mutable IndexRangeCache mIndexRangeCache;
};

}  // namespace gl

#endif  // LIBANGLE_BUFFER_H_