kc3-lang/angle/src/common/frame_capture_utils.h
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Hash : a52c0a6c
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Date : 2023-02-06T16:01:27
Capture/Replay: Add and handle new resource type for EGLSync So far calls involving EGLSync were not tracking the actual sync objects, and this may lead to race conditions in multi-threaded and multi-context scenarios. This CL adds the type EGLSyncID and some specialized code handling of egl::Sync to distinguish EGLSync from the already existing GLSync objects in order to track them separately. Bug: angleproject:7911 Change-Id: I91b188a41069bc0620f51c55ee516d23b55bdd38 Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/4200095 Commit-Queue: Gert Wollny <gert.wollny@collabora.com> Reviewed-by: Shahbaz Youssefi <syoussefi@chromium.org> Reviewed-by: Cody Northrop <cnorthrop@google.com>
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src/common/frame_capture_utils.h
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// // Copyright 2022 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. // // frame_capture_utils.h: // ANGLE Frame capture common classes. // #ifndef COMMON_FRAME_CAPTURE_UTILS_H_ #define COMMON_FRAME_CAPTURE_UTILS_H_ #include "common/frame_capture_utils_autogen.h" #include "common/gl_enum_utils_autogen.h" namespace angle { using ParamData = std::vector<std::vector<uint8_t>>; struct ParamCapture : angle::NonCopyable { ParamCapture(); ParamCapture(const char *nameIn, ParamType typeIn); ~ParamCapture(); ParamCapture(ParamCapture &&other); ParamCapture &operator=(ParamCapture &&other); std::string name; ParamType type; ParamValue value; gl::GLESEnum enumGroup; // only used for param type GLenum, GLboolean and GLbitfield gl::BigGLEnum bigGLEnum; // only used for param type GLenum, GLboolean and GLbitfield ParamData data; int dataNElements = 0; int arrayClientPointerIndex = -1; size_t readBufferSizeBytes = 0; }; using Captures = std::vector<ParamCapture>; class ParamBuffer final : angle::NonCopyable { public: ParamBuffer(); ~ParamBuffer(); ParamBuffer(ParamBuffer &&other); ParamBuffer &operator=(ParamBuffer &&other); template <typename T> void addValueParam(const char *paramName, ParamType paramType, T paramValue); template <typename T> void setValueParamAtIndex(const char *paramName, ParamType paramType, T paramValue, int index); template <typename T> void addEnumParam(const char *paramName, gl::GLESEnum enumGroup, ParamType paramType, T paramValue); template <typename T> void addEnumParam(const char *paramName, gl::BigGLEnum enumGroup, ParamType paramType, T paramValue); template <typename T> void addUnnamedParam(ParamType paramType, T paramValue); ParamCapture &getParam(const char *paramName, ParamType paramType, int index); const ParamCapture &getParam(const char *paramName, ParamType paramType, int index) const; ParamCapture &getParamFlexName(const char *paramName1, const char *paramName2, ParamType paramType, int index); const ParamCapture &getParamFlexName(const char *paramName1, const char *paramName2, ParamType paramType, int index) const; const ParamCapture &getReturnValue() const { return mReturnValueCapture; } void addParam(ParamCapture &¶m); void addReturnValue(ParamCapture &&returnValue); bool hasClientArrayData() const { return mClientArrayDataParam != -1; } ParamCapture &getClientArrayPointerParameter(); size_t getReadBufferSize() const { return mReadBufferSize; } bool empty() const { return mParamCaptures.empty(); } const std::vector<ParamCapture> &getParamCaptures() const { return mParamCaptures; } const char *getNextParamName(); private: std::vector<ParamCapture> mParamCaptures; ParamCapture mReturnValueCapture; int mClientArrayDataParam = -1; size_t mReadBufferSize = 0; }; struct CallCapture { CallCapture(EntryPoint entryPointIn, ParamBuffer &¶msIn); CallCapture(const std::string &customFunctionNameIn, ParamBuffer &¶msIn); ~CallCapture(); CallCapture(CallCapture &&other); CallCapture &operator=(CallCapture &&other); const char *name() const; EntryPoint entryPoint; std::string customFunctionName; ParamBuffer params; bool isActive = true; }; template <typename T> void ParamBuffer::addValueParam(const char *paramName, ParamType paramType, T paramValue) { ParamCapture capture(paramName, paramType); InitParamValue(paramType, paramValue, &capture.value); mParamCaptures.emplace_back(std::move(capture)); } template <typename T> void ParamBuffer::setValueParamAtIndex(const char *paramName, ParamType paramType, T paramValue, int index) { ASSERT(mParamCaptures.size() > static_cast<size_t>(index)); ParamCapture capture(paramName, paramType); InitParamValue(paramType, paramValue, &capture.value); mParamCaptures[index] = std::move(capture); } template <typename T> void ParamBuffer::addEnumParam(const char *paramName, gl::GLESEnum enumGroup, ParamType paramType, T paramValue) { ParamCapture capture(paramName, paramType); InitParamValue(paramType, paramValue, &capture.value); capture.enumGroup = enumGroup; mParamCaptures.emplace_back(std::move(capture)); } template <typename T> void ParamBuffer::addEnumParam(const char *paramName, gl::BigGLEnum enumGroup, ParamType paramType, T paramValue) { ParamCapture capture(paramName, paramType); InitParamValue(paramType, paramValue, &capture.value); capture.bigGLEnum = enumGroup; mParamCaptures.emplace_back(std::move(capture)); } template <typename T> void ParamBuffer::addUnnamedParam(ParamType paramType, T paramValue) { addValueParam(getNextParamName(), paramType, paramValue); } template <ParamType ParamT, typename T> void WriteParamValueReplay(std::ostream &os, const CallCapture &call, T value); template <> void WriteParamValueReplay<ParamType::TGLboolean>(std::ostream &os, const CallCapture &call, GLboolean value); template <> void WriteParamValueReplay<ParamType::TGLbooleanPointer>(std::ostream &os, const CallCapture &call, GLboolean *value); template <> void WriteParamValueReplay<ParamType::TvoidConstPointer>(std::ostream &os, const CallCapture &call, const void *value); template <> void WriteParamValueReplay<ParamType::TvoidPointer>(std::ostream &os, const CallCapture &call, void *value); template <> void WriteParamValueReplay<ParamType::TGLfloatConstPointer>(std::ostream &os, const CallCapture &call, const GLfloat *value); template <> void WriteParamValueReplay<ParamType::TGLintConstPointer>(std::ostream &os, const CallCapture &call, const GLint *value); template <> void WriteParamValueReplay<ParamType::TGLsizeiPointer>(std::ostream &os, const CallCapture &call, GLsizei *value); template <> void WriteParamValueReplay<ParamType::TGLuintConstPointer>(std::ostream &os, const CallCapture &call, const GLuint *value); template <> void WriteParamValueReplay<ParamType::TGLDEBUGPROCKHR>(std::ostream &os, const CallCapture &call, GLDEBUGPROCKHR value); template <> void WriteParamValueReplay<ParamType::TGLDEBUGPROC>(std::ostream &os, const CallCapture &call, GLDEBUGPROC value); template <> void WriteParamValueReplay<ParamType::TBufferID>(std::ostream &os, const CallCapture &call, gl::BufferID value); template <> void WriteParamValueReplay<ParamType::TFenceNVID>(std::ostream &os, const CallCapture &call, gl::FenceNVID value); template <> void WriteParamValueReplay<ParamType::TFramebufferID>(std::ostream &os, const CallCapture &call, gl::FramebufferID value); template <> void WriteParamValueReplay<ParamType::TMemoryObjectID>(std::ostream &os, const CallCapture &call, gl::MemoryObjectID value); template <> void WriteParamValueReplay<ParamType::TProgramPipelineID>(std::ostream &os, const CallCapture &call, gl::ProgramPipelineID value); template <> void WriteParamValueReplay<ParamType::TQueryID>(std::ostream &os, const CallCapture &call, gl::QueryID value); template <> void WriteParamValueReplay<ParamType::TRenderbufferID>(std::ostream &os, const CallCapture &call, gl::RenderbufferID value); template <> void WriteParamValueReplay<ParamType::TSamplerID>(std::ostream &os, const CallCapture &call, gl::SamplerID value); template <> void WriteParamValueReplay<ParamType::TSemaphoreID>(std::ostream &os, const CallCapture &call, gl::SemaphoreID value); template <> void WriteParamValueReplay<ParamType::TShaderProgramID>(std::ostream &os, const CallCapture &call, gl::ShaderProgramID value); template <> void WriteParamValueReplay<ParamType::TTextureID>(std::ostream &os, const CallCapture &call, gl::TextureID value); template <> void WriteParamValueReplay<ParamType::TTransformFeedbackID>(std::ostream &os, const CallCapture &call, gl::TransformFeedbackID value); template <> void WriteParamValueReplay<ParamType::TVertexArrayID>(std::ostream &os, const CallCapture &call, gl::VertexArrayID value); template <> void WriteParamValueReplay<ParamType::TUniformLocation>(std::ostream &os, const CallCapture &call, gl::UniformLocation value); template <> void WriteParamValueReplay<ParamType::TUniformBlockIndex>(std::ostream &os, const CallCapture &call, gl::UniformBlockIndex value); template <> void WriteParamValueReplay<ParamType::TSyncID>(std::ostream &os, const CallCapture &call, gl::SyncID value); template <> void WriteParamValueReplay<ParamType::TGLubyte>(std::ostream &os, const CallCapture &call, GLubyte value); template <> void WriteParamValueReplay<ParamType::TContextID>(std::ostream &os, const CallCapture &call, gl::ContextID value); template <> void WriteParamValueReplay<ParamType::Tegl_DisplayPointer>(std::ostream &os, const CallCapture &call, egl::Display *value); template <> void WriteParamValueReplay<ParamType::TImageID>(std::ostream &os, const CallCapture &call, egl::ImageID value); template <> void WriteParamValueReplay<ParamType::TSurfaceID>(std::ostream &os, const CallCapture &call, egl::SurfaceID value); template <> void WriteParamValueReplay<ParamType::TEGLDEBUGPROCKHR>(std::ostream &os, const CallCapture &call, EGLDEBUGPROCKHR value); template <> void WriteParamValueReplay<ParamType::TEGLGetBlobFuncANDROID>(std::ostream &os, const CallCapture &call, EGLGetBlobFuncANDROID value); template <> void WriteParamValueReplay<ParamType::TEGLSetBlobFuncANDROID>(std::ostream &os, const CallCapture &call, EGLSetBlobFuncANDROID value); template <> void WriteParamValueReplay<ParamType::TEGLClientBuffer>(std::ostream &os, const CallCapture &call, EGLClientBuffer value); template <> void WriteParamValueReplay<ParamType::TEGLAttribPointer>(std::ostream &os, const CallCapture &call, const EGLAttrib *value); template <> void WriteParamValueReplay<ParamType::TEGLintPointer>(std::ostream &os, const CallCapture &call, EGLint *value); template <> void WriteParamValueReplay<ParamType::TEGLintConstPointer>(std::ostream &os, const CallCapture &call, const EGLint *value); template <> void WriteParamValueReplay<ParamType::Tegl_ConfigPointer>(std::ostream &os, const CallCapture &call, egl::Config *value); template <> void WriteParamValueReplay<ParamType::Tegl_SyncID>(std::ostream &os, const CallCapture &call, egl::SyncID value); template <> void WriteParamValueReplay<ParamType::TEGLTime>(std::ostream &os, const CallCapture &call, EGLTime value); template <> void WriteParamValueReplay<ParamType::TEGLTimeKHR>(std::ostream &os, const CallCapture &call, EGLTimeKHR value); // General fallback for any unspecific type. template <ParamType ParamT, typename T> void WriteParamValueReplay(std::ostream &os, const CallCapture &call, T value) { os << value; } struct FmtPointerIndex { FmtPointerIndex(const void *ptrIn) : ptr(ptrIn) {} const void *ptr; }; inline std::ostream &operator<<(std::ostream &os, const FmtPointerIndex &fmt) { os << reinterpret_cast<uintptr_t>(fmt.ptr) << "ul"; return os; } bool FindShaderProgramIDsInCall(const CallCapture &call, std::vector<gl::ShaderProgramID> &idsOut); } // namespace angle #endif // COMMON_FRAME_CAPTURE_UTILS_H_