kc3-lang/angle/src/common/system_utils.h

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• Hash : 41a5b397
  Author :
  Date : 2025-07-09T09:17:10
  

  Vulkan: Fix checking if fds are identical
  
  This helps to decide whether it's really disjoint or not.
  
  Bug: angleproject:426480610
  Change-Id: I8ec9b352195ab16a7e11d2dab30e98138d9f5a6c
  Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/6658648
  Reviewed-by: mohan maiya <m.maiya@samsung.com>
  Commit-Queue: Shahbaz Youssefi <syoussefi@chromium.org>
  Reviewed-by: Shahbaz Youssefi <syoussefi@chromium.org>
  

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• src/common/system_utils.h

• //
  // Copyright 2014 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.
  //
  
  // system_utils.h: declaration of OS-specific utility functions
  
  #ifndef COMMON_SYSTEM_UTILS_H_
  #define COMMON_SYSTEM_UTILS_H_
  
  #include "common/Optional.h"
  #include "common/angleutils.h"
  
  #include <functional>
  #include <string>
  #include <string_view>
  
  namespace angle
  {
  std::string GetExecutableName();
  std::string GetExecutablePath();
  std::string GetExecutableDirectory();
  std::string GetModuleDirectory();
  const char *GetSharedLibraryExtension();
  const char *GetExecutableExtension();
  char GetPathSeparator();
  Optional<std::string> GetCWD();
  bool SetCWD(const char *dirName);
  bool SetEnvironmentVar(const char *variableName, const char *value);
  bool UnsetEnvironmentVar(const char *variableName);
  bool GetBoolEnvironmentVar(const char *variableName);
  std::string GetEnvironmentVar(const char *variableName);
  std::string GetEnvironmentVarOrUnCachedAndroidProperty(const char *variableName,
                                                         const char *propertyName);
  std::string GetAndSetEnvironmentVarOrUnCachedAndroidProperty(const char *variableName,
                                                               const char *propertyName);
  std::string GetEnvironmentVarOrAndroidProperty(const char *variableName, const char *propertyName);
  const char *GetPathSeparatorForEnvironmentVar();
  bool PrependPathToEnvironmentVar(const char *variableName, const char *path);
  bool IsDirectory(const char *filename);
  bool IsFullPath(std::string dirName);
  bool CreateDirectories(const std::string &path);
  void MakeForwardSlashThePathSeparator(std::string &path);
  bool IsSameFileDescriptor(int fd1, int fd2);
  std::string GetRootDirectory();
  std::string ConcatenatePath(std::string first, std::string second);
  
  Optional<std::string> GetTempDirectory();
  Optional<std::string> CreateTemporaryFileInDirectory(const std::string &directory);
  Optional<std::string> CreateTemporaryFile();
  
  #if defined(ANGLE_PLATFORM_POSIX)
  // Same as CreateTemporaryFileInDirectory(), but allows for supplying an extension.
  Optional<std::string> CreateTemporaryFileInDirectoryWithExtension(const std::string &directory,
                                                                    const std::string &extension);
  #endif
  
  // Get absolute time in seconds.  Use this function to get an absolute time with an unknown origin.
  double GetCurrentSystemTime();
  // Get CPU time for current process in seconds.
  double GetCurrentProcessCpuTime();
  
  // Unique thread id (std::this_thread::get_id() gets recycled!)
  uint64_t GetCurrentThreadUniqueId();
  // Fast function to get thread id when performance is critical (may be recycled).
  // On Android 7-8x faster than GetCurrentThreadUniqueId().
  ThreadId GetCurrentThreadId();
  // Returns id that does not represent a thread.
  ThreadId InvalidThreadId();
  
  // Run an application and get the output.  Gets a nullptr-terminated set of args to execute the
  // application with, and returns the stdout and stderr outputs as well as the exit code.
  //
  // Pass nullptr for stdoutOut/stderrOut if you don't need to capture. exitCodeOut is required.
  //
  // Returns false if it fails to actually execute the application.
  bool RunApp(const std::vector<const char *> &args,
              std::string *stdoutOut,
              std::string *stderrOut,
              int *exitCodeOut);
  
  // Use SYSTEM_DIR to bypass loading ANGLE libraries with the same name as system DLLS
  // (e.g. opengl32.dll)
  enum class SearchType
  {
      // Try to find the library in the same directory as the current module
      ModuleDir,
      // Load the library from the system directories
      SystemDir,
      // Get a reference to an already loaded shared library.
      AlreadyLoaded,
  };
  
  void *OpenSystemLibrary(const char *libraryName, SearchType searchType);
  void *OpenSystemLibraryWithExtension(const char *libraryName, SearchType searchType);
  void *OpenSystemLibraryAndGetError(const char *libraryName,
                                     SearchType searchType,
                                     std::string *errorOut);
  void *OpenSystemLibraryWithExtensionAndGetError(const char *libraryName,
                                                  SearchType searchType,
                                                  std::string *errorOut);
  
  void *GetLibrarySymbol(void *libraryHandle, const char *symbolName);
  std::string GetLibraryPath(void *libraryHandle);
  void CloseSystemLibrary(void *libraryHandle);
  
  class Library : angle::NonCopyable
  {
    public:
      Library() {}
      Library(void *libraryHandle) : mLibraryHandle(libraryHandle) {}
      ~Library() { close(); }
  
      [[nodiscard]] bool open(const char *libraryName, SearchType searchType)
      {
          close();
          mLibraryHandle = OpenSystemLibrary(libraryName, searchType);
          return mLibraryHandle != nullptr;
      }
  
      [[nodiscard]] bool openWithExtension(const char *libraryName, SearchType searchType)
      {
          close();
          mLibraryHandle = OpenSystemLibraryWithExtension(libraryName, searchType);
          return mLibraryHandle != nullptr;
      }
  
      [[nodiscard]] bool openAndGetError(const char *libraryName,
                                         SearchType searchType,
                                         std::string *errorOut)
      {
          close();
          mLibraryHandle = OpenSystemLibraryAndGetError(libraryName, searchType, errorOut);
          return mLibraryHandle != nullptr;
      }
  
      [[nodiscard]] bool openWithExtensionAndGetError(const char *libraryName,
                                                      SearchType searchType,
                                                      std::string *errorOut)
      {
          close();
          mLibraryHandle =
              OpenSystemLibraryWithExtensionAndGetError(libraryName, searchType, errorOut);
          return mLibraryHandle != nullptr;
      }
  
      void close()
      {
          if (mLibraryHandle)
          {
              CloseSystemLibrary(mLibraryHandle);
              mLibraryHandle = nullptr;
          }
      }
  
      void *getSymbol(const char *symbolName) { return GetLibrarySymbol(mLibraryHandle, symbolName); }
  
      void *getNative() const { return mLibraryHandle; }
  
      std::string getPath() const { return GetLibraryPath(mLibraryHandle); }
  
      template <typename FuncT>
      void getAs(const char *symbolName, FuncT *funcOut)
      {
          *funcOut = reinterpret_cast<FuncT>(getSymbol(symbolName));
      }
  
    private:
      void *mLibraryHandle = nullptr;
  };
  
  Library *OpenSharedLibrary(const char *libraryName, SearchType searchType);
  Library *OpenSharedLibraryWithExtension(const char *libraryName, SearchType searchType);
  Library *OpenSharedLibraryAndGetError(const char *libraryName,
                                        SearchType searchType,
                                        std::string *errorOut);
  Library *OpenSharedLibraryWithExtensionAndGetError(const char *libraryName,
                                                     SearchType searchType,
                                                     std::string *errorOut);
  
  // Returns true if the process is currently being debugged.
  bool IsDebuggerAttached();
  
  // Calls system APIs to break into the debugger.
  void BreakDebugger();
  
  uint64_t GetProcessMemoryUsageKB();
  
  bool ProtectMemory(uintptr_t start, size_t size);
  bool UnprotectMemory(uintptr_t start, size_t size);
  
  size_t GetPageSize();
  
  // Return type of the PageFaultCallback
  enum class PageFaultHandlerRangeType
  {
      // The memory address was known by the page fault handler
      InRange,
      // The memory address was not in the page fault handler's range
      // and the signal will be forwarded to the default page handler.
      OutOfRange,
  };
  
  using PageFaultCallback = std::function<PageFaultHandlerRangeType(uintptr_t)>;
  
  class PageFaultHandler : angle::NonCopyable
  {
    public:
      PageFaultHandler(PageFaultCallback callback);
      virtual ~PageFaultHandler();
  
      // Registers OS level page fault handler for memory protection signals
      // and enables reception on PageFaultCallback
      virtual bool enable() = 0;
  
      // Unregisters OS level page fault handler and deactivates PageFaultCallback
      virtual bool disable() = 0;
  
    protected:
      PageFaultCallback mCallback;
  };
  
  // Creates single instance page fault handler
  PageFaultHandler *CreatePageFaultHandler(PageFaultCallback callback);
  
  #ifdef ANGLE_PLATFORM_WINDOWS
  // Convert an UTF-16 wstring to an UTF-8 string.
  std::string Narrow(const std::wstring_view &utf16);
  
  // Convert an UTF-8 string to an UTF-16 wstring.
  std::wstring Widen(const std::string_view &utf8);
  #endif
  
  std::string StripFilenameFromPath(const std::string &path);
  
  ANGLE_INLINE ThreadId GetCurrentThreadId()
  {
      return std::this_thread::get_id();
  }
  ANGLE_INLINE ThreadId InvalidThreadId()
  {
      return ThreadId();
  }
  
  void SetCurrentThreadName(const char *name);
  }  // namespace angle
  
  #endif  // COMMON_SYSTEM_UTILS_H_
  

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