internal static IntPtr dlopen( [In] string szFilename, [In] int flag) { if (_osUnixPlatform == OSUnixPlatform.Linux) { return(LinuxNativeMethods.dlopen(szFilename, flag)); } else if (_osUnixPlatform == OSUnixPlatform.OSX) { return(OSXNativeMethods.dlopen(szFilename, flag)); } else { throw new NotImplementedException(); } }
public static Int32 Main(String[] args) { if (args.Length == 0) { Console.WriteLine("Usage: ClrLibRunner.exe <NativeSharedLibrary> <Args>..."); return(1); } String sharedLibrary = args[0]; // TODO: detect which platform we are on to know how to load a shared library correctly bool onLinux = true; EntryDelegate entry; if (onLinux) { const uint RTLD_NOW = 2; IntPtr moduleHandle = LinuxNativeMethods.dlopen(sharedLibrary, RTLD_NOW); if (moduleHandle == IntPtr.Zero) { Console.WriteLine("Error: dlopen '{0}' failed: {1}", sharedLibrary, LinuxNativeMethods.dlerror()); return(1); } IntPtr funcPtr = LinuxNativeMethods.dlsym(moduleHandle, EntryName); if (funcPtr == IntPtr.Zero) { Console.WriteLine("Error: dlsym '{0}' failed: {1}", EntryName, LinuxNativeMethods.dlerror()); return(1); } entry = (EntryDelegate)Marshal.GetDelegateForFunctionPointer(funcPtr, typeof(EntryDelegate)); } else { Console.WriteLine("Error: unsupported platform"); return(1); } IntPtr createDelegateFuncPtr = Marshal.GetFunctionPointerForDelegate(new CreateDelegateDelegate(CreateDelegate)); return(entry(createDelegateFuncPtr, args.Length, args)); }
public static Int32 Main(String[] args) { if (args.Length == 0) { Console.WriteLine("Usage: ClrLibRunner.exe <NativeSharedLibrary> <Args>..."); return(1); } String sharedLibrary = args[0]; // TODO: might want to make this a command-line option (--dlopen or --loadlibrary)? // TODO: need a way to detect whether or not this mechanism is supported // maybe I should use runtime reflection? //bool onWindows = RuntimeInformation.IsOSPlatform(OSPlatform.Windows); bool onWindows = Directory.Exists("C:\\Windows\\System32"); EntryDelegate entry; if (onWindows) { IntPtr moduleHandle = WindowsNativeMethods.LoadLibrary(sharedLibrary); if (moduleHandle == IntPtr.Zero) { Console.WriteLine("Error: LoadLibrary '{0}' failed: {1}", sharedLibrary, Marshal.GetLastWin32Error()); return(1); } IntPtr funcPtr = WindowsNativeMethods.GetProcAddress(moduleHandle, EntryName); if (funcPtr == IntPtr.Zero) { Int32 errorCode = Marshal.GetLastWin32Error(); if (errorCode == WindowsNativeMethods.ERROR_PROC_NOT_FOUND) { Console.WriteLine("Error: library '{0}' is missing function '{1}'", sharedLibrary, EntryName); } else { Console.WriteLine("Error: GetProcAddress '{0}' failed: {1}", EntryName, errorCode); } return(1); } entry = (EntryDelegate)Marshal.GetDelegateForFunctionPointer(funcPtr, typeof(EntryDelegate)); } else { const uint RTLD_NOW = 2; IntPtr moduleHandle = LinuxNativeMethods.dlopen(sharedLibrary, RTLD_NOW); if (moduleHandle == IntPtr.Zero) { Console.WriteLine("Error: dlopen '{0}' failed: {1}", sharedLibrary, LinuxNativeMethods.dlerror()); return(1); } IntPtr funcPtr = LinuxNativeMethods.dlsym(moduleHandle, EntryName); if (funcPtr == IntPtr.Zero) { Console.WriteLine("Error: dlsym '{0}' failed: {1}", EntryName, LinuxNativeMethods.dlerror()); return(1); } entry = (EntryDelegate)Marshal.GetDelegateForFunctionPointer(funcPtr, typeof(EntryDelegate)); } IntPtr createDelegateFuncPtr = Marshal.GetFunctionPointerForDelegate(new CreateDelegateDelegate(CreateDelegate)); return(entry(createDelegateFuncPtr, args.Length, args)); }