using System; using System.CodeDom.Compiler; using System.Runtime.CompilerServices; using System.Runtime.InteropServices; using System.Runtime.Versioning; using Windows.Win32.Foundation; namespace Windows.Win32.System.Com { [Guid("0C733A30-2A1C-11CE-ADE5-00AA0044773D")] [SupportedOSPlatform("windows5.0")] [GeneratedCode("Microsoft.Windows.CsWin32", "0.3.151+58e949951d.RR")] internal struct ISequentialStream : IVTable<ISequentialStream, ISequentialStream.Vtbl>, IVTable, IComIID { internal struct Vtbl { internal IntPtr QueryInterface_1; internal IntPtr AddRef_2; internal IntPtr Release_3; internal IntPtr Read_4; internal IntPtr Write_5; } [ComImport] [Guid("0C733A30-2A1C-11CE-ADE5-00AA0044773D")] [InterfaceType(ComInterfaceType.InterfaceIsIUnknown)] [SupportedOSPlatform("windows5.0")] internal interface Interface { [PreserveSig] unsafe HRESULT Read(void* pv, uint cb, uint* pcbRead = default(uint*)); [PreserveSig] unsafe HRESULT Write(void* pv, uint cb, uint* pcbWritten = default(uint*)); } private unsafe void** lpVtbl; internal static readonly Guid IID_Guid = new Guid(208878128, 10780, 4558, 173, 229, 0, 170, 0, 68, 119, 61); [IsReadOnly] static unsafe ref Guid IComIID.Guid { [MethodImpl(MethodImplOptions.AggressiveInlining)] [return: IsReadOnly] get { return ref Unsafe.As<byte, Guid>(ref MemoryMarshal.GetReference(new ReadOnlySpan<byte>(&global::<PrivateImplementationDetails>.E750F70B30B1719773C930283DFF07C7892E0AD04BA3A2C1FC406E638AF4B740, 16))); } } internal unsafe HRESULT QueryInterface([In] [IsReadOnly] ref Guid riid, out void* ppvObject) { fixed (void** ppvObject2 = &ppvObject) { fixed (Guid* riid2 = &riid) { return QueryInterface(riid2, ppvObject2); } } } public unsafe HRESULT QueryInterface(Guid* riid, void** ppvObject) { IntPtr intPtr = (IntPtr)(*lpVtbl); return (HRESULT); } public unsafe uint AddRef() { IntPtr intPtr = (IntPtr)lpVtbl[1]; return (uint); } public unsafe uint Release() { IntPtr intPtr = (IntPtr)lpVtbl[2]; return (uint); } [UnmanagedCallersOnly(CallConvs = new Type[] { typeof(CallConvStdcall) })] private unsafe static HRESULT Read(ISequentialStream* pThis, void* pv, uint cb, uint* pcbRead = default(uint*)) { try { Interface object; HRESULT result = ComHelpers.UnwrapCCW<ISequentialStream, Interface>(pThis, out object); if (!result.Failed) return object.Read(pv, cb, pcbRead); return result; } catch (Exception ex) { return (HRESULT)ex.HResult; } } public unsafe HRESULT Read(void* pv, uint cb, uint* pcbRead = default(uint*)) { IntPtr intPtr = (IntPtr)lpVtbl[3]; return (HRESULT); } [UnmanagedCallersOnly(CallConvs = new Type[] { typeof(CallConvStdcall) })] private unsafe static HRESULT Write(ISequentialStream* pThis, void* pv, uint cb, uint* pcbWritten = default(uint*)) { try { Interface object; HRESULT result = ComHelpers.UnwrapCCW<ISequentialStream, Interface>(pThis, out object); if (!result.Failed) return object.Write(pv, cb, pcbWritten); return result; } catch (Exception ex) { return (HRESULT)ex.HResult; } } public unsafe HRESULT Write(void* pv, uint cb, uint* pcbWritten = default(uint*)) { IntPtr intPtr = (IntPtr)lpVtbl[4]; return (HRESULT); } internal unsafe HRESULT QueryInterface<[IsUnmanaged] T>(out T* ppv) where T : struct { Guid riid = typeof(T).GUID; void* ppvObject; HRESULT result = QueryInterface(ref riid, out ppvObject); if (result.Succeeded) ppv = (T*)ppvObject; else ppv = null; return result; } public unsafe static void PopulateVTable(Vtbl* vtable) { vtable->Read_4 = (IntPtr)(void*); vtable->Write_5 = (IntPtr)(void*); } unsafe void IVTable<ISequentialStream, Vtbl>.PopulateVTable(Vtbl* vtable) { this.PopulateVTable(vtable); } } }