本文介绍了匿名管道上的I/O重叠的处理方法,对大家解决问题具有一定的参考价值,需要的朋友们下面随着小编来一起学习吧!

问题描述

是否可以将重叠的I/O与匿名管道一起使用? CreatePipe()没有指定FILE_FLAG_OVERLAPPED的任何方式,因此即使我提供了OVERLAPPED结构,我也认为ReadFile()将被阻止.

Is it possible to use overlapped I/O with an anonymous pipe? CreatePipe() does not have any way of specifying FILE_FLAG_OVERLAPPED, so I assume ReadFile() will block, even if I supply an OVERLAPPED-structure.

推荐答案

此处是匿名管道函数的实现,可以指定FILE_FLAG_OVERLAPPED:

Here is an implementation for an anonymous pipe function with the possibility to specify FILE_FLAG_OVERLAPPED:

/******************************************************************************\
*       This is a part of the Microsoft Source Code Samples.
*       Copyright 1995 - 1997 Microsoft Corporation.
*       All rights reserved.
*       This source code is only intended as a supplement to
*       Microsoft Development Tools and/or WinHelp documentation.
*       See these sources for detailed information regarding the
*       Microsoft samples programs.
\******************************************************************************/

/*++
Copyright (c) 1997  Microsoft Corporation
Module Name:
    pipeex.c
Abstract:
    CreatePipe-like function that lets one or both handles be overlapped
Author:
    Dave Hart  Summer 1997
Revision History:
--*/

#include <windows.h>
#include <stdio.h>

static volatile long PipeSerialNumber;

BOOL
APIENTRY
MyCreatePipeEx(
    OUT LPHANDLE lpReadPipe,
    OUT LPHANDLE lpWritePipe,
    IN LPSECURITY_ATTRIBUTES lpPipeAttributes,
    IN DWORD nSize,
    DWORD dwReadMode,
    DWORD dwWriteMode
    )

/*++
Routine Description:
    The CreatePipeEx API is used to create an anonymous pipe I/O device.
    Unlike CreatePipe FILE_FLAG_OVERLAPPED may be specified for one or
    both handles.
    Two handles to the device are created.  One handle is opened for
    reading and the other is opened for writing.  These handles may be
    used in subsequent calls to ReadFile and WriteFile to transmit data
    through the pipe.
Arguments:
    lpReadPipe - Returns a handle to the read side of the pipe.  Data
        may be read from the pipe by specifying this handle value in a
        subsequent call to ReadFile.
    lpWritePipe - Returns a handle to the write side of the pipe.  Data
        may be written to the pipe by specifying this handle value in a
        subsequent call to WriteFile.
    lpPipeAttributes - An optional parameter that may be used to specify
        the attributes of the new pipe.  If the parameter is not
        specified, then the pipe is created without a security
        descriptor, and the resulting handles are not inherited on
        process creation.  Otherwise, the optional security attributes
        are used on the pipe, and the inherit handles flag effects both
        pipe handles.
    nSize - Supplies the requested buffer size for the pipe.  This is
        only a suggestion and is used by the operating system to
        calculate an appropriate buffering mechanism.  A value of zero
        indicates that the system is to choose the default buffering
        scheme.
Return Value:
    TRUE - The operation was successful.
    FALSE/NULL - The operation failed. Extended error status is available
        using GetLastError.
--*/

{
  HANDLE ReadPipeHandle, WritePipeHandle;
  DWORD dwError;
  UCHAR PipeNameBuffer[ MAX_PATH ];

  //
  // Only one valid OpenMode flag - FILE_FLAG_OVERLAPPED
  //

  if ((dwReadMode | dwWriteMode) & (~FILE_FLAG_OVERLAPPED)) {
    SetLastError(ERROR_INVALID_PARAMETER);
    return FALSE;
  }

  //
  //  Set the default timeout to 120 seconds
  //

  if (nSize == 0) {
    nSize = 4096;
  }

  sprintf( PipeNameBuffer,
           "\\\\.\\Pipe\\RemoteExeAnon.%08x.%08x",
           GetCurrentProcessId(),
           InterlockedIncrement(&PipeSerialNumber)
         );

  ReadPipeHandle = CreateNamedPipeA(
                       PipeNameBuffer,
                       PIPE_ACCESS_INBOUND | dwReadMode,
                       PIPE_TYPE_BYTE | PIPE_WAIT,
                       1,             // Number of pipes
                       nSize,         // Out buffer size
                       nSize,         // In buffer size
                       120 * 1000,    // Timeout in ms
                       lpPipeAttributes
                       );

  if (! ReadPipeHandle) {
    return FALSE;
  }

  WritePipeHandle = CreateFileA(
                      PipeNameBuffer,
                      GENERIC_WRITE,
                      0,                         // No sharing
                      lpPipeAttributes,
                      OPEN_EXISTING,
                      FILE_ATTRIBUTE_NORMAL | dwWriteMode,
                      NULL                       // Template file
                    );

  if (INVALID_HANDLE_VALUE == WritePipeHandle) {
    dwError = GetLastError();
    CloseHandle( ReadPipeHandle );
    SetLastError(dwError);
    return FALSE;
  }

  *lpReadPipe = ReadPipeHandle;
  *lpWritePipe = WritePipeHandle;
  return( TRUE );
}

这篇关于匿名管道上的I/O重叠的文章就介绍到这了,希望我们推荐的答案对大家有所帮助,也希望大家多多支持!

09-12 10:26