다음을 통해 공유


완료 루틴을 사용하는 명명된 파이프 서버

다음 예제는 메시지 형식 파이프를 만들고 겹치는 작업을 사용하는 단일 스레드 파이프 서버입니다. 확장 함수 ReadFileExWriteFileEx 를 사용하여 완료 루틴을 사용하여 겹치는 I/O를 수행합니다. 이 함수는 작업이 완료되면 실행을 위해 큐에 대기됩니다. 파이프 서버는 완료 루틴을 실행할 준비가 되면 반환되는 경고 가능한 대기 작업을 수행하는 WaitForSingleObjectEx 함수를 사용합니다. 또한 대기 함수는 이벤트 개체가 신호를 받으면 를 반환합니다. 이 예제에서는 겹치는 ConnectNamedPipe 작업이 완료되었음을 나타냅니다(새 클라이언트가 연결됨). 이 파이프 서버는 명명된 파이프 클라이언트에 설명된 파이프 클라이언트와 함께 사용할 수 있습니다.

처음에 파이프 서버는 파이프의 단일 instance 만들고 겹치는 ConnectNamedPipe 작업을 시작합니다. 클라이언트가 연결되면 서버는 해당 파이프 instance 대한 스토리지를 제공하는 구조를 할당한 다음 ReadFileEx 함수를 호출하여 클라이언트와의 통신을 처리하기 위한 I/O 작업 시퀀스를 시작합니다. 각 작업은 시퀀스에서 다음 작업을 수행하는 완료 루틴을 지정합니다. 클라이언트의 연결이 끊어지고 파이프가 닫혀 instance 있으면 시퀀스가 종료됩니다. 새 클라이언트에 대한 작업 시퀀스를 시작한 후 서버는 다른 파이프 instance 만들고 다음 클라이언트가 연결되기를 기다립니다.

ReadFileExWriteFileEx 함수의 매개 변수는 완료 루틴과 OVERLAPPED 구조체에 대한 포인터를 지정합니다. 이 포인터는 lpOverLap 매개 변수의 완료 루틴에 전달됩니다. OVERLAPPED 구조체는 각 파이프 instance 할당된 구조체의 첫 번째 멤버를 가리키기 때문에 완료 루틴은 lpOverLap 매개 변수를 사용하여 파이프 instance 대한 구조체에 액세스할 수 있습니다.

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

#define PIPE_TIMEOUT 5000
#define BUFSIZE 4096
 
typedef struct 
{ 
   OVERLAPPED oOverlap; 
   HANDLE hPipeInst; 
   TCHAR chRequest[BUFSIZE]; 
   DWORD cbRead;
   TCHAR chReply[BUFSIZE]; 
   DWORD cbToWrite; 
} PIPEINST, *LPPIPEINST; 
 
VOID DisconnectAndClose(LPPIPEINST); 
BOOL CreateAndConnectInstance(LPOVERLAPPED); 
BOOL ConnectToNewClient(HANDLE, LPOVERLAPPED); 
VOID GetAnswerToRequest(LPPIPEINST); 

VOID WINAPI CompletedWriteRoutine(DWORD, DWORD, LPOVERLAPPED); 
VOID WINAPI CompletedReadRoutine(DWORD, DWORD, LPOVERLAPPED); 
 
HANDLE hPipe; 
 
int _tmain(VOID) 
{ 
   HANDLE hConnectEvent; 
   OVERLAPPED oConnect; 
   LPPIPEINST lpPipeInst; 
   DWORD dwWait, cbRet; 
   BOOL fSuccess, fPendingIO; 
 
// Create one event object for the connect operation. 
 
   hConnectEvent = CreateEvent( 
      NULL,    // default security attribute
      TRUE,    // manual reset event 
      TRUE,    // initial state = signaled 
      NULL);   // unnamed event object 

   if (hConnectEvent == NULL) 
   {
      printf("CreateEvent failed with %d.\n", GetLastError()); 
      return 0;
   }
 
   oConnect.hEvent = hConnectEvent; 
 
// Call a subroutine to create one instance, and wait for 
// the client to connect. 
 
   fPendingIO = CreateAndConnectInstance(&oConnect); 
 
   while (1) 
   { 
   // Wait for a client to connect, or for a read or write 
   // operation to be completed, which causes a completion 
   // routine to be queued for execution. 
 
      dwWait = WaitForSingleObjectEx( 
         hConnectEvent,  // event object to wait for 
         INFINITE,       // waits indefinitely 
         TRUE);          // alertable wait enabled 
 
      switch (dwWait) 
      { 
      // The wait conditions are satisfied by a completed connect 
      // operation. 
         case 0: 
         // If an operation is pending, get the result of the 
         // connect operation. 
 
         if (fPendingIO) 
         { 
            fSuccess = GetOverlappedResult( 
               hPipe,     // pipe handle 
               &oConnect, // OVERLAPPED structure 
               &cbRet,    // bytes transferred 
               FALSE);    // does not wait 
            if (!fSuccess) 
            {
               printf("ConnectNamedPipe (%d)\n", GetLastError()); 
               return 0;
            }
         } 
 
         // Allocate storage for this instance. 
 
            lpPipeInst = (LPPIPEINST) GlobalAlloc( 
               GPTR, sizeof(PIPEINST)); 
            if (lpPipeInst == NULL) 
            {
               printf("GlobalAlloc failed (%d)\n", GetLastError()); 
               return 0;
            }
 
            lpPipeInst->hPipeInst = hPipe; 
 
         // Start the read operation for this client. 
         // Note that this same routine is later used as a 
         // completion routine after a write operation. 
 
            lpPipeInst->cbToWrite = 0; 
            CompletedWriteRoutine(0, 0, (LPOVERLAPPED) lpPipeInst); 
 
         // Create new pipe instance for the next client. 
 
            fPendingIO = CreateAndConnectInstance( 
               &oConnect); 
            break; 
 
      // The wait is satisfied by a completed read or write 
      // operation. This allows the system to execute the 
      // completion routine. 
 
         case WAIT_IO_COMPLETION: 
            break; 
 
      // An error occurred in the wait function. 
 
         default: 
         {
            printf("WaitForSingleObjectEx (%d)\n", GetLastError()); 
            return 0;
         }
      } 
   } 
   return 0; 
} 
 
// CompletedWriteRoutine(DWORD, DWORD, LPOVERLAPPED) 
// This routine is called as a completion routine after writing to 
// the pipe, or when a new client has connected to a pipe instance.
// It starts another read operation. 
 
VOID WINAPI CompletedWriteRoutine(DWORD dwErr, DWORD cbWritten, 
   LPOVERLAPPED lpOverLap) 
{ 
   LPPIPEINST lpPipeInst; 
   BOOL fRead = FALSE; 
 
// lpOverlap points to storage for this instance. 
 
   lpPipeInst = (LPPIPEINST) lpOverLap; 
 
// The write operation has finished, so read the next request (if 
// there is no error). 
 
   if ((dwErr == 0) && (cbWritten == lpPipeInst->cbToWrite)) 
      fRead = ReadFileEx( 
         lpPipeInst->hPipeInst, 
         lpPipeInst->chRequest, 
         BUFSIZE*sizeof(TCHAR), 
         (LPOVERLAPPED) lpPipeInst, 
         (LPOVERLAPPED_COMPLETION_ROUTINE) CompletedReadRoutine); 
 
// Disconnect if an error occurred. 
 
   if (! fRead) 
      DisconnectAndClose(lpPipeInst); 
} 
 
// CompletedReadRoutine(DWORD, DWORD, LPOVERLAPPED) 
// This routine is called as an I/O completion routine after reading 
// a request from the client. It gets data and writes it to the pipe. 
 
VOID WINAPI CompletedReadRoutine(DWORD dwErr, DWORD cbBytesRead, 
    LPOVERLAPPED lpOverLap) 
{ 
   LPPIPEINST lpPipeInst; 
   BOOL fWrite = FALSE; 
 
// lpOverlap points to storage for this instance. 
 
   lpPipeInst = (LPPIPEINST) lpOverLap; 
 
// The read operation has finished, so write a response (if no 
// error occurred). 
 
   if ((dwErr == 0) && (cbBytesRead != 0)) 
   { 
      GetAnswerToRequest(lpPipeInst); 
 
      fWrite = WriteFileEx( 
         lpPipeInst->hPipeInst, 
         lpPipeInst->chReply, 
         lpPipeInst->cbToWrite, 
         (LPOVERLAPPED) lpPipeInst, 
         (LPOVERLAPPED_COMPLETION_ROUTINE) CompletedWriteRoutine); 
   } 
 
// Disconnect if an error occurred. 
 
   if (! fWrite) 
      DisconnectAndClose(lpPipeInst); 
} 
 
// DisconnectAndClose(LPPIPEINST) 
// This routine is called when an error occurs or the client closes 
// its handle to the pipe. 
 
VOID DisconnectAndClose(LPPIPEINST lpPipeInst) 
{ 
// Disconnect the pipe instance. 
 
   if (! DisconnectNamedPipe(lpPipeInst->hPipeInst) ) 
   {
      printf("DisconnectNamedPipe failed with %d.\n", GetLastError());
   }
 
// Close the handle to the pipe instance. 
 
   CloseHandle(lpPipeInst->hPipeInst); 
 
// Release the storage for the pipe instance. 
 
   if (lpPipeInst != NULL) 
      GlobalFree(lpPipeInst); 
} 
 
// CreateAndConnectInstance(LPOVERLAPPED) 
// This function creates a pipe instance and connects to the client. 
// It returns TRUE if the connect operation is pending, and FALSE if 
// the connection has been completed. 
 
BOOL CreateAndConnectInstance(LPOVERLAPPED lpoOverlap) 
{ 
   LPTSTR lpszPipename = TEXT("\\\\.\\pipe\\mynamedpipe"); 
 
   hPipe = CreateNamedPipe( 
      lpszPipename,             // pipe name 
      PIPE_ACCESS_DUPLEX |      // read/write access 
      FILE_FLAG_OVERLAPPED,     // overlapped mode 
      PIPE_TYPE_MESSAGE |       // message-type pipe 
      PIPE_READMODE_MESSAGE |   // message read mode 
      PIPE_WAIT,                // blocking mode 
      PIPE_UNLIMITED_INSTANCES, // unlimited instances 
      BUFSIZE*sizeof(TCHAR),    // output buffer size 
      BUFSIZE*sizeof(TCHAR),    // input buffer size 
      PIPE_TIMEOUT,             // client time-out 
      NULL);                    // default security attributes
   if (hPipe == INVALID_HANDLE_VALUE) 
   {
      printf("CreateNamedPipe failed with %d.\n", GetLastError()); 
      return 0;
   }
 
// Call a subroutine to connect to the new client. 
 
   return ConnectToNewClient(hPipe, lpoOverlap); 
}

BOOL ConnectToNewClient(HANDLE hPipe, LPOVERLAPPED lpo) 
{ 
   BOOL fConnected, fPendingIO = FALSE; 
 
// Start an overlapped connection for this pipe instance. 
   fConnected = ConnectNamedPipe(hPipe, lpo); 
 
// Overlapped ConnectNamedPipe should return zero. 
   if (fConnected) 
   {
      printf("ConnectNamedPipe failed with %d.\n", GetLastError()); 
      return 0;
   }
 
   switch (GetLastError()) 
   { 
   // The overlapped connection in progress. 
      case ERROR_IO_PENDING: 
         fPendingIO = TRUE; 
         break; 
 
   // Client is already connected, so signal an event. 
 
      case ERROR_PIPE_CONNECTED: 
         if (SetEvent(lpo->hEvent)) 
            break; 
 
   // If an error occurs during the connect operation... 
      default: 
      {
         printf("ConnectNamedPipe failed with %d.\n", GetLastError());
         return 0;
      }
   } 
   return fPendingIO; 
}

VOID GetAnswerToRequest(LPPIPEINST pipe)
{
   _tprintf( TEXT("[%d] %s\n"), pipe->hPipeInst, pipe->chRequest);
   StringCchCopy( pipe->chReply, BUFSIZE, TEXT("Default answer from server") );
   pipe->cbToWrite = (lstrlen(pipe->chReply)+1)*sizeof(TCHAR);
}

명명된 파이프 클라이언트