//================================================================================ // Copyright (C) 1997 Microsoft Corporation // Author: RamesV // description: implements the API stuff for a named pipe. //================================================================================ #include "precomp.h" #include #include typedef BOOL (*PFILE_OP_FN) (HANDLE, LPVOID, DWORD, LPDWORD, LPOVERLAPPED); #define DEFAULT_SERVER_TIMEOUT (2*60*1000) // two minutes. DWORD INLINE // win32 status BlockFileOp( // synchronous read/write file IN HANDLE Handle, // handle to read/write on IN OUT LPBYTE Buffer, // buffer to read/write into IN DWORD BufSize, // o/p buffer size OUT LPDWORD nBytes, // the # of bytes read/written IN LPOVERLAPPED Overlap, IN PFILE_OP_FN FileOp // file operation, ReadFile or WriteFile ) { BOOL Success; DWORD Error; BOOL fCancelled = FALSE; Success = FileOp(Handle, Buffer, BufSize, nBytes, Overlap); if( Success ) return ERROR_SUCCESS; Error = GetLastError(); if( ERROR_MORE_DATA == Error ) { (*nBytes) = BufSize; return ERROR_SUCCESS; } if( ERROR_IO_PENDING != Error ) return Error; /* if( (PFILE_OP_FN)WriteFile == FileOp ) { Success = FlushFileBuffers(Handle); if( !Success ) return GetLastError(); } */ Error = WaitForSingleObject(Overlap->hEvent, DEFAULT_SERVER_TIMEOUT ); if( WAIT_TIMEOUT == Error ) { // // Waited too long? // DhcpPrint((DEBUG_ERRORS, "Waited too long on pipe. Cancelling IO\n")); fCancelled = CancelIo(Handle); if( 0 == Error ) DhcpAssert( 0 == GetLastError()); // // Hopefully, even if we cancel, get Overlapped result would return.. // } Success = GetOverlappedResult(Handle, Overlap, nBytes, TRUE); if( Success ) return ERROR_SUCCESS; Error = GetLastError(); if( ERROR_MORE_DATA == Error ) { (*nBytes) = BufSize; return ERROR_SUCCESS; } if( fCancelled ) DhcpAssert( ERROR_OPERATION_ABORTED == Error); return Error; } DWORD INLINE // win32 status BlockReadFile( // synchronous read/write file IN HANDLE Handle, // handle to read on IN OUT LPBYTE OutBuffer, // buffer to read into IN DWORD OutBufSize, // o/p buffer size OUT LPDWORD nBytesRead, // the # of bytes read IN LPOVERLAPPED Overlap ) { return BlockFileOp(Handle,OutBuffer, OutBufSize, nBytesRead, Overlap, ReadFile); } DWORD INLINE // win32 status BlockWriteFile( // synchronous read/write file IN HANDLE Handle, // handle to write on IN OUT LPBYTE InBuffer, // buffer to writeinto IN DWORD InBufSize, // i/p buffer size OUT LPDWORD nBytesWritten, // the # of bytes written IN LPOVERLAPPED Overlap ) { return BlockFileOp(Handle, InBuffer, InBufSize, nBytesWritten, Overlap, WriteFile); } DWORD ProcessApiRequest( // win32 status IN HANDLE PipeHandle, // input pipe to read from IN LPOVERLAPPED Overlap // overlap buffer to use for this ) { DWORD Tmp[2]; DWORD OutBufSize; DWORD InBufSize; DWORD Error; DWORD BytesRead; DWORD BytesWritten; LPBYTE InBuf; LPBYTE OutBuf; LPBYTE RealOutBuf; BOOL Success; ResetEvent(Overlap->hEvent); Error = BlockReadFile(PipeHandle, (LPBYTE)Tmp, sizeof(Tmp), &BytesRead, Overlap); if( ERROR_SUCCESS != Error ) return Error; if( sizeof(Tmp) != BytesRead ) return ERROR_INVALID_PARAMETER; InBufSize = ntohl(Tmp[1]); OutBufSize = ntohl(Tmp[0]); if( 0 == InBufSize ) return ERROR_INVALID_PARAMETER; InBuf = DhcpAllocateMemory(InBufSize); if( NULL == InBuf ) return ERROR_NOT_ENOUGH_MEMORY; RealOutBuf = DhcpAllocateMemory(2*sizeof(DWORD) + OutBufSize); if( NULL == RealOutBuf ) { DhcpFreeMemory(InBuf); return ERROR_NOT_ENOUGH_MEMORY; } OutBuf = RealOutBuf+sizeof(DWORD); Error = BlockReadFile(PipeHandle, InBuf, InBufSize, &BytesRead, Overlap); if( ERROR_SUCCESS != Error ) goto Cleanup; if( InBufSize != BytesRead ) { Error = ERROR_INVALID_PARAMETER; goto Cleanup; } Error = DhcpApiProcessBuffer(InBuf,InBufSize, OutBuf, &OutBufSize); ((DWORD UNALIGNED*)RealOutBuf)[0] = htonl(Error); ((DWORD UNALIGNED*)RealOutBuf)[1] = htonl(OutBufSize); if( ERROR_SUCCESS == Error ) OutBufSize += sizeof(DWORD)*2; else OutBufSize = sizeof(DWORD)*2; Error = BlockWriteFile(PipeHandle, RealOutBuf, OutBufSize, &BytesWritten, Overlap); if( ERROR_SUCCESS != Error ) goto Cleanup; DhcpAssert(OutBufSize == BytesWritten); Cleanup: DhcpAssert(InBuf); DhcpFreeMemory(InBuf); if( NULL != RealOutBuf) DhcpFreeMemory(RealOutBuf); return Error; } DWORD // error status ExecuteApiRequest( // execute an api request IN LPBYTE InBuffer, // buffer to process OUT LPBYTE OutBuffer, // place to copy the output data IN OUT LPDWORD OutBufSize // ip: how big can the outbuf be, o/p: how big it really is ) { LPBYTE xOutBuf; LPBYTE Tmp; DWORD xOutBufSize; DWORD BytesRead; BOOL Status; xOutBufSize = (*OutBufSize) + 2 * sizeof(DWORD); // the first two dwords are STATUS and reqd SIZE respectively xOutBuf = DhcpAllocateMemory(xOutBufSize); if( NULL == xOutBuf ) return ERROR_NOT_ENOUGH_MEMORY; Status = CallNamedPipe( DHCP_PIPE_NAME, InBuffer, ntohl(((DWORD UNALIGNED *)InBuffer)[1]) + 2*sizeof(DWORD), xOutBuf, xOutBufSize, &BytesRead, NMPWAIT_WAIT_FOREVER ); if( FALSE == Status ) { Status = GetLastError(); DhcpAssert(ERROR_MORE_DATA != Status); DhcpFreeMemory(xOutBuf); return Status; } DhcpAssert( BytesRead >= 2*sizeof(DWORD)); // expect to read STATUS and SIZE at the minimum.. Status = *(DWORD UNALIGNED *)xOutBuf; Tmp = xOutBuf + sizeof(DWORD); xOutBufSize = *(DWORD UNALIGNED *)Tmp; Tmp += sizeof(DWORD); Status = ntohl(Status); xOutBufSize = ntohl(xOutBufSize); if( ERROR_SUCCESS == Status && 0 != xOutBufSize ) { memcpy(OutBuffer, Tmp, xOutBufSize); } (*OutBufSize) = xOutBufSize; DhcpFreeMemory(xOutBuf); return Status; } //================================================================================ // end of file //================================================================================