/*++ Copyright (C) Microsoft Corporation, 1997 - 1999 Module Name: Afd.cxx Abstract: Wrappers to simulate winsock API directly on top of AFD IOCTLS. Author: Mario Goertzel [MarioGo] Revision History: MarioGo 4/4/1997 Based on NT 4 DG code. --*/ #include #include #include #include void InitializeRawAddress( IN WS_SOCKADDR *pSockAddr, OUT PVOID pRawAddress, OUT DWORD *pdwRawAddressSize ) /*++ Routine Description: Converts from a winsock sockaddr to a TDI format address. Arguments: pSockAddr - The address to convert from, must be either a AF_INET (IP), AF_IPX, or AF_CLUSTER family address. pRawAddress - The buffer to store the TDI format address. pdwRawAddressSize - On return, the size of the TDI format address. Return Value: None --*/ { #ifdef IPX_ON ASSERT( pSockAddr->generic.sa_family == AF_INET || pSockAddr->generic.sa_family == AF_IPX || pSockAddr->generic.sa_family == AF_CLUSTER); #else ASSERT( pSockAddr->generic.sa_family == AF_INET || pSockAddr->generic.sa_family == AF_CLUSTER); #endif switch (pSockAddr->generic.sa_family) { case AF_INET: { // UDP TA_IP_ADDRESS *pra = (TA_IP_ADDRESS *)pRawAddress; pra->TAAddressCount = 1; pra->Address[0].AddressLength = TDI_ADDRESS_LENGTH_IP; pra->Address[0].AddressType = TDI_ADDRESS_TYPE_IP; pra->Address[0].Address[0].sin_port = pSockAddr->inetaddr.sin_port; pra->Address[0].Address[0].in_addr = pSockAddr->inetaddr.sin_addr.s_addr; memset(pra->Address[0].Address[0].sin_zero, 0, 8); *pdwRawAddressSize = sizeof(TA_IP_ADDRESS); break; } #ifdef IPX_ON case AF_IPX: { // IPX TA_IPX_ADDRESS *pra = (TA_IPX_ADDRESS *)pRawAddress; pra->TAAddressCount = 1; pra->Address[0].AddressLength = TDI_ADDRESS_LENGTH_IPX; pra->Address[0].AddressType = TDI_ADDRESS_TYPE_IPX; memcpy(&pra->Address[0].Address[0].NetworkAddress, pSockAddr->ipxaddr.sa_netnum, 4); memcpy(&pra->Address[0].Address[0].NodeAddress, pSockAddr->ipxaddr.sa_nodenum, 6); pra->Address[0].Address[0].Socket = pSockAddr->ipxaddr.sa_socket; *pdwRawAddressSize = sizeof(TA_IPX_ADDRESS); break; } #endif case AF_CLUSTER: { // Clusters TA_CLUSTER_ADDRESS *pra = (TA_CLUSTER_ADDRESS *)pRawAddress; pra->TAAddressCount = 1; pra->Address[0].AddressLength = TDI_ADDRESS_LENGTH_CLUSTER; pra->Address[0].AddressType = TDI_ADDRESS_TYPE_CLUSTER; pra->Address[0].Address[0].Port = pSockAddr->clusaddr.sac_port; pra->Address[0].Address[0].Node = pSockAddr->clusaddr.sac_node; pra->Address[0].Address[0].ReservedMBZ = 0; *pdwRawAddressSize = sizeof(TA_CLUSTER_ADDRESS); } } return; } int WSAAPI AFD_SendTo( SOCKET s, LPWSABUF lpBuffers, DWORD dwBufferCount, LPDWORD lpNumberOfBytesSent, DWORD dwFlags, const struct sockaddr FAR * lpTo, int iTolen, LPWSAOVERLAPPED lpOverlapped, LPWSAOVERLAPPED_COMPLETION_ROUTINE lpCompletionRoutine ) /*++ Routine Description: Implement's a wrapper around the AFD recv IOCTL which looks like WSASendTo. RPC uses this when MSAFD is the network provider. Note: Try reading private\net\sockets\winsock2\wsp\msafd\send.c if you want more information. Arguments: WSASendTo arguments Return Value: 0 - success ERROR_IO_PENDING - IO submitted non-zero - error --*/ { PIO_STATUS_BLOCK pIoStatus = (PIO_STATUS_BLOCK)&lpOverlapped->Internal; AFD_SEND_DATAGRAM_INFO sendInfo; UCHAR abRawAddress[max(sizeof(TA_IP_ADDRESS),sizeof(TA_IPX_ADDRESS))]; DWORD dwRawAddressSize; int status; NTSTATUS NtStatus; ASSERT(lpCompletionRoutine == 0); ASSERT(lpOverlapped); InitializeRawAddress((WS_SOCKADDR *)lpTo, abRawAddress, &dwRawAddressSize); sendInfo.AfdFlags = AFD_OVERLAPPED; sendInfo.BufferArray = lpBuffers; sendInfo.BufferCount = dwBufferCount; sendInfo.TdiRequest.SendDatagramInformation = &sendInfo.TdiConnInfo; sendInfo.TdiConnInfo.UserDataLength = 0; sendInfo.TdiConnInfo.UserData = 0; sendInfo.TdiConnInfo.OptionsLength = 0; sendInfo.TdiConnInfo.Options = 0; sendInfo.TdiConnInfo.RemoteAddressLength = dwRawAddressSize; sendInfo.TdiConnInfo.RemoteAddress = abRawAddress; pIoStatus->Status = STATUS_PENDING; NtStatus = NtDeviceIoControlFile( (HANDLE)s, lpOverlapped->hEvent, NULL, ( PtrToUlong(lpOverlapped->hEvent) & 1 ) ? NULL : lpOverlapped, pIoStatus, IOCTL_AFD_SEND_DATAGRAM, &sendInfo, sizeof(sendInfo), NULL, 0 ); if (NtStatus == STATUS_PENDING) { SetLastError(WSA_IO_PENDING); *lpNumberOfBytesSent = 0; return(-1); } if (NtStatus == STATUS_HOST_DOWN) { SetLastError(WSAEHOSTDOWN); return(-1); } if (!NT_SUCCESS(NtStatus)) { TransDbgPrint((DPFLTR_RPCPROXY_ID, DPFLTR_WARNING_LEVEL, RPCTRANS "Afd send failed: 0x%x\n", NtStatus)); SetLastError(RtlNtStatusToDosError(NtStatus)); return(-1); } *lpNumberOfBytesSent = ULONG(pIoStatus->Information); ASSERT(*lpNumberOfBytesSent); return 0; } int WSAAPI AFD_RecvFrom( SOCKET s, LPWSABUF lpBuffers, DWORD dwBufferCount, LPDWORD lpNumberOfBytesRecvd, LPDWORD lpFlags, struct sockaddr FAR * lpFrom, LPINT lpFromlen, LPWSAOVERLAPPED lpOverlapped, LPWSAOVERLAPPED_COMPLETION_ROUTINE lpCompletionRoutine ) /*++ Routine Description: Implement's a wrapper around the AFD recv IOCTL which looks like WSARecvFrom. RPC uses this when MSAFD is the network provider. Notes: Try reading private\net\sockets\winsock2\wsp\msafd\recv.c if you want more information. Arguments: WSARecvFrom arguments Return Value: 0 - success ERROR_IO_PENDING - IO submitted non-zero - error --*/ { PIO_STATUS_BLOCK pIoStatus = (PIO_STATUS_BLOCK )&lpOverlapped->Internal; AFD_RECV_DATAGRAM_INFO recvInfo; int status; NTSTATUS NtStatus; ASSERT(lpCompletionRoutine == 0); ASSERT(lpOverlapped); recvInfo.TdiFlags = TDI_RECEIVE_NORMAL; recvInfo.AfdFlags = AFD_OVERLAPPED; recvInfo.BufferArray = lpBuffers; recvInfo.BufferCount = dwBufferCount; recvInfo.Address = lpFrom; recvInfo.AddressLength = (PULONG)lpFromlen; pIoStatus->Status = STATUS_PENDING; NtStatus = NtDeviceIoControlFile((HANDLE)s, lpOverlapped->hEvent, 0, ( PtrToUlong(lpOverlapped->hEvent) & 1 ) ? NULL : lpOverlapped, pIoStatus, IOCTL_AFD_RECEIVE_DATAGRAM, &recvInfo, sizeof(recvInfo), NULL, 0); if (NtStatus == STATUS_PENDING) { SetLastError(ERROR_IO_PENDING); return(ERROR_IO_PENDING); } if (!NT_SUCCESS(NtStatus)) { switch (NtStatus) { case STATUS_PORT_UNREACHABLE: status = WSAECONNRESET; break; case STATUS_HOST_UNREACHABLE: status = WSAEHOSTUNREACH; break; case STATUS_NETWORK_UNREACHABLE: status = WSAENETUNREACH; break; case STATUS_BUFFER_OVERFLOW: case STATUS_RECEIVE_PARTIAL: { *lpNumberOfBytesRecvd = -1 * ULONG(pIoStatus->Information); status = WSAEMSGSIZE; break; } default: { TransDbgPrint((DPFLTR_RPCPROXY_ID, DPFLTR_WARNING_LEVEL, RPCTRANS "Afd recv failed: 0x%x\n", NtStatus)); status = RPC_S_OUT_OF_RESOURCES; break; } } SetLastError( status ); } else { *lpNumberOfBytesRecvd = ULONG(pIoStatus->Information); status = NO_ERROR; } return(status); }