/*++ Copyright (c) 1992-2000 Microsoft Corporation Module Name: passthru.c Abstract: Ndis Intermediate Miniport driver sample. This is a passthru driver. Author: Environment: Revision History: --*/ #include "precomp.h" #pragma hdrstop #pragma NDIS_INIT_FUNCTION(DriverEntry) NDIS_HANDLE ProtHandle = NULL; NDIS_HANDLE DriverHandle = NULL; NDIS_MEDIUM MediumArray[4] = { NdisMedium802_3, // Ethernet NdisMedium802_5, // Token-ring NdisMediumFddi, // Fddi NdisMediumWan // NDISWAN }; NDIS_SPIN_LOCK GlobalLock; PADAPT pAdaptList = NULL; LONG MiniportCount = 0; NDIS_HANDLE NdisWrapperHandle; // // To support ioctls from user-mode: // #define STR2(x) #x #define STR(x) STR2(x) #define DOSPREFIX "\\DosDevices\\" #define NTPREFIX "\\Device\\" #define WIDEN2(x) L ## x #define WIDEN(x) WIDEN2(x) #define LINKNAME_STRING WIDEN(DOSPREFIX) WIDEN(STR(MODULENAME)) #define NTDEVICE_STRING WIDEN(NTPREFIX) WIDEN(STR(MODULENAME)) #define PROTOCOLNAME_STRING WIDEN(STR(MODULENAME)) NDIS_HANDLE NdisDeviceHandle = NULL; PDEVICE_OBJECT ControlDeviceObject = NULL; enum _DEVICE_STATE { PS_DEVICE_STATE_READY = 0, // ready for create/delete PS_DEVICE_STATE_CREATING, // create operation in progress PS_DEVICE_STATE_DELETING // delete operation in progress } ControlDeviceState = PS_DEVICE_STATE_READY; NTSTATUS DriverEntry( IN PDRIVER_OBJECT DriverObject, IN PUNICODE_STRING RegistryPath ) /*++ Routine Description: First entry point to be called, when this driver is loaded. Register with NDIS as an intermediate driver. Arguments: DriverObject - pointer to the system's driver object structure for this driver RegistryPath - system's registry path for this driver Return Value: STATUS_SUCCESS if all initialization is successful, STATUS_XXX error code if not. --*/ { NDIS_STATUS Status; NDIS_PROTOCOL_CHARACTERISTICS PChars; NDIS_MINIPORT_CHARACTERISTICS MChars; NDIS_STRING Name; Status = NDIS_STATUS_SUCCESS; NdisAllocateSpinLock(&GlobalLock); NdisMInitializeWrapper(&NdisWrapperHandle, DriverObject, RegistryPath, NULL); do { // // Register the miniport with NDIS. Note that it is the miniport // which was started as a driver and not the protocol. Also the miniport // must be registered prior to the protocol since the protocol's BindAdapter // handler can be initiated anytime and when it is, it must be ready to // start driver instances. // NdisZeroMemory(&MChars, sizeof(NDIS_MINIPORT_CHARACTERISTICS)); MChars.MajorNdisVersion = PASSTHRU_MAJOR_NDIS_VERSION; MChars.MinorNdisVersion = PASSTHRU_MINOR_NDIS_VERSION; MChars.InitializeHandler = MPInitialize; MChars.QueryInformationHandler = MPQueryInformation; MChars.SetInformationHandler = MPSetInformation; MChars.ResetHandler = NULL; MChars.TransferDataHandler = MPTransferData; MChars.HaltHandler = MPHalt; #ifdef NDIS51_MINIPORT MChars.CancelSendPacketsHandler = MPCancelSendPackets; MChars.PnPEventNotifyHandler = MPDevicePnPEvent; MChars.AdapterShutdownHandler = MPAdapterShutdown; #endif // NDIS51_MINIPORT // // We will disable the check for hang timeout so we do not // need a check for hang handler! // MChars.CheckForHangHandler = NULL; MChars.ReturnPacketHandler = MPReturnPacket; // // Either the Send or the SendPackets handler should be specified. // If SendPackets handler is specified, SendHandler is ignored // MChars.SendHandler = MPSend; // IPFW: use MPSend, not SendPackets MChars.SendPacketsHandler = NULL; Status = NdisIMRegisterLayeredMiniport(NdisWrapperHandle, &MChars, sizeof(MChars), &DriverHandle); if (Status != NDIS_STATUS_SUCCESS) { break; } #ifndef WIN9X NdisMRegisterUnloadHandler(NdisWrapperHandle, PtUnload); #endif // // Now register the protocol. // NdisZeroMemory(&PChars, sizeof(NDIS_PROTOCOL_CHARACTERISTICS)); PChars.MajorNdisVersion = PASSTHRU_PROT_MAJOR_NDIS_VERSION; PChars.MinorNdisVersion = PASSTHRU_PROT_MINOR_NDIS_VERSION; // // Make sure the protocol-name matches the service-name // (from the INF) under which this protocol is installed. // This is needed to ensure that NDIS can correctly determine // the binding and call us to bind to miniports below. // NdisInitUnicodeString(&Name, PROTOCOLNAME_STRING); // Protocol name PChars.Name = Name; PChars.OpenAdapterCompleteHandler = PtOpenAdapterComplete; PChars.CloseAdapterCompleteHandler = PtCloseAdapterComplete; PChars.SendCompleteHandler = PtSendComplete; PChars.TransferDataCompleteHandler = PtTransferDataComplete; PChars.ResetCompleteHandler = PtResetComplete; PChars.RequestCompleteHandler = PtRequestComplete; PChars.ReceiveHandler = PtReceive; PChars.ReceiveCompleteHandler = PtReceiveComplete; PChars.StatusHandler = PtStatus; PChars.StatusCompleteHandler = PtStatusComplete; PChars.BindAdapterHandler = PtBindAdapter; PChars.UnbindAdapterHandler = PtUnbindAdapter; PChars.UnloadHandler = PtUnloadProtocol; PChars.ReceivePacketHandler = PtReceivePacket; PChars.PnPEventHandler= PtPNPHandler; NdisRegisterProtocol(&Status, &ProtHandle, &PChars, sizeof(NDIS_PROTOCOL_CHARACTERISTICS)); if (Status != NDIS_STATUS_SUCCESS) { NdisIMDeregisterLayeredMiniport(DriverHandle); break; } NdisIMAssociateMiniport(DriverHandle, ProtHandle); } while (FALSE); if (Status != NDIS_STATUS_SUCCESS) { NdisTerminateWrapper(NdisWrapperHandle, NULL); } ipfw_module_init(); // IPFW - start the system return(Status); } NDIS_STATUS PtRegisterDevice( VOID ) /*++ Routine Description: Register an ioctl interface - a device object to be used for this purpose is created by NDIS when we call NdisMRegisterDevice. This routine is called whenever a new miniport instance is initialized. However, we only create one global device object, when the first miniport instance is initialized. This routine handles potential race conditions with PtDeregisterDevice via the ControlDeviceState and MiniportCount variables. NOTE: do not call this from DriverEntry; it will prevent the driver from being unloaded (e.g. on uninstall). Arguments: None Return Value: NDIS_STATUS_SUCCESS if we successfully register a device object. --*/ { NDIS_STATUS Status = NDIS_STATUS_SUCCESS; UNICODE_STRING DeviceName; UNICODE_STRING DeviceLinkUnicodeString; PDRIVER_DISPATCH DispatchTable[IRP_MJ_MAXIMUM_FUNCTION+1]; DBGPRINT(("==>PtRegisterDevice\n")); NdisAcquireSpinLock(&GlobalLock); ++MiniportCount; if (1 == MiniportCount) { ASSERT(ControlDeviceState != PS_DEVICE_STATE_CREATING); // // Another thread could be running PtDeregisterDevice on // behalf of another miniport instance. If so, wait for // it to exit. // while (ControlDeviceState != PS_DEVICE_STATE_READY) { NdisReleaseSpinLock(&GlobalLock); NdisMSleep(1); NdisAcquireSpinLock(&GlobalLock); } ControlDeviceState = PS_DEVICE_STATE_CREATING; NdisReleaseSpinLock(&GlobalLock); NdisZeroMemory(DispatchTable, (IRP_MJ_MAXIMUM_FUNCTION+1) * sizeof(PDRIVER_DISPATCH)); DispatchTable[IRP_MJ_CREATE] = PtDispatch; DispatchTable[IRP_MJ_CLEANUP] = PtDispatch; DispatchTable[IRP_MJ_CLOSE] = PtDispatch; // IPFW we use DevIoControl ? DispatchTable[IRP_MJ_DEVICE_CONTROL] = DevIoControl; NdisInitUnicodeString(&DeviceName, NTDEVICE_STRING); NdisInitUnicodeString(&DeviceLinkUnicodeString, LINKNAME_STRING); // // Create a device object and register our dispatch handlers // Status = NdisMRegisterDevice( NdisWrapperHandle, &DeviceName, &DeviceLinkUnicodeString, &DispatchTable[0], &ControlDeviceObject, &NdisDeviceHandle ); NdisAcquireSpinLock(&GlobalLock); ControlDeviceState = PS_DEVICE_STATE_READY; } NdisReleaseSpinLock(&GlobalLock); DBGPRINT(("<==PtRegisterDevice: %x\n", Status)); return (Status); } NTSTATUS PtDispatch( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp ) /*++ Routine Description: Process IRPs sent to this device. Arguments: DeviceObject - pointer to a device object Irp - pointer to an I/O Request Packet Return Value: NTSTATUS - STATUS_SUCCESS always - change this when adding real code to handle ioctls. --*/ { PIO_STACK_LOCATION irpStack; NTSTATUS status = STATUS_SUCCESS; UNREFERENCED_PARAMETER(DeviceObject); DBGPRINT(("==>Pt Dispatch\n")); irpStack = IoGetCurrentIrpStackLocation(Irp); switch (irpStack->MajorFunction) { case IRP_MJ_CREATE: break; case IRP_MJ_CLEANUP: break; case IRP_MJ_CLOSE: break; case IRP_MJ_DEVICE_CONTROL: // // Add code here to handle ioctl commands sent to passthru. // break; default: break; } Irp->IoStatus.Status = status; IoCompleteRequest(Irp, IO_NO_INCREMENT); DBGPRINT(("<== Pt Dispatch\n")); return status; } NDIS_STATUS PtDeregisterDevice( VOID ) /*++ Routine Description: Deregister the ioctl interface. This is called whenever a miniport instance is halted. When the last miniport instance is halted, we request NDIS to delete the device object Arguments: NdisDeviceHandle - Handle returned by NdisMRegisterDevice Return Value: NDIS_STATUS_SUCCESS if everything worked ok --*/ { NDIS_STATUS Status = NDIS_STATUS_SUCCESS; DBGPRINT(("==>PassthruDeregisterDevice\n")); NdisAcquireSpinLock(&GlobalLock); ASSERT(MiniportCount > 0); --MiniportCount; if (0 == MiniportCount) { // // All miniport instances have been halted. Deregister // the control device. // ASSERT(ControlDeviceState == PS_DEVICE_STATE_READY); // // Block PtRegisterDevice() while we release the control // device lock and deregister the device. // ControlDeviceState = PS_DEVICE_STATE_DELETING; NdisReleaseSpinLock(&GlobalLock); if (NdisDeviceHandle != NULL) { Status = NdisMDeregisterDevice(NdisDeviceHandle); NdisDeviceHandle = NULL; } NdisAcquireSpinLock(&GlobalLock); ControlDeviceState = PS_DEVICE_STATE_READY; } NdisReleaseSpinLock(&GlobalLock); DBGPRINT(("<== PassthruDeregisterDevice: %x\n", Status)); return Status; } VOID PtUnload( IN PDRIVER_OBJECT DriverObject ) // // PassThru driver unload function // { UNREFERENCED_PARAMETER(DriverObject); DBGPRINT(("PtUnload: entered\n")); PtUnloadProtocol(); NdisIMDeregisterLayeredMiniport(DriverHandle); NdisFreeSpinLock(&GlobalLock); ipfw_module_exit(); // IPFW unloading dummynet DBGPRINT(("PtUnload: done!\n")); }