/*++ Copyright (c) 2000-2000 Microsoft Corporation Module Name: Driver.c Abstract: This module implements the DRIVER_INITIALIZATION routine for the PGM Transport and other routines that are specific to the NT implementation of a driver. Author: Mohammad Shabbir Alam (MAlam) 3-30-2000 Revision History: --*/ #include "precomp.h" #ifdef FILE_LOGGING #include "driver.tmh" #else #if DBG enum eLOGGING_LEVEL PgmLoggingLevel = LogStatus; #endif // DBG #endif // FILE_LOGGING tPGM_STATIC_CONFIG PgmStaticConfig; tPGM_DYNAMIC_CONFIG PgmDynamicConfig; tPGM_REGISTRY_CONFIG *pPgmRegistryConfig = NULL; tPGM_DEVICE *pgPgmDevice = NULL; DEVICE_OBJECT *pPgmDeviceObject = NULL; NTSTATUS PgmDispatchCreate( IN PDEVICE_OBJECT pDeviceObject, IN PIRP pIrp ); NTSTATUS PgmDispatchInternalDeviceControl( IN PDEVICE_OBJECT pDeviceObject, IN PIRP pIrp ); NTSTATUS PgmDispatchDeviceControl( IN PDEVICE_OBJECT pDeviceObject, IN PIRP pIrp ); NTSTATUS PgmDispatchCleanup( IN PDEVICE_OBJECT pDeviceObject, IN PIRP pIrp ); NTSTATUS PgmDispatchClose( IN PDEVICE_OBJECT pDeviceObject, IN PIRP pIrp ); //******************* Pageable Routine Declarations **************** #ifdef ALLOC_PRAGMA #pragma alloc_text(INIT, DriverEntry) #pragma alloc_text(PAGE, PgmUnload) #endif //******************* Pageable Routine Declarations **************** //---------------------------------------------------------------------------- // // Internal routines // FILE_FULL_EA_INFORMATION * FindEA( IN PFILE_FULL_EA_INFORMATION StartEA, IN CHAR *pTargetName, IN USHORT TargetNameLength ); VOID CompleteDispatchIrp( IN PIRP pIrp, IN NTSTATUS status ); //---------------------------------------------------------------------------- NTSTATUS DriverEntry( IN PDRIVER_OBJECT DriverObject, IN PUNICODE_STRING RegistryPath ) /*++ Routine Description: This is the initialization routine for the PGM device driver. This routine creates the device object for the PGM device and does other driver initialization. Arguments: IN DriverObject - Pointer to driver object created by the system. IN RegistryPath - Pgm driver's registry location Return Value: NTSTATUS - The function value is the final status from the initialization operation. --*/ { NTSTATUS status; PAGED_CODE(); #ifdef FILE_LOGGING //--------------------------------------------------------------------------------------- WPP_INIT_TRACING (DriverObject, RegistryPath); #endif // FILE_LOGGING //--------------------------------------------------------------------------------------- status = InitPgm (DriverObject, RegistryPath); if (!NT_SUCCESS (status)) { PgmTrace (LogError, ("DriverEntry: ERROR -- " \ "InitPgm returned <%x>\n", status)); return (status); } //--------------------------------------------------------------------------------------- // // Initialize the driver object with this driver's entry points. // DriverObject->MajorFunction[IRP_MJ_CREATE] = (PDRIVER_DISPATCH)PgmDispatchCreate; DriverObject->MajorFunction[IRP_MJ_DEVICE_CONTROL] = (PDRIVER_DISPATCH)PgmDispatchDeviceControl; DriverObject->MajorFunction[IRP_MJ_INTERNAL_DEVICE_CONTROL] = (PDRIVER_DISPATCH)PgmDispatchInternalDeviceControl; DriverObject->MajorFunction[IRP_MJ_CLEANUP] = (PDRIVER_DISPATCH)PgmDispatchCleanup; DriverObject->MajorFunction[IRP_MJ_CLOSE] = (PDRIVER_DISPATCH)PgmDispatchClose; DriverObject->DriverUnload = PgmUnload; //--------------------------------------------------------------------------------------- status = SetTdiHandlers (); if (!NT_SUCCESS (status)) { PgmTrace (LogError, ("DriverEntry: ERROR -- " \ "SetTdiHandlers returned <%x>\n", status)); CleanupInit (E_CLEANUP_DEVICE); return (status); } //--------------------------------------------------------------------------------------- // // Return to the caller. // PgmTrace (LogAllFuncs, ("DriverEntry: " \ "Succeeded! ...\n")); return (status); } //---------------------------------------------------------------------------- VOID CleanupInit( enum eCLEANUP_STAGE CleanupStage ) /*++ Routine Description: This routine is called either at DriverEntry or DriverUnload to cleanup (or do partial cleanup) of items initialized at Init-time Arguments: IN CleanupStage -- determines the stage to which we had initialized settings Return Value: NONE --*/ { NTSTATUS status; LIST_ENTRY *pEntry; PGMLockHandle OldIrq; tADDRESS_CONTEXT *pAddress; PGM_WORKER_CONTEXT *pWorkerContext; PPGM_WORKER_ROUTINE pDelayedWorkerRoutine; tLOCAL_INTERFACE *pLocalInterface = NULL; tADDRESS_ON_INTERFACE *pLocalAddress = NULL; PgmTrace (LogAllFuncs, ("CleanupInit: " \ "CleanupStage=<%d>\n", CleanupStage)); switch (CleanupStage) { case (E_CLEANUP_UNLOAD): { // // Ensure that there are no more worker threads to be cleaned up // // // See if there are any worker threads currently executing, and if so, wait for // them to complete // KeClearEvent (&PgmDynamicConfig.LastWorkerItemEvent); PgmLock (&PgmDynamicConfig, OldIrq); if (PgmDynamicConfig.NumWorkerThreadsQueued) { PgmUnlock (&PgmDynamicConfig, OldIrq); status = KeWaitForSingleObject(&PgmDynamicConfig.LastWorkerItemEvent, // Object to wait on. Executive, // Reason for waiting KernelMode, // Processor mode FALSE, // Alertable NULL); // Timeout ASSERT (status == STATUS_SUCCESS); PgmLock (&PgmDynamicConfig, OldIrq); } ASSERT (!PgmDynamicConfig.NumWorkerThreadsQueued); // // Dequeue each of the requests in the Worker Queue and complete them // while (!IsListEmpty (&PgmDynamicConfig.WorkerQList)) { pWorkerContext = CONTAINING_RECORD(PgmDynamicConfig.WorkerQList.Flink, PGM_WORKER_CONTEXT, PgmConfigLinkage); RemoveEntryList (&pWorkerContext->PgmConfigLinkage); PgmUnlock (&PgmDynamicConfig, OldIrq); pDelayedWorkerRoutine = pWorkerContext->WorkerRoutine; PgmTrace (LogAllFuncs, ("CleanupInit: " \ "Completing Worker request <%p>\n", pDelayedWorkerRoutine)); (*pDelayedWorkerRoutine) (pWorkerContext->Context1, pWorkerContext->Context2, pWorkerContext->Context3); PgmFreeMem ((PVOID) pWorkerContext); // // Acquire Lock again to check if we have completed all the requests // PgmLock (&PgmDynamicConfig, OldIrq); } PgmUnlock (&PgmDynamicConfig, OldIrq); } // no break -- Fall through! case (E_CLEANUP_PNP): { status = TdiDeregisterPnPHandlers (TdiClientHandle); while (!IsListEmpty (&PgmDynamicConfig.LocalInterfacesList)) { pEntry = RemoveHeadList (&PgmDynamicConfig.LocalInterfacesList); pLocalInterface = CONTAINING_RECORD (pEntry, tLOCAL_INTERFACE, Linkage); while (!IsListEmpty (&pLocalInterface->Addresses)) { pEntry = RemoveHeadList (&pLocalInterface->Addresses); pLocalAddress = CONTAINING_RECORD (pEntry, tADDRESS_ON_INTERFACE, Linkage); PgmFreeMem (pLocalAddress); } PgmFreeMem (pLocalInterface); } } // no break -- Fall through! case (E_CLEANUP_DEVICE): { PGM_DEREFERENCE_DEVICE (&pgPgmDevice, REF_DEV_CREATE); } // no break -- Fall through! case (E_CLEANUP_STRUCTURES): { // Nothing specific to cleanup } // no break -- Fall through! case (E_CLEANUP_REGISTRY_PARAMETERS): { if (pPgmRegistryConfig) { if (pPgmRegistryConfig->ucSenderFileLocation.Buffer) { PgmFreeMem (pPgmRegistryConfig->ucSenderFileLocation.Buffer); pPgmRegistryConfig->ucSenderFileLocation.Buffer = NULL; } PgmFreeMem (pPgmRegistryConfig); pPgmRegistryConfig = NULL; } } // no break -- Fall through! case (E_CLEANUP_DYNAMIC_CONFIG): { // See if there are any addresses we were unable to close earlier while (!IsListEmpty (&PgmDynamicConfig.DestroyedAddresses)) { pEntry = RemoveHeadList (&PgmDynamicConfig.DestroyedAddresses); pAddress = CONTAINING_RECORD (pEntry, tADDRESS_CONTEXT, Linkage); PgmDestroyAddress (pAddress, NULL, NULL); } } // no break -- Fall through! case (E_CLEANUP_STATIC_CONFIG): { #ifdef OLD_LOGGING ExDeleteNPagedLookasideList(&PgmStaticConfig.DebugMessagesLookasideList); #endif // OLD_LOGGING ExDeleteNPagedLookasideList(&PgmStaticConfig.TdiLookasideList); PgmFreeMem (PgmStaticConfig.RegistryPath.Buffer); // // Dereference FipsFileObject. // if (PgmStaticConfig.FipsFileObject) { ASSERT (PgmStaticConfig.FipsInitialized); PgmStaticConfig.FipsInitialized = FALSE; ObDereferenceObject (PgmStaticConfig.FipsFileObject); PgmStaticConfig.FipsFileObject = NULL; } else { ASSERT (!PgmStaticConfig.FipsInitialized); } } // no break -- Fall through! default: { break; } } } //---------------------------------------------------------------------------- VOID PgmUnload( IN PDRIVER_OBJECT DriverObject ) /*++ Routine Description: This is the Pgm driver's function for Unload requests Arguments: IN DriverObject - Pointer to driver object created by the system. Return Value: None --*/ { NTSTATUS status; PAGED_CODE(); PgmDynamicConfig.GlobalFlags |= PGM_CONFIG_FLAG_UNLOADING; PgmTrace (LogStatus, ("PgmUnload: " \ "Unloading ...\n")); CleanupInit (E_CLEANUP_UNLOAD); #ifdef FILE_LOGGING WPP_CLEANUP (DriverObject); #endif // FILE_LOGGING } //---------------------------------------------------------------------------- NTSTATUS PgmDispatchCreate( IN PDEVICE_OBJECT pDeviceObject, IN PIRP pIrp ) /*++ Routine Description: Dispatch function for creating Pgm objects Arguments: IN pDeviceObject - ptr to device object for target device IN pIrp - ptr to I/O request packet Return Value: NTSTATUS - Final status of the create request --*/ { tPGM_DEVICE *pPgmDevice = pDeviceObject->DeviceExtension; PIO_STACK_LOCATION pIrpSp = IoGetCurrentIrpStackLocation(pIrp); UCHAR IrpFlags = pIrpSp->Control; tCONTROL_CONTEXT *pControlContext = NULL; FILE_FULL_EA_INFORMATION *ea = (PFILE_FULL_EA_INFORMATION) pIrp->AssociatedIrp.SystemBuffer; FILE_FULL_EA_INFORMATION *TargetEA; TRANSPORT_ADDRESS UNALIGNED *pTransportAddr; TA_ADDRESS *pAddress; NTSTATUS status; PAGED_CODE(); pIrp->IoStatus.Information = 0; pIrp->IoStatus.Status = STATUS_PENDING; IoMarkIrpPending(pIrp); // // See if this is a Control Channel open. // if (!ea) { PgmTrace (LogAllFuncs, ("PgmDispatchCreate: " \ "Opening control channel for file object %p\n", pIrpSp->FileObject)); if (pControlContext = PgmAllocMem (sizeof(tCONTROL_CONTEXT), PGM_TAG('0'))) { PgmZeroMemory (pControlContext, sizeof (tCONTROL_CONTEXT)); InitializeListHead (&pControlContext->Linkage); PgmInitLock (pControlContext, CONTROL_LOCK); pControlContext->Verify = PGM_VERIFY_CONTROL; PGM_REFERENCE_CONTROL (pControlContext, REF_CONTROL_CREATE, TRUE); pIrpSp->FileObject->FsContext = pControlContext; pIrpSp->FileObject->FsContext2 = (PVOID) TDI_CONTROL_CHANNEL_FILE; status = STATUS_SUCCESS; } else { status = STATUS_INSUFFICIENT_RESOURCES; } } // // See if this is a Connection Object open. // else if (TargetEA = FindEA (ea, TdiConnectionContext, TDI_CONNECTION_CONTEXT_LENGTH)) { status = PgmCreateConnection (pPgmDevice, pIrp, pIrpSp, TargetEA); PgmTrace (LogAllFuncs, ("PgmDispatchCreate: " \ "Open Connection, pIrp=<%p>, status=<%x>\n", pIrp, status)); } // // See if this is an Address Object open. // else if (TargetEA = FindEA (ea, TdiTransportAddress, TDI_TRANSPORT_ADDRESS_LENGTH)) { status = PgmCreateAddress (pPgmDevice, pIrp, pIrpSp, TargetEA); PgmTrace (LogAllFuncs, ("PgmDispatchCreate: " \ "Open Address, pIrp=<%p>, status=<%x>\n", pIrp, status)); } else { PgmTrace (LogError, ("PgmDispatchCreate: ERROR -- " \ "Unsupported EA!\n")); status = STATUS_INVALID_EA_NAME; } if (status != STATUS_PENDING) { // reset the pending returned bit, since we are NOT returning pending pIrpSp->Control = IrpFlags; CompleteDispatchIrp (pIrp, status); } return (status); } //---------------------------------------------------------------------------- NTSTATUS PgmDispatchCleanup( IN PDEVICE_OBJECT pDeviceObject, IN PIRP pIrp ) /*++ Routine Description: Dispatch function for cleaning-up Pgm objects Arguments: IN pDeviceObject - ptr to device object for target device IN pIrp - ptr to I/O request packet Return Value: NTSTATUS - Final status of the cleanup request --*/ { NTSTATUS status = STATUS_SUCCESS; PIO_STACK_LOCATION pIrpSp = IoGetCurrentIrpStackLocation(pIrp); UCHAR IrpFlags = pIrpSp->Control; PVOID *pContext = pIrpSp->FileObject->FsContext; PAGED_CODE(); pIrp->IoStatus.Information = 0; pIrp->IoStatus.Status = STATUS_PENDING; IoMarkIrpPending(pIrp); switch (PtrToUlong (pIrpSp->FileObject->FsContext2)) { case TDI_TRANSPORT_ADDRESS_FILE: { status = PgmCleanupAddress ((tADDRESS_CONTEXT *) pContext, pIrp); PgmTrace (LogAllFuncs, ("PgmDispatchCleanup: " \ "pConnect=<%p>, pIrp=<%p>, status=<%x>\n", pContext, pIrp, status)); break; } case TDI_CONNECTION_FILE: { status = PgmCleanupConnection ((tCOMMON_SESSION_CONTEXT *) pContext, pIrp); PgmTrace (LogAllFuncs, ("PgmDispatchCleanup: " \ "pConnect=<%p>, pIrp=<%p>, status=<%x>\n", pContext, pIrp, status)); break; } case TDI_CONTROL_CHANNEL_FILE: { // // Nothing to Cleanup here! // PgmTrace (LogAllFuncs, ("PgmDispatchCleanup: " \ "pControl=<%p>, pIrp=<%p>, status=<%x>\n", pContext, pIrp, status)); break; } default: { PgmTrace (LogError, ("PgmDispatchCleanup: ERROR -- " \ "pIrp=<%p>, Context=[%p:%p] ...\n", pIrp, pContext, pIrpSp->FileObject->FsContext2)); status = STATUS_INVALID_PARAMETER; break; } } if (status != STATUS_PENDING) { // reset the pending returned bit, since we are NOT returning pending pIrpSp->Control = IrpFlags; CompleteDispatchIrp (pIrp, status); } return (status); } //---------------------------------------------------------------------------- NTSTATUS PgmDispatchClose( IN PDEVICE_OBJECT pDeviceObject, IN PIRP pIrp ) /*++ Routine Description: This routine completes the cleanup, closing handles, free'ing all memory associated with the object Arguments: IN pDeviceObject - ptr to device object for target device IN pIrp - ptr to I/O request packet Return Value: NTSTATUS - Final status of the close request --*/ { NTSTATUS status = STATUS_SUCCESS; PIO_STACK_LOCATION pIrpSp = IoGetCurrentIrpStackLocation(pIrp); UCHAR IrpFlags = pIrpSp->Control; PVOID *pContext = pIrpSp->FileObject->FsContext; PAGED_CODE(); pIrp->IoStatus.Information = 0; pIrp->IoStatus.Status = STATUS_PENDING; IoMarkIrpPending(pIrp); switch (PtrToUlong (pIrpSp->FileObject->FsContext2)) { case TDI_TRANSPORT_ADDRESS_FILE: { status = PgmCloseAddress (pIrp, pIrpSp); PgmTrace (LogAllFuncs, ("PgmDispatchClose: " \ "pAddress=<%p>, pIrp=<%p>, status=<%x>\n", pContext, pIrp, status)); break; } case TDI_CONNECTION_FILE: { status = PgmCloseConnection (pIrp, pIrpSp); PgmTrace (LogAllFuncs, ("PgmDispatchClose: " \ "pConnect=<%p>, pIrp=<%p>, status=<%x>\n", pContext, pIrp, status)); break; } case TDI_CONTROL_CHANNEL_FILE: { // // There is nothing special to do here so just dereference! // PgmTrace (LogAllFuncs, ("PgmDispatchClose: " \ "pControl=<%p>, pIrp=<%p>, status=<%x>\n", pIrpSp->FileObject->FsContext, pIrp, status)); PGM_DEREFERENCE_CONTROL ((tCONTROL_CONTEXT *) pContext, REF_CONTROL_CREATE); break; } default: { PgmTrace (LogError, ("PgmDispatchClose: ERROR -- " \ "pIrp=<%p>, Context=[%p:%p] ...\n", pIrp, pIrpSp->FileObject->FsContext, pIrpSp->FileObject->FsContext2)); status = STATUS_INVALID_PARAMETER; break; } } if (status != STATUS_PENDING) { // reset the pending returned bit, since we are NOT returning pending pIrpSp->Control = IrpFlags; CompleteDispatchIrp (pIrp, status); } return (status); } //---------------------------------------------------------------------------- NTSTATUS PgmDispatchInternalDeviceControl( IN PDEVICE_OBJECT pDeviceObject, IN PIRP pIrp ) /*++ Routine Description: This routine primarily handles Tdi requests since we are a Tdi component Arguments: IN pDeviceObject - ptr to device object for target device IN pIrp - ptr to I/O request packet Return Value: NTSTATUS - Final status of the request --*/ { tPGM_DEVICE *pPgmDevice = pDeviceObject->DeviceExtension; PIO_STACK_LOCATION pIrpSp = IoGetCurrentIrpStackLocation(pIrp); UCHAR IrpFlags = pIrpSp->Control; NTSTATUS Status = STATUS_UNSUCCESSFUL; PgmTrace (LogAllFuncs, ("PgmDispatchInternalDeviceControl: " \ "[%d] Context=<%p> ...\n", pIrpSp->MinorFunction, pIrpSp->FileObject->FsContext)); pIrp->IoStatus.Information = 0; pIrp->IoStatus.Status = STATUS_PENDING; IoMarkIrpPending(pIrp); switch (pIrpSp->MinorFunction) { case TDI_QUERY_INFORMATION: { Status = PgmQueryInformation (pPgmDevice, pIrp, pIrpSp); break; } case TDI_SET_EVENT_HANDLER: { Status = PgmSetEventHandler (pPgmDevice, pIrp, pIrpSp); break; } case TDI_ASSOCIATE_ADDRESS: { Status = PgmAssociateAddress (pPgmDevice, pIrp, pIrpSp); break; } case TDI_DISASSOCIATE_ADDRESS: { Status = PgmDisassociateAddress (pIrp, pIrpSp); break; } case TDI_CONNECT: { Status = PgmConnect (pPgmDevice, pIrp, pIrpSp); break; } case TDI_DISCONNECT: { Status = PgmDisconnect (pPgmDevice, pIrp, pIrpSp); break; } case TDI_SEND: { Status = PgmSendRequestFromClient (pPgmDevice, pIrp, pIrpSp); break; } case TDI_RECEIVE: { Status = PgmReceive (pPgmDevice, pIrp, pIrpSp); break; } /* case TDI_SEND_DATAGRAM: { Status = PgmSendDatagram (pPgmDevice, pIrp, pIrpSp); break; } */ default: { PgmTrace (LogAllFuncs, ("PgmDispatchInternalDeviceControl: ERROR -- " \ "[%x]: Context=<%p> ...\n", pIrpSp->MinorFunction, pIrpSp->FileObject->FsContext)); Status = STATUS_NOT_IMPLEMENTED; break; } } if (Status != STATUS_PENDING) { // reset the pending returned bit, since we are NOT returning pending pIrpSp->Control = IrpFlags; CompleteDispatchIrp (pIrp, Status); } return (Status); } //---------------------------------------------------------------------------- NTSTATUS PgmDispatchDeviceControl( IN PDEVICE_OBJECT pDeviceObject, IN PIRP pIrp ) /*++ Routine Description: This routine handles private Ioctls into Pgm. These Ioctls are to be called only by the Pgm Winsock helper (WshPgm.dll) Arguments: IN pDeviceObject - ptr to device object for target device IN pIrp - ptr to I/O request packet Return Value: NTSTATUS - Final status of the request --*/ { NTSTATUS status; PIO_STACK_LOCATION pIrpSp = IoGetCurrentIrpStackLocation(pIrp); UCHAR IrpFlags = pIrpSp->Control; pIrpSp = IoGetCurrentIrpStackLocation(pIrp); if (STATUS_SUCCESS == TdiMapUserRequest (pDeviceObject, pIrp, pIrpSp)) { // // This is a Tdi request! // status = PgmDispatchInternalDeviceControl (pDeviceObject, pIrp); return (status); } pIrp->IoStatus.Information = 0; pIrp->IoStatus.Status = STATUS_PENDING; IoMarkIrpPending (pIrp); switch (pIrpSp->Parameters.DeviceIoControl.IoControlCode) { case IOCTL_PGM_WSH_SET_WINDOW_SIZE_RATE: { status = PgmSetWindowSizeAndSendRate (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_QUERY_WINDOW_SIZE_RATE: { status = PgmQueryWindowSizeAndSendRate (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_SET_ADVANCE_WINDOW_RATE: { status = PgmSetWindowAdvanceRate (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_QUERY_ADVANCE_WINDOW_RATE: { status = PgmQueryWindowAdvanceRate (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_SET_LATE_JOINER_PERCENTAGE: { status = PgmSetLateJoinerPercentage (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_QUERY_LATE_JOINER_PERCENTAGE: { status = PgmQueryLateJoinerPercentage (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_SET_WINDOW_ADVANCE_METHOD: { status = PgmSetWindowAdvanceMethod (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_QUERY_WINDOW_ADVANCE_METHOD: { status = PgmQueryWindowAdvanceMethod (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_SET_NEXT_MESSAGE_BOUNDARY: { status = PgmSetNextMessageBoundary (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_SET_SEND_IF: { status = PgmSetMCastOutIf (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_ADD_RECEIVE_IF: case IOCTL_PGM_WSH_JOIN_MCAST_LEAF: { status = PgmAddMCastReceiveIf (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_DEL_RECEIVE_IF: { status = PgmDelMCastReceiveIf (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_SET_RCV_BUFF_LEN: { status = PgmSetRcvBufferLength (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_QUERY_SENDER_STATS: { status = PgmQuerySenderStats (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_QUERY_RECEIVER_STATS: { status = PgmQueryReceiverStats (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_USE_FEC: { status = PgmSetFECInfo (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_QUERY_FEC_INFO: { status = PgmQueryFecInfo (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_SET_MCAST_TTL: { status = PgmSetMCastTtl (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_QUERY_HIGH_SPEED_INTRANET_OPT: { status = PgmQueryHighSpeedOptimization (pIrp, pIrpSp); break; } case IOCTL_PGM_WSH_SET_HIGH_SPEED_INTRANET_OPT: { status = PgmSetHighSpeedOptimization (pIrp, pIrpSp); break; } default: { PgmTrace (LogAllFuncs, ("PgmDispatchIoctls: " \ "WARNING: Invalid Ioctl=[%x]: Context=<%p> ...\n", pIrpSp->Parameters.DeviceIoControl.IoControlCode, pIrpSp->FileObject->FsContext)); status = STATUS_NOT_IMPLEMENTED; break; } } PgmTrace (LogAllFuncs, ("PgmDispatchIoctls: " \ "[%d]: Context=<%p>, status=<%x>\n", pIrpSp->Parameters.DeviceIoControl.IoControlCode, pIrpSp->FileObject->FsContext, status)); if (status != STATUS_PENDING) { // reset the pending returned bit, since we are NOT returning pending pIrpSp->Control = IrpFlags; CompleteDispatchIrp (pIrp, status); } return (status); } //---------------------------------------------------------------------------- // // Utility functions // //---------------------------------------------------------------------------- FILE_FULL_EA_INFORMATION * FindEA( IN PFILE_FULL_EA_INFORMATION StartEA, IN CHAR *pTargetName, IN USHORT TargetNameLength ) /*++ Routine Description: Parses and extended attribute list for a given target attribute. Arguments: IN StartEA - the first extended attribute in the list. IN pTargetName - the name of the target attribute. IN TargetNameLength - the length of the name of the target attribute. Return Value: A pointer to the requested attribute or NULL if the target wasn't found. --*/ { USHORT i; BOOLEAN found; FILE_FULL_EA_INFORMATION *CurrentEA; for (CurrentEA = StartEA; CurrentEA; CurrentEA = (PFILE_FULL_EA_INFORMATION) ((PUCHAR)CurrentEA + CurrentEA->NextEntryOffset)) { if (strncmp (CurrentEA->EaName, pTargetName, CurrentEA->EaNameLength) == 0) { PgmTrace (LogAllFuncs, ("FindEA: " \ "Found EA, Target=<%s>\n", pTargetName)); return (CurrentEA); } if (CurrentEA->NextEntryOffset == 0) { break; } } PgmTrace (LogAllFuncs, ("FindEA: " \ "FAILed to find EA, Target=<%s>\n", pTargetName)); return (NULL); } //---------------------------------------------------------------------------- VOID PgmIoComplete( IN PIRP pIrp, IN NTSTATUS Status, IN ULONG SentLength ) /*++ Routine Description: This routine Arguments: IN pIrp -- Pointer to I/O request packet IN Status -- the final status of the request IN SentLength -- the value to be set in the Information field Return Value: NONE --*/ { pIrp->IoStatus.Status = Status; // use -1 as a flag to mean do not adjust the sent length since it is // already set if (SentLength != -1) { pIrp->IoStatus.Information = SentLength; } // set the Irps cancel routine to null or the system may bugcheck // with a bug code of CANCEL_STATE_IN_COMPLETED_IRP // // refer to IoCancelIrp() ..\ntos\io\iosubs.c // PgmCancelCancelRoutine (pIrp); PgmTrace (LogAllFuncs, ("PgmIoComplete: " \ "pIrp=<%p>, Status=<%x>, SentLength=<%d>\n", pIrp, Status, SentLength)); IoCompleteRequest (pIrp, IO_NETWORK_INCREMENT); } //---------------------------------------------------------------------------- VOID CompleteDispatchIrp( IN PIRP pIrp, IN NTSTATUS status ) /*++ Routine Description: This function completes an IRP, and arranges for return parameters, if any, to be copied. Although somewhat a misnomer, this function is named after a similar function in the SpiderSTREAMS emulator. Arguments: IN pIrp - pointer to the IRP to complete IN status - completion status of the IRP Return Value: NONE --*/ { CCHAR priboost; // // pIrp->IoStatus.Information is meaningful only for STATUS_SUCCESS // // set the Irps cancel routine to null or the system may bugcheck // with a bug code of CANCEL_STATE_IN_COMPLETED_IRP // // refer to IoCancelIrp() ..\ntos\io\iosubs.c // PgmCancelCancelRoutine (pIrp); pIrp->IoStatus.Status = status; priboost = (CCHAR) ((status == STATUS_SUCCESS) ? IO_NETWORK_INCREMENT : IO_NO_INCREMENT); PgmTrace (LogAllFuncs, ("CompleteDispatchIrp: " \ "Completing pIrp=<%p>, status=<%x>\n", pIrp, status)); IoCompleteRequest (pIrp, priboost); return; } //---------------------------------------------------------------------------- NTSTATUS PgmCheckSetCancelRoutine( IN PIRP pIrp, IN PVOID CancelRoutine, IN BOOLEAN fLocked ) /*++ Routine Description: This Routine sets the cancel routine for an Irp. Arguments: status - a completion status for the Irp Return Value: NTSTATUS - status of the request --*/ { NTSTATUS status; PGMLockHandle CancelIrql; // // Check if the irp was cancelled yet and if not, then set the // irp cancel routine. // if (!fLocked) { IoAcquireCancelSpinLock (&CancelIrql); } if (pIrp->Cancel) { pIrp->IoStatus.Status = STATUS_CANCELLED; status = STATUS_CANCELLED; } else { // setup the cancel routine IoMarkIrpPending (pIrp); IoSetCancelRoutine (pIrp, CancelRoutine); status = STATUS_SUCCESS; } if (!fLocked) { IoReleaseCancelSpinLock (CancelIrql); } return(status); } //---------------------------------------------------------------------------- NTSTATUS PgmCancelCancelRoutine( IN PIRP pIrp ) /*++ Routine Description: This Routine sets the cancel routine for an Irp to NULL Arguments: status - a completion status for the Irp Return Value: NTSTATUS - status of the request --*/ { NTSTATUS status = STATUS_SUCCESS; PGMLockHandle CancelIrql; // // Check if the irp was cancelled yet and if not, then set the // irp cancel routine. // IoAcquireCancelSpinLock (&CancelIrql); if (pIrp->Cancel) { status = STATUS_CANCELLED; } IoSetCancelRoutine (pIrp, NULL); IoReleaseCancelSpinLock (CancelIrql); return(status); }