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TDI Driver Dispatch Routines

I/O requests are formatted as IRPs either by the I/O manager or explicitly by a TDI client and submitted to the transport driver by calling IoCallDriver. Completed IRPs are returned to the caller when the transport driver calls IoCompleteRequest or TdiCompleteRequest. Any kernel-mode TDI client can set its IoCompletion routine for an IRP before it calls IoCallDriver.

There are five IRP_MJ_XXX codes used to send I/O requests to TDI transport drivers. These transports handle incoming IRPs in which the MajorFunctionCode is one of the following:

  • IRP_MJ_CREATE
    Opens a named device object created by the transport and, subsequently, opens a transport address, connection endpoint, or control channel in the underlying transport.

    This request originates in a client's call to ZwCreateFile.

  • IRP_MJ_INTERNAL_DEVICE_CONTROL
    Specifies kernel-mode client requests (TDI IOCTLs), for which internal transport functions handle operations other than opening and closing file objects.

    This request usually originates in a client's call to a TdiBuildXxx macro followed by its call to IoCallDriver.

  • IRP_MJ_DEVICE_CONTROL
    Specifies user-mode-visible IOCTL requests issued by a transport-dedicated application. Except for any transport-defined "private" IOCTLs, such requests usually are forwarded to the same internal driver functions that handle internal-device control requests.

    This request originates in a call by a transport-dedicated user-mode application to DeviceIoControl.

  • IRP_MJ_CLEANUP
    Closes an open address, connection endpoint, or control channel when the NT executive is closing the last handle for the corresponding file object.

    This request originates in a client's call to ZwClose.

  • IRP_MJ_CLOSE
    Closes an address, connection endpoint, or control channel if the executive is removing its last reference to the file object handle. When no outstanding file object handles are open, closes a transport-created device object.

    This request follows an IRP_MJ_CLEANUP request on the same file object.

The entry points in the TDI driver are one or more Dispatch routines that handle these IRP_MJ_XXX requests. Because a TDI client communicates with the driver only through IRPs, the driver has one or more TdiDispatchXxx routines that determine what operation to carry out. Usually, these TdiDispatchXxx routines pass the client requests to appropriate internal driver functions for further processing.

A TDI transport driver exports all its TdiDispatchXxx entry points by setting them in the driver object passed in to its DriverEntryroutine. The I/O manager calls a TdiDispatchXxx routine whenever a client makes an I/O request. A transport driver can have a separate TdiDispatchXxx to handle each of the possible IRP_MJ_XXX opcodes, a single TdiDispatch routine that processes IRPs with all possible IRP_MJ_XXX opcodes, or a number of TdiDispatchXxx that handle discrete subsets of the IRP_MJ_XXX opcodes.

Since all Dispatch entry points are exported by address in the driver object, not by name, a TDI transport driver writer can name these routines anything. In this TDI documentation, TdiDispatchXxx routines have the following metanames, each describing their basic functionality, to correspond to the preceding IRP_MJ_XXX:

Note   The TDI feature is deprecated and will be removed in future versions of Microsoft Windows. Depending on how you use TDI, use either the Winsock Kernel (WSK) or Windows Filtering Platform (WFP). For more information about WFP and WSK, see Windows Filtering Platform and Winsock Kernel. For a Windows Core Networking blog entry about WSK and TDI, see Introduction to Winsock Kernel (WSK).

 

 

 

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