AdapterControl Routine Requirements

At a minimum, an AdapterControl routine must do the following:

  1. Save the input MapRegisterBase value along with any other context information that the driver needs to carry out one or more DMA transfer operations for the current IRP. The driver must pass the MapRegisterBase value to FlushAdapterBuffers when each DMA transfer operation is complete.

  2. Return the appropriate IO_ALLOCATION_ACTION value:

    • KeepObject if the device is a subordinate device so the driver uses system DMA.

    • DeallocateObjectKeepRegisters if the device is a bus master so the driver uses packet-based, bus-master DMA.

Depending on the driver's design, its AdapterControl routine also can do the following before it returns control:

  1. Determine the starting location for the transfer on its device.

  2. Calculate the size of the transfer possible, given any limitations of its device due to the starting location of the transfer.

    In general, it is the responsibility of the routine that calls AllocateAdapterChannel to determine whether a transfer request must be split up into partial transfers due to any platform-specific limitations on the NumberOfMapRegisters available for each DMA transfer operation, as mentioned in the preceding section and detailed in Splitting Transfer Requests.

  3. Set up any driver-maintained state about each transfer request in the device (or controller) extension.

    For example, an AdapterControl routine might call KeSetTimer with the entry point for a CustomTimerDpc routine that times out DMA transfer operations for the driver.

  4. Call MmGetMdlVirtualAddress with the MDL pointer passed at Irp->MdlAddress to get an index for the start of the transfer, suitable for passing to MapTransfer.

  5. Call MapTransfer to set up the system DMA controller or to obtain a physical-to-logical address mapping for a bus-master device.

  6. Program the driver's device for a transfer operation, by using a SynchCritSection routine that is invoked by calling KeSynchronizeExecution. For more information, see Using Critical Sections.

If a transfer request requires the driver to perform a sequence of partial-transfer operations to satisfy the current IRP, the driver's DpcForIsr or CustomDpc routine is typically responsible for reprogramming the device for subsequent transfer operations. An AdapterControl routine is called only once for each incoming transfer IRP.

The driver routine that completes the current transfer IRP, usually the DpcForIsr or CustomDpc routine, also is responsible for releasing the system DMA controller or bus-master adapter by calling FreeAdapterChannel or FreeMapRegisters, respectively. This driver routine should make the appropriate call as soon as possible when its last partial-transfer operation is done so that drivers of subordinate DMA devices can allocate the system DMA controller or a bus-master driver can begin processing the next transfer IRP promptly.

 

 

Send comments about this topic to Microsoft

Show:
© 2014 Microsoft. All rights reserved.