IoBuildAsynchronousFsdRequest function (wdm.h)

The IoBuildAsynchronousFsdRequest routine allocates and sets up an IRP to be sent to lower-level drivers.


__drv_aliasesMem PIRP IoBuildAsynchronousFsdRequest(
  [in]           ULONG            MajorFunction,
  [in]           PDEVICE_OBJECT   DeviceObject,
  [in, out]      PVOID            Buffer,
  [in, optional] ULONG            Length,
  [in, optional] PLARGE_INTEGER   StartingOffset,
  [in, optional] PIO_STATUS_BLOCK IoStatusBlock


[in] MajorFunction

The major function code to be set in the IRP. This code can be IRP_MJ_PNP, IRP_MJ_READ, IRP_MJ_WRITE, IRP_MJ_FLUSH_BUFFERS, or IRP_MJ_SHUTDOWN.

[in] DeviceObject

A pointer to the next-lower driver's device object. This object represents the target device for the read, write, flush, or shutdown operation.

[in, out] Buffer

A pointer to a buffer into which data is read or from which data is written. The value of this argument is NULL for flush and shutdown requests.

[in, optional] Length

The length, in bytes, of the buffer pointed to by Buffer. For devices such as disks, this value must be an integer multiple of the sector size. Starting with Windows 8, the sector size can be 4,096 or 512 bytes. In earlier versions of Windows, the sector size is always 512 bytes. This parameter is required for read and write requests, but must be zero for flush and shutdown requests.

[in, optional] StartingOffset

A pointer to the starting offset on the input/output media. The value of this argument is zero for flush and shutdown requests.

[in, optional] IoStatusBlock

A pointer to the address of an I/O status block in which the to-be-called drivers return final status about the requested operation.

Return value

IoBuildAsynchronousFsdRequest returns a pointer to an IRP, or a NULL pointer if the IRP cannot be allocated.


Intermediate or highest-level drivers can call IoBuildAsynchronousFsdRequest to set up IRPs for requests sent to lower-level drivers. The calling driver must supply an IoCompletion routine for the IRP, so the IRP can be deallocated with IoFreeIrp. For more information about IRP deallocation, see Examples.

The IRP that gets built contains only enough information to get the operation started and to complete the IRP. No other context information is tracked because an asynchronous request is context-independent.

Lower-level drivers might impose restrictions on parameters supplied to this routine. For example, disk drivers might require that values supplied for Length and StartingOffset be integer multiples of the device's sector size.

An intermediate or highest-level driver also can call IoBuildDeviceIoControlRequest, IoAllocateIrp, or IoBuildSynchronousFsdRequest to set up requests it sends to lower-level drivers. Only a highest-level driver can call IoMakeAssociatedIrp.

During an IoBuildAsynchronousFsdRequest call, the I/O manager sets the Tail.Overlay.Thread member of the IRP structure to point to the caller's thread object, but does not take a counted reference to the thread object on behalf of the caller. After the caller sends the IRP to the driver for the target device, this driver might use the Tail.Overlay.Thread member to access the thread object. For example, a storage driver might call the IoSetHardErrorOrVerifyDevice routine and supply a pointer to the IRP as an input parameter. During this call, IoSetHardErrorOrVerifyDevice uses the Tail.Overlay.Thread member to access the thread object. When the thread object is accessed in this way, the driver that called IoBuildAsynchronousFsdRequest to allocate the IRP is responsible for ensuring that the thread object stays valid while the IRP is being handled.

To keep the thread object valid, the driver that calls IoBuildAsynchronousFsdRequest can take a counted reference on the thread object before sending the IRP. For example, this driver can call the ObReferenceObjectByPointerWithTag routine and supply, as the Object parameter, the object pointer from the Tail.Overlay.Thread member of the IRP structure. Later, this driver's completion routine can dereference the object by calling a routine such as ObDereferenceObjectWithTag.

A driver might call IoBuildAsynchronousFsdRequest in one thread, and send the IRP allocated by this call in another thread. Before sending the IRP, this driver should set the Tail.Overlay.Thread member of the IRP to point to the thread object for the sending thread. Typically, the driver calls the PsGetCurrentThread routine to get the thread object pointer.

A driver that calls IoBuildAsynchronousFsdRequest to allocate an IRP does not necessarily need to take a counted reference on the thread object pointed to by the Tail.Overlay.Thread member of the IRP. The driver might instead use another technique to guarantee that this thread object remains valid while the IRP is being handled. For example, if the driver created the thread, the thread can wait until the IRP is completed to terminate itself.


Before calling IoFreeIrp, an additional step is required to free the buffer for an IRP built by IoBuildAsynchronousFsdRequest if the following are all true:

  • The buffer was allocated from system memory pool.
  • In the device object for the target device, the DO_DIRECT_IO flag is set in the DeviceObject->Flags field.
  • The Irp->MdlAddress field is non-NULL.
Before freeing the buffer for this IRP, call the MmUnlockPages routine with Irp->MdlAddress as the parameter value. This call decrements the extra reference count that IoBuildAsynchronousFsdRequest added to the pool pages in the MDL. Otherwise, the subsequent call to IoFreeMdl will bug check because the reference count for these pool pages will be 2, not 1. The following code example shows the MmUnlockPages, IoFreeMdl, and IoFreeIrp calls for this case:
if (((DeviceObject->Flags & DO_DIRECT_IO) == DO_DIRECT_IO) &&
    (Irp->MdlAddress != NULL))



Minimum supported client Available starting with Windows 2000.
Target Platform Universal
Header wdm.h (include Wdm.h, Ntddk.h, Ntifs.h)
Library NtosKrnl.lib
DLL NtosKrnl.exe
DDI compliance rules ForwardedAtBadIrqlFsdAsync(wdm), HwStorPortProhibitedDDIs(storport), IoBuildFsdComplete(wdm), IoBuildFsdForward(wdm), IoBuildFsdFree(wdm)

See also