雖然文檔說只有Server 2003才有,但在XP SP2下也可以發送,只是支持可能不是那么完全,某些硬件配置下可能不起作用。
Storage Devices: Windows Driver Kit
IOCTL_ATA_PASS_THROUGH
Operation
Allows an application to send almost any ATA command to a target device, with the following restrictions:
- If a class driver for the target type of device exists, the application must send the request to the class driver. Thus, an application can send this request directly to the system port driver for a target logical unit (LU) only if there is no class driver for the type of device connected to that LU. The system port driver does not check to determine if a device has been claimed by a class driver before processing a pass-through request. Therefore, if an application bypasses a class driver that has claimed a device and sends a pass-through request for that device directly to the port driver, a conflict for control of the device can occur between the class driver and the application.
- This request cannot be used if the command requires the underlying driver to access memory directly. If the caller's command might require direct access to memory, use IOCTL_ATA_PASS_THROUGH_DIRECT instead.
- Applications must not attempt to send a pass-through request asynchronously. All pass-through requests must be synchronous.
- Applications do not require administrative privileges to send a pass-through request to a device, but they must have read-write access to the device.
The calling application provides the ATA task file register contents for the intended command in the ATA_PASS_THROUGH_EX structure. The system double buffers all data transfers. This request is typically used for transferring small amounts of data (less than 16 KB).
Input
Parameters.DeviceIoControl.InputBufferLength indicates the size in bytes of the buffer at Irp->AssociatedIrp.SystemBuffer. If the embedded ATA command is a write operation, the size of the input buffer should be the sum of sizeof(ATA_PASS_THROUGH_EX) and the value in the DataTransferLength member of ATA_PASS_THROUGH_EX. The following pseudocode example shows how to calculate the buffer size:
ULONG buffsize; // size of the buffer
ATA_PASS_THROUGH_EX hdr;
hdr.DataTransferLength = size in bytes of the data transfer
buffsize = sizeof (ATA_PASS_THROUGH_EX) + hdr.DataTransferLength
If the embedded ATA command is a read operation or a device control operation that does not involve data transfer, InputBufferLength should be equal to sizeof (ATA_PASS_THROUGH_EX).
In either case, if InputBufferLength is less than sizeof (ATA_PASS_THROUGH_EX), the port driver fails the I/O request and returns an error.
The buffer at Irp->AssociatedIrp.SystemBuffer should contain an ATA_PASS_THROUGH_EX structure, which includes a set of task file input registers that indicate the sort of command to be performed and its parameters. The caller must initialize all the members of this structure except for PathId, TargetId, and Lun, which the port driver fills in. For a data-out command, the DataBufferOffset member of the structure must point to a cache-aligned buffer containing the data to be written.
Output
The port driver formats the return data using an ATA_PASS_THROUGH_EX structure and stores the data in the buffer at Irp->AssociatedIrp.SystemBuffer.
The port driver updates the DataTransferLength member of ATA_PASS_THROUGH_EX to indicate the amount of data actually transferred from the device. If the embedded ATA command is a write operation or a device control operation that does not transfer data, OutputBufferLength is equal to sizeof(ATA_PASS_THROUGH_EX). If the embedded ATA command is a read operation, OutputBufferLength is equal to sizeof(ATA_PASS_THROUGH_EX) + DataTransferLength.
The port driver fills the CurrentTaskFile member with the values that are present in the device's output registers at the completion of the embedded ATA command. If the command was a data transfer, the port driver stores the transferred data in a cache-aligned buffer that is located at an offset of DataBufferOffset bytes from the beginning of the structure. The application is responsible for interpreting the contents of the output registers to determine what errors, if any, were returned by the device.
I/O Status Block
The Information member is set to the number of bytes returned in the output buffer at Irp->AssociatedIrp.SystemBuffer. The Status member is set to STATUS_SUCCESS or possibly to STATUS_BUFFER_TOO_SMALL or STATUS_INVALID_PARAMETER if the input Length value in ATA_PASS_THROUGH is improperly set.
Requirements
Versions: Available in Microsoft Windows Server 2003 and later operating systems.
Headers: Defined in ntddscsi.h. Include ntddscsi.h.
? 2007 Microsoft Corporation
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Windows Driver Kit
Built on August 15, 2007
Build machine: CAPEBUILD
Requirements
Versions: Available in Microsoft Windows Server 2003 and later operating systems.
Headers: Defined in ntddscsi.h. Include ntddscsi.h.
Storage Devices: Windows Driver Kit
IOCTL_ATA_PASS_THROUGH_DIRECT
Operation
Allows an application to send almost any ATA command to a target device, with the following restrictions:
- If a class driver for the target type of device exists, the application must send the request to the class driver. Thus, an application can send this request directly to the system port driver for a target logical unit only if there is no class driver for the device.
- The application must use this request rather than IOCTL_ATA_PASS_THROUGH if the embedded ATA command might require the underlying miniport driver to access memory directly.
If the ATA command requests a data transfer operation, the caller must set up a cache-aligned buffer from which, or into which, the driver can transfer data directly. The IOCTL_ATA_PASS_THROUGH_DIRECT request is typically used for transferring large amounts of data (more than 16 KB).
Input
Parameters.DeviceIoControl.InputBufferLength indicates the size in bytes of the buffer at Irp->AssociatedIrp.SystemBuffer. The value of InputBufferLength is fixed and does not depend on the amount of data transferred. It is equal to sizeof (ATA_PASS_THROUGH_DIRECT). If the size of the buffer is less than sizeof(ATA_PASS_THROUGH_DIRECT), the port driver fails the I/O request and returns an error.
The buffer at Irp->AssociatedIrp.SystemBuffer contains an ATA_PASS_THROUGH_DIRECT structure that includes a set of task file input registers that indicate the sort of command to be performed. The caller must initialize all the members of this structure except for PathId, TargetId, and Lun, which the port driver fills in. For a data-out command, the DataBuffer member of ATA_PASS_THROUGH_DIRECT must point to a cache-aligned buffer containing the data to be written.
Output
The port driver formats the return data using an ATA_PASS_THROUGH_DIRECT structure that it stores in the buffer at Irp->AssociatedIrp.SystemBuffer. The port driver updates the DataTransferLength member of the ATA_PASS_THROUGH_DIRECT structure to indicate the amount of data that was transferred from the device.
The port driver stores the transferred data in the cache-aligned buffer pointed to by the DataBuffer member of ATA_PASS_THROUGH_DIRECT.
The port driver fills the CurrentTaskFile member of ATA_PASS_THROUGH_DIRECT with the values present in the device's output registers at the completion of the ATA command. The application is responsible for interpreting the contents of the output registers to determine what errors, if any, were returned by the device.
I/O Status Block
The Information member is set to the number of bytes returned in the output buffer at Irp->AssociatedIrp.SystemBuffer. The Status member is set to STATUS_SUCCESS or possibly to STATUS_BUFFER_TOO_SMALL or STATUS_INVALID_PARAMETER if the input Length value in ATA_PASS_THROUGH is improperly set.
Requirements
Headers: Defined in ntddscsi.h. Include ntddscsi.h.
? 2007 Microsoft Corporation
Send feedback on this topic
Windows Driver Kit
Built on August 15, 2007
Build machine: CAPEBUILD
Requirements
Headers: Defined in ntddscsi.h. Include ntddscsi.h.