Spanned (Consolidated) Commands

Some kernel operations may be composed of sequential operations to a device. For example, if consecutive blocks are written to disk, blocks might or might not be in physically consecutive buffer pool blocks.

To enhance the transport layer performance, the device driver should consolidate multiple queued requests when possible into a single command. To allow the adapter device driver the ability to handle the scatter and gather operations required, the scsi_buf.bp should always point to the first buf structure entry for the spanned transaction. A null-terminated list of additional struct buf entries should be chained from the first field through the buf.av_forw field to give the adapter device driver enough information to perform the DMA scatter and gather operations required. This information must include at least the buffer's starting address, length, and cross-memory descriptor.

The spanned requests should always be for requests in either the read or write direction but not both, since the adapter device driver must be given a single command to handle the requests. The spanned request should always consist of complete I/O requests (including the additional struct buf entries). The device driver should not attempt to use partial requests to reach the maximum transfer size.

The maximum transfer size is actually adapter-dependent. The IOCINFO ioctl operation can be used to discover the adapter device driver's maximum allowable transfer size.

If a transfer size larger than the supported maximum is attempted, the adapter device driver returns a value of EINVAL in the scsi_buf.bufstruct.b_error field.

Due to system hardware requirements, the device driver must consolidate only commands that are memory page-aligned at both their starting and ending addresses. Specifically, this applies to the consolidation of inner memory buffers. The ending address of the first buffer and the starting address of all subsequent buffers should be memory page-aligned. However, the starting address of the first memory buffer and the ending address of the last do not need to be aligned so.

The purpose of consolidating transactions is to decrease the number of commands and transport layer phases required to perform the required operation. The time required to maintain the simple chain of buf structure entries is significantly less than the overhead of multiple (even two) transport layer transactions.