On 10/3/23 19:53, Martin K. Petersen wrote:
Bart,
I'm still wondering whether we really should support storage
devices that report an ATOMIC TRANSFER LENGTH GRANULARITY that is
larger than the logical block size.
We should. The common case is that the device reports an ATOMIC
TRANSFER LENGTH GRANULARITY matching the reported physical block
size. I.e. a logical block size of 512 bytes and a physical block
size of 4KB. In that scenario a write of a single logical block would
require read-modify-write of a physical block.
Block devices must serialize read-modify-write operations internally
that happen when there are multiple logical blocks per physical block.
Otherwise it is not guaranteed that a READ command returns the most
recently written data to the same LBA. I think we can ignore concurrent
and overlapping writes in this discussion since these can be considered
as bugs in host software.
In other words, also for the above example it is guaranteed that writes
of a single logical block (512 bytes) are atomic, no matter what value
is reported as the ATOMIC TRANSFER LENGTH GRANULARITY.
Is my understanding correct that the NVMe specification makes it
mandatory to support single logical block atomic writes since the
smallest value that can be reported as the AWUN parameter is one
logical block because this parameter is a 0's based value? Is my
understanding correct that SCSI devices that report an ATOMIC
TRANSFER LENGTH GRANULARITY that is larger than the logical block
size are not able to support the NVMe protocol?
That's correct. There are obviously things you can express in SCSI
that you can't in NVMe. And the other way around. Our intent is to
support both protocols.
How about aligning the features of the two protocols as much as
possible? My understanding is that all long-term T10 contributors are
all in favor of this.
Thanks,
Bart.