Boaz Harrosh, on 06/03/2010 04:07 PM wrote:
On 06/03/2010 02:20 PM, Vladislav Bolkhovitin wrote:
There's one interesting problem here, at least theoretically, with SCSI
or similar transports which allow to have commands queue depth >1 and
allowed to internally reorder queued requests. I don't know the FS/block
layers sufficiently well to tell if sending several requests for the
same page really possible or not, but we can see a real life problem,
which can be well explained if it's possible.
The problem could be if the second (rewrite) request (SCSI command) for
the same page queued to the corresponding device before the original
request finished. Since the device allowed to freely reorder requests,
there's a probability that the original write request would hit the
permanent storage *AFTER* the retry request, hence the data changes it's
carrying would be lost, hence welcome data corruption.
I might be totally wrong here but I think NCQ can reorder sectors but
not writes. That is if the sector is cached in device memory and a later
write comes to modify the same sector then the original should be
replaced not two values of the same sector be kept in device cache at the
same time.
Failing to do so is a scsi device problem.
SCSI devices supporting Full task management model (almost all) and
having QUEUE ALGORITHM MODIFIER bits in Control mode page set to 1
allowed to freely reorder any commands with SIMPLE task attribute. If an
application wants to maintain order of some commands for such devices,
it must issue them with ORDERED task attribute and over a _single_ MPIO
path to the device.
Linux neither uses ORDERED attribute, nor honors or enforces anyhow
QUEUE ALGORITHM MODIFIER bits, nor takes care to send commands with
order dependencies (overlapping writes in our case) over a single MPIO path.
Please note that page-to-sector is not necessary constant. And the same page
might get written at a different sector, next time. But FSs will have to
barrier in this case.
For single parallel SCSI or SAS devices such race may look practically
impossible, but for sophisticated clusters when many nodes pretending to
be a single SCSI device in a load balancing configuration, it becomes
very real.
The real life problem we can see in an active-active DRBD-setup. In this
configuration 2 nodes act as a single SCST-powered SCSI device and they
both run DRBD to keep their backstorage in-sync. The initiator uses them
as a single multipath device in an active-active round-robin
load-balancing configuration, i.e. sends requests to both nodes in
parallel, then DRBD takes care to replicate the requests to the other node.
The problem is that sometimes DRBD complies about concurrent local
writes, like:
kernel: drbd0: scsi_tgt0[12503] Concurrent local write detected!
[DISCARD L] new: 144072784s +8192; pending: 144072784s +8192
This message means that DRBD detected that both nodes received
overlapping writes on the same block(s) and DRBD can't figure out which
one to store. This is possible only if the initiator sent the second
write request before the first one completed.
It is totally possible in today's code.
DRBD should store the original command_sn of the write and discard
the sector with the lower SN. It should appear as a single device
to the initiator.
How can it find the SN? The commands were sent over _different_ MPIO
paths to the device, so at the moment of the sending all the order
information was lost.
Until SCSI generally allowed to preserve ordering information between
MPIO paths in such configurations the only way to maintain commands
order would be queue draining. Hence, for safety all initiators working
with such devices must do it.
But looks like Linux doesn't do it, so unsafe with MPIO clusters?
Vlad
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