On 13-11-01 01:16 AM, vaughan wrote:
On 11/01/2013 03:20 AM, Douglas Gilbert wrote:
On 13-10-31 11:56 AM, Christoph Hellwig wrote:
+ struct semaphore or_sem; /* protect co-incident opens and
releases */
Seems like this should be a mutex.
Yes, it is being used as a mutex. However looking at
their semantics (mutex.h versus semaphore.h), a mutex
takes into account the task owner. If the user space
wants to pass around a sg file descriptor in a Unix
domain socket (see TLPI, Kerrisk) I don't see why the
sg driver should object (and pay the small performance
hit for each check).
A nasty side effect of a mutex taking into account the
task owner is that it can't be used in interrupt
context. My patch does not try to do that yet (see next
section) but why bother. Give me a simple mutex and
I'll use it.
sfds_list_empty(Sg_device *sdp)
{
unsigned long flags;
int ret;
+ spin_lock_irqsave(&sdp->sfd_lock, flags);
+ ret = list_empty(&sdp->sfds);
+ spin_unlock_irqrestore(&sdp->sfd_lock, flags);
return ret;
Protecting just a list_empty check with a local will give you racy
results. Seems like you should take the look over the check and the
resulting action that modifies the list. That'd also mean replacing the
wait_event* calls with open coded prepare_wait / finish_wait loops.
Not (usually) in this case. The sdp->sfds list can only
be expanded by another sg_open(same_dev) but this has
been excluded by taking down(&sdp->or_sem) prior to that
call. The sdp->sfds list is only normally decreased by
sg_release() which is also excluded by down(&sdp->or_sem).
The abnormal case is device removal (detaching). Now an
open(same_dev, O_EXCL) may start waiting just after a
detach but miss the wake up on open_wait. That suggests
the wake_up(open_wait) in sg_remove() should also
take the sdp->or_sem semaphore.
Ah, and if sg_remove() can be called from an interrupt
context then that takes out using mutexes :-)
The two level of locks in sg_remove() is already making me
uncomfortable, adding the sdp->or_sem semaphore to the
mix calls for more analysis.
CCed to Jörn Engel.
I feel the same regarding the many locks. After reviewing patches I
wrote these days, I suppose the version 2
(https://lkml.org/lkml/2013/6/17/319) may worth a re-consideration somehow.
The purpose of or_sem is to mutex co-incident open and allow only one
thread to be processing since it completes checking condition to really
linking a new sfd into sfd_siblings list. My v2 re-implement a sem using
sfd_lock and toopen. But as Jörn pointed out in the following mail, what
I implemented is a rw_sem and that is weird and made him "having trouble
wrapping my head around the semantics of this variable"...
With wait_event involved, it's indeed no sense to use a rw_sem here.
However, if we restrict toopen in [0, 1], not [0, INT_MAX] as I did in
v2, it will act in the same way as or_sem does. Beside the same affect
as or_sem, this implement avoids the problem using in interrupt context
and more readable for me, rather than twisting my head among many
spinlocks and semaphores.
Although v2 seems attractive to me, things would be more complicated
when detached comes in...
The following is a thought I presented previously:
Is it possible to split the sg_add_sfp() into two
functions, sg_init_sfp() and sg_add_sfp2(). We can do all initialize
work in sg_init_sfp()
without any lock and let sg_add_sfp2() only serve lock-check-add in one
place. It is less flaky.
I do not follow the last point but that is not important.
For reasons that I listed in a private post I think
that my patch presented in this thread is closer to
our goals than your patch (2013/6/17/319). Timing is
important as well since we are approaching the lk 3.13
merge window. Regressions are what will set us back.
The remaining flaws are in the detach device area
which always seems to be the last one worked on,
probably because it is uncommon and the hardest :-)
My test code hasn't broken this area with my latest
patch (but that may be just luck or not good enough
test strategies).
Also the ULDs should get some basic guarantees from
the mid-level about the attach and remove/detach
device functions. I was thinking along the lines of
"called once and only once" per removed device; won't
overlap with an attach for the same device; may be
called from an interrupt context; should not wait,
etc.
Also note that sdp->detached is only protected by a
volatile type modifier and checks on it are sprinkled
around the code in a rather unscientific way.
As you are no doubt aware, handling the "surprise" device
removal case safely is hard, very hard. And I have tried
to test this, loading up 4 processes with 100 tasks each,
some with asynchronous queueing requests but most hanging
on an open_wait then remove the device. So far I have not
seen a hang. Again, somebody with a big machine and
patience might like to try a scaled up device removal test
to see what breaks.
+ down(&sdp->or_sem);
+ alone = sfds_list_empty(sdp);
+ if ((flags & O_EXCL) && (O_RDONLY == (flags & O_ACCMODE))) {
+ retval = -EPERM; /* Don't allow O_EXCL with read only
access */
+ goto error_out;
+ }
Seems like the pure flags check should move to the beginning of the
function before taking any locks.
As Vaughan pointed out, just prior to that down() is a call
scsi_block_when_processing_errors() for blocking open()s.
Douglas,
What Christoph points out is a sanity check for the input parameter
flags, not the scsi_block_when_processing_errors issue.
I guess you misread that:)
Yes, you are correct I misread the above. That test can go
to the top of sg_open() without harm and make the critical
code sections easier to follow. IMO not a show stopper.
Doug Gilbert
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