On Thu, Feb 01, 2024 at 03:10:12PM +0100, Hanna Czenczek wrote: > On 31.01.24 21:35, Stefan Hajnoczi wrote: > > On Fri, Jan 26, 2024 at 04:24:49PM +0100, Hanna Czenczek wrote: > > > On 26.01.24 14:18, Kevin Wolf wrote: > > > > Am 25.01.2024 um 18:32 hat Hanna Czenczek geschrieben: > > > > > On 23.01.24 18:10, Kevin Wolf wrote: > > > > > > Am 23.01.2024 um 17:40 hat Hanna Czenczek geschrieben: > > > > > > > On 21.12.23 22:23, Kevin Wolf wrote: > > > > > > > > From: Stefan Hajnoczi<stefa...@redhat.com> > > > > > > > > > > > > > > > > Stop depending on the AioContext lock and instead access > > > > > > > > SCSIDevice->requests from only one thread at a time: > > > > > > > > - When the VM is running only the BlockBackend's AioContext may > > > > > > > > access > > > > > > > > the requests list. > > > > > > > > - When the VM is stopped only the main loop may access the > > > > > > > > requests > > > > > > > > list. > > > > > > > > > > > > > > > > These constraints protect the requests list without the need > > > > > > > > for locking > > > > > > > > in the I/O code path. > > > > > > > > > > > > > > > > Note that multiple IOThreads are not supported yet because the > > > > > > > > code > > > > > > > > assumes all SCSIRequests are executed from a single AioContext. > > > > > > > > Leave > > > > > > > > that as future work. > > > > > > > > > > > > > > > > Signed-off-by: Stefan Hajnoczi<stefa...@redhat.com> > > > > > > > > Reviewed-by: Eric Blake<ebl...@redhat.com> > > > > > > > > Message-ID:<20231204164259.1515217-2-stefa...@redhat.com> > > > > > > > > Signed-off-by: Kevin Wolf<kw...@redhat.com> > > > > > > > > --- > > > > > > > > include/hw/scsi/scsi.h | 7 +- > > > > > > > > hw/scsi/scsi-bus.c | 181 > > > > > > > > ++++++++++++++++++++++++++++------------- > > > > > > > > 2 files changed, 131 insertions(+), 57 deletions(-) > > > > > > > My reproducer forhttps://issues.redhat.com/browse/RHEL-3934 now > > > > > > > breaks more > > > > > > > often because of this commit than because of the original bug, > > > > > > > i.e. when > > > > > > > repeatedly hot-plugging and unplugging a virtio-scsi and a > > > > > > > scsi-hd device, > > > > > > > this tends to happen when unplugging the scsi-hd: > > > Note: We (on issues.redhat.com) have a separate report that seems to be > > > concerning this very problem: https://issues.redhat.com/browse/RHEL-19381 > > > > > > > > > > {"execute":"device_del","arguments":{"id":"stg0"}} > > > > > > > {"return": {}} > > > > > > > qemu-system-x86_64: ../block/block-backend.c:2429: > > > > > > > blk_get_aio_context: > > > > > > > Assertion `ctx == blk->ctx' failed. > > > > > [...] > > > > > > > > > > > > I don’t know anything about the problem yet, but as usual, I like > > > > > > > speculation and discovering how wrong I was later on, so one > > > > > > > thing I came > > > > > > > across that’s funny about virtio-scsi is that requests can happen > > > > > > > even while > > > > > > > a disk is being attached or detached. That is, Linux seems to > > > > > > > probe all > > > > > > > LUNs when a new virtio-scsi device is being attached, and it > > > > > > > won’t stop just > > > > > > > because a disk is being attached or removed. So maybe that’s > > > > > > > part of the > > > > > > > problem, that we get a request while the BB is being detached, and > > > > > > > temporarily in an inconsistent state (BDS context differs from BB > > > > > > > context). > > > > > > I don't know anything about the problem either, but since you > > > > > > already > > > > > > speculated about the cause, let me speculate about the solution: > > > > > > Can we hold the graph writer lock for the tran_commit() call in > > > > > > bdrv_try_change_aio_context()? And of course take the reader lock > > > > > > for > > > > > > blk_get_aio_context(), but that should be completely unproblematic. > > > > > Actually, now that completely unproblematic part is giving me > > > > > trouble. I > > > > > wanted to just put a graph lock into blk_get_aio_context() (making it > > > > > a > > > > > coroutine with a wrapper) > > > > Which is the first thing I neglected and already not great. We have > > > > calls of blk_get_aio_context() in the SCSI I/O path, and creating a > > > > coroutine and doing at least two context switches simply for this call > > > > is a lot of overhead... > > > > > > > > > but callers of blk_get_aio_context() generally assume the context is > > > > > going to stay the BB’s context for as long as their AioContext * > > > > > variable is in scope. > > > > I'm not so sure about that. And taking another step back, I'm actually > > > > also not sure how much it still matters now that they can submit I/O > > > > from any thread. > > > That’s my impression, too, but “not sure” doesn’t feel great. :) > > > scsi_device_for_each_req_async_bh() specifically double-checks whether > > > it’s > > > still in the right context before invoking the specified function, so it > > > seems there was some intention to continue to run in the context > > > associated > > > with the BB. > > > > > > (Not judging whether that intent makes sense or not, yet.) > > > > > > > Maybe the correct solution is to remove the assertion from > > > > blk_get_aio_context() and just always return blk->ctx. If it's in the > > > > middle of a change, you'll either get the old one or the new one. Either > > > > one is fine to submit I/O from, and if you care about changes for other > > > > reasons (like SCSI does), then you need explicit code to protect it > > > > anyway (which SCSI apparently has, but it doesn't work). > > > I think most callers do just assume the BB stays in the context they got > > > (without any proof, admittedly), but I agree that under re-evaluation, it > > > probably doesn’t actually matter to them, really. And yes, basically, if > > > the > > > caller doesn’t need to take a lock because it doesn’t really matter > > > whether > > > blk->ctx changes while its still using the old value, > > > blk_get_aio_context() > > > in turn doesn’t need to double-check blk->ctx against the root node’s > > > context either, and nobody needs a lock. > > > > > > So I agree, it’s on the caller to protect against a potentially changing > > > context, blk_get_aio_context() should just return blk->ctx and not check > > > against the root node. > > > > > > (On a tangent: blk_drain() is a caller of blk_get_aio_context(), and it > > > polls that context. Why does it need to poll that context specifically > > > when > > > requests may be in any context? Is it because if there are requests in > > > the > > > main thread, we must poll that, but otherwise it’s fine to poll any > > > thread, > > > and we can only have requests in the main thread if that’s the BB’s > > > context?) > > > > > > > > I was tempted to think callers know what happens to the BB they pass > > > > > to blk_get_aio_context(), and it won’t change contexts so easily, but > > > > > then I remembered this is exactly what happens in this case; we run > > > > > scsi_device_for_each_req_async_bh() in one thread (which calls > > > > > blk_get_aio_context()), and in the other, we change the BB’s context. > > > > Let's think a bit more about scsi_device_for_each_req_async() > > > > specifically. This is a function that runs in the main thread. Nothing > > > > will change any AioContext assignment if it doesn't call it. It wants to > > > > make sure that scsi_device_for_each_req_async_bh() is called in the > > > > same AioContext where the virtqueue is processed, so it schedules a BH > > > > and waits for it. > > > I don’t quite follow, it doesn’t wait for the BH. It uses > > > aio_bh_schedule_oneshot(), not aio_wait_bh_oneshot(). While you’re right > > > that if it did wait, the BB context might still change, in practice we > > > wouldn’t have the problem at hand because the caller is actually the one > > > to > > > change the context, concurrently while the BH is running. > > > > > > > Waiting for it means running a nested event loop that could do anything, > > > > including changing AioContexts. So this is what needs the locking, not > > > > the blk_get_aio_context() call in scsi_device_for_each_req_async_bh(). > > > > If we lock before the nested event loop and unlock in the BH, the check > > > > in the BH can become an assertion. (It is important that we unlock in > > > > the BH rather than after waiting because if something takes the writer > > > > lock, we need to unlock during the nested event loop of bdrv_wrlock() to > > > > avoid a deadlock.) > > > > > > > > And spawning a coroutine for this looks a lot more acceptable because > > > > it's on a slow path anyway. > > > > > > > > In fact, we probably don't technically need a coroutine to take the > > > > reader lock here. We can have a new graph lock function that asserts > > > > that there is no writer (we know because we're running in the main loop) > > > > and then atomically increments the reader count. But maybe that already > > > > complicates things again... > > > So as far as I understand we can’t just use aio_wait_bh_oneshot() and wrap > > > it in bdrv_graph_rd{,un}lock_main_loop(), because that doesn’t actually > > > lock > > > the graph. I feel like adding a new graph lock function for this quite > > > highly specific case could be dangerous, because it seems easy to use the > > > wrong way. > > > > > > Just having a trampoline coroutine to call bdrv_graph_co_rd{,un}lock() > > > seems > > > simple enough and reasonable here (not a hot path). Can we have that > > > coroutine then use aio_wait_bh_oneshot() with the existing _bh function, > > > or > > > should that be made a coroutine, too? > > There is a reason for running in the context associated with the BB: the > > virtio-scsi code assumes all request processing happens in the BB's > > AioContext. The SCSI request list and other SCSI emulation code is not > > thread-safe! > > One peculiarity about virtio-scsi, as far as I understand, is that its > context is not necessarily the BB’s context, because one virtio-scsi device > may have many BBs. While the BBs are being hot-plugged or un-plugged, their > context may change (as is happening here), but that doesn’t stop SCSI > request processing, because SCSI requests happen independently of whether > there are devices on the SCSI bus. > > If SCSI request processing is not thread-safe, doesn’t that mean it always > must be done in the very same context, i.e. the context the virtio-scsi > device was configured to use? Just because a new scsi-hd BB is added or > removed, and so we temporarily have a main context BB associated with the > virtio-scsi device, I don’t think we should switch to processing requests in > the main context.
This case is not supposed to happen because virtio_scsi_hotplug() immediately places the BB into the virtio-scsi device's AioContext by calling blk_set_aio_context(). The AioContext invariant is checked at several points in the SCSI request lifecycle by this function: static inline void virtio_scsi_ctx_check(VirtIOSCSI *s, SCSIDevice *d) { if (s->dataplane_started && d && blk_is_available(d->conf.blk)) { assert(blk_get_aio_context(d->conf.blk) == s->ctx); } } Did you find a scenario where the virtio-scsi AioContext is different from the scsi-hd BB's Aiocontext? Stefan
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