From mboxrd@z Thu Jan 1 00:00:00 1970 Message-ID: <48B6836E.2030403@domain.hid> Date: Thu, 28 Aug 2008 12:52:30 +0200 From: Philippe Gerum MIME-Version: 1.0 References: <48B5592B.1090005@domain.hid> <48B55F7C.5030901@domain.hid> <48B56685.4060500@domain.hid> <48B570AF.4090900@domain.hid> <48B57281.2090109@domain.hid> <48B57626.8070404@domain.hid> <48B576F2.5010409@domain.hid> <48B57BE0.8000701@domain.hid> <48B57D32.60504@domain.hid> <48B599DD.6070306@domain.hid> <48B5A4AB.3030909@domain.hid> <48B5B9FC.2050900@domain.hid> <48B5D8EC.90009@domain.hid> <48B6776E.6030502@domain.hid> <48B67FF9.1060809@domain.hid> In-Reply-To: <48B67FF9.1060809@domain.hid> Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 7bit Subject: Re: [Xenomai-core] [RFC][PATCH 2/3] Switch to handle-based fast mutex owners Reply-To: rpm@xenomai.org List-Id: "Xenomai life and development \(bug reports, patches, discussions\)" List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , To: Jan Kiszka Cc: xenomai-core Jan Kiszka wrote: > Philippe Gerum wrote: >> Gilles Chanteperdrix wrote: >>> Jan Kiszka wrote: >>>> Gilles Chanteperdrix wrote: >>>>> Jan Kiszka wrote: >>>> ... >>>>>> I think I'm getting closer to the issue. Our actual problem comes from >>>>>> the fact that the xnsynch_owner is easily out of sync with the real >>>>>> owner, it even sometimes points to a former owner: >>>>>> >>>>>> Thread A releases a mutex on which thread B pends. It wakes up B, >>>>>> causing it to become the new xnsynch owner, and clears the claimed bit >>>>>> as there are no further sleepers. B returns, and when it wants to >>>>>> release the mutex, it does this happily in user space because claimed is >>>>>> not set. Now the fast lock variable is 'unlocked', while xnsynch still >>>>>> reports B being the owner. This is no problem as the next time two >>>>>> threads fight over this lock the waiter will simply overwrite the >>>>>> xnsynch_owner before it falls asleep. But this "trick" doesn't work for >>>>>> waiters that have been robbed. They will spin inside xnsynch_sleep_on >>>>>> and stumble over this inconsistency. >>>>>> >>>>>> I have two approaches in mind now: First one is something like >>>>>> XNSYNCH_STEALNOINFORM, i.e. causing xnsynch_sleep_on to not set XNROBBED >>>>>> so that the robbed thread spins one level higher in the skin code - >>>>>> which would have to be extended a bit. >>>>> No, the stealing is the xnsynch job. >>>>> >>>>>> Option two is to clear xnsynch_owner once a new owner is about to return >>>>>> from kernel with the lock held while there are no more xnsynch_sleepers. >>>>>> That should work with even less changes and save us one syscall in the >>>>>> robbed case. Need to think about it more, though. >>>>> In fact the only time when the owner is required to be in sync is when >>>>> PIP occurs, and this is guaranteed to work, because when PIP is needed a >>>>> syscall is emitted anyway. To the extent that xnsynch does not even >>>>> track the owner on non PIP synch (which is why the posix skin originally >>>>> forcibly set the synch owner, and it was simply kept to get the fastsem >>>>> stuff working). >>>>> >>>>> Ok. And what about the idea of the xnsynch bit to tell him "hey, the >>>>> owner is tracked in the upper layer, go there to find it". >>>> I'm yet having difficulties to imagine how this should look like when >>>> it's implemented. Would it be simpler than my second idea? >>>> >>>> Anyway, here is a patch (on top of my handle-based lock series) for the >>>> approach that clears xnsynch_owner when there are no waiters. At least >>>> it causes no regression based on your test, but I haven't checked lock >>>> stealing yet. In theory, everything still appears to be fine to me. This >>>> approach basically restores the state we find when some thread just >>>> acquired the lock in user space. >>> Yes, I did not think about the stealing when writing my test, but I >>> think it could be a good idea to add it to the test, especially if you >>> want to port the test to the native API. >>> >>> I let Philippe decide here. He is the one who did the stealing stuff and >>> probably knows better. >>> >> Currently, the xnsynch strongly couples PIP and ownership, which seems to impede >> your various proposals. I would suggest to decouple that: the basic property of >> some xnsynch that we may want to handle is exclusiveness, then dynamic priority >> inheritance is another property, that could stack its own semantics on top of >> exclusiveness. >> >> XNSYNCH_EXCLUSIVE would cover all ownership-related actions, XNSYNCH_PIP would >> simply add dynamic priority management. Non exclusive object would not require >> any xnsynch_set_owner() handling. > > ... but would also not be able to provide PIP. Unfortunately, we want > PIP here, I don't follow you here. You just can't provide PIP if you don't have ownership. but we do separate owner tracking, so this differentiation > alone won't help. > > When it comes to find a minimal invasive approach, I'm more in favor of > breaking up that lock stealing loop in xnsynch_sleep_on, letting the > caller handle XNROBBED instead. That feature could easily be made an > add-on to the current internal handling, without risking regressions for > other users. > Mmfff... >> Just to give a clear signal here: I will happily consider any change to the >> xnsynch object that may ease the implementation of fast ownership handling (i.e. >> userland-to-userland transfer). The only thing is that such code is very much >> prone to regressions, so a testsuite must come with core changes in that area, >> but I guess you know that already. > > Yeah, it's clear. I'm currently considering the options and the efforts. > There are some smaller differences the way POSIX does fast locking right > now and native may do it, so it is also not yet clear to me how to > abstract a generic service. Nevertheless, it would help a lot avoiding > to invent too many skin-specific bugs when porting the algorithms back > and forth... > This is why I don't think moving part of the core logic to the skins would be a good idea. > Jan > -- Philippe.