Op 13-09-13 10:23, Thomas Hellstrom schreef: > On 09/13/2013 09:51 AM, Maarten Lankhorst wrote: >> Op 13-09-13 09:46, Thomas Hellstrom schreef: >>> On 09/13/2013 09:16 AM, Maarten Lankhorst wrote: >>>> Op 13-09-13 08:44, Thomas Hellstrom schreef: >>>>> On 09/12/2013 11:50 PM, Maarten Lankhorst wrote: >>>>>> Op 12-09-13 18:44, Thomas Hellstrom schreef: >>>>>>> On 09/12/2013 05:45 PM, Maarten Lankhorst wrote: >>>>>>>> Op 12-09-13 17:36, Daniel Vetter schreef: >>>>>>>>> On Thu, Sep 12, 2013 at 5:06 PM, Peter Zijlstra <peterz@xxxxxxxxxxxxx> wrote: >>>>>>>>>> So I'm poking around the preemption code and stumbled upon: >>>>>>>>>> >>>>>>>>>> drivers/gpu/drm/i915/i915_gem.c: set_need_resched(); >>>>>>>>>> drivers/gpu/drm/ttm/ttm_bo_vm.c: set_need_resched(); >>>>>>>>>> drivers/gpu/drm/ttm/ttm_bo_vm.c: set_need_resched(); >>>>>>>>>> drivers/gpu/drm/udl/udl_gem.c: set_need_resched(); >>>>>>>>>> >>>>>>>>>> All these sites basically do: >>>>>>>>>> >>>>>>>>>> while (!trylock()) >>>>>>>>>> yield(); >>>>>>>>>> >>>>>>>>>> which is a horrible and broken locking pattern. >>>>>>>>>> >>>>>>>>>> Firstly its deadlock prone, suppose the faulting process is a FIFOn+1 >>>>>>>>>> task that preempted the lock holder at FIFOn. >>>>>>>>>> >>>>>>>>>> Secondly the implementation is worse than usual by abusing >>>>>>>>>> VM_FAULT_NOPAGE, which is supposed to install a PTE so that the fault >>>>>>>>>> doesn't retry, but you're using it as a get out of fault path. And >>>>>>>>>> you're using set_need_resched() which is not something a driver should >>>>>>>>>> _ever_ touch. >>>>>>>>>> >>>>>>>>>> Now I'm going to take away set_need_resched() -- and while you can >>>>>>>>>> 'reimplement' it using set_thread_flag() you're not going to do that >>>>>>>>>> because it will be broken due to changes to the preempt code. >>>>>>>>>> >>>>>>>>>> So please as to fix ASAP and don't allow anybody to trick you into >>>>>>>>>> merging silly things like that again ;-) >>>>>>>>> The set_need_resched in i915_gem.c:i915_gem_fault can actually be >>>>>>>>> removed. It was there to give the error handler a chance to sneak in >>>>>>>>> and reset the hw/sw tracking when the gpu is dead. That hack goes back >>>>>>>>> to the days when the locking around our error handler was somewhere >>>>>>>>> between nonexistent and totally broken, nowadays we keep things from >>>>>>>>> live-locking by a bit of magic in i915_mutex_lock_interruptible. I'll >>>>>>>>> whip up a patch to rip this out. I'll also check that our testsuite >>>>>>>>> properly exercises this path (needs a bit of work on a quick look for >>>>>>>>> better coverage). >>>>>>>>> >>>>>>>>> The one in ttm is just bonghits to shut up lockdep: ttm can recurse >>>>>>>>> into it's own pagefault handler and then deadlock, the trylock just >>>>>>>>> keeps lockdep quiet. We've had that bug arise in drm/i915 due to some >>>>>>>>> fun userspace did and now have testcases for them. The right solution >>>>>>>>> to fix this is to use copy_to|from_user_atomic in ttm everywhere it >>>>>>>>> holds locks and have slowpaths which drops locks, copies stuff into a >>>>>>>>> temp allocation and then continues. At least that's how we've fixed >>>>>>>>> all those inversions in i915-gem. I'm not volunteering to fix this ;-) >>>>>>>> Ah the case where a mmap'd address is passed to the execbuf ioctl? :P >>>>>>>> >>>>>>>> Fine I'll look into it a bit, hopefully before tuesday. Else it might take a bit longer since I'll be on my way to plumbers.. >>>>>>> I think a possible fix would be if fault() were allowed to return an error and drop the mmap_sem() before returning. >>>>>>> >>>>>>> Otherwise we need to track down all copy_to_user / copy_from_user which happen with bo::reserve held. >>>>> Actually, from looking at the mm code, it seems OK to do the following: >>>>> >>>>> if (!bo_tryreserve()) { >>>>> up_read mmap_sem(); // Release the mmap_sem to avoid deadlocks. >>>>> bo_reserve(); // Wait for the BO to become available (interruptible) >>>>> bo_unreserve(); // Where is bo_wait_unreserved() when we need it, Maarten :P >>>>> return VM_FAULT_RETRY; // Go ahead and retry the VMA walk, after regrabbing >>>>> } >>>> Is this meant as a jab at me? You're doing locking wrong here! Again! >>> It's not meant as a jab at you. I'm sorry if it came out that way. It was meant as a joke. I wasn't aware the topic was sensitive. >>> >>> Anyway, could you describe what is wrong, with the above solution, because it seems perfectly legal to me. >>> There is no substantial overhead, and there is no risc of deadlocks. Or do you mean it's bad because it confuses lockdep? >> Evil userspace can pass a bo as pointer to use for relocation lists, lockdep will warn when that locks up, but still.. >> This is already a problem now, and your fixing will only cause lockdep to explicitly warn on it. > > As previously mentioned, copy_from_user should return -EFAULT, since the VMAs are marked with VM_IO. It should not recurse into fault(), so evil user-space looses. > >> >> You can make a complicated user program to test this, or simply use this function for debugging: >> void ttm_might_fault(void) { struct reservation_object obj; reservation_object_init(&obj); ww_mutex_lock(&obj.lock, NULL); ww_mutex_unlock(&obj.lock); reservation_object_fini(&obj); } >> >> Put it near every instance of copy_to_user/copy_from_user and you'll find the bugs. :) > > I'm still not convinced that there are any problems with this solution. Did you take what's said above into account? > > > Now, could we try to approach this based on pros and cons? Let's say we would be able to choose locking order without doing anything ugly. I'd put it like this: > > mmap_sem->bo_reserve: > Good: Native locking order of VM subsystem. Good if we in the future will need to reserve in mmap(). > Bad: pwrite, pread, copy_to user, copy_from_user usage needs a slowpath that releases all locking, which has to be done in multiple places in multiple drivers. Grabbing the mmap_sem and then waiting for multiple possibly sleeping bo_reserves in slow paths will stall VMA write operations for this MM. I think the good offsets the bad a million times here. Just because it's harder. > bo_reserve->mmap_sem: > Good: Natural locking order for all driver ioctls. Slowpath needs to be done in a single place, in common code. > Bad: Bad if we ever need to perform bo_reserve in mmap. Considering you're open coding a mutex_lock with the reserve/unreserve+trylock, I think this is a horrible approach. The possibility of a deadlock still exists too. :( > In my view we have a clear winner. Given the problems i915 had when converting their driver, and the bashing they had to withstand, we have an even clearer winner. > > And then we need to take into account that, (given that I understand things correctly) lockdep will complain because it thinks there is a recursion that will never happen. > That will make the bo_reserve->mmap_sem solution look bad, but is this really enough to justify giving it up? > > /Thomas > _______________________________________________ Intel-gfx mailing list Intel-gfx@xxxxxxxxxxxxxxxxxxxxx http://lists.freedesktop.org/mailman/listinfo/intel-gfx