On Wed, Oct 20, 2021 at 10:19:27AM +0200, Miroslav Benes wrote:
On Wed, 20 Oct 2021, Ming Lei wrote:
On Wed, Oct 20, 2021 at 08:43:37AM +0200, Miroslav Benes wrote:
On Tue, 19 Oct 2021, Ming Lei wrote:
On Tue, Oct 19, 2021 at 08:23:51AM +0200, Miroslav Benes wrote:
> By you only addressing the deadlock as a requirement on approach a) you are > forgetting that there *may* already be present drivers which *do* implement > such patterns in the kernel. I worked on addressing the deadlock because > I was informed livepatching *did* have that issue as well and so very > likely a generic solution to the deadlock could be beneficial to other > random drivers.
In-tree zram doesn't have such deadlock, if livepatching has such AA deadlock, just fixed it, and seems it has been fixed by 3ec24776bfd0.
I would not call it a fix. It is a kind of ugly workaround because the generic infrastructure lacked (lacks) the proper support in my opinion. Luis is trying to fix that.
What is the proper support of the generic infrastructure? I am not familiar with livepatching's model(especially with module unload), you mean livepatching have to do the following way from sysfs:
- during module exit:
mutex_lock(lp_lock); kobject_put(lp_kobj); mutex_unlock(lp_lock); 2) show()/store() method of attributes of lp_kobj mutex_lock(lp_lock) ... mutex_unlock(lp_lock)
Yes, this was exactly the case. We then reworked it a lot (see 958ef1e39d24 ("livepatch: Simplify API by removing registration step"), so now the call sequence is different. kobject_put() is basically offloaded to a workqueue scheduled right from the store() method. Meaning that Luis's work would probably not help us currently, but on the other hand the issues with AA deadlock were one of the main drivers of the redesign (if I remember correctly). There were other reasons too as the changelog of the commit describes.
So, from my perspective, if there was a way to easily synchronize between a data cleanup from module_exit callback and sysfs/kernfs operations, it could spare people many headaches.
kobject_del() is supposed to do so, but you can't hold a shared lock which is required in show()/store() method. Once kobject_del() returns, no pending show()/store() any more.
The question is that why one shared lock is required for livepatching to delete the kobject. What are you protecting when you delete one kobject?
I think it boils down to the fact that we embed kobject statically to structures which livepatch uses to maintain data. That is discouraged generally, but all the attempts to implement it correctly were utter failures.
Sounds like this is the real problem that needs to be fixed. kobjects should always control the lifespan of the structure they are embedded in. If not, then that is a design flaw of the user of the kobject :(
Where in the kernel is this happening? And where have been the attempts to fix this up?
thanks,
greg k-h