Re: [PATCH v2 1/2] livepatch: introduce shadow variable API
From: Miroslav Benes
Date: Wed Jul 19 2017 - 15:02:02 EST
> > > +/**
> > > + * _klp_shadow_attach() - allocate and add a new shadow variable
> > > + * @obj: pointer to original data
> > > + * @num: numerical description of new data
> > > + * @new_data: pointer to new data
> > > + * @new_size: size of new data
> > > + * @gfp_flags: GFP mask for allocation
> > > + * @lock: take klp_shadow_lock during klp_shadow_hash operations
> >
> > I am not sure about lock argument. Do we need it? Common practice is to
> > have function foo() which takes a lock, and function __foo() which does
> > not.
> >
> > In klp_shadow_get_or_attach(), you use it as I'd expect. You take the
> > spinlock, call this function and release the spinlock. Is it possible
> > to do the same in klp_shadow_attach() and have __klp_shadow_attach()
> > without lock argument?
>
> Yes, this would be possible, though it would restrict
> klp_shadow_attach() from accepting gfp_flags that might allow for
> sleeping. More on that below ...
Ok, that is a good remark. The problem is that it applies to
klp_shadow_get_or_attach() too. There you acquire a spin_lock and call
_klp_shadow_attach() with gfp_flags, which are then used for kzalloc.
I might misread the code. It is getting late here.
> > > + *
> > > + * Note: allocates @new_size space for shadow variable data and copies
> > > + * @new_size bytes from @new_data into the shadow varaible's own @new_data
> > > + * space. If @new_data is NULL, @new_size is still allocated, but no
> > > + * copy is performed.
> >
> > I must say I'm not entirely happy with this. I don't know if this is what
> > Petr had in mind (I'm sure he'll get to the patch set soon). Calling
> > memcpy instead of a simple assignment in v1 seems worse.
>
> This change was a bit of a experiment on my part in reaction to
> adding klp_shadow_get_or_attach().
>
> I like the simplicity of v1's pointer assignment -- in fact, moving all
> allocation responsiblity (klp_shadow meta-data and data[] area) out to
> the caller is doable, though implementing klp_shadow_get_or_attach() and
> and klp_shadow_detach_all() complicates matters, for example, adding an
> alloc/release callback. I originally attempted this for v2, but turned
> back when the API and implementation grew complicated. If the memcpy
> and gfp_flag restrictions are too ugly, I can try revisting that
> approach. Ideas welcome :)
Well, I didn't like callbacks either :). And no, I do not have a better
idea. I still need to think about it.
Miroslav