Re: [PATCH v4 14/36] lib: add allocation tagging support for memory allocation profiling

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On Wed, Feb 21, 2024 at 03:05:32PM -0800, Kees Cook wrote:
> On Wed, Feb 21, 2024 at 11:40:27AM -0800, Suren Baghdasaryan wrote:
> > [...]
> > +struct alloc_tag {
> > +	struct codetag			ct;
> > +	struct alloc_tag_counters __percpu	*counters;
> > +} __aligned(8);
> > [...]
> > +#define DEFINE_ALLOC_TAG(_alloc_tag)						\
> > +	static DEFINE_PER_CPU(struct alloc_tag_counters, _alloc_tag_cntr);	\
> > +	static struct alloc_tag _alloc_tag __used __aligned(8)			\
> > +	__section("alloc_tags") = {						\
> > +		.ct = CODE_TAG_INIT,						\
> > +		.counters = &_alloc_tag_cntr };
> > [...]
> > +static inline struct alloc_tag *alloc_tag_save(struct alloc_tag *tag)
> > +{
> > +	swap(current->alloc_tag, tag);
> > +	return tag;
> > +}
> 
> Future security hardening improvement idea based on this infrastructure:
> it should be possible to implement per-allocation-site kmem caches. For
> example, we could create:
> 
> struct alloc_details {
> 	u32 flags;
> 	union {
> 		u32 size; /* not valid after __init completes */
> 		struct kmem_cache *cache;
> 	};
> };
> 
> - add struct alloc_details to struct alloc_tag
> - move the tags section into .ro_after_init
> - extend alloc_hooks() to populate flags and size:
> 	.flags = __builtin_constant_p(size) ? KMALLOC_ALLOCATE_FIXED
> 					    : KMALLOC_ALLOCATE_BUCKETS;
> 	.size = __builtin_constant_p(size) ? size : SIZE_MAX;
> - during kernel start or module init, walk the alloc_tag list
>   and create either a fixed-size kmem_cache or to allocate a
>   full set of kmalloc-buckets, and update the "cache" member.
> - adjust kmalloc core routines to use current->alloc_tag->cache instead
>   of using the global buckets.
> 
> This would get us fully separated allocations, producing better than
> type-based levels of granularity, exceeding what we have currently with
> CONFIG_RANDOM_KMALLOC_CACHES.
> 
> Does this look possible, or am I misunderstanding something in the
> infrastructure being created here?

Definitely possible, but... would we want this? That would produce a
_lot_ of kmem caches, and don't we already try to collapse those where
possible to reduce internal fragmentation?




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