Re: [RFC PATCH] Introducing lockless cache built on top of slab allocator
From: Matthew Wilcox <willy@infradead.org>
Date: 2021-09-20 01:54:47
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On Mon, Sep 20, 2021 at 01:09:38AM +0000, Hyeonggon Yoo wrote:
Hello Matthew, Thanks to give me a comment! I appreciate it. On Sun, Sep 19, 2021 at 08:17:44PM +0100, Matthew Wilcox wrote:quoted
On Sun, Sep 19, 2021 at 04:42:39PM +0000, Hyeonggon Yoo wrote:quoted
It is just simple proof of concept, and not ready for submission yet. There can be wrong code (like wrong gfp flags, or wrong error handling, etc) it is just simple proof of concept. I want comment from you.Have you read: https://www.usenix.org/legacy/event/usenix01/full_papers/bonwick/bonwick_html/ The relevant part of that paper is section 3, magazines. We should have low and high water marks for number of objectsI haven't read that before, but after reading it seems not different from SLAB's percpu queuing.quoted
and we should allocate from / free to the slab allocator in batches. Slab has bulk alloc/free APIs already.There's kmem_cache_alloc_{bulk,free} functions for bulk allocation. But it's designed for large number of allocation to reduce locking cost, not for percpu lockless allocation.
What I'm saying is that rather than a linked list of objects, we should have an array of, say, 15 pointers per CPU (and a count of how many allocations we have). If we are trying to allocate and have no objects, call kmem_cache_alloc_bulk() for 8 objects. If we are trying to free and have 15 objects already, call kmem_cache_free_bulk() for the last 8 objects and set the number of allocated objects to 7. (maybe 8 and 15 are the wrong numbers. this is just an example)
Yeah, we can implement lockless cache using kmem_cache_alloc_{bulk, free} but kmem_cache_alloc_{free,bulk} is not enough.quoted
I'd rather see this be part of the slab allocator than a separate API.And I disagree on this. for because most of situation, we cannot allocate without lock, it is special case for IO polling. To make it as part of slab allocator, we need to modify existing data structure. But making it part of slab allocator will be waste of memory because most of them are not using this.
Oh, it would have to be an option. Maybe as a new slab_flags_t flag. Or maybe a kmem_cache_alloc_percpu_lockless().