On 10/14/20 5:31 PM, Kees Cook wrote:
On Wed, Oct 14, 2020 at 11:17:20AM +0200, Peter Zijlstra wrote:
On Tue, Oct 13, 2020 at 08:12:20PM -0600, Shuah Khan wrote:
They don't add any new behavior, As Kees mentioned they do give us a way to clearly differentiate atomic usages that can wrap.
No it doesn't! atomic_t can wrap, this thing can wrap, no distinction.
All it does is fragment the API and sow confusion. FOR NO BENEFIT.
I really don't see it this way. It's a distinct subset of the atomic_t API. The trouble that has existed here has been with an atomic_t being originally used NOT for lifetime management, that mutates into something like that because of the available API, but doing so without realizing it. atomic_t gets used for all kinds of algorithms, and the "counter" type is way too easily accidentally transformed into a "lifetime tracker" and we get bugs.
If we have a distinct type for wrapping-counters that limits the API, then it is much harder for folks to shoot themselves in the foot. I don't see why this is so bad: we end up with safer usage, more easily auditable code behavior ("how was this atomic_t instance _intended_ to be used?"), and no change in binary size.
There is no need to keep inc_return in this API as such. I included it so it can be used for above cases 1 and 2, so the users don't have to call inc() followed by read(). It can be left out of the API.
I go back and forth on this, but after looking at these instances, it makes sense to have inc_return(), for where counters are actually "serial numbers". An argument could be made[1], however, that such uses should not end up in the position of _reusing_ earlier identifiers, which means it's actually can't wrap. (And some cases just need u64 to make this happen[2] -- and in that specific case, don't even need to be atomic_t).
[1] https://lore.kernel.org/lkml/202010071334.8298F3FA7@keescook/ [2] https://git.kernel.org/linus/d1e7fd6462ca9fc76650fbe6ca800e35b24267da
Wrong! The atomic usage in mutex doesn't fall in any of those categories.
But the atomic usage in mutex is *IN* mutex -- it's a separate data type, etc. We don't build mutexes manually, so why build counters manually?
The only thing you're all saying that makes sense is that unintentional wrapping can have bad consequences, the rest is pure confusion.
Focus on the non-wrapping cases, _everything_ else is not going anywhere.
I view this as a way to do so: this subset of wrapping cases is being identified and removed from the pool of all the atomic_t cases so that they will have been classified, and we can continue to narrow down all the atomic_t uses to find any potentially mis-used non-wrapping cases.
The other option is adding some kind of attribute to the declarations (which gets us the annotation) but doesn't provide a limit to the API. (e.g. no counter should ever call dec_return).
Not sure about that. We have more than dec_return to deal with. More on this below.
So audit the kernel, find the cases that should not wrap, categorize and create APIs for them that trap the wrapping. But don't go around confusing things that don't need confusion.
That's what's happening here. But as it turns out, it's easier to do this by employing both the process of elimination (mark the counters) and direct identification (mark the refcount_t). Then the pool of "unannotated" atomic_t instances continues to shrink.
Right auditing is what is happening now.
Let me summarize the discussion:
atomic_t api provides a wide range of atomic operations as a base api to implement atomic counters, bitops, spinlock interfaces. The usages also evolved into being used for resource lifetimes and state management. Then came refcount_t api to address resource lifetime problems related to atomic_t wrapping.
There is a large overlap between the atomic_t api used for resource lifetimes and just counters. Not all counters used for resource lifetimes can be converted to refcount_t.
A few quick "git grep" numbers on atomic_t interfaces usage:
Common for all:
atomic_set() - 3418 atomic_read() - 5833 atomic_inc() - 3376 atomic_dec() - 2498 atomic_inc_return() - 612
Counters don't need these:
atomic_dec_return() - 295 atomic_add_return() - 209 atomic_sub_return() - 144 atomic_add() - 744 atomic_sub() - 371 atomic_dec_and_test() - 552
You can see from these numbers, the volume of common usages that make it difficult to separate out counters vs. non-counter usages.
The problem we are now running into is, it is becoming difficult weed out candidates for refcount_t conversion in this noise.
Isolating a smaller subset of arithmetic atomic ops to address this specific counters use-case will help reduce noise. This way we can go through this work once and convert all counters to use this narrow scoped api and what is left is non-counter usages.
The current situation is more confusing and adding a narrowly focused api for counters reduces it and makes it easier.
thanks, -- Shuah