Re: git: 8271d9b99a3b - main - libsys: remove usage of pthread_once and _once_stub
Date: Thu, 22 Feb 2024 01:23:08 UTC
On 22 Feb 2024, at 01:11, Konstantin Belousov <kostikbel@gmail.com> wrote:
>
> On Wed, Feb 21, 2024 at 05:23:10PM +0000, Jessica Clarke wrote:
>> On 21 Feb 2024, at 14:17, Konstantin Belousov <kostikbel@gmail.com> wrote:
>>>
>>> On Wed, Feb 21, 2024 at 12:51:04AM +0000, Jessica Clarke wrote:
>>>> On 21 Feb 2024, at 00:29, Konstantin Belousov <kib@FreeBSD.org> wrote:
>>>>>
>>>>> The branch main has been updated by kib:
>>>>>
>>>>> URL: https://cgit.FreeBSD.org/src/commit/?id=8271d9b99a3b98c662ee9a6257a144284b7e1728
>>>>>
>>>>> commit 8271d9b99a3b98c662ee9a6257a144284b7e1728
>>>>> Author: Konstantin Belousov <kib@FreeBSD.org>
>>>>> AuthorDate: 2024-02-20 14:45:29 +0000
>>>>> Commit: Konstantin Belousov <kib@FreeBSD.org>
>>>>> CommitDate: 2024-02-21 00:26:11 +0000
>>>>>
>>>>> libsys: remove usage of pthread_once and _once_stub
>>>>>
>>>>> that existed in auxv.c, use simple bool gate instead. This leaves a
>>>>> small window if two threads try to call _elf_aux_info(3) simultaneously.
>>>>> The situation is safe because auxv parsing is really idempotent. The
>>>>> parsed data is the same, and we store atomic types (int/long/ptr) so
>>>>> double-init does not matter.
>>>>
>>>> You still need to load acquire and store release aux_once though,
>>>> otherwise you can see aux_once as true yet read the pre-initialised
>>>> data. In practice that’s surely very hard to hit, but the code as
>>>> written is now wrong. Also, idempotence should probably be made
>>>> unnecessary by using 0/1/2 state for uninitialised/initialising/
>>>> initialised, as it’s still technically UB from a C AM perspective due
>>>> to not being data race free if two threads initialise at the same time.
>>>> Better to just do the correct thing rather than risk things going wrong.
>>>
>>> There is too much to handle 'in process' state for loosing thread, I need
>>> the whole libthr machinery.
>>
>> What do you need libthr for? In pseudo-C:
>>
>> x = load_acquire(&aux_once)
>> if (__predict_true(x == 2))
>> return;
>> if (x == 1 || !compare_exchange_strong_acquire(&aux_once, &x, 1)) {
>> while (x != 2) {
>> yield();
>> x = load_acquire(&aux_once)
>> }
>> return;
>> }
>> /* initialise as before */
>> store_release(&aux_once, 2);
>>
>> I believe that’s all you need. Or compare exchange 0 to 1 as the
>> initial operation; makes the source code shorter at the expense of a
>> more expensive fast path:
>>
>> x = 0;
>> if (__predict_true(!compare_exchange_strong_acquire(&aux_once, &x, 1)) {
>> while (__predict_false(x != 2)) {
>> yield();
>> x = load_acquire(&aux_once)
>> }
>> return;
>> }
>> /* initialise as before */
>> store_release(&aux_once, 2);
>>
>> I probably have bugs in the above, but you get the gist.
> The bug in the fragment above is with the yield(). If low-priority thread
> enters the '1' (in progress) block, and then is preempted by high-priority
> thread also entering init_auxv(), the process would never make a progress.
>
> This is why I said that we need libthr (or umtx), to use real locking and
> move the waiting thread off cpu. In kernel, yield can be used in similar
> situations because we can bump the priority, although it is tricky.
Yes, priority inversion is an issue here. But this is (without all the
C++ abstraction) how libcxxrt implements __cxa_guard_acquire, so if
it’s good enough for C++ constructors for static storage duration
objects declared at local scope, surely it’s also good enough for
aux_once? And if it’s not good enough for aux_once then libcxxrt should
be deemed broken...
One could easily adapt the above to use UMTX_OP_WAIT/WAKE though.
Jess
>>> I added the fences, thanks for noting.
>>
>> Thanks.
>>
>> Jess
>>
>>> WRT being UB from pure C, we already have much more assumptions about
>>> atomicity.