On 09-Oct-20 11:48 AM, Ananyev, Konstantin wrote:
On 09-Oct-20 11:17 AM, Thomas Monjalon wrote:
09/10/2020 12:03, Burakov, Anatoly:
On 09-Oct-20 10:54 AM, Jerin Jacob wrote:
On Fri, Oct 9, 2020 at 3:10 PM Burakov, Anatoly
<anatoly.bura...@intel.com> wrote:
On 09-Oct-20 10:29 AM, Thomas Monjalon wrote:
09/10/2020 11:25, Burakov, Anatoly:
On 09-Oct-20 6:42 AM, Jerin Jacob wrote:
On Thu, Oct 8, 2020 at 10:38 PM Ananyev, Konstantin
<konstantin.anan...@intel.com> wrote:
On Thu, Oct 8, 2020 at 6:57 PM Burakov, Anatoly
<anatoly.bura...@intel.com> wrote:
On 08-Oct-20 9:44 AM, Jerin Jacob wrote:
On Thu, Oct 8, 2020 at 2:04 PM Thomas Monjalon <tho...@monjalon.net> wrote:
Add two new power management intrinsics, and provide an implementation
in eal/x86 based on UMONITOR/UMWAIT instructions. The instructions
are implemented as raw byte opcodes because there is not yet widespread
compiler support for these instructions.
The power management instructions provide an architecture-specific
function to either wait until a specified TSC timestamp is reached, or
optionally wait until either a TSC timestamp is reached or a memory
location is written to. The monitor function also provides an optional
comparison, to avoid sleeping when the expected write has already
happened, and no more writes are expected.
For more details, Please reference Intel SDM Volume 2.
I really would like to see feedbacks from other arch maintainers.
Unfortunately they were not Cc'ed.
Shared the feedback from the arm64 perspective here. Yet to get a reply on this.
http://mails.dpdk.org/archives/dev/2020-September/181646.html
Also please mark the new functions as experimental.
Hi Jerin,
Hi Anatoly,
> IMO, We must introduce some arch feature-capability _get_ scheme to tell
> the consumer of this API is only supported on x86. Probably as
functions[1]
> or macro flags scheme and have a stub for the other architectures as the
> API marked as generic ie rte_power_* not rte_x86_..
>
> This will help the consumer to create workers based on the
instruction features
> which can NOT be abstracted as a generic feature across the
architectures.
I'm not entirely sure what you mean by that.
I mean, yes, we should have added stubs for other architectures, and we
will add those in future revisions, but what does your proposed runtime
check accomplish that cannot currently be done with CPUID flags?
RTE_CPUFLAG_WAITPKG flag definition is not available in other architectures.
i.e RTE_CPUFLAG_WAITPKG defined in lib/librte_eal/x86/include/rte_cpuflags.h
and it is used in http://patches.dpdk.org/patch/79540/ as generic API.
I doubt http://patches.dpdk.org/patch/79540/ would compile on non-x86.
I am agree with Jerin, that we need some generic way to
figure-out does platform supports power_monitor() or not.
Though not sure do we need to create a new feature-get framework here...
That's works too. Some means of generic probing is fine. Following
schemed needs
more documentation on that usage, as, it is not straight forward compare to
feature-get framework. Also, on the other thread, we are adding the
new instructions like
demote cacheline etc, maybe if the user wants to KNOW if the arch
supports it then
the feature-get framework is good.
If we think, there is no other usecase for generic arch feature-get
framework then
we can keep the below scheme else generic arch feature is better for
more forward
looking use cases.
Might be just something like:
rte_power_monitor(...) == -ENOTSUP
be enough indication for that?
So user can just do:
if (rte_power_monitor(NULL, 0, 0, 0, 0) == -ENOTSUP) {
/* not supported path */
}
To check is that feature supported or not.
Looking at CLDEMOTE patches, CLDEMOTE is a noop on other archs. I think
we can safely make this intrinsic as a noop on other archs as well, as
it's functionally identical to waking up immediately.
If we're not creating this for CLDEMOTE, we don't need it here as well.
If we do need it for this, then we arguably need it for CLDEMOTE too.
Sorry I don't understand what you mean, too many "it" and "this" :)
Sorry, i meant "the generic feature-get framework". CLDEMOTE doesn't
exist on other archs, this doesn't too, so it's a fairly similar
situation. Stubbing UMWAIT with a noop is a valid approach because it's
equivalent to sleeping and then immediately waking up (which can happen
for a host of reasons unrelated to the code itself).
If we are keeping the following return in the public API then it can not be NOP
+ * @return
+ * - 1 if wakeup was due to TSC timeout expiration.
+ * - 0 if wakeup was due to memory write or other reasons.
+ */
In the generic header, it is specified that return value is
implementation-defined (i.e. arch-specific).
Obviously an API definition should *never* be "implementation-defined".
If there isn't a meaningful return value, we could either make it a
void, or return 0/-ENOTSUP so. I'm OK with either as nop is a valid
result for a UMWAIT, and there are no side-effects to the intrinsic
itself (it's basically a fancy rte_pause).
I guess we could remove
that and set return value to either 0 or -ENOTSUP if that would resolve
the issue?
Also, we need to fix compilation issue if any with
http://patches.dpdk.org/patch/79540/
as it has direct reference to if
(!rte_cpu_get_flag_enabled(RTE_CPUFLAG_WAITPKG)) {
Either we need to add -ENOTSUP return or generic feature-get framework.
IIRC power library isn't compiled on anything other than x86, so this
code wouldn't get compiled.
It is not call "power-x86", so we must assume it could work
on any architecture.
#ifdef it is!
I'm not against a generic feature-get framework, i'm just pointing out
that if this is what's preventing the merge, it should prevent the merge
of CLDEMOTE as well
I wouldn't consider these two as totally equal.
Yes, both are just hints to CPU, that can be ignored,
but if not, then consequences of executing are quite different.
If UMWAIT is not supported by cpu at all, then user might want to use some
different power saving mechanism (pause, frequence scaling, etc.).
Without information is UMWAIT supported or not, user can't make
such choice.
After some attempts at implementing this, i actually came to the
conclusion that some generic way to check support for this feature is
necessary, because we end up with a usability inconsistency:
1) on non-x86, if you call the function, it returns -ENOTSUP
2) on x86, since we're not checking CPUID flags on every single call,
it'll either succeed, or crash the process - the burden is on the user
to check for CPUID flags, but it can't be done in an arch agnostic way
because the CPUID flags are only defined for x86, thus requiring a
special code path for x86
Where would be the best place to add such an infrastructure? I'm
thinking rte_cpuflags.h?
, yet Jerin has acked that one and has explicitly
stated that he's OK with leaving CLDEMOTE as a noop on other architectures.
CLDEMOTE is used for optimization, while UMWAIT can be used in a logic,
that's why the expectations may be different.
UMWAIT is a best-effort mechanism with no side-effects. It's perfectly
legal for a UMWAIT to not sleep at all, thus rendering it effectively a
noop. So i don't think it's all that different.
--
Thanks,
Anatoly
