Re: [XenPPC] Profiling in xen – ppc considerations

[Christian Ehrhardt <ehrhardt@xxxxxxxxxxxxxxxxxx>]

Jimi Xenidis wrote:
> Christian, nice summary.
> One question I have is does Xen allow the domain to extract domain 
> oprofile information as linxu would without Xen, or does xen allow for 
> some transport that eases the collection?
Short Answer: "some transport "- Shared buffers (Xen/Guests) + xen 
virtual interrupts which are received in the linux oprofile driver for xen
Long Answer: Every explanation would be almost identical to 
http://xenoprof.sourceforge.net/xenoprof_2.0.txt so I recommend to read 
this because section one explains the background mechanisms.
> Anyway.. Lets stick with oprofiling the domains only.
> There really very little Linux work to do here.  We need:
>  1. An hcall that turn the performance monitor on for the domain
>  2. Save and restore the relevant registers for any domain that is has 
> it turned on.
>  3. Turn it off for domains that have it disabled.
So you suggest to freeze counters while hypervisor or other domains are 
running via "Performance Monitor Mark" MSR(PMM) and "Freeze counters 
while Mark" MMCR0(FCM0/1) - combined with keeping the interrupt handler 
in the linux code ?
->Is it allowed to direct an interrupt directly to a linux guest in xen 
(If there would be too much latency between the irq and the read of the 
samples we may block a lot of occurring perf interrupts before we are 
resetting MMCR0(PMAE))? Otherwise it would end up very similar to the 
xeonoprof approach that handles the interrupt in xen which put the data 
to a shared buffer and then passing the information about "new data" to 
the appropriate domain with a virtual interrupt.
->Is there a single or at least limited number of transition points 
between domains (e.g. in the scheduler) and xen where we could place a 
hook to change the MSR(PMM) as we need it or will this state transition 
need to be spread all over the code?
I also must add that this would not solve the described issue that 
another domain could write to the performance monitor registers and 
interfere a profiling session. If we decide that this issue is 
negligible for the moment we could also continue the xenoprof oriented 
approach which would provide us with the profiling of multiple domains 
and xen itself.
I can't really estimate if it would be a worthwhile task to implement 
this Domain only profiling and then switching/extending it, do you think 
it is that much easier to implement this in the first place ?
I thought we should think/decide about the privilege issue I described. 
Especially in view of the fact that this applies to both approaches.
> you can see the hcall being setup here:
>   arch/powerpc/platforms/pseries/setup.c pSeries_setup_arch 322 
> ppc_md.enable_pmcs = pseries_lpar_enable_pmcs;
> Here is the spec:
>
> Lets try and go deep with this and then think about how to oprofile 
> Xen itself.
> -JX
>
>
> On Mar 13, 2007, at 1:11 PM, Christian Ehrhardt wrote:
>
> > Hi Folks,
> > I analyzed the oprofile/xenoprof code and tried to do a simple minded 
> > powerpc mapping in the last two weeks. As it come up in a phone call 
> > on Monday I overlooked some possible issues arising out of the simple 
> > mapping of xenoprof to the power architecture. In this mail I briefly 
> > describe some backgrounds as well as my considerations so far.
> > I'm not sure If I got all power and x86 specifics in the right way so 
> > feel free to correct me - I'm open to any comments and ideas - I hope 
> > together we reach a realizable plan if and how this could be 
> > implemented.
> > -- Background I - oprofile basic principles --
> > Oprofile is a common profiling tool used in the linux world. It 
> > consists of two layers. First the kernel space driver that contains a 
> > generic infrastructure and management part as well as a architecture 
> > dependent part that handles the hardware specific tasks. The second 
> > part is the userspace component that controls the kernel part and 
> > computes the output to different reports.
> > -- Background II - xenoprof approach --
> > To use oprofile (http://oprofile.sourceforge.net/about/) in the xen 
> > environment it was extended to xenoprof 
> > (http://xenoprof.sourceforge.net/) which adds a third layer in the 
> > xen hypervisor. The linux kernel space driver supports now a new 
> > “architecture” that repesents xen. This implementation uses a 
> > hypercall instead of hardware specific code. The data that is usually 
> > reported by interrupts is now reported to xen by the hardware. Xen 
> > distinguish some parameters and reports the data chunk to the 
> > profiling domain via the virtual interrupt event notification 
> > provided by xen. This gets more complex with multiple domains etc. 
> > For more read the docs on xenoprof web page.
> > The hardware specific code that once was in the oprofile kernel 
> > drivers is now located (adapted to the new environment) in the xen 
> > source where the new hypercalls are mapped to the real hardware.
> > -- Mapping xenoprof to Power - simple approach --
> > This approach tries to use as much of the initial xenoprof 
> > architecture by trying to map the power implementation to the 
> > technically x86 oriented xenoprof architecture. This would ease the 
> > implementation but spawn some risks I try to list here (The list is 
> > not complete, there may be more not yet realized issues).
> > The basic principle of those profiling implementations is a 
> > performance counter (real time, cycles, special events, ... ) that 
> > triggers an interrupt. This interrupt then tries to save information 
> > about the current point of execution in its interrupt handler. The 
> > oprofile implementation for power works in a similar scheme so I 
> > thought this should be the easiest way.
> > -- Possible issues and their background --
> > Please take a look at this graphic before/while reading the following 
> > details (https://ltc.linux.ibm.com/wiki/XenPPC/profilingdiscussion) – 
> > it might also be useful to have a PowerISA doc to read about special 
> > registers and bits (http://www.power.org/news/articles/new_brand/#isa).
> > The setting of the used hardware elements in the x86 implementation 
> > needs ring0 afaik and the Dom kernel runs in ring1, because of that 
> > it can't interfere the nmi programming done by xen in ring0. In the 
> > power architecture there are three privilege levels and the linux 
> > kernel usually runs in the second level. Afaik the Dom linux kernel 
> > does also run in this level in the xen-ppc implementation, because of 
> > that we could set performance monitor registers up in the right way 
> > in xen but could not really be sure that a Dom kernel does not change 
> > the related registers without “asking” the hypervisor.
> > -> is there a way still unknown to me to protect those registers?
> >
> >
> > -- Other possible approaches --
> > After consulting the current Power ISA documents again I found some 
> > points that may allow other implementations of profiling in xen.
> > a) Because the Dom Kernel seem to be able to setup the performance 
> > profiling without invoking the hypervisor it could be possible to let 
> > a domain just do the profiling on their own. But there are other 
> > issues in this way too e.g. In which way would samples of other 
> > domains occur and would this be a security breach?
> > b) The Power architecture provides a very potent performance monitor 
> > with features that allow the freezing of the counters e.g. Freeze 
> > them while the execution is in hypervisor mode MSR_HVPR =0b10. But 
> > such features would only help to distinguish vertically in the 
> > graphics referenced above. Only the hypervisor is in a position to 
> > differ horizontally between different domains.
> > I'm planning to move the illustration I used to the public wiki after 
> > the first round of review and keep the planned design up to date there.
> > More but not yet mature thought&ideas about that in mind,
> > Christian
> > --
> > Grüsse / regards,
> > Christian Ehrhardt
> >
> > IBM Linux Technology Center, Open Virtualization
> > +49 7031/16-3385
> > Ehrhardt@xxxxxxxxxxxxxxxxxxx
> > Ehrhardt@xxxxxxxxxx
> >
> > IBM Deutschland Entwicklung GmbH
> > Vorsitzender des Aufsichtsrats: Johann Weihen
> > Geschäftsführung: Herbert Kircher
> > Sitz der Gesellschaft: Böblingen
> > Registergericht: Amtsgericht Stuttgart, HRB 243294
> >
> > _______________________________________________
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> > Xen-ppc-devel@xxxxxxxxxxxxxxxxxxx
> > http://lists.xensource.com/xen-ppc-devel
--

Grüsse / regards, 
Christian Ehrhardt
IBM Linux Technology Center, Open Virtualization
+49 7031/16-3385
Ehrhardt@xxxxxxxxxxxxxxxxxxx
Ehrhardt@xxxxxxxxxx

IBM Deutschland Entwicklung GmbH
Vorsitzender des Aufsichtsrats: Johann Weihen 
Geschäftsführung: Herbert Kircher 
Sitz der Gesellschaft: Böblingen
Registergericht: Amtsgericht Stuttgart, HRB 243294


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