[RFC PATCH 00/17] powerpc/e500: separate e500 from e500mc

Kumar Gala galak at kernel.crashing.org
Fri Nov 11 03:30:41 EST 2011


On Nov 10, 2011, at 10:17 AM, Moffett, Kyle D wrote:

> On Nov 10, 2011, at 08:59, Kumar Gala wrote:
>> On Nov 9, 2011, at 6:03 PM, Kyle Moffett wrote:
>>> I saw Baruch Siach's patch:
>>> powerpc: 85xx: separate e500 from e500mc
>>> 
>>> Unfortunately, that patch breaks the dependencies for the P5020DS
>>> platform and does not fix the underlying code which does not
>>> understand what the ambiguous "CONFIG_E500" means.
>>> 
>>> In order to fix the issue at the fundamental level, I created the
>>> following 17-patch series loosely based on Baruch's patch.
>>> 
>>> === High-Level Summary ===
>>> 
>>> The e500v1/v2 and e500mc/e5500 CPU families are not compatible with
>>> each other, yet they share the same "CONFIG_E500" Kconfig option.
>>> 
>>> The following patch series splits the 32-bit CPU support into two
>>> separate options: "CONFIG_FSL_E500_V1_V2" and "CONFIG_FSL_E500MC".
>>> Additionally, the 64-bit e5500 support is separated to its own config
>>> option ("CONFIG_FSL_E5500") which is automatically combined with
>>> either 32-bit e500MC or 64-bit Book-3E when the P5020DS board support
>>> is enabled.
>> 
>> So its clear from the community that there is confusion here and we
>> need to clean this up.  I guess my attempt to support an kernel that
>> ran on both E500v2 and E500mc isn't worth it.  However I don't want to
>> completely remove the ability to do this.
> 
> Well, a kernel built with CONFIG_PPC_E500MC today appears to be
> fundamentally broken on E500v1/E500v2:
> 
> #if defined(CONFIG_8xx) || defined(CONFIG_403GCX)
> #define L1_CACHE_SHIFT		4
> #define MAX_COPY_PREFETCH	1
> #elif defined(CONFIG_PPC_E500MC)
> #define L1_CACHE_SHIFT		6
> #define MAX_COPY_PREFETCH	4
> #elif defined(CONFIG_PPC32)
> #define MAX_COPY_PREFETCH	4
> #if defined(CONFIG_PPC_47x)
> #define L1_CACHE_SHIFT		7
> #else
> #define L1_CACHE_SHIFT		5
> #endif
> #else /* CONFIG_PPC64 */
> #define L1_CACHE_SHIFT		7
> #endif
> 
> E500MC will set L1_CACHE_SHIFT to 6, while regular E500 appears to
> want it set to 5.  I don't know if that's a mistake or exactly what
> code that affects, but it looks very wrong.

This is correct for E500 & E500MC.  However we have a HW mode that allows us to handle running in 'e500' mode on e500mc.

> Furthermore, it looks like there are a couple issues here I missed
> before.  PPC64 systems all appear to have an L1_CACHE_SHIFT of 7,
> except when you turn on the P5020DS board option which magically
> changes it to "6" and breaks lord-knows-what.  I think my patch
> series actually "breaks" that and makes e5500 use 7 as well.

a value of '6' on E5500 / P5020DS is correct and doesn't break anything.  Setting it to 7 is wrong and thus the code is correct today.

> Are you sure that a kernel built to support E5500 can also run on
> other 64-bit PowerPC/POWER systems?

No it will not.  There is not expectation of that as E5500 is an embedded / Book-E class part and uses that ISA version.  Book-S (server) 64-bit machines are not OS compatible and we are not trying to make them as such (but we do re-use a lot of code).

>> Towards the cleanup I'd ask for a proposal on what exactly the
>> CONFIG_ options we'd end up with would be and their meaning.
>> So today we have:
>> 
>> CONFIG_E500
>> CONFIG_PPC_E500MC
> 
> It's actually a bit more complicated than that.  There are 3 ways
> that the user can configure an e500 kernel today.  I'm omitting
> the "FSL_SOC_BOOKE" menu that wraps around all of the 85xx/e5500
> boards today, because that is set for all of these platforms:
> 
>  * PPC32 + PPC_85xx + E500 [+ boards]
>  * PPC64 + BOOK3E_64 + P5020_DS (which adds E500 and PPC_E500MC)
> 
> Note that whether or not "PPC_E500MC" is set on PPC32 depends
> only on which boards the user picked.  So if I am trying to
> build an e500v2 kernel and I accidentally also turn on support
> for one of the e500mc boards, my kernel mysteriously breaks.

sure, I understand I'm fine with us 'fixing' things such that we treat E500V1/V2 differently from E500MC/E5500 in user Kconfig choices

>> What do we want to move to?  I want to keep the builds such that we
>> have only 2 classes:  e500V1/V2 and e500mc/e5500/e6500/.../eX500.
>> I see no reason to hyper-optimize e500mc vs e5500 vs e6500.
> 
> So after my changes, there are the following user-configurable
> option sets:
>  * PPC32 + FSL_E500_V1_V2 [+ e500v1/v2 boards]
>  * PPC32 + FSL_E500MC     [+ e500mc boards]
>  * PPC64 + BOOK3E_64 + P5020_DS (which adds FSL_E5500)
> 
> Since most of the "e500mc"-specific code was in 32-bit-only ASM
> or inside of #ifdef PPC32, the new FSL_E500MC option is only
> set on 32-bit builds, even if it is running in compat mode on
> 64-bit e5500 hardware)
> 
> Internally the P5020_DS option turns on the hidden FSL_E5500
> option for both 32-bit and 64-bit; that config option enables
> platform drivers and similar stuff.
> 
> Depending on how compatible the AMP processors are, you could
> rename the option to be "FSL_E5X00" or add a hidden option for
> "FSL_E6500" that is also selected by appropriate boards.
> 
> Please let me know if you think!

I'd like to avoid adding FSL_E5500, FSL_E6500, etc CONFIG options getting added.  I'd like to keep things as:

32-bit:
	e500v1/v2
	e500mc/e5500/e6500/...
64-bit:
	e5500/e6500/...

We need to come up with some CONFIG option that covers e500mc/e5500/e6500/...

- k


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