Re: [PATCH] ACPI/PPTT: Handle architecturally unknown cache types

From: Jeffrey Hugo
Date: Wed Sep 12 2018 - 10:41:51 EST


On 9/11/2018 3:25 PM, Jeremy Linton wrote:
Hi,

On 09/11/2018 03:38 PM, Jeffrey Hugo wrote:
On 9/11/2018 2:16 PM, Jeremy Linton wrote:
Hi Jeffrey,

(+Sudeep)

On 09/11/2018 02:32 PM, Jeffrey Hugo wrote:
The type of a cache might not be specified by architectural mechanisms (ie
system registers), but its type might be specified in the PPTT. In this
case, following the PPTT specification, we should identify the cache as
the type specified by PPTT.

This fixes the following lscpu issue where only the cache type sysfs file
is missing which results in no output providing a poor user experience in
the above system configuration-
lscpu: cannot open /sys/devices/system/cpu/cpu0/cache/index3/type: No such
file or directory

Fixes: 2bd00bcd73e5 (ACPI/PPTT: Add Processor Properties Topology Table parsing)
Reported-by: Vijaya Kumar K <vkilari@xxxxxxxxxxxxxx>
Signed-off-by: Jeffrey Hugo <jhugo@xxxxxxxxxxxxxx>
---
 drivers/acpi/pptt.c | 15 +++++++++++++++
 1 file changed, 15 insertions(+)

diff --git a/drivers/acpi/pptt.c b/drivers/acpi/pptt.c
index d1e26cb..3c6db09 100644
--- a/drivers/acpi/pptt.c
+++ b/drivers/acpi/pptt.c
@@ -401,6 +401,21 @@ static void update_cache_properties(struct cacheinfo *this_leaf,
ÂÂÂÂÂÂÂÂÂÂÂÂÂ break;
ÂÂÂÂÂÂÂÂÂ }
ÂÂÂÂÂ }
+ÂÂÂ if ((this_leaf->type == CACHE_TYPE_NOCACHE) &&
+ÂÂÂÂÂÂÂ (found_cache->flags & ACPI_PPTT_CACHE_TYPE_VALID)) {
+ÂÂÂÂÂÂÂ switch (found_cache->attributes & ACPI_PPTT_MASK_CACHE_TYPE) {
+ÂÂÂÂÂÂÂ case ACPI_PPTT_CACHE_TYPE_DATA:
+ÂÂÂÂÂÂÂÂÂÂÂ this_leaf->type = CACHE_TYPE_DATA;
+ÂÂÂÂÂÂÂÂÂÂÂ break;
+ÂÂÂÂÂÂÂ case ACPI_PPTT_CACHE_TYPE_INSTR:
+ÂÂÂÂÂÂÂÂÂÂÂ this_leaf->type = CACHE_TYPE_INST;
+ÂÂÂÂÂÂÂÂÂÂÂ break;
+ÂÂÂÂÂÂÂ case ACPI_PPTT_CACHE_TYPE_UNIFIED:
+ÂÂÂÂÂÂÂ case ACPI_PPTT_CACHE_TYPE_UNIFIED_ALT:
+ÂÂÂÂÂÂÂÂÂÂÂ this_leaf->type = CACHE_TYPE_UNIFIED;
+ÂÂÂÂÂÂÂÂÂÂÂ break;
+ÂÂÂÂÂÂÂ }
+ÂÂÂ }
ÂÂÂÂÂ /*
ÂÂÂÂÂÂ * If the above flags are valid, and the cache type is NOCACHE
ÂÂÂÂÂÂ * update the cache type as well.


If you look at the next line of code following this comment its going to update the cache type for fully populated PPTT nodes. Although with the suggested change its only going to activate if someone completely fills out the node and fails to set the valid flag on the cache type.

Yes, however that case doesn't apply to the scenario we are concerned about, doesn't seem to be fully following the PPTT spec, and seems odd that Linux just assumes that a "fully specified" cache is unified.

Because, the architecturally specified ones won't be type NOCACHE?

Correct. However, what if you have a NOCACHE (not architecturally specified), that is fully described in PPTT, as a non-unified cache (data only)? Unlikely? Maybe. Still seem possible though, therefore I feel this assumption is suspect.



What I suspect is happening in the reported case is that the nodes in the PPTT table are missing fields we consider to be important. Since that data isn't being filled out anywhere else, so we leave the cache type alone too. This has the effect of hiding sysfs nodes with incomplete information.

Also, the lack of the DATA/INST fields is based on the assumption that the only nodes which need their type field updated are outside of the CPU core itself so they are pretty much guaranteed to be UNIFIED. Are you hitting this case?


Yes. Without this change, we hit the lscpu error in the commit message, and get zero output about the system. We don't even get information about the caches which are architecturally specified or how many cpus are present. With this change, we get what we expect out of lscpu (and also lstopo) including the cache(s) which are not architecturally specified.

I'm a bit surprised this changes the behavior of the architecturally specified ones. As I mentioned above, those shouldn't be NOCACHE. We use the level/type as a key for matching a PPTT node to an architecturally described cache. If that is mismatched, something more fundamental is happening. About the only case I can think of that can cause this is if the CLIDR type fields are incorrect.

In which case I might suggest we move your switch() for the INST/DATA into the check below that comment.

This change was not intended to impact architecturally specified ones, however I can see how that is the case. That would be the case if the architecturally specified type is X and PPTT indicates Y. According to the PPTT spec, the cache should be treated as type Y then (ie the contents of the PPTT override the architectural mechanisms).

I can move my change below the current NOCACHE handling, which would be valid for my scenario, but it seems odd. If I do that, then the current assumption will take priority. IE, if a cache is "fully specified" in PPTT, but is NOCACHE, then it will be treated as unified, regardless of what PPTT says (maybe instruction, or data only).



I guess I still don't understand why its important for PPTT to list, for example, the sets/ways of a cache in all scenarios. In the case of a "transparent" cache (implementation defined as not reported per section D3.4.2 of the ARM ARM where the cache cannot be managed by SW), there may not be valid values for sets/ways. I would argue its better to not report that information, rather than provide bogus information just to make Linux happy, which may break other OSes and provide means for which a user to hang themselves.

This doesn't really have anything to do with the Arm/ARM's definition of set/way as it pertains to cache maint. Its more to assist userspace software with an understanding of the system cache architecture so it can make intelligent decisions about loop tiling and the like.

What we want is a consistent dependable view for software to utilize. An unreliable sysfs field is one that tends not to get used.
I guess my argument is this -
The cache is not specified architecturally because it cannot be managed by software (see the ARM ARM section I referenced).

However, its important that the user be able to "see" it, I'm not a marketing guy, but I assume its going to be listed on the "data sheet".

Therefore, the firmware is providing some information about the cache (via SMBIOS tables and PPTT).

The HW designers have indicated that there is no sane way to provide sets/ways information to software, even on an informational basis (ie not for cache maintenance, but for performance optimizations). Therefore the firmware will not provide this information because it will be wrong.

So, therefore, we should still be able to tell the user that a cache exists at the relevant level, and what size it is. On the concerned system, we cannot do that currently.



However, in the case of a transparent cache, the size/type/level/write policy/etc (whatever the firmware provider deems relevant) might be valuable information for the OS to make scheduling decisions, and is certainly valuable for user space utilities for cross-machine/data ou
center level job scheduling.



--
Jeffrey Hugo
Qualcomm Datacenter Technologies as an affiliate of Qualcomm Technologies, Inc.
Qualcomm Technologies, Inc. is a member of the
Code Aurora Forum, a Linux Foundation Collaborative Project.