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SubjectRe: [RFC PATCH v4 1/7] mm/demotion: Add support for explicit memory tiers
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On 6/6/22 1:23 PM, Ying Huang wrote:
> On Mon, 2022-06-06 at 11:57 +0530, Aneesh Kumar K.V wrote:
>> Aneesh Kumar K V <aneesh.kumar@linux.ibm.com> writes:
>>
>>> On 6/6/22 11:03 AM, Ying Huang wrote:
>>>> On Mon, 2022-06-06 at 09:26 +0530, Aneesh Kumar K V wrote:
>>>>> On 6/6/22 8:19 AM, Ying Huang wrote:
>>>>>> On Thu, 2022-06-02 at 14:07 +0800, Ying Huang wrote:
>>>>>>> On Fri, 2022-05-27 at 17:55 +0530, Aneesh Kumar K.V wrote:
>>>>>>>> From: Jagdish Gediya <jvgediya@linux.ibm.com>
>>>>>>>>
>>>>>>>> In the current kernel, memory tiers are defined implicitly via a
>>>>>>>> demotion path relationship between NUMA nodes, which is created
>>>>>>>> during the kernel initialization and updated when a NUMA node is
>>>>>>>> hot-added or hot-removed. The current implementation puts all
>>>>>>>> nodes with CPU into the top tier, and builds the tier hierarchy
>>>>>>>> tier-by-tier by establishing the per-node demotion targets based
>>>>>>>> on the distances between nodes.
>>>>>>>>
>>>>>>>> This current memory tier kernel interface needs to be improved for
>>>>>>>> several important use cases,
>>>>>>>>
>>>>>>>> The current tier initialization code always initializes
>>>>>>>> each memory-only NUMA node into a lower tier. But a memory-only
>>>>>>>> NUMA node may have a high performance memory device (e.g. a DRAM
>>>>>>>> device attached via CXL.mem or a DRAM-backed memory-only node on
>>>>>>>> a virtual machine) and should be put into a higher tier.
>>>>>>>>
>>>>>>>> The current tier hierarchy always puts CPU nodes into the top
>>>>>>>> tier. But on a system with HBM or GPU devices, the
>>>>>>>> memory-only NUMA nodes mapping these devices should be in the
>>>>>>>> top tier, and DRAM nodes with CPUs are better to be placed into the
>>>>>>>> next lower tier.
>>>>>>>>
>>>>>>>> With current kernel higher tier node can only be demoted to selected nodes on the
>>>>>>>> next lower tier as defined by the demotion path, not any other
>>>>>>>> node from any lower tier. This strict, hard-coded demotion order
>>>>>>>> does not work in all use cases (e.g. some use cases may want to
>>>>>>>> allow cross-socket demotion to another node in the same demotion
>>>>>>>> tier as a fallback when the preferred demotion node is out of
>>>>>>>> space), This demotion order is also inconsistent with the page
>>>>>>>> allocation fallback order when all the nodes in a higher tier are
>>>>>>>> out of space: The page allocation can fall back to any node from
>>>>>>>> any lower tier, whereas the demotion order doesn't allow that.
>>>>>>>>
>>>>>>>> The current kernel also don't provide any interfaces for the
>>>>>>>> userspace to learn about the memory tier hierarchy in order to
>>>>>>>> optimize its memory allocations.
>>>>>>>>
>>>>>>>> This patch series address the above by defining memory tiers explicitly.
>>>>>>>>
>>>>>>>> This patch adds below sysfs interface which is read-only and
>>>>>>>> can be used to read nodes available in specific tier.
>>>>>>>>
>>>>>>>> /sys/devices/system/memtier/memtierN/nodelist
>>>>>>>>
>>>>>>>> Tier 0 is the highest tier, while tier MAX_MEMORY_TIERS - 1 is the
>>>>>>>> lowest tier. The absolute value of a tier id number has no specific
>>>>>>>> meaning. what matters is the relative order of the tier id numbers.
>>>>>>>>
>>>>>>>> All the tiered memory code is guarded by CONFIG_TIERED_MEMORY.
>>>>>>>> Default number of memory tiers are MAX_MEMORY_TIERS(3). All the
>>>>>>>> nodes are by default assigned to DEFAULT_MEMORY_TIER(1).
>>>>>>>>
>>>>>>>> Default memory tier can be read from,
>>>>>>>> /sys/devices/system/memtier/default_tier
>>>>>>>>
>>>>>>>> Max memory tier can be read from,
>>>>>>>> /sys/devices/system/memtier/max_tiers
>>>>>>>>
>>>>>>>> This patch implements the RFC spec sent by Wei Xu <weixugc@google.com> at [1].
>>>>>>>>
>>>>>>>> [1] https://lore.kernel.org/linux-mm/CAAPL-u-DGLcKRVDnChN9ZhxPkfxQvz9Sb93kVoX_4J2oiJSkUw@mail.gmail.com/
>>>>>>>>
>>>>>>>> Signed-off-by: Jagdish Gediya <jvgediya@linux.ibm.com>
>>>>>>>> Signed-off-by: Aneesh Kumar K.V <aneesh.kumar@linux.ibm.com>
>>>>>>>
>>>>>>> IMHO, we should change the kernel internal implementation firstly, then
>>>>>>> implement the kerne/user space interface. That is, make memory tier
>>>>>>> explicit inside kernel, then expose it to user space.
>>>>>>
>>>>>> Why ignore this comment for v5? If you don't agree, please respond me.
>>>>>>
>>>>>
>>>>> I am not sure what benefit such a rearrange would bring in? Right now I
>>>>> am writing the series from the point of view of introducing all the
>>>>> plumbing and them switching the existing demotion logic to use the new
>>>>> infrastructure. Redoing the code to hide all the userspace sysfs till we
>>>>> switch the demotion logic to use the new infrastructure doesn't really
>>>>> bring any additional clarity to patch review and would require me to
>>>>> redo the series with a lot of conflicts across the patches in the patchset.
>>>>
>>>> IMHO, we shouldn't introduce regression even in the middle of a
>>>> patchset. Each step should only rely on previous patches in the series
>>>> to work correctly. In your current way of organization, after patch
>>>> [1/7], on a system with 2 memory tiers, the user space interface will
>>>> output wrong information (only 1 memory tier). So I think the correct
>>>> way is to make it right inside the kenrel firstly, then expose the right
>>>> information to user space.
>>>>
>>>
>>> The patchset doesn't add additional tier until "mm/demotion/dax/kmem:
>>> Set node's memory tier to MEMORY_TIER_PMEM". ie, there is no additional
>>> tiers done till all the demotion logic is in place. So even if the
>>> system got dax/kmem, the support for adding dax/kmem as a memory tier
>>> comes later in the patch series.
>>
>> Let me clarify this a bit more. This patchset doesn't change the
>> existing kernel behavior till "mm/demotion: Build demotion targets
>> based on explicit memory tiers". So there is no regression till then.
>> It adds a parallel framework (memory tiers to the existing demotion
>> logic).
>>
>> I can move the patch "mm/demotion/dax/kmem: Set node's memory tier to
>> MEMORY_TIER_PMEM" before switching the demotion logic so that on systems
>> with two memory tiers (DRAM and pmem) the demotion continues to work
>> as expected after patch 3 ("mm/demotion: Build demotion targets based on
>> explicit memory tiers"). With that, there will not be any regression in
>> between the patch series.
>>
>
> Thanks! Please do that. And I think you can add sysfs interface after
> that patch too. That is, in [1/7]
>

I am not sure why you insist on moving sysfs interfaces later. They are
introduced based on the helper added. It make patch review easier to
look at both the helpers and the user of the helper together in a patch.

> +struct memory_tier {
> + nodemask_t nodelist;
> +};
>
> And struct device can be added after the kernel has switched the
> implementation based on explicit memory tiers.
>
> +struct memory_tier {
> + struct device dev;
> + nodemask_t nodelist;
> +};
>


Can you elaborate on this? or possibly review the v5 series indicating
what change you are suggesting here?


> But I don't think it's a good idea to have "struct device" embedded in
> "struct memory_tier". We don't have "struct device" embedded in "struct
> pgdata_list"...
>

I avoided creating an array for memory_tier (memory_tier[]) so that we
can keep it dynamic. Keeping dev embedded in struct memory_tier simplify
the life cycle management of that dynamic list. We free the struct
memory_tier allocation via device release function (memtier->dev.release
= memory_tier_device_release )

Why do you think it is not a good idea?

-aneesh

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