Re: [PATCH v8 5/6] cgroup/cpuset: Update description of cpuset.cpus.partition in cgroup-v2.rst

[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

 



On 12/1/21 13:05, Waiman Long wrote:

On 12/1/21 11:46, Tejun Heo wrote:

So, when we were first adding the partition support, the thinking was that as it's pretty niche anyway, we can take some aberrations and restrictions, but I don't think it's a good direction to be building up on top of those like this and would much prefer to clean up the rules and restrictions. I
know that this has been going on for quite a while and am sorry that am
coming back to the same issue repeatedly which isn't necessarily caused by
the proposed change. What do you think?

I think I can relax some of the restrictions, but probably not all of them at this time. We can certainly working on removing as much restriction and limitations as possible in future update to the partition code.

I would say that partition is a cpuset feature that only a minority of users may ever need to use. What I don't want to do is to make the partition feature as general and accommodating as possible and then some of them become dead code that people never use. It won't break binary compatibility to relax or remove limitations in the future. However, imposing new limitation or restriction in the future may not be possible. So I would like to see new use cases evolve that require us to remove the limitations. If that happens, I am happy to update the code to accommodate the new use cases.

For the current use cases of partition that I am aware of, the current limitations as documented will not be a problem for those use cases.

The document below is my latest draft of the document. There are several major changes from the earlier draft:

1) The limitation that "cpuset.cpus" has to be a superset of child's "cpuset.cpus" has been removed as a new patch to remove that limitation will be added.

2) The initial transition from "member" to partition root now requires that "cpuset.cpus" overlap with that of the parent's "cpuset.cpus" instead of being a superset.

3) Now read back of "cpuset.cpus.partition" may return "isolated invalid".

For the transition back to "member", I haven't changed the current wording of forcing child partition roots to become "member" yet. If you think keeping them as invalid partition root is better, I can made that change too.

Please let me know what other changes you would like to see.

Cheers,
Longman

----------------------------------------------------------------------------------------

  cpuset.cpus.partition
    A read-write single value file which exists on non-root
    cpuset-enabled cgroups.  This flag is owned by the parent cgroup
    and is not delegatable.

    It accepts only the following input values when written to.

      ========    ================================
      "member"    Non-root member of a partition
      "root"    Partition root
      "isolated"    Partition root without load balancing
      ========    ================================

    The root cgroup is always a partition root and its state
    cannot be changed.  All other non-root cgroups start out as
    "member".

    When set to "root", the current cgroup is the root of a new
    partition or scheduling domain that comprises itself and
    all its descendants except those that are separate partition
    roots themselves and their descendants.

    The value shown in "cpuset.cpus.effective" of a partition root is
    the CPUs that the parent partition root can dedicate to the new
    partition root.  They are subtracted from "cpuset.cpus.effective"
    of the parent and may be different from "cpuset.cpus"

    When set to "isolated", the CPUs in that partition root will
    be in an isolated state without any load balancing from the
    scheduler.  Tasks placed in such a partition with multiple
    CPUs should be carefully distributed and bound to each of the
    individual CPUs for optimal performance.

    A partition root ("root" or "isolated") can be in one of the
    two possible states - valid or invalid.  An invalid partition
    root is in a degraded state where some state information are
    retained, but behaves more like a "member".

    On read, the "cpuset.cpus.partition" file can show the following
    values.

      ======================    ==============================
      "member"            Non-root member of a partition
      "root"            Partition root
      "isolated"            Partition root without load balancing
      "root invalid (<reason>)"    Invalid partition root
      "isolated invalid (<reason>)"    Invalid isolated partition root
      ======================    ==============================

    In the case of an invalid partition root, a descriptive string on
    why the partition is invalid is included within parentheses.

    Almost all possible state transitions among "member", valid
    and invalid partition roots are allowed except from "member"
    to invalid partition root.

    Before the "member" to partition root transition can happen,
    the following conditions must be met or the transition will
    not be allowed.

    1) The "cpuset.cpus" is non-empty and exclusive, i.e. they are
       not shared by any of its siblings.
    2) The parent cgroup is a valid partition root.
    3) The "cpuset.cpus" must contain at least one of the CPUs from
       parent's "cpuset.cpus", i.e. they overlap.
    4) There is no child cgroups with cpuset enabled.  This avoids
       cpu migrations of multiple cgroups simultaneously which can
       be problematic.

    Once becoming a partition root, the only rule restricting
    changes made to "cpuset.cpus" is the exclusivity rule where
    none of the siblings of a partition root can share CPUs with
    it.

    External events like hotplug or inappropriate changes to
    "cpuset.cpus" can cause a valid partition root to become invalid.
    Besides the exclusivity rule listed above, the other conditions
    required to maintain the validity of a partition root are
    as follows:

    1) The parent cgroup is a valid partition root.
    2) If "cpuset.cpus.effective" is empty, the partition must have
       no task associated with it. Otherwise, the partition becomes
       invalid and "cpuset.cpus.effective" will fall back to that
       of the nearest non-empty ancestor.

    A corollary of a valid partition root is that
    "cpuset.cpus.effective" is always a subset of "cpuset.cpus".
    Note that a task cannot be moved to a cgroup with empty
    "cpuset.cpus.effective".

    Changing a partition root (valid or invalid) to "member" is
    always allowed.  If there are child partition roots underneath
    it, however, they will be forced to be switched back to "member"
    too and lose their partitions. So care must be taken to double
    check for this condition before disabling a partition root.

    A valid non-root parent partition may distribute out all its CPUs
    to its child partitions when there is no task associated with it.

    An invalid partition root can be reverted back to a valid one
    if none of the validity constraints of a valid partition root
    are violated.

    Poll and inotify events are triggered whenever the state of
    "cpuset.cpus.partition" changes.  That includes changes caused by
    write to "cpuset.cpus.partition", cpu hotplug and other changes
    that make the partition invalid.  This will allow user space
    agents to monitor unexpected changes to "cpuset.cpus.partition"
    without the need to do continuous polling.




[Index of Archives]     [Kernel Newbies]     [Security]     [Netfilter]     [Bugtraq]     [Linux FS]     [Yosemite Forum]     [MIPS Linux]     [ARM Linux]     [Linux Security]     [Linux RAID]     [Samba]     [Video 4 Linux]     [Device Mapper]     [Linux Resources]

  Powered by Linux