Re: [PATCH v7 0/5] Make cpuid <-> nodeid mapping persistent

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Hi Rafael,

This patch set was reported a kernel panic from Intel LKP team.
I do some investigation for this. I found that this panic was caused
because of Intel test machine. On their machine, the acpi tables has
something wrong. The proc_id of processors which are not present
cannot be assigned correctly, they are assigned the same value.
The wrong value will be used by our patch, and lead to panic.

Thanks,
Zhu

On 05/19/2016 06:39 PM, Zhu Guihua wrote:
[Problem]

cpuid <-> nodeid mapping is firstly established at boot time. And workqueue caches
the mapping in wq_numa_possible_cpumask in wq_numa_init() at boot time.

When doing node online/offline, cpuid <-> nodeid mapping is established/destroyed,
which means, cpuid <-> nodeid mapping will change if node hotplug happens. But
workqueue does not update wq_numa_possible_cpumask.

So here is the problem:

Assume we have the following cpuid <-> nodeid in the beginning:

   Node | CPU
------------------------
node 0 |  0-14, 60-74
node 1 | 15-29, 75-89
node 2 | 30-44, 90-104
node 3 | 45-59, 105-119

and we hot-remove node2 and node3, it becomes:

   Node | CPU
------------------------
node 0 |  0-14, 60-74
node 1 | 15-29, 75-89

and we hot-add node4 and node5, it becomes:

   Node | CPU
------------------------
node 0 |  0-14, 60-74
node 1 | 15-29, 75-89
node 4 | 30-59
node 5 | 90-119

But in wq_numa_possible_cpumask, cpu30 is still mapped to node2, and the like.

When a pool workqueue is initialized, if its cpumask belongs to a node, its
pool->node will be mapped to that node. And memory used by this workqueue will
also be allocated on that node.

static struct worker_pool *get_unbound_pool(const struct workqueue_attrs *attrs){
...
         /* if cpumask is contained inside a NUMA node, we belong to that node */
         if (wq_numa_enabled) {
                 for_each_node(node) {
                         if (cpumask_subset(pool->attrs->cpumask,
                                            wq_numa_possible_cpumask[node])) {
                                 pool->node = node;
                                 break;
                         }
                 }
         }

Since wq_numa_possible_cpumask is not updated, it could be mapped to an offline node,
which will lead to memory allocation failure:

  SLUB: Unable to allocate memory on node 2 (gfp=0x80d0)
   cache: kmalloc-192, object size: 192, buffer size: 192, default order: 1, min order: 0
   node 0: slabs: 6172, objs: 259224, free: 245741
   node 1: slabs: 3261, objs: 136962, free: 127656

It happens here:

create_worker(struct worker_pool *pool)
  |--> worker = alloc_worker(pool->node);

static struct worker *alloc_worker(int node)
{
         struct worker *worker;

         worker = kzalloc_node(sizeof(*worker), GFP_KERNEL, node); --> Here, useing the wrong node.

         ......

         return worker;
}


[Solution]

There are four mappings in the kernel:
1. nodeid (logical node id)   <->   pxm
2. apicid (physical cpu id)   <->   nodeid
3. cpuid (logical cpu id)     <->   apicid
4. cpuid (logical cpu id)     <->   nodeid

1. pxm (proximity domain) is provided by ACPI firmware in SRAT, and nodeid <-> pxm
    mapping is setup at boot time. This mapping is persistent, won't change.

2. apicid <-> nodeid mapping is setup using info in 1. The mapping is setup at boot
    time and CPU hotadd time, and cleared at CPU hotremove time. This mapping is also
    persistent.

3. cpuid <-> apicid mapping is setup at boot time and CPU hotadd time. cpuid is
    allocated, lower ids first, and released at CPU hotremove time, reused for other
    hotadded CPUs. So this mapping is not persistent.

4. cpuid <-> nodeid mapping is also setup at boot time and CPU hotadd time, and
    cleared at CPU hotremove time. As a result of 3, this mapping is not persistent.

To fix this problem, we establish cpuid <-> nodeid mapping for all the possible
cpus at boot time, and make it persistent. And according to init_cpu_to_node(),
cpuid <-> nodeid mapping is based on apicid <-> nodeid mapping and cpuid <-> apicid
mapping. So the key point is obtaining all cpus' apicid.

apicid can be obtained by _MAT (Multiple APIC Table Entry) method or found in
MADT (Multiple APIC Description Table). So we finish the job in the following steps:

1. Enable apic registeration flow to handle both enabled and disabled cpus.
    This is done by introducing an extra parameter to generic_processor_info to let the
    caller control if disabled cpus are ignored.

2. Introduce a new array storing all possible cpuid <-> apicid mapping. And also modify
    the way cpuid is calculated. Establish all possible cpuid <-> apicid mapping when
    registering local apic. Store the mapping in this array.

3. Enable _MAT and MADT relative apis to return non-presnet or disabled cpus' apicid.
    This is also done by introducing an extra parameter to these apis to let the caller
    control if disabled cpus are ignored.

4. Establish all possible cpuid <-> nodeid mapping.
    This is done via an additional acpi namespace walk for processors.


For previous discussion, please refer to:
https://lkml.org/lkml/2015/2/27/145
https://lkml.org/lkml/2015/3/25/989
https://lkml.org/lkml/2015/5/14/244
https://lkml.org/lkml/2015/7/7/200
https://lkml.org/lkml/2015/9/27/209

Change log v6 -> v7:
1. Fix arm64 build failure.

Change log v5 -> v6:
1. Define func acpi_map_cpu2node() for x86 and ia64 respectively.

Change log v4 -> v5:
1. Remove useless code in patch 1.
2. Small improvement of commit message.

Change log v3 -> v4:
1. Fix the kernel panic at boot time. The cause is that I tried to build zonelists
    before per cpu areas were initialized.

Change log v2 -> v3:
1. Online memory-less nodes at boot time to map cpus of memory-less nodes.
2. Build zonelists for memory-less nodes so that memory allocator will fall
    back to proper nodes automatically.

Change log v1 -> v2:
1. Split code movement and actual changes. Add patch 1.
2. Synchronize best near online node record when node hotplug happens. In patch 2.
3. Fix some comment.

Gu Zheng (4):
   x86, acpi, cpu-hotplug: Enable acpi to register all possible cpus at
     boot time.
   x86, acpi, cpu-hotplug: Introduce cpuid_to_apicid[] array to store
     persistent cpuid <-> apicid mapping.
   x86, acpi, cpu-hotplug: Enable MADT APIs to return disabled apicid.
   x86, acpi, cpu-hotplug: Set persistent cpuid <-> nodeid mapping when
     booting.

Tang Chen (1):
   x86, memhp, numa: Online memory-less nodes at boot time.

  arch/ia64/kernel/acpi.c       |   3 +-
  arch/x86/include/asm/mpspec.h |   1 +
  arch/x86/kernel/acpi/boot.c   |  10 ++--
  arch/x86/kernel/apic/apic.c   |  85 +++++++++++++++++++++++++----
  arch/x86/mm/numa.c            |  27 +++++-----
  drivers/acpi/acpi_processor.c |  10 +++-
  drivers/acpi/bus.c            |   3 ++
  drivers/acpi/processor_core.c | 122 ++++++++++++++++++++++++++++++++++--------
  include/linux/acpi.h          |   2 +
  9 files changed, 212 insertions(+), 51 deletions(-)




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