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Re: [PATCH v2 6/8] xen/lib: Add topology generator for x86



On Wed, May 08, 2024 at 01:39:25PM +0100, Alejandro Vallejo wrote:
> Add a helper to populate topology leaves in the cpu policy from
> threads/core and cores/package counts.
> 
> No functional change, as it's not connected to anything yet.

There is a functional change in test-cpu-policy.c.

Maybe the commit message needs to be updated to reflect the added
testing to test-cpu-policy.c using the newly introduced helper to
generate topologies?

> 
> Signed-off-by: Alejandro Vallejo <alejandro.vallejo@xxxxxxxxx>
> ---
> v2:
>   * New patch. Extracted from v1/patch6
> ---
>  tools/tests/cpu-policy/test-cpu-policy.c | 128 +++++++++++++++++++++++
>  xen/include/xen/lib/x86/cpu-policy.h     |  16 +++
>  xen/lib/x86/policy.c                     |  86 +++++++++++++++
>  3 files changed, 230 insertions(+)
> 
> diff --git a/tools/tests/cpu-policy/test-cpu-policy.c 
> b/tools/tests/cpu-policy/test-cpu-policy.c
> index 301df2c00285..0ba8c418b1b3 100644
> --- a/tools/tests/cpu-policy/test-cpu-policy.c
> +++ b/tools/tests/cpu-policy/test-cpu-policy.c
> @@ -650,6 +650,132 @@ static void test_is_compatible_failure(void)
>      }
>  }
>  
> +static void test_topo_from_parts(void)
> +{
> +    static const struct test {
> +        unsigned int threads_per_core;
> +        unsigned int cores_per_pkg;
> +        struct cpu_policy policy;
> +    } tests[] = {
> +        {
> +            .threads_per_core = 3, .cores_per_pkg = 1,
> +            .policy = {
> +                .x86_vendor = X86_VENDOR_AMD,
> +                .topo.subleaf = {
> +                    [0] = { .nr_logical = 3, .level = 0, .type = 1, 
> .id_shift = 2, },
> +                    [1] = { .nr_logical = 1, .level = 1, .type = 2, 
> .id_shift = 2, },
> +                },
> +            },
> +        },
> +        {
> +            .threads_per_core = 1, .cores_per_pkg = 3,
> +            .policy = {
> +                .x86_vendor = X86_VENDOR_AMD,
> +                .topo.subleaf = {
> +                    [0] = { .nr_logical = 1, .level = 0, .type = 1, 
> .id_shift = 0, },
> +                    [1] = { .nr_logical = 3, .level = 1, .type = 2, 
> .id_shift = 2, },
> +                },
> +            },
> +        },
> +        {
> +            .threads_per_core = 7, .cores_per_pkg = 5,
> +            .policy = {
> +                .x86_vendor = X86_VENDOR_AMD,
> +                .topo.subleaf = {
> +                    [0] = { .nr_logical = 7, .level = 0, .type = 1, 
> .id_shift = 3, },
> +                    [1] = { .nr_logical = 5, .level = 1, .type = 2, 
> .id_shift = 6, },
> +                },
> +            },
> +        },
> +        {
> +            .threads_per_core = 2, .cores_per_pkg = 128,
> +            .policy = {
> +                .x86_vendor = X86_VENDOR_AMD,
> +                .topo.subleaf = {
> +                    [0] = { .nr_logical = 2, .level = 0, .type = 1, 
> .id_shift = 1, },
> +                    [1] = { .nr_logical = 128, .level = 1, .type = 2, 
> .id_shift = 8, },
> +                },
> +            },
> +        },
> +        {
> +            .threads_per_core = 3, .cores_per_pkg = 1,
> +            .policy = {
> +                .x86_vendor = X86_VENDOR_INTEL,
> +                .topo.subleaf = {
> +                    [0] = { .nr_logical = 3, .level = 0, .type = 1, 
> .id_shift = 2, },
> +                    [1] = { .nr_logical = 3, .level = 1, .type = 2, 
> .id_shift = 2, },
> +                },
> +            },
> +        },
> +        {
> +            .threads_per_core = 1, .cores_per_pkg = 3,
> +            .policy = {
> +                .x86_vendor = X86_VENDOR_INTEL,
> +                .topo.subleaf = {
> +                    [0] = { .nr_logical = 1, .level = 0, .type = 1, 
> .id_shift = 0, },
> +                    [1] = { .nr_logical = 3, .level = 1, .type = 2, 
> .id_shift = 2, },
> +                },
> +            },
> +        },
> +        {
> +            .threads_per_core = 7, .cores_per_pkg = 5,
> +            .policy = {
> +                .x86_vendor = X86_VENDOR_INTEL,
> +                .topo.subleaf = {
> +                    [0] = { .nr_logical = 7, .level = 0, .type = 1, 
> .id_shift = 3, },
> +                    [1] = { .nr_logical = 35, .level = 1, .type = 2, 
> .id_shift = 6, },
> +                },
> +            },
> +        },
> +        {
> +            .threads_per_core = 2, .cores_per_pkg = 128,
> +            .policy = {
> +                .x86_vendor = X86_VENDOR_INTEL,
> +                .topo.subleaf = {
> +                    [0] = { .nr_logical = 2, .level = 0, .type = 1, 
> .id_shift = 1, },
> +                    [1] = { .nr_logical = 256, .level = 1, .type = 2, 
> .id_shift = 8, },

You don't need the array index in the initialization:

                .topo.subleaf = {
                    { .nr_logical = 2, .level = 0, .type = 1, .id_shift = 1, },
                    { .nr_logical = 256, .level = 1, .type = 2,
                      .id_shift = 8, },
                }

And lines should be limited to 80 columns if possible.

> +                },
> +            },
> +        },
> +    };
> +
> +    printf("Testing topology synthesis from parts:\n");
> +
> +    for ( size_t i = 0; i < ARRAY_SIZE(tests); ++i )
> +    {
> +        const struct test *t = &tests[i];
> +        struct cpu_policy actual = { .x86_vendor = t->policy.x86_vendor };
> +        int rc = x86_topo_from_parts(&actual, t->threads_per_core, 
> t->cores_per_pkg);
> +
> +        if ( rc || memcmp(&actual.topo, &t->policy.topo, 
> sizeof(actual.topo)) )
> +        {
> +#define TOPO(n) topo.subleaf[(n)]
> +            fail("FAIL[%d] - '%s %u t/c, %u c/p'\n",
> +                 rc,
> +                 x86_cpuid_vendor_to_str(t->policy.x86_vendor),
> +                 t->threads_per_core, t->cores_per_pkg);
> +            printf("  subleaf=%u  expected_n=%u actual_n=%u\n"
> +                   "             expected_lvl=%u actual_lvl=%u\n"
> +                   "             expected_type=%u actual_type=%u\n"
> +                   "             expected_shift=%u actual_shift=%u\n",
> +                   0, t->policy.TOPO(0).nr_logical, 
> actual.TOPO(0).nr_logical,
> +                      t->policy.TOPO(0).level,      actual.TOPO(0).level,
> +                      t->policy.TOPO(0).type,       actual.TOPO(0).type,
> +                      t->policy.TOPO(0).id_shift,   actual.TOPO(0).id_shift);
> +
> +            printf("  subleaf=%u  expected_n=%u actual_n=%u\n"
> +                   "             expected_lvl=%u actual_lvl=%u\n"
> +                   "             expected_type=%u actual_type=%u\n"
> +                   "             expected_shift=%u actual_shift=%u\n",
> +                   1, t->policy.TOPO(1).nr_logical, 
> actual.TOPO(1).nr_logical,
> +                      t->policy.TOPO(1).level,      actual.TOPO(1).level,
> +                      t->policy.TOPO(1).type,       actual.TOPO(1).type,
> +                      t->policy.TOPO(1).id_shift,   actual.TOPO(1).id_shift);
> +#undef TOPO

Seeing the usage of the macro, maybe you could even do something like:

TOPO(n, f)  t->policy.topo.subleaf[(n)].f, actual.topo.subleaf[(n)].f

This will limit a bit the repetition of the "t->policy..., actual..."
tuple.

> +        }
> +    }
> +}
> +
>  int main(int argc, char **argv)
>  {
>      printf("CPU Policy unit tests\n");
> @@ -667,6 +793,8 @@ int main(int argc, char **argv)
>      test_is_compatible_success();
>      test_is_compatible_failure();
>  
> +    test_topo_from_parts();
> +
>      if ( nr_failures )
>          printf("Done: %u failures\n", nr_failures);
>      else
> diff --git a/xen/include/xen/lib/x86/cpu-policy.h 
> b/xen/include/xen/lib/x86/cpu-policy.h
> index 392320b9adbe..f5df18e9f77c 100644
> --- a/xen/include/xen/lib/x86/cpu-policy.h
> +++ b/xen/include/xen/lib/x86/cpu-policy.h
> @@ -551,6 +551,22 @@ int x86_cpu_policies_are_compatible(const struct 
> cpu_policy *host,
>   */
>  uint32_t x86_x2apic_id_from_vcpu_id(const struct cpu_policy *p, uint32_t id);
>  
> +/**
> + * Synthesise topology information in `p` given high-level constraints
> + *
> + * Topology is given in various fields accross several leaves, some of
> + * which are vendor-specific. This function uses the policy itself to
> + * derive such leaves from threads/core and cores/package.
> + *
> + * @param p                   CPU policy of the domain.
> + * @param threads_per_core    threads/core. Doesn't need to be a power of 2.
> + * @param cores_per_package   cores/package. Doesn't need to be a power of 2.
> + * @return                    0 on success; -errno on failure
> + */
> +int x86_topo_from_parts(struct cpu_policy *p,
> +                        unsigned int threads_per_core,
> +                        unsigned int cores_per_pkg);
> +
>  #endif /* !XEN_LIB_X86_POLICIES_H */
>  
>  /*
> diff --git a/xen/lib/x86/policy.c b/xen/lib/x86/policy.c
> index 4cef658feeb8..d033ee5398dd 100644
> --- a/xen/lib/x86/policy.c
> +++ b/xen/lib/x86/policy.c
> @@ -13,6 +13,92 @@ uint32_t x86_x2apic_id_from_vcpu_id(const struct 
> cpu_policy *p, uint32_t id)
>      return vcpu_id * 2;
>  }
>  
> +static unsigned int order(unsigned int n)
> +{
> +    return 8 * sizeof(n) - __builtin_clz(n);

Do we need to assert that n is not 0, otherwise the return of
__builtin_clz() is undefined.

I think the usage below doesn't pass 0 to __builtin_clz() in any case,
but better add the check IMO.

Is __builtin_clz() also available in all versions of GCC and CLANG
that we support?  I have no idea when this was introduced.

> +}
> +
> +int x86_topo_from_parts(struct cpu_policy *p,
> +                        unsigned int threads_per_core,
> +                        unsigned int cores_per_pkg)
> +{
> +    unsigned int threads_per_pkg = threads_per_core * cores_per_pkg;
> +    unsigned int apic_id_size;
> +
> +    if ( !p || !threads_per_core || !cores_per_pkg )
> +        return -EINVAL;
> +
> +    p->basic.max_leaf = MAX(0xb, p->basic.max_leaf);
> +
> +    memset(p->topo.raw, 0, sizeof(p->topo.raw));
> +
> +    /* thread level */
> +    p->topo.subleaf[0].nr_logical = threads_per_core;
> +    p->topo.subleaf[0].id_shift = 0;
> +    p->topo.subleaf[0].level = 0;
> +    p->topo.subleaf[0].type = 1;
> +    if ( threads_per_core > 1 )
> +        p->topo.subleaf[0].id_shift = order(threads_per_core - 1);
> +
> +    /* core level */
> +    p->topo.subleaf[1].nr_logical = cores_per_pkg;
> +    if ( p->x86_vendor == X86_VENDOR_INTEL )
> +        p->topo.subleaf[1].nr_logical = threads_per_pkg;
> +    p->topo.subleaf[1].id_shift = p->topo.subleaf[0].id_shift;
> +    p->topo.subleaf[1].level = 1;
> +    p->topo.subleaf[1].type = 2;
> +    if ( cores_per_pkg > 1 )
> +        p->topo.subleaf[1].id_shift += order(cores_per_pkg - 1);
> +
> +    apic_id_size = p->topo.subleaf[1].id_shift;
> +
> +    /*
> +     * Contrary to what the name might seem to imply. HTT is an enabler for
> +     * SMP and there's no harm in setting it even with a single vCPU.
> +     */
> +    p->basic.htt = true;
> +    p->basic.lppp = MIN(0xff, p->basic.lppp);
> +
> +    switch ( p->x86_vendor )
> +    {
> +        case X86_VENDOR_INTEL: {
> +            struct cpuid_cache_leaf *sl = p->cache.subleaf;

Newline please.

> +            for ( size_t i = 0; sl->type &&
> +                                i < ARRAY_SIZE(p->cache.raw); i++, sl++ )
> +            {
> +                sl->cores_per_package = cores_per_pkg - 1;
> +                sl->threads_per_cache = threads_per_core - 1;
> +                if ( sl->type == 3 /* unified cache */ )
> +                    sl->threads_per_cache = threads_per_pkg - 1;
> +            }
> +            break;
> +        }

Newline here also.

> +        case X86_VENDOR_AMD:
> +        case X86_VENDOR_HYGON:
> +            /* Expose p->basic.lppp */
> +            p->extd.cmp_legacy = true;
> +
> +            /* Clip NC to the maximum value it can hold */
> +            p->extd.nc = 0xff;
> +            if ( threads_per_pkg <= 0xff )
> +                p->extd.nc = threads_per_pkg - 1;
> +
> +            /* TODO: Expose leaf e1E */
> +            p->extd.topoext = false;
> +
> +            /*
> +             * Clip APIC ID to 8 bits, as that's what high core-count 
> machines do

Overly long line?  And missing full stop.

> +             *
> +             * That what AMD EPYC 9654 does with >256 CPUs
                  ^ That's

Thanks, Roger.



 


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