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[1/2] ACPI: PPTT: Populate cacheinfo entirely with PPTT

Message ID 20240407123829.36474-1-cuiyunhui@bytedance.com (mailing list archive)
State Superseded
Headers show
Series [1/2] ACPI: PPTT: Populate cacheinfo entirely with PPTT | expand

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Context Check Description
conchuod/vmtest-for-next-PR fail PR summary
conchuod/patch-1-test-1 success .github/scripts/patches/tests/build_rv32_defconfig.sh
conchuod/patch-1-test-2 success .github/scripts/patches/tests/build_rv64_clang_allmodconfig.sh
conchuod/patch-1-test-3 success .github/scripts/patches/tests/build_rv64_gcc_allmodconfig.sh
conchuod/patch-1-test-4 success .github/scripts/patches/tests/build_rv64_nommu_k210_defconfig.sh
conchuod/patch-1-test-5 success .github/scripts/patches/tests/build_rv64_nommu_virt_defconfig.sh
conchuod/patch-1-test-6 warning .github/scripts/patches/tests/checkpatch.sh
conchuod/patch-1-test-7 success .github/scripts/patches/tests/dtb_warn_rv64.sh
conchuod/patch-1-test-8 success .github/scripts/patches/tests/header_inline.sh
conchuod/patch-1-test-9 fail .github/scripts/patches/tests/kdoc.sh
conchuod/patch-1-test-10 success .github/scripts/patches/tests/module_param.sh
conchuod/patch-1-test-11 success .github/scripts/patches/tests/verify_fixes.sh
conchuod/patch-1-test-12 success .github/scripts/patches/tests/verify_signedoff.sh

Commit Message

Yunhui Cui April 7, 2024, 12:38 p.m. UTC
When the type and level information of this_leaf cannot be obtained
from arch, cacheinfo is completely filled in with the content of PPTT.

Signed-off-by: Yunhui Cui <cuiyunhui@bytedance.com>
---
 drivers/acpi/pptt.c | 135 ++++++++++++++++++++++++++++++++++++++++----
 1 file changed, 124 insertions(+), 11 deletions(-)

Comments

Yunhui Cui April 9, 2024, 6:11 a.m. UTC | #1
Added committers of pptt.c. Could you give some comments? thanks.

On Sun, Apr 7, 2024 at 8:39 PM Yunhui Cui <cuiyunhui@bytedance.com> wrote:
>
> When the type and level information of this_leaf cannot be obtained
> from arch, cacheinfo is completely filled in with the content of PPTT.
>
> Signed-off-by: Yunhui Cui <cuiyunhui@bytedance.com>
> ---
>  drivers/acpi/pptt.c | 135 ++++++++++++++++++++++++++++++++++++++++----
>  1 file changed, 124 insertions(+), 11 deletions(-)
>
> diff --git a/drivers/acpi/pptt.c b/drivers/acpi/pptt.c
> index a35dd0e41c27..6c54fc8e3039 100644
> --- a/drivers/acpi/pptt.c
> +++ b/drivers/acpi/pptt.c
> @@ -21,6 +21,9 @@
>  #include <linux/cacheinfo.h>
>  #include <acpi/processor.h>
>
> +void acpi_fill_cacheinfo(struct acpi_pptt_cache *cache, struct acpi_table_header *table,
> +                        int cpu, int level, int *index);
> +
>  static struct acpi_subtable_header *fetch_pptt_subtable(struct acpi_table_header *table_hdr,
>                                                         u32 pptt_ref)
>  {
> @@ -77,6 +80,18 @@ static inline bool acpi_pptt_match_type(int table_type, int type)
>                 table_type & ACPI_PPTT_CACHE_TYPE_UNIFIED & type);
>  }
>
> +static inline u32 get_cache_id(struct acpi_pptt_cache *cache)
> +{
> +       struct acpi_pptt_cache_v1 *cache_v1;
> +
> +       if (cache->flags & ACPI_PPTT_CACHE_ID_VALID) {
> +               cache_v1 = ACPI_ADD_PTR(struct acpi_pptt_cache_v1,
> +                                       cache, sizeof(struct acpi_pptt_cache));
> +               return cache_v1->cache_id;
> +       }
> +       return 0;
> +}
> +
>  /**
>   * acpi_pptt_walk_cache() - Attempt to find the requested acpi_pptt_cache
>   * @table_hdr: Pointer to the head of the PPTT table
> @@ -104,7 +119,7 @@ static unsigned int acpi_pptt_walk_cache(struct acpi_table_header *table_hdr,
>                                          unsigned int *split_levels,
>                                          struct acpi_subtable_header *res,
>                                          struct acpi_pptt_cache **found,
> -                                        unsigned int level, int type)
> +                                        unsigned int level, int type, int cpu, int *index)
>  {
>         struct acpi_pptt_cache *cache;
>
> @@ -125,7 +140,7 @@ static unsigned int acpi_pptt_walk_cache(struct acpi_table_header *table_hdr,
>                      acpi_pptt_match_type(cache->attributes, ACPI_PPTT_CACHE_TYPE_INSTR)))
>                         *split_levels = local_level;
>
> -               if (local_level == level &&
> +               if (level && local_level == level &&
>                     acpi_pptt_match_type(cache->attributes, type)) {
>                         if (*found != NULL && cache != *found)
>                                 pr_warn("Found duplicate cache level/type unable to determine uniqueness\n");
> @@ -137,7 +152,9 @@ static unsigned int acpi_pptt_walk_cache(struct acpi_table_header *table_hdr,
>                          * to verify that we don't find a duplicate
>                          * cache node.
>                          */
> -               }
> +               } else
> +                       acpi_fill_cacheinfo(cache, table_hdr, cpu, local_level, index);
> +
>                 cache = fetch_pptt_cache(table_hdr, cache->next_level_of_cache);
>         }
>         return local_level;
> @@ -147,7 +164,7 @@ static struct acpi_pptt_cache *
>  acpi_find_cache_level(struct acpi_table_header *table_hdr,
>                       struct acpi_pptt_processor *cpu_node,
>                       unsigned int *starting_level, unsigned int *split_levels,
> -                     unsigned int level, int type)
> +                     unsigned int level, int type, int cpu, int *index)
>  {
>         struct acpi_subtable_header *res;
>         unsigned int number_of_levels = *starting_level;
> @@ -161,7 +178,8 @@ acpi_find_cache_level(struct acpi_table_header *table_hdr,
>
>                 local_level = acpi_pptt_walk_cache(table_hdr, *starting_level,
>                                                    split_levels, res, &ret,
> -                                                  level, type);
> +                                                  level, type, cpu, index);
> +
>                 /*
>                  * we are looking for the max depth. Since its potentially
>                  * possible for a given node to have resources with differing
> @@ -197,7 +215,7 @@ static void acpi_count_levels(struct acpi_table_header *table_hdr,
>                               unsigned int *levels, unsigned int *split_levels)
>  {
>         do {
> -               acpi_find_cache_level(table_hdr, cpu_node, levels, split_levels, 0, 0);
> +               acpi_find_cache_level(table_hdr, cpu_node, levels, split_levels, 0, 0, 0, NULL);
>                 cpu_node = fetch_pptt_node(table_hdr, cpu_node->parent);
>         } while (cpu_node);
>  }
> @@ -316,6 +334,7 @@ static u8 acpi_cache_type(enum cache_type type)
>  }
>
>  static struct acpi_pptt_cache *acpi_find_cache_node(struct acpi_table_header *table_hdr,
> +                                                   int cpu,
>                                                     u32 acpi_cpu_id,
>                                                     enum cache_type type,
>                                                     unsigned int level,
> @@ -325,6 +344,7 @@ static struct acpi_pptt_cache *acpi_find_cache_node(struct acpi_table_header *ta
>         struct acpi_pptt_cache *found = NULL;
>         struct acpi_pptt_processor *cpu_node;
>         u8 acpi_type = acpi_cache_type(type);
> +       int index = 0;
>
>         pr_debug("Looking for CPU %d's level %u cache type %d\n",
>                  acpi_cpu_id, level, acpi_type);
> @@ -333,7 +353,7 @@ static struct acpi_pptt_cache *acpi_find_cache_node(struct acpi_table_header *ta
>
>         while (cpu_node && !found) {
>                 found = acpi_find_cache_level(table_hdr, cpu_node,
> -                                             &total_levels, NULL, level, acpi_type);
> +                                             &total_levels, NULL, level, acpi_type, cpu, &index);
>                 *node = cpu_node;
>                 cpu_node = fetch_pptt_node(table_hdr, cpu_node->parent);
>         }
> @@ -406,8 +426,14 @@ static void update_cache_properties(struct cacheinfo *this_leaf,
>          * specified in PPTT.
>          */
>         if (this_leaf->type == CACHE_TYPE_NOCACHE &&
> -           found_cache->flags & ACPI_PPTT_CACHE_TYPE_VALID)
> -               this_leaf->type = CACHE_TYPE_UNIFIED;
> +           found_cache->flags & ACPI_PPTT_CACHE_TYPE_VALID) {
> +               if (acpi_pptt_match_type(found_cache->attributes, ACPI_PPTT_CACHE_TYPE_DATA))
> +                       this_leaf->type = CACHE_TYPE_DATA;
> +               if (acpi_pptt_match_type(found_cache->attributes, ACPI_PPTT_CACHE_TYPE_INSTR))
> +                       this_leaf->type = CACHE_TYPE_INST;
> +               if (acpi_pptt_match_type(found_cache->attributes, ACPI_PPTT_CACHE_TYPE_UNIFIED))
> +                       this_leaf->type = CACHE_TYPE_UNIFIED;
> +       }
>
>         if (revision >= 3 && (found_cache->flags & ACPI_PPTT_CACHE_ID_VALID)) {
>                 found_cache_v1 = ACPI_ADD_PTR(struct acpi_pptt_cache_v1,
> @@ -417,19 +443,106 @@ static void update_cache_properties(struct cacheinfo *this_leaf,
>         }
>  }
>
> +static bool cache_is_filled_id(struct acpi_pptt_cache *cache, int cpu)
> +{
> +       u32 id = get_cache_id(cache);
> +       struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(cpu);
> +       struct cacheinfo *this_leaf;
> +       int index = 0;
> +
> +       while (index < get_cpu_cacheinfo(cpu)->num_leaves) {
> +               this_leaf = this_cpu_ci->info_list + index;
> +               if (this_leaf->id == id)
> +                       return true;
> +               index++;
> +       }
> +       return false;
> +}
> +
> +static bool cache_is_filled_content(struct acpi_pptt_cache *cache,
> +                                   struct acpi_table_header *table,
> +                                   int cpu, int level, u8 revision)
> +{
> +       struct acpi_pptt_processor *cpu_node;
> +       struct cacheinfo *this_leaf, *tleaf;
> +       struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(cpu);
> +       struct cacheinfo tmp_leaf = {0};
> +       int index = 0;
> +
> +       cpu_node = acpi_find_processor_node(table, get_acpi_id_for_cpu(cpu));
> +       tleaf = &tmp_leaf;
> +       tleaf->level = level;
> +
> +       while (index < get_cpu_cacheinfo(cpu)->num_leaves) {
> +               this_leaf = this_cpu_ci->info_list + index;
> +               update_cache_properties(tleaf, cache,
> +                                       ACPI_TO_POINTER(ACPI_PTR_DIFF(cpu_node, table)),
> +                                       revision);
> +               if (!memcmp(this_leaf, tleaf, sizeof(struct cacheinfo)))
> +                       return true;
> +               index++;
> +       }
> +       return false;
> +}
> +
> +static bool cache_is_filled(struct acpi_pptt_cache *cache, struct acpi_table_header *table,
> +                                  int cpu, int level)
> +{
> +       u8 revision = table->revision;
> +
> +       /*
> +        * If revision >= 3, compare the cacheid directly,
> +        * otherwise compare the entire contents of the cache.
> +        */
> +       if (revision >= 3)
> +               return cache_is_filled_id(cache, cpu);
> +       else
> +               return cache_is_filled_content(cache, table, cpu, level, revision);
> +}
> +
> +void acpi_fill_cacheinfo(struct acpi_pptt_cache *cache,
> +                               struct acpi_table_header *table,
> +                               int cpu, int level, int *index)
> +{
> +       struct cacheinfo *this_leaf;
> +       struct acpi_pptt_processor *cpu_node;
> +       struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(cpu);
> +
> +       if (!index)
> +               return;
> +
> +       cpu_node = acpi_find_processor_node(table, get_acpi_id_for_cpu(cpu));
> +       this_leaf = this_cpu_ci->info_list + *index;
> +       if (this_leaf) {
> +               this_leaf->level = level;
> +               if (cache_is_filled(cache, table, cpu, level))
> +                       return;
> +               update_cache_properties(this_leaf, cache,
> +                                       ACPI_TO_POINTER(ACPI_PTR_DIFF(cpu_node,
> +                                                       table)),
> +                                       table->revision);
> +               *index += 1;
> +       }
> +}
> +
>  static void cache_setup_acpi_cpu(struct acpi_table_header *table,
>                                  unsigned int cpu)
>  {
>         struct acpi_pptt_cache *found_cache;
>         struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(cpu);
>         u32 acpi_cpu_id = get_acpi_id_for_cpu(cpu);
> -       struct cacheinfo *this_leaf;
> +       struct cacheinfo *this_leaf = this_cpu_ci->info_list;
>         unsigned int index = 0;
>         struct acpi_pptt_processor *cpu_node = NULL;
>
> +       if (!this_leaf->type && !this_leaf->level) {
> +               acpi_find_cache_node(table, acpi_cpu_id, cpu, 0, 0, &cpu_node);
> +               return;
> +       }
> +
>         while (index < get_cpu_cacheinfo(cpu)->num_leaves) {
>                 this_leaf = this_cpu_ci->info_list + index;
> -               found_cache = acpi_find_cache_node(table, acpi_cpu_id,
> +               found_cache = acpi_find_cache_node(table, acpi_cpu_id, cpu,
>                                                    this_leaf->type,
>                                                    this_leaf->level,
>                                                    &cpu_node);
> --
> 2.20.1
>

Thanks,
Yunhui
Jeremy Linton April 10, 2024, 1:29 a.m. UTC | #2
Hi,


First thanks for working on this.

On 4/7/24 07:38, Yunhui Cui wrote:
> When the type and level information of this_leaf cannot be obtained
> from arch, cacheinfo is completely filled in with the content of PPTT.

I started reviewing this, based on what I understood to be the need to 
generate the topology entirely from the PPTT. But, it was raising more 
questions than answers because the PPTT is far too flexable in its 
ability to represent cache hierachies that arn't logically useful. For 
example multiple I or D caches at the same level, or I or D caches 
higher in the topology than unified ones.

At least for arm64 (and I think others) there is an understood 
simplification that there will be N levels of split I/D caches and M 
unified levels. And from that, the number of cache leaves are computed 
and allocated, and then we go in and largly skip PPTT cache nodes which 
don't make sense in view of a generic topology like that. (see the 
comment in cacheinfo.c:506)

Both of those pieces of information are available in 
acpi_get_cache_info(). The missing part is marking those N levels of I/D 
cache as such.

Looking at this code I don't really see all the error/allocation 
logic/etc that assures the cache leaf indexing is allocated correctly 
which worries me, although admidditly I could be missing something 
important.

In summary, did you consider just allocating matching I/D caches from 
the number of split levels in acpi_get_cache_info() then removing or 
invalidating the ones that don't have matching PPTT entries after 
running cache_setup_acpi()? Thats a fairly trivial change AFAIK if the 
decision is based on the lack of a cache_id or just changing the 
this_leaf->type = CACHE_TYPE_UNIFIED assignment to the correct type and 
assuring left over CACHE_TYPE_NOCACHE entries are removed. I think much 
of the "significant work" is likely fixed for that to work. Just 
tweaking detect_cache_level()/get_cache_type() to set 
CACHE_TYPE_SEPERATE if the level is less than the acpi_get_cache_info() 
split_level value probably also does the majority of what you need 
outside of having unequal counts of I and D caches.

There are probably other choices as well, thoughts?


Thanks,







> 
> Signed-off-by: Yunhui Cui <cuiyunhui@bytedance.com>
> ---
>   drivers/acpi/pptt.c | 135 ++++++++++++++++++++++++++++++++++++++++----
>   1 file changed, 124 insertions(+), 11 deletions(-)
> 
> diff --git a/drivers/acpi/pptt.c b/drivers/acpi/pptt.c
> index a35dd0e41c27..6c54fc8e3039 100644
> --- a/drivers/acpi/pptt.c
> +++ b/drivers/acpi/pptt.c
> @@ -21,6 +21,9 @@
>   #include <linux/cacheinfo.h>
>   #include <acpi/processor.h>
>   
> +void acpi_fill_cacheinfo(struct acpi_pptt_cache *cache, struct acpi_table_header *table,
> +			 int cpu, int level, int *index);
> +
>   static struct acpi_subtable_header *fetch_pptt_subtable(struct acpi_table_header *table_hdr,
>   							u32 pptt_ref)
>   {
> @@ -77,6 +80,18 @@ static inline bool acpi_pptt_match_type(int table_type, int type)
>   		table_type & ACPI_PPTT_CACHE_TYPE_UNIFIED & type);
>   }
>   
> +static inline u32 get_cache_id(struct acpi_pptt_cache *cache)
> +{
> +	struct acpi_pptt_cache_v1 *cache_v1;
> +
> +	if (cache->flags & ACPI_PPTT_CACHE_ID_VALID) {
> +		cache_v1 = ACPI_ADD_PTR(struct acpi_pptt_cache_v1,
> +					cache, sizeof(struct acpi_pptt_cache));
> +		return cache_v1->cache_id;
> +	}
> +	return 0;
> +}
> +
>   /**
>    * acpi_pptt_walk_cache() - Attempt to find the requested acpi_pptt_cache
>    * @table_hdr: Pointer to the head of the PPTT table
> @@ -104,7 +119,7 @@ static unsigned int acpi_pptt_walk_cache(struct acpi_table_header *table_hdr,
>   					 unsigned int *split_levels,
>   					 struct acpi_subtable_header *res,
>   					 struct acpi_pptt_cache **found,
> -					 unsigned int level, int type)
> +					 unsigned int level, int type, int cpu, int *index)
>   {
>   	struct acpi_pptt_cache *cache;
>   
> @@ -125,7 +140,7 @@ static unsigned int acpi_pptt_walk_cache(struct acpi_table_header *table_hdr,
>   		     acpi_pptt_match_type(cache->attributes, ACPI_PPTT_CACHE_TYPE_INSTR)))
>   			*split_levels = local_level;
>   
> -		if (local_level == level &&
> +		if (level && local_level == level &&
>   		    acpi_pptt_match_type(cache->attributes, type)) {
>   			if (*found != NULL && cache != *found)
>   				pr_warn("Found duplicate cache level/type unable to determine uniqueness\n");
> @@ -137,7 +152,9 @@ static unsigned int acpi_pptt_walk_cache(struct acpi_table_header *table_hdr,
>   			 * to verify that we don't find a duplicate
>   			 * cache node.
>   			 */
> -		}
> +		} else
> +			acpi_fill_cacheinfo(cache, table_hdr, cpu, local_level, index);
> +
>   		cache = fetch_pptt_cache(table_hdr, cache->next_level_of_cache);
>   	}
>   	return local_level;
> @@ -147,7 +164,7 @@ static struct acpi_pptt_cache *
>   acpi_find_cache_level(struct acpi_table_header *table_hdr,
>   		      struct acpi_pptt_processor *cpu_node,
>   		      unsigned int *starting_level, unsigned int *split_levels,
> -		      unsigned int level, int type)
> +		      unsigned int level, int type, int cpu, int *index)
>   {
>   	struct acpi_subtable_header *res;
>   	unsigned int number_of_levels = *starting_level;
> @@ -161,7 +178,8 @@ acpi_find_cache_level(struct acpi_table_header *table_hdr,
>   
>   		local_level = acpi_pptt_walk_cache(table_hdr, *starting_level,
>   						   split_levels, res, &ret,
> -						   level, type);
> +						   level, type, cpu, index);
> +
>   		/*
>   		 * we are looking for the max depth. Since its potentially
>   		 * possible for a given node to have resources with differing
> @@ -197,7 +215,7 @@ static void acpi_count_levels(struct acpi_table_header *table_hdr,
>   			      unsigned int *levels, unsigned int *split_levels)
>   {
>   	do {
> -		acpi_find_cache_level(table_hdr, cpu_node, levels, split_levels, 0, 0);
> +		acpi_find_cache_level(table_hdr, cpu_node, levels, split_levels, 0, 0, 0, NULL);
>   		cpu_node = fetch_pptt_node(table_hdr, cpu_node->parent);
>   	} while (cpu_node);
>   }
> @@ -316,6 +334,7 @@ static u8 acpi_cache_type(enum cache_type type)
>   }
>   
>   static struct acpi_pptt_cache *acpi_find_cache_node(struct acpi_table_header *table_hdr,
> +						    int cpu,
>   						    u32 acpi_cpu_id,
>   						    enum cache_type type,
>   						    unsigned int level,
> @@ -325,6 +344,7 @@ static struct acpi_pptt_cache *acpi_find_cache_node(struct acpi_table_header *ta
>   	struct acpi_pptt_cache *found = NULL;
>   	struct acpi_pptt_processor *cpu_node;
>   	u8 acpi_type = acpi_cache_type(type);
> +	int index = 0;
>   
>   	pr_debug("Looking for CPU %d's level %u cache type %d\n",
>   		 acpi_cpu_id, level, acpi_type);
> @@ -333,7 +353,7 @@ static struct acpi_pptt_cache *acpi_find_cache_node(struct acpi_table_header *ta
>   
>   	while (cpu_node && !found) {
>   		found = acpi_find_cache_level(table_hdr, cpu_node,
> -					      &total_levels, NULL, level, acpi_type);
> +					      &total_levels, NULL, level, acpi_type, cpu, &index);
>   		*node = cpu_node;
>   		cpu_node = fetch_pptt_node(table_hdr, cpu_node->parent);
>   	}
> @@ -406,8 +426,14 @@ static void update_cache_properties(struct cacheinfo *this_leaf,
>   	 * specified in PPTT.
>   	 */
>   	if (this_leaf->type == CACHE_TYPE_NOCACHE &&
> -	    found_cache->flags & ACPI_PPTT_CACHE_TYPE_VALID)
> -		this_leaf->type = CACHE_TYPE_UNIFIED;
> +	    found_cache->flags & ACPI_PPTT_CACHE_TYPE_VALID) {
> +		if (acpi_pptt_match_type(found_cache->attributes, ACPI_PPTT_CACHE_TYPE_DATA))
> +			this_leaf->type = CACHE_TYPE_DATA;
> +		if (acpi_pptt_match_type(found_cache->attributes, ACPI_PPTT_CACHE_TYPE_INSTR))
> +			this_leaf->type = CACHE_TYPE_INST;
> +		if (acpi_pptt_match_type(found_cache->attributes, ACPI_PPTT_CACHE_TYPE_UNIFIED))
> +			this_leaf->type = CACHE_TYPE_UNIFIED;
> +	}
>   
>   	if (revision >= 3 && (found_cache->flags & ACPI_PPTT_CACHE_ID_VALID)) {
>   		found_cache_v1 = ACPI_ADD_PTR(struct acpi_pptt_cache_v1,
> @@ -417,19 +443,106 @@ static void update_cache_properties(struct cacheinfo *this_leaf,
>   	}
>   }
>   
> +static bool cache_is_filled_id(struct acpi_pptt_cache *cache, int cpu)
> +{
> +	u32 id = get_cache_id(cache);
> +	struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(cpu);
> +	struct cacheinfo *this_leaf;
> +	int index = 0;
> +
> +	while (index < get_cpu_cacheinfo(cpu)->num_leaves) {
> +		this_leaf = this_cpu_ci->info_list + index;
> +		if (this_leaf->id == id)
> +			return true;
> +		index++;
> +	}
> +	return false;
> +}
> +
> +static bool cache_is_filled_content(struct acpi_pptt_cache *cache,
> +				    struct acpi_table_header *table,
> +				    int cpu, int level, u8 revision)
> +{
> +	struct acpi_pptt_processor *cpu_node;
> +	struct cacheinfo *this_leaf, *tleaf;
> +	struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(cpu);
> +	struct cacheinfo tmp_leaf = {0};
> +	int index = 0;
> +
> +	cpu_node = acpi_find_processor_node(table, get_acpi_id_for_cpu(cpu));
> +	tleaf = &tmp_leaf;
> +	tleaf->level = level;
> +
> +	while (index < get_cpu_cacheinfo(cpu)->num_leaves) {
> +		this_leaf = this_cpu_ci->info_list + index;
> +		update_cache_properties(tleaf, cache,
> +					ACPI_TO_POINTER(ACPI_PTR_DIFF(cpu_node, table)),
> +					revision);
> +		if (!memcmp(this_leaf, tleaf, sizeof(struct cacheinfo)))
> +			return true;
> +		index++;
> +	}
> +	return false;
> +}
> +
> +static bool cache_is_filled(struct acpi_pptt_cache *cache, struct acpi_table_header *table,
> +				   int cpu, int level)
> +{
> +	u8 revision = table->revision;
> +
> +	/*
> +	 * If revision >= 3, compare the cacheid directly,
> +	 * otherwise compare the entire contents of the cache.
> +	 */
> +	if (revision >= 3)
> +		return cache_is_filled_id(cache, cpu);
> +	else
> +		return cache_is_filled_content(cache, table, cpu, level, revision);
> +}
> +
> +void acpi_fill_cacheinfo(struct acpi_pptt_cache *cache,
> +				struct acpi_table_header *table,
> +				int cpu, int level, int *index)
> +{
> +	struct cacheinfo *this_leaf;
> +	struct acpi_pptt_processor *cpu_node;
> +	struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(cpu);
> +
> +	if (!index)
> +		return;
> +
> +	cpu_node = acpi_find_processor_node(table, get_acpi_id_for_cpu(cpu));
> +	this_leaf = this_cpu_ci->info_list + *index;
> +	if (this_leaf) {
> +		this_leaf->level = level;
> +		if (cache_is_filled(cache, table, cpu, level))
> +			return;
> +		update_cache_properties(this_leaf, cache,
> +					ACPI_TO_POINTER(ACPI_PTR_DIFF(cpu_node,
> +							table)),
> +					table->revision);
> +		*index += 1;
> +	}
> +}
> +
>   static void cache_setup_acpi_cpu(struct acpi_table_header *table,
>   				 unsigned int cpu)
>   {
>   	struct acpi_pptt_cache *found_cache;
>   	struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(cpu);
>   	u32 acpi_cpu_id = get_acpi_id_for_cpu(cpu);
> -	struct cacheinfo *this_leaf;
> +	struct cacheinfo *this_leaf = this_cpu_ci->info_list;
>   	unsigned int index = 0;
>   	struct acpi_pptt_processor *cpu_node = NULL;
>   
> +	if (!this_leaf->type && !this_leaf->level) {
> +		acpi_find_cache_node(table, acpi_cpu_id, cpu, 0, 0, &cpu_node);
> +		return;
> +	}
> +
>   	while (index < get_cpu_cacheinfo(cpu)->num_leaves) {
>   		this_leaf = this_cpu_ci->info_list + index;
> -		found_cache = acpi_find_cache_node(table, acpi_cpu_id,
> +		found_cache = acpi_find_cache_node(table, acpi_cpu_id, cpu,
>   						   this_leaf->type,
>   						   this_leaf->level,
>   						   &cpu_node);
Yunhui Cui April 11, 2024, 2:28 a.m. UTC | #3
Hi Jeremy,

On Wed, Apr 10, 2024 at 9:30 AM Jeremy Linton <jeremy.linton@arm.com> wrote:
>
> Hi,
>
>
> First thanks for working on this.
>
> On 4/7/24 07:38, Yunhui Cui wrote:
> > When the type and level information of this_leaf cannot be obtained
> > from arch, cacheinfo is completely filled in with the content of PPTT.
>
> I started reviewing this, based on what I understood to be the need to
> generate the topology entirely from the PPTT. But, it was raising more
> questions than answers because the PPTT is far too flexable in its
> ability to represent cache hierachies that arn't logically useful. For
> example multiple I or D caches at the same level, or I or D caches
> higher in the topology than unified ones.
>
> At least for arm64 (and I think others) there is an understood
> simplification that there will be N levels of split I/D caches and M
> unified levels. And from that, the number of cache leaves are computed
> and allocated, and then we go in and largly skip PPTT cache nodes which
> don't make sense in view of a generic topology like that. (see the
> comment in cacheinfo.c:506)
>
> Both of those pieces of information are available in
> acpi_get_cache_info(). The missing part is marking those N levels of I/D
> cache as such.
>
> Looking at this code I don't really see all the error/allocation
> logic/etc that assures the cache leaf indexing is allocated correctly
> which worries me, although admidditly I could be missing something
> important.
>
> In summary, did you consider just allocating matching I/D caches from
> the number of split levels in acpi_get_cache_info() then removing or
> invalidating the ones that don't have matching PPTT entries after
> running cache_setup_acpi()? Thats a fairly trivial change AFAIK if the
> decision is based on the lack of a cache_id or just changing the
> this_leaf->type = CACHE_TYPE_UNIFIED assignment to the correct type and
> assuring left over CACHE_TYPE_NOCACHE entries are removed. I think much
> of the "significant work" is likely fixed for that to work. Just
> tweaking detect_cache_level()/get_cache_type() to set
> CACHE_TYPE_SEPERATE if the level is less than the acpi_get_cache_info()
> split_level value probably also does the majority of what you need
> outside of having unequal counts of I and D caches.
>
> There are probably other choices as well, thoughts?
>

First, I think the current state of the ACPI PPTT specification meets
the requirements and is logically complete. Otherwise, the PPTT
specification needs to be updated, right?
Our discussion is best focused on the existing and usual case, even on
ARM64, which is as you say "N-level separated I/D cache, M-level
unified".

And then, the problem we have now is that the RISC-V architecture does
not have a set of registers to describe the cache level and type like
ARM64 does, so we need to fully trust the contents of the PPTT table.
Please check the patch:
https://patchwork.kernel.org/project/linux-riscv/patch/20240407123829.36474-2-cuiyunhui@bytedance.com/
.

Judging from this requirement, can you help review this patch? Thanks.


Thanks,
Yunhui
Sudeep Holla April 11, 2024, 9:30 a.m. UTC | #4
On Sun, Apr 07, 2024 at 08:38:28PM +0800, Yunhui Cui wrote:
> When the type and level information of this_leaf cannot be obtained
> from arch, cacheinfo is completely filled in with the content of PPTT.
>

Which platform is this ? Is this arm64 based or something else like RISC-V
based ? That would help to understand some context here.
Yunhui Cui April 12, 2024, 2:10 a.m. UTC | #5
Hi Sudeep,

On Thu, Apr 11, 2024 at 5:30 PM Sudeep Holla <sudeep.holla@arm.com> wrote:
>
> On Sun, Apr 07, 2024 at 08:38:28PM +0800, Yunhui Cui wrote:
> > When the type and level information of this_leaf cannot be obtained
> > from arch, cacheinfo is completely filled in with the content of PPTT.
> >
>
> Which platform is this ? Is this arm64 based or something else like RISC-V
> based ? That would help to understand some context here.
>

Thanks for your response, RISC-V currently has this requirement.
Please see: https://patchwork.kernel.org/project/linux-riscv/patch/20240407123829.36474-2-cuiyunhui@bytedance.com/

Thanks,
Yunhui
Sudeep Holla April 12, 2024, 9:29 a.m. UTC | #6
On Fri, Apr 12, 2024 at 10:10:05AM +0800, yunhui cui wrote:
> Hi Sudeep,
> 
> On Thu, Apr 11, 2024 at 5:30 PM Sudeep Holla <sudeep.holla@arm.com> wrote:
> >
> > On Sun, Apr 07, 2024 at 08:38:28PM +0800, Yunhui Cui wrote:
> > > When the type and level information of this_leaf cannot be obtained
> > > from arch, cacheinfo is completely filled in with the content of PPTT.
> > >
> >
> > Which platform is this ? Is this arm64 based or something else like RISC-V
> > based ? That would help to understand some context here.
> >
> 
> Thanks for your response, RISC-V currently has this requirement.
> Please see: https://patchwork.kernel.org/project/linux-riscv/patch/20240407123829.36474-2-cuiyunhui@bytedance.com/
> 

It would be helpful for the review if you have such information in the
commit message.

--
Regards,
Sudeep
Yunhui Cui April 12, 2024, 9:42 a.m. UTC | #7
Hi Sudeep,

On Fri, Apr 12, 2024 at 5:29 PM Sudeep Holla <sudeep.holla@arm.com> wrote:
>
> On Fri, Apr 12, 2024 at 10:10:05AM +0800, yunhui cui wrote:
> > Hi Sudeep,
> >
> > On Thu, Apr 11, 2024 at 5:30 PM Sudeep Holla <sudeep.holla@arm.com> wrote:
> > >
> > > On Sun, Apr 07, 2024 at 08:38:28PM +0800, Yunhui Cui wrote:
> > > > When the type and level information of this_leaf cannot be obtained
> > > > from arch, cacheinfo is completely filled in with the content of PPTT.
> > > >
> > >
> > > Which platform is this ? Is this arm64 based or something else like RISC-V
> > > based ? That would help to understand some context here.
> > >
> >
> > Thanks for your response, RISC-V currently has this requirement.
> > Please see: https://patchwork.kernel.org/project/linux-riscv/patch/20240407123829.36474-2-cuiyunhui@bytedance.com/
> >
>
> It would be helpful for the review if you have such information in the
> commit message.

Okay, I will update it in the commit message in v2. Do you have some
comments on the content of the patch?

Thanks,
Yunhui
Sudeep Holla April 12, 2024, 9:46 a.m. UTC | #8
On Fri, Apr 12, 2024 at 05:42:22PM +0800, yunhui cui wrote:
> Hi Sudeep,
> 
> On Fri, Apr 12, 2024 at 5:29 PM Sudeep Holla <sudeep.holla@arm.com> wrote:
> >
> > On Fri, Apr 12, 2024 at 10:10:05AM +0800, yunhui cui wrote:
> > > Hi Sudeep,
> > >
> > > On Thu, Apr 11, 2024 at 5:30 PM Sudeep Holla <sudeep.holla@arm.com> wrote:
> > > >
> > > > On Sun, Apr 07, 2024 at 08:38:28PM +0800, Yunhui Cui wrote:
> > > > > When the type and level information of this_leaf cannot be obtained
> > > > > from arch, cacheinfo is completely filled in with the content of PPTT.
> > > > >
> > > >
> > > > Which platform is this ? Is this arm64 based or something else like RISC-V
> > > > based ? That would help to understand some context here.
> > > >
> > >
> > > Thanks for your response, RISC-V currently has this requirement.
> > > Please see: https://patchwork.kernel.org/project/linux-riscv/patch/20240407123829.36474-2-cuiyunhui@bytedance.com/
> > >
> >
> > It would be helpful for the review if you have such information in the
> > commit message.
>
> Okay, I will update it in the commit message in v2. Do you have some
> comments on the content of the patch?
>

I will take a look at the patch later today or early next week now that
I understand the requirement better. Sorry for the delay.

--
Regards,
Sudeep
Jeremy Linton April 12, 2024, 3:03 p.m. UTC | #9
Hi,


On 4/10/24 21:28, yunhui cui wrote:
> Hi Jeremy,
> 
> On Wed, Apr 10, 2024 at 9:30 AM Jeremy Linton <jeremy.linton@arm.com> wrote:
>>
>> Hi,
>>
>>
>> First thanks for working on this.
>>
>> On 4/7/24 07:38, Yunhui Cui wrote:
>>> When the type and level information of this_leaf cannot be obtained
>>> from arch, cacheinfo is completely filled in with the content of PPTT.
>>
>> I started reviewing this, based on what I understood to be the need to
>> generate the topology entirely from the PPTT. But, it was raising more
>> questions than answers because the PPTT is far too flexable in its
>> ability to represent cache hierachies that arn't logically useful. For
>> example multiple I or D caches at the same level, or I or D caches
>> higher in the topology than unified ones.
>>
>> At least for arm64 (and I think others) there is an understood
>> simplification that there will be N levels of split I/D caches and M
>> unified levels. And from that, the number of cache leaves are computed
>> and allocated, and then we go in and largly skip PPTT cache nodes which
>> don't make sense in view of a generic topology like that. (see the
>> comment in cacheinfo.c:506)
>>
>> Both of those pieces of information are available in
>> acpi_get_cache_info(). The missing part is marking those N levels of I/D
>> cache as such.
>>
>> Looking at this code I don't really see all the error/allocation
>> logic/etc that assures the cache leaf indexing is allocated correctly
>> which worries me, although admidditly I could be missing something
>> important.
>>
>> In summary, did you consider just allocating matching I/D caches from
>> the number of split levels in acpi_get_cache_info() then removing or
>> invalidating the ones that don't have matching PPTT entries after
>> running cache_setup_acpi()? Thats a fairly trivial change AFAIK if the
>> decision is based on the lack of a cache_id or just changing the
>> this_leaf->type = CACHE_TYPE_UNIFIED assignment to the correct type and
>> assuring left over CACHE_TYPE_NOCACHE entries are removed. I think much
>> of the "significant work" is likely fixed for that to work. Just
>> tweaking detect_cache_level()/get_cache_type() to set
>> CACHE_TYPE_SEPERATE if the level is less than the acpi_get_cache_info()
>> split_level value probably also does the majority of what you need
>> outside of having unequal counts of I and D caches.
>>
>> There are probably other choices as well, thoughts?
>>
> 
> First, I think the current state of the ACPI PPTT specification meets
> the requirements and is logically complete. Otherwise, the PPTT
> specification needs to be updated, right?

The specification is capable of representing all the actual physical 
topologies I'm aware of, its also capable of representing quite a number 
of topologies that don't make sense to (cant be) build and are largely 
nonsense. There are some further details around replacement and 
allocation which could be represented but were AFAIK not considered 
worth the effort because it makes the representation far more complex.

So, except for minor clarifications I'm not aware of a need to update it.

> Our discussion is best focused on the existing and usual case, even on
> ARM64, which is as you say "N-level separated I/D cache, M-level
> unified".

I understood this was for RISC-V when I reviewed it, but i'm fairly 
certain the general cache topologies of RISC-V machines don't vary in 
their core concepts and layout much from the wide variety of 
possibilities available elsewhere. So its roughly the same problem, you 
will likely have one or two layers of split I/D caches and then a number 
of unified private or shared caches above that.


> 
> And then, the problem we have now is that the RISC-V architecture does
> not have a set of registers to describe the cache level and type like
> ARM64 does, so we need to fully trust the contents of the PPTT table.
> Please check the patch:
> https://patchwork.kernel.org/project/linux-riscv/patch/20240407123829.36474-2-cuiyunhui@bytedance.com/

I don't think "fully trust" is something you really want, or is helpful 
as I suggested above.

I suspect all that is needed is the construction of the missing I/D 
layers, as the existing code will create the Unified layers above as it 
does today. On Arm64 the unified system level caches aren't usually 
described by the core cache registers either, which is why there is that 
existing bit of code to change unknown caches to unified. But it also 
turns out the pptt walking code is capable of providing the information 
to create the I/D layers as well, if they are matched (ex there exists 
an I cache for every D cache at a certain level).

So, more clarity about the kinds of topologies you expect is helpful to 
understand where the current code is failing.

AKA, As I mentioned I'm fairly certain that its possible to construct 
the entire cache topology from the PPTT by changing get_cache_type() to 
return "CACHE_TYPE_SEPERATE" when the level is less than the value 
returned as "split_level" from acpi_get_cache_info(). That tends to 
ignore some edge cases, but I might put them in the "don't to that" bucket.


> .
> 
> Judging from this requirement, can you help review this patch? Thanks.

If so, can you describe the edge case you care about that isn't solved 
with a change like that?

> 
> 
> Thanks,
> Yunhui
Sudeep Holla April 12, 2024, 4:08 p.m. UTC | #10
On Fri, Apr 12, 2024 at 10:03:14AM -0500, Jeremy Linton wrote:
> Hi,
> On 4/10/24 21:28, yunhui cui wrote:
> > Hi Jeremy,
> > 
> > On Wed, Apr 10, 2024 at 9:30 AM Jeremy Linton <jeremy.linton@arm.com> wrote:
> > > 
> > > Hi,
> > > First thanks for working on this.
> > > 
> > > On 4/7/24 07:38, Yunhui Cui wrote:
> > > > When the type and level information of this_leaf cannot be obtained
> > > > from arch, cacheinfo is completely filled in with the content of PPTT.
> > > 
> > > I started reviewing this, based on what I understood to be the need to
> > > generate the topology entirely from the PPTT. But, it was raising more
> > > questions than answers because the PPTT is far too flexable in its
> > > ability to represent cache hierachies that arn't logically useful. For
> > > example multiple I or D caches at the same level, or I or D caches
> > > higher in the topology than unified ones.
> > > 
> > > At least for arm64 (and I think others) there is an understood
> > > simplification that there will be N levels of split I/D caches and M
> > > unified levels. And from that, the number of cache leaves are computed
> > > and allocated, and then we go in and largly skip PPTT cache nodes which
> > > don't make sense in view of a generic topology like that. (see the
> > > comment in cacheinfo.c:506)
> > > 
> > > Both of those pieces of information are available in
> > > acpi_get_cache_info(). The missing part is marking those N levels of I/D
> > > cache as such.
> > > 
> > > Looking at this code I don't really see all the error/allocation
> > > logic/etc that assures the cache leaf indexing is allocated correctly
> > > which worries me, although admidditly I could be missing something
> > > important.
> > > 
> > > In summary, did you consider just allocating matching I/D caches from
> > > the number of split levels in acpi_get_cache_info() then removing or
> > > invalidating the ones that don't have matching PPTT entries after
> > > running cache_setup_acpi()? Thats a fairly trivial change AFAIK if the
> > > decision is based on the lack of a cache_id or just changing the
> > > this_leaf->type = CACHE_TYPE_UNIFIED assignment to the correct type and
> > > assuring left over CACHE_TYPE_NOCACHE entries are removed. I think much
> > > of the "significant work" is likely fixed for that to work. Just
> > > tweaking detect_cache_level()/get_cache_type() to set
> > > CACHE_TYPE_SEPERATE if the level is less than the acpi_get_cache_info()
> > > split_level value probably also does the majority of what you need
> > > outside of having unequal counts of I and D caches.
> > > 
> > > There are probably other choices as well, thoughts?
> > > 
> > 
> > First, I think the current state of the ACPI PPTT specification meets
> > the requirements and is logically complete. Otherwise, the PPTT
> > specification needs to be updated, right?
> 
> The specification is capable of representing all the actual physical
> topologies I'm aware of, its also capable of representing quite a number of
> topologies that don't make sense to (cant be) build and are largely
> nonsense. There are some further details around replacement and allocation
> which could be represented but were AFAIK not considered worth the effort
> because it makes the representation far more complex.
> 
> So, except for minor clarifications I'm not aware of a need to update it.
> 
> > Our discussion is best focused on the existing and usual case, even on
> > ARM64, which is as you say "N-level separated I/D cache, M-level
> > unified".
> 
> I understood this was for RISC-V when I reviewed it, but i'm fairly certain
> the general cache topologies of RISC-V machines don't vary in their core
> concepts and layout much from the wide variety of possibilities available
> elsewhere. So its roughly the same problem, you will likely have one or two
> layers of split I/D caches and then a number of unified private or shared
> caches above that.
> 
> 
> > 
> > And then, the problem we have now is that the RISC-V architecture does
> > not have a set of registers to describe the cache level and type like
> > ARM64 does, so we need to fully trust the contents of the PPTT table.
> > Please check the patch:
> > https://patchwork.kernel.org/project/linux-riscv/patch/20240407123829.36474-2-cuiyunhui@bytedance.com/
> 
> I don't think "fully trust" is something you really want, or is helpful as I
> suggested above.
> 
> I suspect all that is needed is the construction of the missing I/D layers,
> as the existing code will create the Unified layers above as it does today.
> On Arm64 the unified system level caches aren't usually described by the
> core cache registers either, which is why there is that existing bit of code
> to change unknown caches to unified. But it also turns out the pptt walking
> code is capable of providing the information to create the I/D layers as
> well, if they are matched (ex there exists an I cache for every D cache at a
> certain level).
> 
> So, more clarity about the kinds of topologies you expect is helpful to
> understand where the current code is failing.
> 
> AKA, As I mentioned I'm fairly certain that its possible to construct the
> entire cache topology from the PPTT by changing get_cache_type() to return
> "CACHE_TYPE_SEPERATE" when the level is less than the value returned as
> "split_level" from acpi_get_cache_info(). That tends to ignore some edge
> cases, but I might put them in the "don't to that" bucket.
> 
>

I agree with Jeremy's analysis. Can you check if something like below
will address your issue. Not compile tested but you get an idea of what
we are trying to do here.

Regards,
Sudeep

-->8
diff --git i/arch/riscv/kernel/cacheinfo.c w/arch/riscv/kernel/cacheinfo.c
index 09e9b88110d1..92ab73ed5234 100644
--- i/arch/riscv/kernel/cacheinfo.c
+++ w/arch/riscv/kernel/cacheinfo.c
@@ -79,6 +79,27 @@ int populate_cache_leaves(unsigned int cpu)
        struct device_node *prev = NULL;
        int levels = 1, level = 1;

+       if (!acpi_disabled) {
+               int ret, fw_levels, split_levels;
+
+               ret = acpi_get_cache_info(cpu, &fw_levels, &split_levels);
+               if (ret)
+                       return ret;
+
+               /* must be set, so we can drop num_leaves assignment below */
+               this_cpu_ci->num_leaves = fw_levels + split_levels;
+
+               for (idx = 0; level <= this_cpu_ci->num_levels &&
+                    idx < this_cpu_ci->num_leaves; idx++, level++) {
+                       if (level <= split_levels) {
+                               ci_leaf_init(this_leaf++, CACHE_TYPE_DATA, level);
+                               ci_leaf_init(this_leaf++, CACHE_TYPE_INST, level);
+                       } else {
+                               ci_leaf_init(this_leaf++, CACHE_TYPE_UNIFIED, level);
+                       }
+               }
+       }
+
        if (of_property_read_bool(np, "cache-size"))
                ci_leaf_init(this_leaf++, np, CACHE_TYPE_UNIFIED, level);
        if (of_property_read_bool(np, "i-cache-size"))
Sudeep Holla April 12, 2024, 4:27 p.m. UTC | #11
On Fri, Apr 12, 2024 at 05:08:01PM +0100, Sudeep Holla wrote:
> diff --git i/arch/riscv/kernel/cacheinfo.c w/arch/riscv/kernel/cacheinfo.c
> index 09e9b88110d1..92ab73ed5234 100644
> --- i/arch/riscv/kernel/cacheinfo.c
> +++ w/arch/riscv/kernel/cacheinfo.c
> @@ -79,6 +79,27 @@ int populate_cache_leaves(unsigned int cpu)
>         struct device_node *prev = NULL;
>         int levels = 1, level = 1;
> 
> +       if (!acpi_disabled) {
> +               int ret, fw_levels, split_levels;
> +
> +               ret = acpi_get_cache_info(cpu, &fw_levels, &split_levels);
> +               if (ret)
> +                       return ret;
> +
> +               /* must be set, so we can drop num_leaves assignment below */
> +               this_cpu_ci->num_leaves = fw_levels + split_levels;
> +
> +               for (idx = 0; level <= this_cpu_ci->num_levels &&
> +                    idx < this_cpu_ci->num_leaves; idx++, level++) {
> +                       if (level <= split_levels) {
> +                               ci_leaf_init(this_leaf++, CACHE_TYPE_DATA, level);
> +                               ci_leaf_init(this_leaf++, CACHE_TYPE_INST, level);
> +                       } else {
> +                               ci_leaf_init(this_leaf++, CACHE_TYPE_UNIFIED, level);
> +                       }
> +               }

Ofcourse we need to add here,
		return 0;

> +       }
> +
>         if (of_property_read_bool(np, "cache-size"))
>                 ci_leaf_init(this_leaf++, np, CACHE_TYPE_UNIFIED, level);
>         if (of_property_read_bool(np, "i-cache-size"))
>
Yunhui Cui April 14, 2024, 2:40 a.m. UTC | #12
Hi Sudeep,Jeremy,

On Sat, Apr 13, 2024 at 12:27 AM Sudeep Holla <sudeep.holla@arm.com> wrote:
>
> On Fri, Apr 12, 2024 at 05:08:01PM +0100, Sudeep Holla wrote:
> > diff --git i/arch/riscv/kernel/cacheinfo.c w/arch/riscv/kernel/cacheinfo.c
> > index 09e9b88110d1..92ab73ed5234 100644
> > --- i/arch/riscv/kernel/cacheinfo.c
> > +++ w/arch/riscv/kernel/cacheinfo.c
> > @@ -79,6 +79,27 @@ int populate_cache_leaves(unsigned int cpu)
> >         struct device_node *prev = NULL;
> >         int levels = 1, level = 1;
> >
> > +       if (!acpi_disabled) {
> > +               int ret, fw_levels, split_levels;
> > +
> > +               ret = acpi_get_cache_info(cpu, &fw_levels, &split_levels);
> > +               if (ret)
> > +                       return ret;
> > +
> > +               /* must be set, so we can drop num_leaves assignment below */
> > +               this_cpu_ci->num_leaves = fw_levels + split_levels;
> > +
> > +               for (idx = 0; level <= this_cpu_ci->num_levels &&
> > +                    idx < this_cpu_ci->num_leaves; idx++, level++) {
> > +                       if (level <= split_levels) {
> > +                               ci_leaf_init(this_leaf++, CACHE_TYPE_DATA, level);
> > +                               ci_leaf_init(this_leaf++, CACHE_TYPE_INST, level);
> > +                       } else {
> > +                               ci_leaf_init(this_leaf++, CACHE_TYPE_UNIFIED, level);
> > +                       }
> > +               }
>
> Ofcourse we need to add here,
>                 return 0;
>
> > +       }
> > +
> >         if (of_property_read_bool(np, "cache-size"))
> >                 ci_leaf_init(this_leaf++, np, CACHE_TYPE_UNIFIED, level);
> >         if (of_property_read_bool(np, "i-cache-size"))
> >
>
> --
> Regards,
> Sudeep

With this modification, I tested that I can obtain cacheinfo
correctly. If RISC-V later adds a new register describing the cache,
then we can continue to improve it in populate_cache_leaves().
Thank you for your comments and I will add you as Suggested-by in v2.

Thanks,
Yunhui
diff mbox series

Patch

diff --git a/drivers/acpi/pptt.c b/drivers/acpi/pptt.c
index a35dd0e41c27..6c54fc8e3039 100644
--- a/drivers/acpi/pptt.c
+++ b/drivers/acpi/pptt.c
@@ -21,6 +21,9 @@ 
 #include <linux/cacheinfo.h>
 #include <acpi/processor.h>
 
+void acpi_fill_cacheinfo(struct acpi_pptt_cache *cache, struct acpi_table_header *table,
+			 int cpu, int level, int *index);
+
 static struct acpi_subtable_header *fetch_pptt_subtable(struct acpi_table_header *table_hdr,
 							u32 pptt_ref)
 {
@@ -77,6 +80,18 @@  static inline bool acpi_pptt_match_type(int table_type, int type)
 		table_type & ACPI_PPTT_CACHE_TYPE_UNIFIED & type);
 }
 
+static inline u32 get_cache_id(struct acpi_pptt_cache *cache)
+{
+	struct acpi_pptt_cache_v1 *cache_v1;
+
+	if (cache->flags & ACPI_PPTT_CACHE_ID_VALID) {
+		cache_v1 = ACPI_ADD_PTR(struct acpi_pptt_cache_v1,
+					cache, sizeof(struct acpi_pptt_cache));
+		return cache_v1->cache_id;
+	}
+	return 0;
+}
+
 /**
  * acpi_pptt_walk_cache() - Attempt to find the requested acpi_pptt_cache
  * @table_hdr: Pointer to the head of the PPTT table
@@ -104,7 +119,7 @@  static unsigned int acpi_pptt_walk_cache(struct acpi_table_header *table_hdr,
 					 unsigned int *split_levels,
 					 struct acpi_subtable_header *res,
 					 struct acpi_pptt_cache **found,
-					 unsigned int level, int type)
+					 unsigned int level, int type, int cpu, int *index)
 {
 	struct acpi_pptt_cache *cache;
 
@@ -125,7 +140,7 @@  static unsigned int acpi_pptt_walk_cache(struct acpi_table_header *table_hdr,
 		     acpi_pptt_match_type(cache->attributes, ACPI_PPTT_CACHE_TYPE_INSTR)))
 			*split_levels = local_level;
 
-		if (local_level == level &&
+		if (level && local_level == level &&
 		    acpi_pptt_match_type(cache->attributes, type)) {
 			if (*found != NULL && cache != *found)
 				pr_warn("Found duplicate cache level/type unable to determine uniqueness\n");
@@ -137,7 +152,9 @@  static unsigned int acpi_pptt_walk_cache(struct acpi_table_header *table_hdr,
 			 * to verify that we don't find a duplicate
 			 * cache node.
 			 */
-		}
+		} else
+			acpi_fill_cacheinfo(cache, table_hdr, cpu, local_level, index);
+
 		cache = fetch_pptt_cache(table_hdr, cache->next_level_of_cache);
 	}
 	return local_level;
@@ -147,7 +164,7 @@  static struct acpi_pptt_cache *
 acpi_find_cache_level(struct acpi_table_header *table_hdr,
 		      struct acpi_pptt_processor *cpu_node,
 		      unsigned int *starting_level, unsigned int *split_levels,
-		      unsigned int level, int type)
+		      unsigned int level, int type, int cpu, int *index)
 {
 	struct acpi_subtable_header *res;
 	unsigned int number_of_levels = *starting_level;
@@ -161,7 +178,8 @@  acpi_find_cache_level(struct acpi_table_header *table_hdr,
 
 		local_level = acpi_pptt_walk_cache(table_hdr, *starting_level,
 						   split_levels, res, &ret,
-						   level, type);
+						   level, type, cpu, index);
+
 		/*
 		 * we are looking for the max depth. Since its potentially
 		 * possible for a given node to have resources with differing
@@ -197,7 +215,7 @@  static void acpi_count_levels(struct acpi_table_header *table_hdr,
 			      unsigned int *levels, unsigned int *split_levels)
 {
 	do {
-		acpi_find_cache_level(table_hdr, cpu_node, levels, split_levels, 0, 0);
+		acpi_find_cache_level(table_hdr, cpu_node, levels, split_levels, 0, 0, 0, NULL);
 		cpu_node = fetch_pptt_node(table_hdr, cpu_node->parent);
 	} while (cpu_node);
 }
@@ -316,6 +334,7 @@  static u8 acpi_cache_type(enum cache_type type)
 }
 
 static struct acpi_pptt_cache *acpi_find_cache_node(struct acpi_table_header *table_hdr,
+						    int cpu,
 						    u32 acpi_cpu_id,
 						    enum cache_type type,
 						    unsigned int level,
@@ -325,6 +344,7 @@  static struct acpi_pptt_cache *acpi_find_cache_node(struct acpi_table_header *ta
 	struct acpi_pptt_cache *found = NULL;
 	struct acpi_pptt_processor *cpu_node;
 	u8 acpi_type = acpi_cache_type(type);
+	int index = 0;
 
 	pr_debug("Looking for CPU %d's level %u cache type %d\n",
 		 acpi_cpu_id, level, acpi_type);
@@ -333,7 +353,7 @@  static struct acpi_pptt_cache *acpi_find_cache_node(struct acpi_table_header *ta
 
 	while (cpu_node && !found) {
 		found = acpi_find_cache_level(table_hdr, cpu_node,
-					      &total_levels, NULL, level, acpi_type);
+					      &total_levels, NULL, level, acpi_type, cpu, &index);
 		*node = cpu_node;
 		cpu_node = fetch_pptt_node(table_hdr, cpu_node->parent);
 	}
@@ -406,8 +426,14 @@  static void update_cache_properties(struct cacheinfo *this_leaf,
 	 * specified in PPTT.
 	 */
 	if (this_leaf->type == CACHE_TYPE_NOCACHE &&
-	    found_cache->flags & ACPI_PPTT_CACHE_TYPE_VALID)
-		this_leaf->type = CACHE_TYPE_UNIFIED;
+	    found_cache->flags & ACPI_PPTT_CACHE_TYPE_VALID) {
+		if (acpi_pptt_match_type(found_cache->attributes, ACPI_PPTT_CACHE_TYPE_DATA))
+			this_leaf->type = CACHE_TYPE_DATA;
+		if (acpi_pptt_match_type(found_cache->attributes, ACPI_PPTT_CACHE_TYPE_INSTR))
+			this_leaf->type = CACHE_TYPE_INST;
+		if (acpi_pptt_match_type(found_cache->attributes, ACPI_PPTT_CACHE_TYPE_UNIFIED))
+			this_leaf->type = CACHE_TYPE_UNIFIED;
+	}
 
 	if (revision >= 3 && (found_cache->flags & ACPI_PPTT_CACHE_ID_VALID)) {
 		found_cache_v1 = ACPI_ADD_PTR(struct acpi_pptt_cache_v1,
@@ -417,19 +443,106 @@  static void update_cache_properties(struct cacheinfo *this_leaf,
 	}
 }
 
+static bool cache_is_filled_id(struct acpi_pptt_cache *cache, int cpu)
+{
+	u32 id = get_cache_id(cache);
+	struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(cpu);
+	struct cacheinfo *this_leaf;
+	int index = 0;
+
+	while (index < get_cpu_cacheinfo(cpu)->num_leaves) {
+		this_leaf = this_cpu_ci->info_list + index;
+		if (this_leaf->id == id)
+			return true;
+		index++;
+	}
+	return false;
+}
+
+static bool cache_is_filled_content(struct acpi_pptt_cache *cache,
+				    struct acpi_table_header *table,
+				    int cpu, int level, u8 revision)
+{
+	struct acpi_pptt_processor *cpu_node;
+	struct cacheinfo *this_leaf, *tleaf;
+	struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(cpu);
+	struct cacheinfo tmp_leaf = {0};
+	int index = 0;
+
+	cpu_node = acpi_find_processor_node(table, get_acpi_id_for_cpu(cpu));
+	tleaf = &tmp_leaf;
+	tleaf->level = level;
+
+	while (index < get_cpu_cacheinfo(cpu)->num_leaves) {
+		this_leaf = this_cpu_ci->info_list + index;
+		update_cache_properties(tleaf, cache,
+					ACPI_TO_POINTER(ACPI_PTR_DIFF(cpu_node, table)),
+					revision);
+		if (!memcmp(this_leaf, tleaf, sizeof(struct cacheinfo)))
+			return true;
+		index++;
+	}
+	return false;
+}
+
+static bool cache_is_filled(struct acpi_pptt_cache *cache, struct acpi_table_header *table,
+				   int cpu, int level)
+{
+	u8 revision = table->revision;
+
+	/*
+	 * If revision >= 3, compare the cacheid directly,
+	 * otherwise compare the entire contents of the cache.
+	 */
+	if (revision >= 3)
+		return cache_is_filled_id(cache, cpu);
+	else
+		return cache_is_filled_content(cache, table, cpu, level, revision);
+}
+
+void acpi_fill_cacheinfo(struct acpi_pptt_cache *cache,
+				struct acpi_table_header *table,
+				int cpu, int level, int *index)
+{
+	struct cacheinfo *this_leaf;
+	struct acpi_pptt_processor *cpu_node;
+	struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(cpu);
+
+	if (!index)
+		return;
+
+	cpu_node = acpi_find_processor_node(table, get_acpi_id_for_cpu(cpu));
+	this_leaf = this_cpu_ci->info_list + *index;
+	if (this_leaf) {
+		this_leaf->level = level;
+		if (cache_is_filled(cache, table, cpu, level))
+			return;
+		update_cache_properties(this_leaf, cache,
+					ACPI_TO_POINTER(ACPI_PTR_DIFF(cpu_node,
+							table)),
+					table->revision);
+		*index += 1;
+	}
+}
+
 static void cache_setup_acpi_cpu(struct acpi_table_header *table,
 				 unsigned int cpu)
 {
 	struct acpi_pptt_cache *found_cache;
 	struct cpu_cacheinfo *this_cpu_ci = get_cpu_cacheinfo(cpu);
 	u32 acpi_cpu_id = get_acpi_id_for_cpu(cpu);
-	struct cacheinfo *this_leaf;
+	struct cacheinfo *this_leaf = this_cpu_ci->info_list;
 	unsigned int index = 0;
 	struct acpi_pptt_processor *cpu_node = NULL;
 
+	if (!this_leaf->type && !this_leaf->level) {
+		acpi_find_cache_node(table, acpi_cpu_id, cpu, 0, 0, &cpu_node);
+		return;
+	}
+
 	while (index < get_cpu_cacheinfo(cpu)->num_leaves) {
 		this_leaf = this_cpu_ci->info_list + index;
-		found_cache = acpi_find_cache_node(table, acpi_cpu_id,
+		found_cache = acpi_find_cache_node(table, acpi_cpu_id, cpu,
 						   this_leaf->type,
 						   this_leaf->level,
 						   &cpu_node);