[PATCH v4] makedumpfile: Exclude unnecessary hugepages.
Baoquan He
bhe at redhat.com
Wed Sep 10 00:34:24 PDT 2014
Hi Atsushi,
Since huge pages are included in user pages, I can't think of a way to
make test cases for huge page exclusion. Could you give some suggestions
on this or how did you test it?
Thanks
Baoquan
On 08/20/14 at 07:27am, Atsushi Kumagai wrote:
> There are 2 types of hugepages in the kernel, the both should be
> excluded as user pages.
>
> 1. Transparent huge pages (THP)
> All the pages are anonymous pages (at least for now), so we should
> just get how many pages are in the corresponding hugepage.
> It can be gotten from the page->lru.prev of the second page in the
> hugepage.
>
> 2. Hugetlbfs pages
> The pages aren't anonymous pages but kind of user pages, we should
> exclude also these pages in any way.
> Luckily, it's possible to detect these pages by looking the
> page->lru.next of the second page in the hugepage. This idea came
> from the kernel's PageHuge().
> The number of pages can be gotten in the same way as THP.
>
> Changelog:
> v4:
> - Cleaned up according to Petr's and Baoquan's comments.
> v3:
> - Cleaned up according to Petr's comments.
> - Fix misdetection of hugetlb pages.
> v2:
> - Rebased to "Generic multi-page exclusion".
>
> Signed-off-by: Atsushi Kumagai <kumagai-atsushi at mxc.nes.nec.co.jp>
> ---
> makedumpfile.c | 86 ++++++++++++++++++++++++++++++++++++++++++++++++----------
> makedumpfile.h | 7 +++++
> 2 files changed, 78 insertions(+), 15 deletions(-)
>
> diff --git a/makedumpfile.c b/makedumpfile.c
> index 11cd473..b4b6eca 100644
> --- a/makedumpfile.c
> +++ b/makedumpfile.c
> @@ -1180,6 +1180,7 @@ get_symbol_info(void)
> SYMBOL_INIT(vmemmap_list, "vmemmap_list");
> SYMBOL_INIT(mmu_psize_defs, "mmu_psize_defs");
> SYMBOL_INIT(mmu_vmemmap_psize, "mmu_vmemmap_psize");
> + SYMBOL_INIT(free_huge_page, "free_huge_page");
>
> SYMBOL_INIT(cpu_pgd, "cpu_pgd");
> SYMBOL_INIT(demote_segment_4k, "demote_segment_4k");
> @@ -1296,6 +1297,15 @@ get_structure_info(void)
> ENUM_NUMBER_INIT(PG_slab, "PG_slab");
> ENUM_NUMBER_INIT(PG_hwpoison, "PG_hwpoison");
>
> + ENUM_NUMBER_INIT(PG_head_mask, "PG_head_mask");
> + if (NUMBER(PG_head_mask) == NOT_FOUND_NUMBER) {
> + ENUM_NUMBER_INIT(PG_head, "PG_head");
> + if (NUMBER(PG_head) == NOT_FOUND_NUMBER)
> + ENUM_NUMBER_INIT(PG_head, "PG_compound");
> + if (NUMBER(PG_head) != NOT_FOUND_NUMBER)
> + NUMBER(PG_head_mask) = 1UL << NUMBER(PG_head);
> + }
> +
> ENUM_TYPE_SIZE_INIT(pageflags, "pageflags");
>
> TYPEDEF_SIZE_INIT(nodemask_t, "nodemask_t");
> @@ -1530,6 +1540,9 @@ get_value_for_old_linux(void)
> NUMBER(PG_swapcache) = PG_swapcache_ORIGINAL;
> if (NUMBER(PG_slab) == NOT_FOUND_NUMBER)
> NUMBER(PG_slab) = PG_slab_ORIGINAL;
> + if (NUMBER(PG_head_mask) == NOT_FOUND_NUMBER)
> + NUMBER(PG_head_mask) = 1L << PG_compound_ORIGINAL;
> +
> /*
> * The values from here are for free page filtering based on
> * mem_map array. These are minimum effort to cover old
> @@ -1699,6 +1712,7 @@ write_vmcoreinfo_data(void)
> WRITE_SYMBOL("mmu_vmemmap_psize", mmu_vmemmap_psize);
> WRITE_SYMBOL("cpu_pgd", cpu_pgd);
> WRITE_SYMBOL("demote_segment_4k", demote_segment_4k);
> + WRITE_SYMBOL("free_huge_page", free_huge_page);
>
> /*
> * write the structure size of 1st kernel
> @@ -1788,6 +1802,7 @@ write_vmcoreinfo_data(void)
>
> WRITE_NUMBER("PG_lru", PG_lru);
> WRITE_NUMBER("PG_private", PG_private);
> + WRITE_NUMBER("PG_head_mask", PG_head_mask);
> WRITE_NUMBER("PG_swapcache", PG_swapcache);
> WRITE_NUMBER("PG_buddy", PG_buddy);
> WRITE_NUMBER("PG_slab", PG_slab);
> @@ -2040,6 +2055,7 @@ read_vmcoreinfo(void)
> READ_SYMBOL("mmu_vmemmap_psize", mmu_vmemmap_psize);
> READ_SYMBOL("cpu_pgd", cpu_pgd);
> READ_SYMBOL("demote_segment_4k", demote_segment_4k);
> + READ_SYMBOL("free_huge_page", free_huge_page);
>
> READ_STRUCTURE_SIZE("page", page);
> READ_STRUCTURE_SIZE("mem_section", mem_section);
> @@ -2116,6 +2132,7 @@ read_vmcoreinfo(void)
>
> READ_NUMBER("PG_lru", PG_lru);
> READ_NUMBER("PG_private", PG_private);
> + READ_NUMBER("PG_head_mask", PG_head_mask);
> READ_NUMBER("PG_swapcache", PG_swapcache);
> READ_NUMBER("PG_slab", PG_slab);
> READ_NUMBER("PG_buddy", PG_buddy);
> @@ -4643,13 +4660,16 @@ __exclude_unnecessary_pages(unsigned long mem_map,
> mdf_pfn_t pfn_start, mdf_pfn_t pfn_end, struct cycle *cycle)
> {
> mdf_pfn_t pfn;
> + mdf_pfn_t *pfn_counter;
> + mdf_pfn_t nr_pages;
> unsigned long index_pg, pfn_mm;
> unsigned long long maddr;
> mdf_pfn_t pfn_read_start, pfn_read_end;
> unsigned char page_cache[SIZE(page) * PGMM_CACHED];
> unsigned char *pcache;
> - unsigned int _count, _mapcount = 0;
> + unsigned int _count, _mapcount = 0, compound_order = 0;
> unsigned long flags, mapping, private = 0;
> + unsigned long compound_dtor;
>
> /*
> * If a multi-page exclusion is pending, do it first
> @@ -4715,11 +4735,36 @@ __exclude_unnecessary_pages(unsigned long mem_map,
> flags = ULONG(pcache + OFFSET(page.flags));
> _count = UINT(pcache + OFFSET(page._count));
> mapping = ULONG(pcache + OFFSET(page.mapping));
> +
> + if ((index_pg < PGMM_CACHED - 1) &&
> + isCompoundHead(flags)) {
> + compound_order = ULONG(pcache + SIZE(page) + OFFSET(page.lru)
> + + OFFSET(list_head.prev));
> + compound_dtor = ULONG(pcache + SIZE(page) + OFFSET(page.lru)
> + + OFFSET(list_head.next));
> +
> + if ((compound_order >= sizeof(unsigned long) * 8)
> + || ((pfn & ((1UL << compound_order) - 1)) != 0)) {
> + /* Invalid order */
> + compound_order = 0;
> + }
> + } else {
> + /*
> + * The last pfn of the mem_map cache must not be compound page
> + * since all compound pages are aligned to its page order and
> + * PGMM_CACHED is a power of 2.
> + */
> + compound_order = 0;
> + compound_dtor = 0;
> + }
> +
> if (OFFSET(page._mapcount) != NOT_FOUND_STRUCTURE)
> _mapcount = UINT(pcache + OFFSET(page._mapcount));
> if (OFFSET(page.private) != NOT_FOUND_STRUCTURE)
> private = ULONG(pcache + OFFSET(page.private));
>
> + nr_pages = 1 << compound_order;
> + pfn_counter = NULL;
> /*
> * Exclude the free page managed by a buddy
> * Use buddy identification of free pages whether cyclic or not.
> @@ -4727,12 +4772,8 @@ __exclude_unnecessary_pages(unsigned long mem_map,
> if ((info->dump_level & DL_EXCLUDE_FREE)
> && info->page_is_buddy
> && info->page_is_buddy(flags, _mapcount, private, _count)) {
> - int nr_pages = 1 << private;
> -
> - exclude_range(&pfn_free, pfn, pfn + nr_pages, cycle);
> -
> - pfn += nr_pages - 1;
> - mem_map += (nr_pages - 1) * SIZE(page);
> + nr_pages = 1 << private;
> + pfn_counter = &pfn_free;
> }
> /*
> * Exclude the cache page without the private page.
> @@ -4740,8 +4781,7 @@ __exclude_unnecessary_pages(unsigned long mem_map,
> else if ((info->dump_level & DL_EXCLUDE_CACHE)
> && (isLRU(flags) || isSwapCache(flags))
> && !isPrivate(flags) && !isAnon(mapping)) {
> - if (clear_bit_on_2nd_bitmap_for_kernel(pfn, cycle))
> - pfn_cache++;
> + pfn_counter = &pfn_cache;
> }
> /*
> * Exclude the cache page with the private page.
> @@ -4749,23 +4789,39 @@ __exclude_unnecessary_pages(unsigned long mem_map,
> else if ((info->dump_level & DL_EXCLUDE_CACHE_PRI)
> && (isLRU(flags) || isSwapCache(flags))
> && !isAnon(mapping)) {
> - if (clear_bit_on_2nd_bitmap_for_kernel(pfn, cycle))
> - pfn_cache_private++;
> + pfn_counter = &pfn_cache_private;
> }
> /*
> * Exclude the data page of the user process.
> + * - anonymous pages
> + * - hugetlbfs pages
> */
> else if ((info->dump_level & DL_EXCLUDE_USER_DATA)
> - && isAnon(mapping)) {
> - if (clear_bit_on_2nd_bitmap_for_kernel(pfn, cycle))
> - pfn_user++;
> + && (isAnon(mapping) || isHugetlb(compound_dtor))) {
> + pfn_counter = &pfn_user;
> }
> /*
> * Exclude the hwpoison page.
> */
> else if (isHWPOISON(flags)) {
> + pfn_counter = &pfn_hwpoison;
> + }
> + /*
> + * Unexcludable page
> + */
> + else
> + continue;
> +
> + /*
> + * Execute exclusion
> + */
> + if (nr_pages == 1) {
> if (clear_bit_on_2nd_bitmap_for_kernel(pfn, cycle))
> - pfn_hwpoison++;
> + (*pfn_counter)++;
> + } else {
> + exclude_range(pfn_counter, pfn, pfn + nr_pages, cycle);
> + pfn += nr_pages - 1;
> + mem_map += (nr_pages - 1) * SIZE(page);
> }
> }
> return TRUE;
> diff --git a/makedumpfile.h b/makedumpfile.h
> index eba9798..9f90b53 100644
> --- a/makedumpfile.h
> +++ b/makedumpfile.h
> @@ -74,6 +74,7 @@ int get_mem_type(void);
> #define PG_lru_ORIGINAL (5)
> #define PG_slab_ORIGINAL (7)
> #define PG_private_ORIGINAL (11) /* Has something at ->private */
> +#define PG_compound_ORIGINAL (14) /* Is part of a compound page */
> #define PG_swapcache_ORIGINAL (15) /* Swap page: swp_entry_t in private */
>
> #define PAGE_BUDDY_MAPCOUNT_VALUE_v2_6_38 (-2)
> @@ -148,6 +149,9 @@ test_bit(int nr, unsigned long addr)
>
> #define isLRU(flags) test_bit(NUMBER(PG_lru), flags)
> #define isPrivate(flags) test_bit(NUMBER(PG_private), flags)
> +#define isCompoundHead(flags) (!!((flags) & NUMBER(PG_head_mask)))
> +#define isHugetlb(dtor) ((SYMBOL(free_huge_page) != NOT_FOUND_SYMBOL) \
> + && (SYMBOL(free_huge_page) == dtor))
> #define isSwapCache(flags) test_bit(NUMBER(PG_swapcache), flags)
> #define isHWPOISON(flags) (test_bit(NUMBER(PG_hwpoison), flags) \
> && (NUMBER(PG_hwpoison) != NOT_FOUND_NUMBER))
> @@ -1218,6 +1222,7 @@ struct symbol_table {
> unsigned long long node_remap_start_vaddr;
> unsigned long long node_remap_end_vaddr;
> unsigned long long node_remap_start_pfn;
> + unsigned long long free_huge_page;
>
> /*
> * for Xen extraction
> @@ -1509,6 +1514,8 @@ struct number_table {
> */
> long PG_lru;
> long PG_private;
> + long PG_head;
> + long PG_head_mask;
> long PG_swapcache;
> long PG_buddy;
> long PG_slab;
> --
> 1.9.0
>
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