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authorMel Gorman <mgorman@suse.de>2014-08-06 16:07:14 -0700
committerLinus Torvalds <torvalds@linux-foundation.org>2014-08-06 18:01:20 -0700
commit3484b2de9499df23c4604a513b36f96326ae81ad (patch)
treefbaaed00603474887953459b01e09c5b9ff7379f /include/linux/mmzone.h
parent24b7e5819ad5cbef2b7c7376510862aa8319d240 (diff)
downloadop-kernel-dev-3484b2de9499df23c4604a513b36f96326ae81ad.zip
op-kernel-dev-3484b2de9499df23c4604a513b36f96326ae81ad.tar.gz
mm: rearrange zone fields into read-only, page alloc, statistics and page reclaim lines
The arrangement of struct zone has changed over time and now it has reached the point where there is some inappropriate sharing going on. On x86-64 for example o The zone->node field is shared with the zone lock and zone->node is accessed frequently from the page allocator due to the fair zone allocation policy. o span_seqlock is almost never used by shares a line with free_area o Some zone statistics share a cache line with the LRU lock so reclaim-intensive and allocator-intensive workloads can bounce the cache line on a stat update This patch rearranges struct zone to put read-only and read-mostly fields together and then splits the page allocator intensive fields, the zone statistics and the page reclaim intensive fields into their own cache lines. Note that the type of lowmem_reserve changes due to the watermark calculations being signed and avoiding a signed/unsigned conversion there. On the test configuration I used the overall size of struct zone shrunk by one cache line. On smaller machines, this is not likely to be noticable. However, on a 4-node NUMA machine running tiobench the system CPU overhead is reduced by this patch. 3.16.0-rc3 3.16.0-rc3 vanillarearrange-v5r9 User 746.94 759.78 System 65336.22 58350.98 Elapsed 27553.52 27282.02 Signed-off-by: Mel Gorman <mgorman@suse.de> Acked-by: Johannes Weiner <hannes@cmpxchg.org> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
Diffstat (limited to 'include/linux/mmzone.h')
-rw-r--r--include/linux/mmzone.h211
1 files changed, 108 insertions, 103 deletions
diff --git a/include/linux/mmzone.h b/include/linux/mmzone.h
index 559e659..ed0876b 100644
--- a/include/linux/mmzone.h
+++ b/include/linux/mmzone.h
@@ -324,19 +324,12 @@ enum zone_type {
#ifndef __GENERATING_BOUNDS_H
struct zone {
- /* Fields commonly accessed by the page allocator */
+ /* Read-mostly fields */
/* zone watermarks, access with *_wmark_pages(zone) macros */
unsigned long watermark[NR_WMARK];
/*
- * When free pages are below this point, additional steps are taken
- * when reading the number of free pages to avoid per-cpu counter
- * drift allowing watermarks to be breached
- */
- unsigned long percpu_drift_mark;
-
- /*
* We don't know if the memory that we're going to allocate will be freeable
* or/and it will be released eventually, so to avoid totally wasting several
* GB of ram we must reserve some of the lower zone memory (otherwise we risk
@@ -344,41 +337,26 @@ struct zone {
* on the higher zones). This array is recalculated at runtime if the
* sysctl_lowmem_reserve_ratio sysctl changes.
*/
- unsigned long lowmem_reserve[MAX_NR_ZONES];
-
- /*
- * This is a per-zone reserve of pages that should not be
- * considered dirtyable memory.
- */
- unsigned long dirty_balance_reserve;
+ long lowmem_reserve[MAX_NR_ZONES];
#ifdef CONFIG_NUMA
int node;
+#endif
+
/*
- * zone reclaim becomes active if more unmapped pages exist.
+ * The target ratio of ACTIVE_ANON to INACTIVE_ANON pages on
+ * this zone's LRU. Maintained by the pageout code.
*/
- unsigned long min_unmapped_pages;
- unsigned long min_slab_pages;
-#endif
+ unsigned int inactive_ratio;
+
+ struct pglist_data *zone_pgdat;
struct per_cpu_pageset __percpu *pageset;
+
/*
- * free areas of different sizes
+ * This is a per-zone reserve of pages that should not be
+ * considered dirtyable memory.
*/
- spinlock_t lock;
-#if defined CONFIG_COMPACTION || defined CONFIG_CMA
- /* Set to true when the PG_migrate_skip bits should be cleared */
- bool compact_blockskip_flush;
-
- /* pfn where compaction free scanner should start */
- unsigned long compact_cached_free_pfn;
- /* pfn where async and sync compaction migration scanner should start */
- unsigned long compact_cached_migrate_pfn[2];
-#endif
-#ifdef CONFIG_MEMORY_HOTPLUG
- /* see spanned/present_pages for more description */
- seqlock_t span_seqlock;
-#endif
- struct free_area free_area[MAX_ORDER];
+ unsigned long dirty_balance_reserve;
#ifndef CONFIG_SPARSEMEM
/*
@@ -388,74 +366,14 @@ struct zone {
unsigned long *pageblock_flags;
#endif /* CONFIG_SPARSEMEM */
-#ifdef CONFIG_COMPACTION
- /*
- * On compaction failure, 1<<compact_defer_shift compactions
- * are skipped before trying again. The number attempted since
- * last failure is tracked with compact_considered.
- */
- unsigned int compact_considered;
- unsigned int compact_defer_shift;
- int compact_order_failed;
-#endif
-
- ZONE_PADDING(_pad1_)
-
- /* Fields commonly accessed by the page reclaim scanner */
- spinlock_t lru_lock;
- struct lruvec lruvec;
-
- /* Evictions & activations on the inactive file list */
- atomic_long_t inactive_age;
-
- unsigned long pages_scanned; /* since last reclaim */
- unsigned long flags; /* zone flags, see below */
-
- /* Zone statistics */
- atomic_long_t vm_stat[NR_VM_ZONE_STAT_ITEMS];
-
- /*
- * The target ratio of ACTIVE_ANON to INACTIVE_ANON pages on
- * this zone's LRU. Maintained by the pageout code.
- */
- unsigned int inactive_ratio;
-
-
- ZONE_PADDING(_pad2_)
- /* Rarely used or read-mostly fields */
-
+#ifdef CONFIG_NUMA
/*
- * wait_table -- the array holding the hash table
- * wait_table_hash_nr_entries -- the size of the hash table array
- * wait_table_bits -- wait_table_size == (1 << wait_table_bits)
- *
- * The purpose of all these is to keep track of the people
- * waiting for a page to become available and make them
- * runnable again when possible. The trouble is that this
- * consumes a lot of space, especially when so few things
- * wait on pages at a given time. So instead of using
- * per-page waitqueues, we use a waitqueue hash table.
- *
- * The bucket discipline is to sleep on the same queue when
- * colliding and wake all in that wait queue when removing.
- * When something wakes, it must check to be sure its page is
- * truly available, a la thundering herd. The cost of a
- * collision is great, but given the expected load of the
- * table, they should be so rare as to be outweighed by the
- * benefits from the saved space.
- *
- * __wait_on_page_locked() and unlock_page() in mm/filemap.c, are the
- * primary users of these fields, and in mm/page_alloc.c
- * free_area_init_core() performs the initialization of them.
+ * zone reclaim becomes active if more unmapped pages exist.
*/
- wait_queue_head_t * wait_table;
- unsigned long wait_table_hash_nr_entries;
- unsigned long wait_table_bits;
+ unsigned long min_unmapped_pages;
+ unsigned long min_slab_pages;
+#endif /* CONFIG_NUMA */
- /*
- * Discontig memory support fields.
- */
- struct pglist_data *zone_pgdat;
/* zone_start_pfn == zone_start_paddr >> PAGE_SHIFT */
unsigned long zone_start_pfn;
@@ -500,9 +418,11 @@ struct zone {
* adjust_managed_page_count() should be used instead of directly
* touching zone->managed_pages and totalram_pages.
*/
+ unsigned long managed_pages;
unsigned long spanned_pages;
unsigned long present_pages;
- unsigned long managed_pages;
+
+ const char *name;
/*
* Number of MIGRATE_RESEVE page block. To maintain for just
@@ -510,10 +430,95 @@ struct zone {
*/
int nr_migrate_reserve_block;
+#ifdef CONFIG_MEMORY_HOTPLUG
+ /* see spanned/present_pages for more description */
+ seqlock_t span_seqlock;
+#endif
+
/*
- * rarely used fields:
+ * wait_table -- the array holding the hash table
+ * wait_table_hash_nr_entries -- the size of the hash table array
+ * wait_table_bits -- wait_table_size == (1 << wait_table_bits)
+ *
+ * The purpose of all these is to keep track of the people
+ * waiting for a page to become available and make them
+ * runnable again when possible. The trouble is that this
+ * consumes a lot of space, especially when so few things
+ * wait on pages at a given time. So instead of using
+ * per-page waitqueues, we use a waitqueue hash table.
+ *
+ * The bucket discipline is to sleep on the same queue when
+ * colliding and wake all in that wait queue when removing.
+ * When something wakes, it must check to be sure its page is
+ * truly available, a la thundering herd. The cost of a
+ * collision is great, but given the expected load of the
+ * table, they should be so rare as to be outweighed by the
+ * benefits from the saved space.
+ *
+ * __wait_on_page_locked() and unlock_page() in mm/filemap.c, are the
+ * primary users of these fields, and in mm/page_alloc.c
+ * free_area_init_core() performs the initialization of them.
*/
- const char *name;
+ wait_queue_head_t *wait_table;
+ unsigned long wait_table_hash_nr_entries;
+ unsigned long wait_table_bits;
+
+ ZONE_PADDING(_pad1_)
+
+ /* Write-intensive fields used from the page allocator */
+ spinlock_t lock;
+
+ /* free areas of different sizes */
+ struct free_area free_area[MAX_ORDER];
+
+ /* zone flags, see below */
+ unsigned long flags;
+
+ ZONE_PADDING(_pad2_)
+
+ /* Write-intensive fields used by page reclaim */
+
+ /* Fields commonly accessed by the page reclaim scanner */
+ spinlock_t lru_lock;
+ unsigned long pages_scanned; /* since last reclaim */
+ struct lruvec lruvec;
+
+ /* Evictions & activations on the inactive file list */
+ atomic_long_t inactive_age;
+
+ /*
+ * When free pages are below this point, additional steps are taken
+ * when reading the number of free pages to avoid per-cpu counter
+ * drift allowing watermarks to be breached
+ */
+ unsigned long percpu_drift_mark;
+
+#if defined CONFIG_COMPACTION || defined CONFIG_CMA
+ /* pfn where compaction free scanner should start */
+ unsigned long compact_cached_free_pfn;
+ /* pfn where async and sync compaction migration scanner should start */
+ unsigned long compact_cached_migrate_pfn[2];
+#endif
+
+#ifdef CONFIG_COMPACTION
+ /*
+ * On compaction failure, 1<<compact_defer_shift compactions
+ * are skipped before trying again. The number attempted since
+ * last failure is tracked with compact_considered.
+ */
+ unsigned int compact_considered;
+ unsigned int compact_defer_shift;
+ int compact_order_failed;
+#endif
+
+#if defined CONFIG_COMPACTION || defined CONFIG_CMA
+ /* Set to true when the PG_migrate_skip bits should be cleared */
+ bool compact_blockskip_flush;
+#endif
+
+ ZONE_PADDING(_pad3_)
+ /* Zone statistics */
+ atomic_long_t vm_stat[NR_VM_ZONE_STAT_ITEMS];
} ____cacheline_internodealigned_in_smp;
typedef enum {
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