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efa869b68b
commit 0760fa3d8f7fceeea508b98899f1c826e10ffe78 upstream.
nr_empty_pop_pages is used to guarantee that there are some free
populated pages to satisfy atomic allocations. Accounted and
non-accounted allocations are using separate sets of chunks,
so both need to have a surplus of empty pages.
This commit makes pcpu_nr_empty_pop_pages and the corresponding logic
per chunk type.
[Dennis]
This issue came up as I was reviewing [1] and realized I missed this.
Simultaneously, it was reported btrfs was seeing failed atomic
allocations in fsstress tests [2] and [3].
[1] https://lore.kernel.org/linux-mm/20210324190626.564297-1-guro@fb.com/
[2] https://lore.kernel.org/linux-mm/20210401185158.3275.409509F4@e16-tech.com/
[3] https://lore.kernel.org/linux-mm/CAL3q7H5RNBjCi708GH7jnczAOe0BLnacT9C+OBgA-Dx9jhB6SQ@mail.gmail.com/
Fixes: 3c7be18ac9
("mm: memcg/percpu: account percpu memory to memory cgroups")
Cc: stable@vger.kernel.org # 5.9+
Signed-off-by: Roman Gushchin <guro@fb.com>
Tested-by: Filipe Manana <fdmanana@suse.com>
Signed-off-by: Dennis Zhou <dennis@kernel.org>
Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
250 lines
6.2 KiB
C
250 lines
6.2 KiB
C
// SPDX-License-Identifier: GPL-2.0-only
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/*
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* mm/percpu-debug.c
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*
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* Copyright (C) 2017 Facebook Inc.
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* Copyright (C) 2017 Dennis Zhou <dennis@kernel.org>
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*
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* Prints statistics about the percpu allocator and backing chunks.
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*/
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#include <linux/debugfs.h>
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#include <linux/list.h>
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#include <linux/percpu.h>
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#include <linux/seq_file.h>
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#include <linux/sort.h>
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#include <linux/vmalloc.h>
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#include "percpu-internal.h"
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#define P(X, Y) \
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seq_printf(m, " %-20s: %12lld\n", X, (long long int)Y)
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struct percpu_stats pcpu_stats;
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struct pcpu_alloc_info pcpu_stats_ai;
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static int cmpint(const void *a, const void *b)
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{
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return *(int *)a - *(int *)b;
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}
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/*
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* Iterates over all chunks to find the max nr_alloc entries.
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*/
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static int find_max_nr_alloc(void)
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{
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struct pcpu_chunk *chunk;
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int slot, max_nr_alloc;
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enum pcpu_chunk_type type;
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max_nr_alloc = 0;
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for (type = 0; type < PCPU_NR_CHUNK_TYPES; type++)
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for (slot = 0; slot < pcpu_nr_slots; slot++)
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list_for_each_entry(chunk, &pcpu_chunk_list(type)[slot],
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list)
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max_nr_alloc = max(max_nr_alloc,
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chunk->nr_alloc);
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return max_nr_alloc;
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}
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/*
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* Prints out chunk state. Fragmentation is considered between
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* the beginning of the chunk to the last allocation.
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*
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* All statistics are in bytes unless stated otherwise.
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*/
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static void chunk_map_stats(struct seq_file *m, struct pcpu_chunk *chunk,
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int *buffer)
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{
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struct pcpu_block_md *chunk_md = &chunk->chunk_md;
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int i, last_alloc, as_len, start, end;
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int *alloc_sizes, *p;
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/* statistics */
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int sum_frag = 0, max_frag = 0;
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int cur_min_alloc = 0, cur_med_alloc = 0, cur_max_alloc = 0;
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alloc_sizes = buffer;
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/*
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* find_last_bit returns the start value if nothing found.
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* Therefore, we must determine if it is a failure of find_last_bit
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* and set the appropriate value.
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*/
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last_alloc = find_last_bit(chunk->alloc_map,
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pcpu_chunk_map_bits(chunk) -
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chunk->end_offset / PCPU_MIN_ALLOC_SIZE - 1);
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last_alloc = test_bit(last_alloc, chunk->alloc_map) ?
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last_alloc + 1 : 0;
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as_len = 0;
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start = chunk->start_offset / PCPU_MIN_ALLOC_SIZE;
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/*
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* If a bit is set in the allocation map, the bound_map identifies
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* where the allocation ends. If the allocation is not set, the
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* bound_map does not identify free areas as it is only kept accurate
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* on allocation, not free.
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*
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* Positive values are allocations and negative values are free
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* fragments.
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*/
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while (start < last_alloc) {
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if (test_bit(start, chunk->alloc_map)) {
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end = find_next_bit(chunk->bound_map, last_alloc,
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start + 1);
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alloc_sizes[as_len] = 1;
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} else {
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end = find_next_bit(chunk->alloc_map, last_alloc,
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start + 1);
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alloc_sizes[as_len] = -1;
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}
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alloc_sizes[as_len++] *= (end - start) * PCPU_MIN_ALLOC_SIZE;
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start = end;
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}
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/*
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* The negative values are free fragments and thus sorting gives the
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* free fragments at the beginning in largest first order.
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*/
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if (as_len > 0) {
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sort(alloc_sizes, as_len, sizeof(int), cmpint, NULL);
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/* iterate through the unallocated fragments */
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for (i = 0, p = alloc_sizes; *p < 0 && i < as_len; i++, p++) {
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sum_frag -= *p;
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max_frag = max(max_frag, -1 * (*p));
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}
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cur_min_alloc = alloc_sizes[i];
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cur_med_alloc = alloc_sizes[(i + as_len - 1) / 2];
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cur_max_alloc = alloc_sizes[as_len - 1];
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}
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P("nr_alloc", chunk->nr_alloc);
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P("max_alloc_size", chunk->max_alloc_size);
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P("empty_pop_pages", chunk->nr_empty_pop_pages);
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P("first_bit", chunk_md->first_free);
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P("free_bytes", chunk->free_bytes);
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P("contig_bytes", chunk_md->contig_hint * PCPU_MIN_ALLOC_SIZE);
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P("sum_frag", sum_frag);
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P("max_frag", max_frag);
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P("cur_min_alloc", cur_min_alloc);
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P("cur_med_alloc", cur_med_alloc);
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P("cur_max_alloc", cur_max_alloc);
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#ifdef CONFIG_MEMCG_KMEM
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P("memcg_aware", pcpu_is_memcg_chunk(pcpu_chunk_type(chunk)));
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#endif
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seq_putc(m, '\n');
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}
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static int percpu_stats_show(struct seq_file *m, void *v)
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{
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struct pcpu_chunk *chunk;
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int slot, max_nr_alloc;
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int *buffer;
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enum pcpu_chunk_type type;
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int nr_empty_pop_pages;
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alloc_buffer:
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spin_lock_irq(&pcpu_lock);
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max_nr_alloc = find_max_nr_alloc();
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spin_unlock_irq(&pcpu_lock);
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/* there can be at most this many free and allocated fragments */
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buffer = vmalloc(array_size(sizeof(int), (2 * max_nr_alloc + 1)));
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if (!buffer)
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return -ENOMEM;
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spin_lock_irq(&pcpu_lock);
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/* if the buffer allocated earlier is too small */
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if (max_nr_alloc < find_max_nr_alloc()) {
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spin_unlock_irq(&pcpu_lock);
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vfree(buffer);
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goto alloc_buffer;
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}
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nr_empty_pop_pages = 0;
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for (type = 0; type < PCPU_NR_CHUNK_TYPES; type++)
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nr_empty_pop_pages += pcpu_nr_empty_pop_pages[type];
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#define PL(X) \
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seq_printf(m, " %-20s: %12lld\n", #X, (long long int)pcpu_stats_ai.X)
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seq_printf(m,
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"Percpu Memory Statistics\n"
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"Allocation Info:\n"
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"----------------------------------------\n");
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PL(unit_size);
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PL(static_size);
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PL(reserved_size);
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PL(dyn_size);
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PL(atom_size);
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PL(alloc_size);
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seq_putc(m, '\n');
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#undef PL
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#define PU(X) \
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seq_printf(m, " %-20s: %12llu\n", #X, (unsigned long long)pcpu_stats.X)
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seq_printf(m,
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"Global Stats:\n"
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"----------------------------------------\n");
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PU(nr_alloc);
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PU(nr_dealloc);
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PU(nr_cur_alloc);
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PU(nr_max_alloc);
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PU(nr_chunks);
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PU(nr_max_chunks);
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PU(min_alloc_size);
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PU(max_alloc_size);
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P("empty_pop_pages", nr_empty_pop_pages);
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seq_putc(m, '\n');
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#undef PU
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seq_printf(m,
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"Per Chunk Stats:\n"
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"----------------------------------------\n");
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if (pcpu_reserved_chunk) {
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seq_puts(m, "Chunk: <- Reserved Chunk\n");
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chunk_map_stats(m, pcpu_reserved_chunk, buffer);
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}
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for (type = 0; type < PCPU_NR_CHUNK_TYPES; type++) {
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for (slot = 0; slot < pcpu_nr_slots; slot++) {
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list_for_each_entry(chunk, &pcpu_chunk_list(type)[slot],
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list) {
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if (chunk == pcpu_first_chunk) {
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seq_puts(m, "Chunk: <- First Chunk\n");
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chunk_map_stats(m, chunk, buffer);
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} else {
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seq_puts(m, "Chunk:\n");
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chunk_map_stats(m, chunk, buffer);
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}
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}
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}
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}
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spin_unlock_irq(&pcpu_lock);
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vfree(buffer);
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return 0;
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}
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DEFINE_SHOW_ATTRIBUTE(percpu_stats);
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static int __init init_percpu_stats_debugfs(void)
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{
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debugfs_create_file("percpu_stats", 0444, NULL, NULL,
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&percpu_stats_fops);
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return 0;
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}
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late_initcall(init_percpu_stats_debugfs);
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