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slab_automove.c
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slab_automove.c
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/* Copyright 2017 Facebook.
*
* Use and distribution licensed under the BSD license. See
* the LICENSE file for full text.
*/
/* -*- Mode: C; tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- */
#include "memcached.h"
#include "slab_automove.h"
#include <stdlib.h>
#include <string.h>
#define MIN_PAGES_FOR_SOURCE 2
#define MIN_PAGES_FOR_RECLAIM 2.5
struct window_data {
uint64_t age;
uint64_t dirty;
uint64_t evicted;
};
typedef struct {
struct window_data *window_data;
uint32_t window_size;
uint32_t window_cur;
double max_age_ratio;
item_stats_automove iam_before[MAX_NUMBER_OF_SLAB_CLASSES];
item_stats_automove iam_after[MAX_NUMBER_OF_SLAB_CLASSES];
slab_stats_automove sam_before[MAX_NUMBER_OF_SLAB_CLASSES];
slab_stats_automove sam_after[MAX_NUMBER_OF_SLAB_CLASSES];
} slab_automove;
void *slab_automove_init(struct settings *settings) {
uint32_t window_size = settings->slab_automove_window;
double max_age_ratio = settings->slab_automove_ratio;
slab_automove *a = calloc(1, sizeof(slab_automove));
if (a == NULL)
return NULL;
a->window_data = calloc(window_size * MAX_NUMBER_OF_SLAB_CLASSES, sizeof(struct window_data));
a->window_size = window_size;
a->max_age_ratio = max_age_ratio;
if (a->window_data == NULL) {
free(a);
return NULL;
}
// do a dry run to fill the before structs
fill_item_stats_automove(a->iam_before);
fill_slab_stats_automove(a->sam_before);
return (void *)a;
}
void slab_automove_free(void *arg) {
slab_automove *a = (slab_automove *)arg;
free(a->window_data);
free(a);
}
static void window_sum(struct window_data *wd, struct window_data *w, uint32_t size) {
int x;
for (x = 0; x < size; x++) {
struct window_data *d = &wd[x];
w->age += d->age;
w->dirty += d->dirty;
w->evicted += d->evicted;
}
}
// TODO: if oldest is dirty, find next oldest.
// still need to base ratio off of absolute age
void slab_automove_run(void *arg, int *src, int *dst) {
slab_automove *a = (slab_automove *)arg;
int n;
struct window_data w_sum;
int oldest = -1;
uint64_t oldest_age = 0;
int youngest = -1;
uint64_t youngest_age = ~0;
bool youngest_evicting = false;
*src = -1;
*dst = -1;
// fill after structs
fill_item_stats_automove(a->iam_after);
fill_slab_stats_automove(a->sam_after);
a->window_cur++;
// iterate slabs
for (n = POWER_SMALLEST; n < MAX_NUMBER_OF_SLAB_CLASSES; n++) {
int w_offset = n * a->window_size;
struct window_data *wd = &a->window_data[w_offset + (a->window_cur % a->window_size)];
memset(wd, 0, sizeof(struct window_data));
// summarize the window-up-to-now.
memset(&w_sum, 0, sizeof(struct window_data));
window_sum(&a->window_data[w_offset], &w_sum, a->window_size);
// if page delta, or evicted delta, mark window dirty
// (or outofmemory)
if (a->iam_after[n].evicted - a->iam_before[n].evicted > 0 ||
a->iam_after[n].outofmemory - a->iam_before[n].outofmemory > 0) {
wd->evicted = 1;
wd->dirty = 1;
}
if (a->sam_after[n].total_pages - a->sam_before[n].total_pages > 0) {
wd->dirty = 1;
}
// set age into window
wd->age = a->iam_after[n].age;
// grab age as average of window total
uint64_t age = w_sum.age / a->window_size;
// if > N free chunks and not dirty, make decision.
if (a->sam_after[n].free_chunks > a->sam_after[n].chunks_per_page * MIN_PAGES_FOR_RECLAIM) {
if (w_sum.dirty == 0) {
*src = n;
*dst = 0;
break;
}
}
// if oldest and have enough pages, is oldest
if (age > oldest_age && a->sam_after[n].total_pages > MIN_PAGES_FOR_SOURCE) {
oldest = n;
oldest_age = age;
}
// grab evicted count from window
// if > half the window and youngest, mark as youngest
if (age < youngest_age && w_sum.evicted > a->window_size / 2) {
youngest = n;
youngest_age = age;
youngest_evicting = wd->evicted ? true : false;
}
}
memcpy(a->iam_before, a->iam_after,
sizeof(item_stats_automove) * MAX_NUMBER_OF_SLAB_CLASSES);
memcpy(a->sam_before, a->sam_after,
sizeof(slab_stats_automove) * MAX_NUMBER_OF_SLAB_CLASSES);
// if we have a youngest and oldest, and oldest is outside the ratio,
// also, only make decisions if window has filled once.
if (youngest != -1 && oldest != -1 && a->window_cur > a->window_size) {
if (youngest_age < ((double)oldest_age * a->max_age_ratio) && youngest_evicting) {
*src = oldest;
*dst = youngest;
}
}
return;
}