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items.c
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items.c
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/* -*- Mode: C; tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- */
#include "memcached.h"
#include "bipbuffer.h"
#include "slab_automove.h"
#include "storage.h"
#ifdef EXTSTORE
#include "slab_automove_extstore.h"
#endif
#include <sys/stat.h>
#include <sys/socket.h>
#include <sys/resource.h>
#include <fcntl.h>
#include <netinet/in.h>
#include <errno.h>
#include <stdlib.h>
#include <stdio.h>
#include <signal.h>
#include <string.h>
#include <time.h>
#include <assert.h>
#include <unistd.h>
#include <poll.h>
/* Forward Declarations */
static void item_link_q(item *it);
static void item_unlink_q(item *it);
static unsigned int lru_type_map[4] = {HOT_LRU, WARM_LRU, COLD_LRU, TEMP_LRU};
#define LARGEST_ID POWER_LARGEST
typedef struct {
uint64_t evicted;
uint64_t evicted_nonzero;
uint64_t reclaimed;
uint64_t outofmemory;
uint64_t tailrepairs;
uint64_t expired_unfetched; /* items reclaimed but never touched */
uint64_t evicted_unfetched; /* items evicted but never touched */
uint64_t evicted_active; /* items evicted that should have been shuffled */
uint64_t crawler_reclaimed;
uint64_t crawler_items_checked;
uint64_t lrutail_reflocked;
uint64_t moves_to_cold;
uint64_t moves_to_warm;
uint64_t moves_within_lru;
uint64_t direct_reclaims;
uint64_t hits_to_hot;
uint64_t hits_to_warm;
uint64_t hits_to_cold;
uint64_t hits_to_temp;
uint64_t mem_requested;
rel_time_t evicted_time;
} itemstats_t;
static item *heads[LARGEST_ID];
static item *tails[LARGEST_ID];
static itemstats_t itemstats[LARGEST_ID];
static unsigned int sizes[LARGEST_ID];
static uint64_t sizes_bytes[LARGEST_ID];
static unsigned int *stats_sizes_hist = NULL;
static int stats_sizes_buckets = 0;
static uint64_t cas_id = 1;
static volatile int do_run_lru_maintainer_thread = 0;
static pthread_mutex_t lru_maintainer_lock = PTHREAD_MUTEX_INITIALIZER;
static pthread_mutex_t cas_id_lock = PTHREAD_MUTEX_INITIALIZER;
void item_stats_reset(void) {
int i;
for (i = 0; i < LARGEST_ID; i++) {
pthread_mutex_lock(&lru_locks[i]);
memset(&itemstats[i], 0, sizeof(itemstats_t));
pthread_mutex_unlock(&lru_locks[i]);
}
}
/* called with class lru lock held */
void do_item_stats_add_crawl(const int i, const uint64_t reclaimed,
const uint64_t unfetched, const uint64_t checked) {
itemstats[i].crawler_reclaimed += reclaimed;
itemstats[i].expired_unfetched += unfetched;
itemstats[i].crawler_items_checked += checked;
}
typedef struct _lru_bump_buf {
struct _lru_bump_buf *prev;
struct _lru_bump_buf *next;
pthread_mutex_t mutex;
bipbuf_t *buf;
uint64_t dropped;
} lru_bump_buf;
typedef struct {
item *it;
uint32_t hv;
} lru_bump_entry;
static lru_bump_buf *bump_buf_head = NULL;
static lru_bump_buf *bump_buf_tail = NULL;
static pthread_mutex_t bump_buf_lock = PTHREAD_MUTEX_INITIALIZER;
/* TODO: tunable? Need bench results */
#define LRU_BUMP_BUF_SIZE 8192
static bool lru_bump_async(lru_bump_buf *b, item *it, uint32_t hv);
static uint64_t lru_total_bumps_dropped(void);
/* Get the next CAS id for a new item. */
/* TODO: refactor some atomics for this. */
uint64_t get_cas_id(void) {
pthread_mutex_lock(&cas_id_lock);
uint64_t next_id = ++cas_id;
pthread_mutex_unlock(&cas_id_lock);
return next_id;
}
void set_cas_id(uint64_t new_cas) {
pthread_mutex_lock(&cas_id_lock);
cas_id = new_cas;
pthread_mutex_unlock(&cas_id_lock);
}
int item_is_flushed(item *it) {
rel_time_t oldest_live = settings.oldest_live;
if (it->time <= oldest_live && oldest_live <= current_time)
return 1;
return 0;
}
/* must be locked before call */
unsigned int do_get_lru_size(uint32_t id) {
return sizes[id];
}
/* Enable this for reference-count debugging. */
#if 0
# define DEBUG_REFCNT(it,op) \
fprintf(stderr, "item %x refcnt(%c) %d %c%c%c\n", \
it, op, it->refcount, \
(it->it_flags & ITEM_LINKED) ? 'L' : ' ', \
(it->it_flags & ITEM_SLABBED) ? 'S' : ' ')
#else
# define DEBUG_REFCNT(it,op) while(0)
#endif
/**
* Generates the variable-sized part of the header for an object.
*
* nkey - The length of the key
* flags - key flags
* nbytes - Number of bytes to hold value and addition CRLF terminator
* suffix - Buffer for the "VALUE" line suffix (flags, size).
* nsuffix - The length of the suffix is stored here.
*
* Returns the total size of the header.
*/
static size_t item_make_header(const uint8_t nkey, const client_flags_t flags, const int nbytes,
char *suffix, uint8_t *nsuffix) {
if (flags == 0) {
*nsuffix = 0;
} else {
*nsuffix = sizeof(flags);
}
return sizeof(item) + nkey + *nsuffix + nbytes;
}
item *do_item_alloc_pull(const size_t ntotal, const unsigned int id) {
item *it = NULL;
int i;
/* If no memory is available, attempt a direct LRU juggle/eviction */
/* This is a race in order to simplify lru_pull_tail; in cases where
* locked items are on the tail, you want them to fall out and cause
* occasional OOM's, rather than internally work around them.
* This also gives one fewer code path for slab alloc/free
*/
for (i = 0; i < 10; i++) {
/* Try to reclaim memory first */
if (!settings.lru_segmented) {
lru_pull_tail(id, COLD_LRU, 0, 0, 0, NULL);
}
it = slabs_alloc(ntotal, id, 0);
if (it == NULL) {
// We send '0' in for "total_bytes" as this routine is always
// pulling to evict, or forcing HOT -> COLD migration.
// As of this writing, total_bytes isn't at all used with COLD_LRU.
if (lru_pull_tail(id, COLD_LRU, 0, LRU_PULL_EVICT, 0, NULL) <= 0) {
if (settings.lru_segmented) {
lru_pull_tail(id, HOT_LRU, 0, 0, 0, NULL);
} else {
break;
}
}
} else {
break;
}
}
if (i > 0) {
pthread_mutex_lock(&lru_locks[id]);
itemstats[id].direct_reclaims += i;
pthread_mutex_unlock(&lru_locks[id]);
}
return it;
}
/* Chain another chunk onto this chunk. */
/* slab mover: if it finds a chunk without ITEM_CHUNK flag, and no ITEM_LINKED
* flag, it counts as busy and skips.
* I think it might still not be safe to do linking outside of the slab lock
*/
item_chunk *do_item_alloc_chunk(item_chunk *ch, const size_t bytes_remain) {
// TODO: Should be a cleaner way of finding real size with slabber calls
size_t size = bytes_remain + sizeof(item_chunk);
if (size > settings.slab_chunk_size_max)
size = settings.slab_chunk_size_max;
unsigned int id = slabs_clsid(size);
item_chunk *nch = (item_chunk *) do_item_alloc_pull(size, id);
if (nch == NULL) {
// The final chunk in a large item will attempt to be a more
// appropriately sized chunk to minimize memory overhead. However, if
// there's no memory available in the lower slab classes we fail the
// SET. In these cases as a fallback we ensure we attempt to evict a
// max-size item and reuse a large chunk.
if (size == settings.slab_chunk_size_max) {
return NULL;
} else {
size = settings.slab_chunk_size_max;
id = slabs_clsid(size);
nch = (item_chunk *) do_item_alloc_pull(size, id);
if (nch == NULL)
return NULL;
}
}
// link in.
// ITEM_CHUNK[ED] bits need to be protected by the slabs lock.
slabs_mlock();
nch->head = ch->head;
ch->next = nch;
nch->prev = ch;
nch->next = 0;
nch->used = 0;
nch->slabs_clsid = id;
nch->size = size - sizeof(item_chunk);
nch->it_flags |= ITEM_CHUNK;
slabs_munlock();
return nch;
}
item *do_item_alloc(const char *key, const size_t nkey, const client_flags_t flags,
const rel_time_t exptime, const int nbytes) {
uint8_t nsuffix;
item *it = NULL;
char suffix[40];
// Avoid potential underflows.
if (nbytes < 2)
return 0;
size_t ntotal = item_make_header(nkey + 1, flags, nbytes, suffix, &nsuffix);
if (settings.use_cas) {
ntotal += sizeof(uint64_t);
}
unsigned int id = slabs_clsid(ntotal);
unsigned int hdr_id = 0;
if (id == 0)
return 0;
/* This is a large item. Allocate a header object now, lazily allocate
* chunks while reading the upload.
*/
if (ntotal > settings.slab_chunk_size_max) {
/* We still link this item into the LRU for the larger slab class, but
* we're pulling a header from an entirely different slab class. The
* free routines handle large items specifically.
*/
int htotal = nkey + 1 + nsuffix + sizeof(item) + sizeof(item_chunk);
if (settings.use_cas) {
htotal += sizeof(uint64_t);
}
#ifdef NEED_ALIGN
// header chunk needs to be padded on some systems
int remain = htotal % 8;
if (remain != 0) {
htotal += 8 - remain;
}
#endif
hdr_id = slabs_clsid(htotal);
it = do_item_alloc_pull(htotal, hdr_id);
/* setting ITEM_CHUNKED is fine here because we aren't LINKED yet. */
if (it != NULL)
it->it_flags |= ITEM_CHUNKED;
} else {
it = do_item_alloc_pull(ntotal, id);
}
if (it == NULL) {
pthread_mutex_lock(&lru_locks[id]);
itemstats[id].outofmemory++;
pthread_mutex_unlock(&lru_locks[id]);
return NULL;
}
assert(it->it_flags == 0 || it->it_flags == ITEM_CHUNKED);
//assert(it != heads[id]);
/* Refcount is seeded to 1 by slabs_alloc() */
it->next = it->prev = 0;
/* Items are initially loaded into the HOT_LRU. This is '0' but I want at
* least a note here. Compiler (hopefully?) optimizes this out.
*/
if (settings.temp_lru &&
exptime - current_time <= settings.temporary_ttl) {
id |= TEMP_LRU;
} else if (settings.lru_segmented) {
id |= HOT_LRU;
} else {
/* There is only COLD in compat-mode */
id |= COLD_LRU;
}
it->slabs_clsid = id;
DEBUG_REFCNT(it, '*');
it->it_flags |= settings.use_cas ? ITEM_CAS : 0;
it->it_flags |= nsuffix != 0 ? ITEM_CFLAGS : 0;
it->nkey = nkey;
it->nbytes = nbytes;
memcpy(ITEM_key(it), key, nkey);
it->exptime = exptime;
if (nsuffix > 0) {
memcpy(ITEM_suffix(it), &flags, sizeof(flags));
}
/* Initialize internal chunk. */
if (it->it_flags & ITEM_CHUNKED) {
item_chunk *chunk = (item_chunk *) ITEM_schunk(it);
chunk->next = 0;
chunk->prev = 0;
chunk->used = 0;
chunk->size = 0;
chunk->head = it;
chunk->orig_clsid = hdr_id;
}
it->h_next = 0;
return it;
}
void item_free(item *it) {
size_t ntotal = ITEM_ntotal(it);
unsigned int clsid;
assert((it->it_flags & ITEM_LINKED) == 0);
assert(it != heads[it->slabs_clsid]);
assert(it != tails[it->slabs_clsid]);
assert(it->refcount == 0);
/* so slab size changer can tell later if item is already free or not */
clsid = ITEM_clsid(it);
DEBUG_REFCNT(it, 'F');
slabs_free(it, ntotal, clsid);
}
/**
* Returns true if an item will fit in the cache (its size does not exceed
* the maximum for a cache entry.)
*/
bool item_size_ok(const size_t nkey, const client_flags_t flags, const int nbytes) {
char prefix[40];
uint8_t nsuffix;
if (nbytes < 2)
return false;
size_t ntotal = item_make_header(nkey + 1, flags, nbytes,
prefix, &nsuffix);
if (settings.use_cas) {
ntotal += sizeof(uint64_t);
}
return slabs_clsid(ntotal) != 0;
}
/* fixing stats/references during warm start */
void do_item_link_fixup(item *it) {
item **head, **tail;
int ntotal = ITEM_ntotal(it);
uint32_t hv = hash(ITEM_key(it), it->nkey);
assoc_insert(it, hv);
head = &heads[it->slabs_clsid];
tail = &tails[it->slabs_clsid];
if (it->prev == 0 && *head == 0) *head = it;
if (it->next == 0 && *tail == 0) *tail = it;
sizes[it->slabs_clsid]++;
sizes_bytes[it->slabs_clsid] += ntotal;
STATS_LOCK();
stats_state.curr_bytes += ntotal;
stats_state.curr_items += 1;
stats.total_items += 1;
STATS_UNLOCK();
item_stats_sizes_add(it);
return;
}
static void do_item_link_q(item *it) { /* item is the new head */
item **head, **tail;
assert((it->it_flags & ITEM_SLABBED) == 0);
head = &heads[it->slabs_clsid];
tail = &tails[it->slabs_clsid];
assert(it != *head);
assert((*head && *tail) || (*head == 0 && *tail == 0));
it->prev = 0;
it->next = *head;
if (it->next) it->next->prev = it;
*head = it;
if (*tail == 0) *tail = it;
sizes[it->slabs_clsid]++;
#ifdef EXTSTORE
if (it->it_flags & ITEM_HDR) {
sizes_bytes[it->slabs_clsid] += (ITEM_ntotal(it) - it->nbytes) + sizeof(item_hdr);
} else {
sizes_bytes[it->slabs_clsid] += ITEM_ntotal(it);
}
#else
sizes_bytes[it->slabs_clsid] += ITEM_ntotal(it);
#endif
return;
}
static void item_link_q(item *it) {
pthread_mutex_lock(&lru_locks[it->slabs_clsid]);
do_item_link_q(it);
pthread_mutex_unlock(&lru_locks[it->slabs_clsid]);
}
static void item_link_q_warm(item *it) {
pthread_mutex_lock(&lru_locks[it->slabs_clsid]);
do_item_link_q(it);
itemstats[it->slabs_clsid].moves_to_warm++;
pthread_mutex_unlock(&lru_locks[it->slabs_clsid]);
}
static void do_item_unlink_q(item *it) {
item **head, **tail;
head = &heads[it->slabs_clsid];
tail = &tails[it->slabs_clsid];
if (*head == it) {
assert(it->prev == 0);
*head = it->next;
}
if (*tail == it) {
assert(it->next == 0);
*tail = it->prev;
}
assert(it->next != it);
assert(it->prev != it);
if (it->next) it->next->prev = it->prev;
if (it->prev) it->prev->next = it->next;
sizes[it->slabs_clsid]--;
#ifdef EXTSTORE
if (it->it_flags & ITEM_HDR) {
sizes_bytes[it->slabs_clsid] -= (ITEM_ntotal(it) - it->nbytes) + sizeof(item_hdr);
} else {
sizes_bytes[it->slabs_clsid] -= ITEM_ntotal(it);
}
#else
sizes_bytes[it->slabs_clsid] -= ITEM_ntotal(it);
#endif
return;
}
static void item_unlink_q(item *it) {
pthread_mutex_lock(&lru_locks[it->slabs_clsid]);
do_item_unlink_q(it);
pthread_mutex_unlock(&lru_locks[it->slabs_clsid]);
}
int do_item_link(item *it, const uint32_t hv, const uint64_t cas) {
MEMCACHED_ITEM_LINK(ITEM_key(it), it->nkey, it->nbytes);
assert((it->it_flags & (ITEM_LINKED|ITEM_SLABBED)) == 0);
it->it_flags |= ITEM_LINKED;
it->time = current_time;
STATS_LOCK();
stats_state.curr_bytes += ITEM_ntotal(it);
stats_state.curr_items += 1;
stats.total_items += 1;
STATS_UNLOCK();
/* Allocate a new CAS ID on link. */
ITEM_set_cas(it, cas);
assoc_insert(it, hv);
item_link_q(it);
refcount_incr(it);
item_stats_sizes_add(it);
return 1;
}
void do_item_unlink(item *it, const uint32_t hv) {
MEMCACHED_ITEM_UNLINK(ITEM_key(it), it->nkey, it->nbytes);
if ((it->it_flags & ITEM_LINKED) != 0) {
it->it_flags &= ~ITEM_LINKED;
STATS_LOCK();
stats_state.curr_bytes -= ITEM_ntotal(it);
stats_state.curr_items -= 1;
STATS_UNLOCK();
item_stats_sizes_remove(it);
assoc_delete(ITEM_key(it), it->nkey, hv);
item_unlink_q(it);
do_item_remove(it);
}
}
/* FIXME: Is it necessary to keep this copy/pasted code? */
void do_item_unlink_nolock(item *it, const uint32_t hv) {
MEMCACHED_ITEM_UNLINK(ITEM_key(it), it->nkey, it->nbytes);
if ((it->it_flags & ITEM_LINKED) != 0) {
it->it_flags &= ~ITEM_LINKED;
STATS_LOCK();
stats_state.curr_bytes -= ITEM_ntotal(it);
stats_state.curr_items -= 1;
STATS_UNLOCK();
item_stats_sizes_remove(it);
assoc_delete(ITEM_key(it), it->nkey, hv);
do_item_unlink_q(it);
do_item_remove(it);
}
}
void do_item_remove(item *it) {
MEMCACHED_ITEM_REMOVE(ITEM_key(it), it->nkey, it->nbytes);
assert((it->it_flags & ITEM_SLABBED) == 0);
assert(it->refcount > 0);
if (refcount_decr(it) == 0) {
item_free(it);
}
}
/* Bump the last accessed time, or relink if we're in compat mode */
void do_item_update(item *it) {
MEMCACHED_ITEM_UPDATE(ITEM_key(it), it->nkey, it->nbytes);
/* Hits to COLD_LRU immediately move to WARM. */
if (settings.lru_segmented) {
assert((it->it_flags & ITEM_SLABBED) == 0);
if ((it->it_flags & ITEM_LINKED) != 0) {
if (ITEM_lruid(it) == COLD_LRU && (it->it_flags & ITEM_ACTIVE)) {
it->time = current_time;
item_unlink_q(it);
it->slabs_clsid = ITEM_clsid(it);
it->slabs_clsid |= WARM_LRU;
it->it_flags &= ~ITEM_ACTIVE;
item_link_q_warm(it);
} else {
it->time = current_time;
}
}
} else if (it->time < current_time - ITEM_UPDATE_INTERVAL) {
assert((it->it_flags & ITEM_SLABBED) == 0);
if ((it->it_flags & ITEM_LINKED) != 0) {
it->time = current_time;
item_unlink_q(it);
item_link_q(it);
}
}
}
int do_item_replace(item *it, item *new_it, const uint32_t hv, const uint64_t cas) {
MEMCACHED_ITEM_REPLACE(ITEM_key(it), it->nkey, it->nbytes,
ITEM_key(new_it), new_it->nkey, new_it->nbytes);
assert((it->it_flags & ITEM_SLABBED) == 0);
do_item_unlink(it, hv);
return do_item_link(new_it, hv, cas);
}
void item_flush_expired(void) {
int i;
item *iter, *next;
if (settings.oldest_live == 0)
return;
for (i = 0; i < LARGEST_ID; i++) {
/* The LRU is sorted in decreasing time order, and an item's timestamp
* is never newer than its last access time, so we only need to walk
* back until we hit an item older than the oldest_live time.
* The oldest_live checking will auto-expire the remaining items.
*/
pthread_mutex_lock(&lru_locks[i]);
for (iter = heads[i]; iter != NULL; iter = next) {
void *hold_lock = NULL;
next = iter->next;
if (iter->time == 0 && iter->nkey == 0 && iter->it_flags == 1) {
continue; // crawler item.
}
uint32_t hv = hash(ITEM_key(iter), iter->nkey);
// if we can't lock the item, just give up.
// we can't block here because the lock order is inverted.
if ((hold_lock = item_trylock(hv)) == NULL) {
continue;
}
if (iter->time >= settings.oldest_live) {
// note: not sure why SLABBED check is here. linked and slabbed
// are mutually exclusive, but this can't hurt and I don't
// want to validate it right now.
if ((iter->it_flags & ITEM_SLABBED) == 0) {
STORAGE_delete(ext_storage, iter);
// nolock version because we hold the LRU lock already.
do_item_unlink_nolock(iter, hash(ITEM_key(iter), iter->nkey));
}
item_trylock_unlock(hold_lock);
} else {
/* We've hit the first old item. Continue to the next queue. */
item_trylock_unlock(hold_lock);
break;
}
}
pthread_mutex_unlock(&lru_locks[i]);
}
}
/*@null@*/
/* This is walking the line of violating lock order, but I think it's safe.
* If the LRU lock is held, an item in the LRU cannot be wiped and freed.
* The data could possibly be overwritten, but this is only accessing the
* headers.
* It may not be the best idea to leave it like this, but for now it's safe.
*/
char *item_cachedump(const unsigned int slabs_clsid, const unsigned int limit, unsigned int *bytes) {
unsigned int memlimit = 2 * 1024 * 1024; /* 2MB max response size */
char *buffer;
unsigned int bufcurr;
item *it;
unsigned int len;
unsigned int shown = 0;
char key_temp[KEY_MAX_LENGTH + 1];
char temp[512];
unsigned int id = slabs_clsid;
id |= COLD_LRU;
pthread_mutex_lock(&lru_locks[id]);
it = heads[id];
buffer = malloc((size_t)memlimit);
if (buffer == 0) {
pthread_mutex_unlock(&lru_locks[id]);
return NULL;
}
bufcurr = 0;
while (it != NULL && (limit == 0 || shown < limit)) {
assert(it->nkey <= KEY_MAX_LENGTH);
// protect from printing binary keys.
if ((it->nbytes == 0 && it->nkey == 0) || (it->it_flags & ITEM_KEY_BINARY)) {
it = it->next;
continue;
}
/* Copy the key since it may not be null-terminated in the struct */
strncpy(key_temp, ITEM_key(it), it->nkey);
key_temp[it->nkey] = 0x00; /* terminate */
len = snprintf(temp, sizeof(temp), "ITEM %s [%d b; %llu s]\r\n",
key_temp, it->nbytes - 2,
it->exptime == 0 ? 0 :
(unsigned long long)it->exptime + process_started);
if (bufcurr + len + 6 > memlimit) /* 6 is END\r\n\0 */
break;
memcpy(buffer + bufcurr, temp, len);
bufcurr += len;
shown++;
it = it->next;
}
memcpy(buffer + bufcurr, "END\r\n", 6);
bufcurr += 5;
*bytes = bufcurr;
pthread_mutex_unlock(&lru_locks[id]);
return buffer;
}
/* With refactoring of the various stats code the automover won't need a
* custom function here.
*/
void fill_item_stats_automove(item_stats_automove *am) {
int n;
for (n = 0; n < MAX_NUMBER_OF_SLAB_CLASSES; n++) {
item_stats_automove *cur = &am[n];
// outofmemory records into HOT
int i = n | HOT_LRU;
pthread_mutex_lock(&lru_locks[i]);
cur->outofmemory = itemstats[i].outofmemory;
pthread_mutex_unlock(&lru_locks[i]);
// evictions and tail age are from COLD
i = n | COLD_LRU;
pthread_mutex_lock(&lru_locks[i]);
cur->evicted = itemstats[i].evicted;
if (!tails[i]) {
cur->age = 0;
} else if (tails[i]->nbytes == 0 && tails[i]->nkey == 0 && tails[i]->it_flags == 1) {
/* it's a crawler, check previous entry */
if (tails[i]->prev) {
cur->age = current_time - tails[i]->prev->time;
} else {
cur->age = 0;
}
} else {
cur->age = current_time - tails[i]->time;
}
pthread_mutex_unlock(&lru_locks[i]);
}
}
void item_stats_totals(ADD_STAT add_stats, void *c) {
itemstats_t totals;
memset(&totals, 0, sizeof(itemstats_t));
int n;
for (n = 0; n < MAX_NUMBER_OF_SLAB_CLASSES; n++) {
int x;
int i;
for (x = 0; x < 4; x++) {
i = n | lru_type_map[x];
pthread_mutex_lock(&lru_locks[i]);
totals.evicted += itemstats[i].evicted;
totals.reclaimed += itemstats[i].reclaimed;
totals.expired_unfetched += itemstats[i].expired_unfetched;
totals.evicted_unfetched += itemstats[i].evicted_unfetched;
totals.evicted_active += itemstats[i].evicted_active;
totals.crawler_reclaimed += itemstats[i].crawler_reclaimed;
totals.crawler_items_checked += itemstats[i].crawler_items_checked;
totals.lrutail_reflocked += itemstats[i].lrutail_reflocked;
totals.moves_to_cold += itemstats[i].moves_to_cold;
totals.moves_to_warm += itemstats[i].moves_to_warm;
totals.moves_within_lru += itemstats[i].moves_within_lru;
totals.direct_reclaims += itemstats[i].direct_reclaims;
pthread_mutex_unlock(&lru_locks[i]);
}
}
APPEND_STAT("expired_unfetched", "%llu",
(unsigned long long)totals.expired_unfetched);
APPEND_STAT("evicted_unfetched", "%llu",
(unsigned long long)totals.evicted_unfetched);
if (settings.lru_maintainer_thread) {
APPEND_STAT("evicted_active", "%llu",
(unsigned long long)totals.evicted_active);
}
APPEND_STAT("evictions", "%llu",
(unsigned long long)totals.evicted);
APPEND_STAT("reclaimed", "%llu",
(unsigned long long)totals.reclaimed);
APPEND_STAT("crawler_reclaimed", "%llu",
(unsigned long long)totals.crawler_reclaimed);
APPEND_STAT("crawler_items_checked", "%llu",
(unsigned long long)totals.crawler_items_checked);
APPEND_STAT("lrutail_reflocked", "%llu",
(unsigned long long)totals.lrutail_reflocked);
if (settings.lru_maintainer_thread) {
APPEND_STAT("moves_to_cold", "%llu",
(unsigned long long)totals.moves_to_cold);
APPEND_STAT("moves_to_warm", "%llu",
(unsigned long long)totals.moves_to_warm);
APPEND_STAT("moves_within_lru", "%llu",
(unsigned long long)totals.moves_within_lru);
APPEND_STAT("direct_reclaims", "%llu",
(unsigned long long)totals.direct_reclaims);
APPEND_STAT("lru_bumps_dropped", "%llu",
(unsigned long long)lru_total_bumps_dropped());
}
}
void item_stats(ADD_STAT add_stats, void *c) {
struct thread_stats thread_stats;
threadlocal_stats_aggregate(&thread_stats);
itemstats_t totals;
int n;
for (n = 0; n < MAX_NUMBER_OF_SLAB_CLASSES; n++) {
memset(&totals, 0, sizeof(itemstats_t));
int x;
int i;
unsigned int size = 0;
unsigned int age = 0;
unsigned int age_hot = 0;
unsigned int age_warm = 0;
unsigned int lru_size_map[4];
const char *fmt = "items:%d:%s";
char key_str[STAT_KEY_LEN];
char val_str[STAT_VAL_LEN];
int klen = 0, vlen = 0;
for (x = 0; x < 4; x++) {
i = n | lru_type_map[x];
pthread_mutex_lock(&lru_locks[i]);
totals.evicted += itemstats[i].evicted;
totals.evicted_nonzero += itemstats[i].evicted_nonzero;
totals.reclaimed += itemstats[i].reclaimed;
totals.outofmemory += itemstats[i].outofmemory;
totals.tailrepairs += itemstats[i].tailrepairs;
totals.expired_unfetched += itemstats[i].expired_unfetched;
totals.evicted_unfetched += itemstats[i].evicted_unfetched;
totals.evicted_active += itemstats[i].evicted_active;
totals.crawler_reclaimed += itemstats[i].crawler_reclaimed;
totals.crawler_items_checked += itemstats[i].crawler_items_checked;
totals.lrutail_reflocked += itemstats[i].lrutail_reflocked;
totals.moves_to_cold += itemstats[i].moves_to_cold;
totals.moves_to_warm += itemstats[i].moves_to_warm;
totals.moves_within_lru += itemstats[i].moves_within_lru;
totals.direct_reclaims += itemstats[i].direct_reclaims;
totals.mem_requested += sizes_bytes[i];
size += sizes[i];
lru_size_map[x] = sizes[i];
if (lru_type_map[x] == COLD_LRU && tails[i] != NULL) {
age = current_time - tails[i]->time;
} else if (lru_type_map[x] == HOT_LRU && tails[i] != NULL) {
age_hot = current_time - tails[i]->time;
} else if (lru_type_map[x] == WARM_LRU && tails[i] != NULL) {
age_warm = current_time - tails[i]->time;
}
if (lru_type_map[x] == COLD_LRU)
totals.evicted_time = itemstats[i].evicted_time;
switch (lru_type_map[x]) {
case HOT_LRU:
totals.hits_to_hot = thread_stats.lru_hits[i];
break;
case WARM_LRU:
totals.hits_to_warm = thread_stats.lru_hits[i];
break;
case COLD_LRU:
totals.hits_to_cold = thread_stats.lru_hits[i];
break;
case TEMP_LRU:
totals.hits_to_temp = thread_stats.lru_hits[i];
break;
}
pthread_mutex_unlock(&lru_locks[i]);
}
if (size == 0)
continue;
APPEND_NUM_FMT_STAT(fmt, n, "number", "%u", size);
if (settings.lru_maintainer_thread) {
APPEND_NUM_FMT_STAT(fmt, n, "number_hot", "%u", lru_size_map[0]);
APPEND_NUM_FMT_STAT(fmt, n, "number_warm", "%u", lru_size_map[1]);
APPEND_NUM_FMT_STAT(fmt, n, "number_cold", "%u", lru_size_map[2]);
if (settings.temp_lru) {
APPEND_NUM_FMT_STAT(fmt, n, "number_temp", "%u", lru_size_map[3]);
}
APPEND_NUM_FMT_STAT(fmt, n, "age_hot", "%u", age_hot);
APPEND_NUM_FMT_STAT(fmt, n, "age_warm", "%u", age_warm);
}
APPEND_NUM_FMT_STAT(fmt, n, "age", "%u", age);
APPEND_NUM_FMT_STAT(fmt, n, "mem_requested", "%llu", (unsigned long long)totals.mem_requested);
APPEND_NUM_FMT_STAT(fmt, n, "evicted",
"%llu", (unsigned long long)totals.evicted);
APPEND_NUM_FMT_STAT(fmt, n, "evicted_nonzero",
"%llu", (unsigned long long)totals.evicted_nonzero);
APPEND_NUM_FMT_STAT(fmt, n, "evicted_time",
"%u", totals.evicted_time);
APPEND_NUM_FMT_STAT(fmt, n, "outofmemory",
"%llu", (unsigned long long)totals.outofmemory);
APPEND_NUM_FMT_STAT(fmt, n, "tailrepairs",
"%llu", (unsigned long long)totals.tailrepairs);
APPEND_NUM_FMT_STAT(fmt, n, "reclaimed",
"%llu", (unsigned long long)totals.reclaimed);
APPEND_NUM_FMT_STAT(fmt, n, "expired_unfetched",
"%llu", (unsigned long long)totals.expired_unfetched);
APPEND_NUM_FMT_STAT(fmt, n, "evicted_unfetched",
"%llu", (unsigned long long)totals.evicted_unfetched);
if (settings.lru_maintainer_thread) {
APPEND_NUM_FMT_STAT(fmt, n, "evicted_active",
"%llu", (unsigned long long)totals.evicted_active);
}
APPEND_NUM_FMT_STAT(fmt, n, "crawler_reclaimed",
"%llu", (unsigned long long)totals.crawler_reclaimed);
APPEND_NUM_FMT_STAT(fmt, n, "crawler_items_checked",
"%llu", (unsigned long long)totals.crawler_items_checked);
APPEND_NUM_FMT_STAT(fmt, n, "lrutail_reflocked",
"%llu", (unsigned long long)totals.lrutail_reflocked);
if (settings.lru_maintainer_thread) {
APPEND_NUM_FMT_STAT(fmt, n, "moves_to_cold",
"%llu", (unsigned long long)totals.moves_to_cold);
APPEND_NUM_FMT_STAT(fmt, n, "moves_to_warm",
"%llu", (unsigned long long)totals.moves_to_warm);
APPEND_NUM_FMT_STAT(fmt, n, "moves_within_lru",
"%llu", (unsigned long long)totals.moves_within_lru);
APPEND_NUM_FMT_STAT(fmt, n, "direct_reclaims",
"%llu", (unsigned long long)totals.direct_reclaims);
APPEND_NUM_FMT_STAT(fmt, n, "hits_to_hot",
"%llu", (unsigned long long)totals.hits_to_hot);
APPEND_NUM_FMT_STAT(fmt, n, "hits_to_warm",
"%llu", (unsigned long long)totals.hits_to_warm);
APPEND_NUM_FMT_STAT(fmt, n, "hits_to_cold",
"%llu", (unsigned long long)totals.hits_to_cold);
APPEND_NUM_FMT_STAT(fmt, n, "hits_to_temp",
"%llu", (unsigned long long)totals.hits_to_temp);
}
}
/* getting here means both ascii and binary terminators fit */
add_stats(NULL, 0, NULL, 0, c);
}
bool item_stats_sizes_status(void) {
bool ret = false;
if (stats_sizes_hist != NULL)
ret = true;
return ret;
}
void item_stats_sizes_init(void) {
if (stats_sizes_hist != NULL)
return;
stats_sizes_buckets = settings.item_size_max / 32 + 1;
stats_sizes_hist = calloc(stats_sizes_buckets, sizeof(int));
}
void item_stats_sizes_add(item *it) {
if (stats_sizes_hist == NULL)
return;
int ntotal = ITEM_ntotal(it);
int bucket = ntotal / 32;
if ((ntotal % 32) != 0) bucket++;
if (bucket < stats_sizes_buckets) stats_sizes_hist[bucket]++;
}
/* I think there's no way for this to be accurate without using the CAS value.
* Since items getting their time value bumped will pass this validation.
*/
void item_stats_sizes_remove(item *it) {
if (stats_sizes_hist == NULL)
return;
int ntotal = ITEM_ntotal(it);
int bucket = ntotal / 32;
if ((ntotal % 32) != 0) bucket++;
if (bucket < stats_sizes_buckets) stats_sizes_hist[bucket]--;
}
/** dumps out a list of objects of each size, with granularity of 32 bytes */
/*@null@*/
/* Locks are correct based on a technicality. Holds LRU lock while doing the
* work, so items can't go invalid, and it's only looking at header sizes
* which don't change.
*/
void item_stats_sizes(ADD_STAT add_stats, void *c) {
if (stats_sizes_hist != NULL) {
int i;
for (i = 0; i < stats_sizes_buckets; i++) {
if (stats_sizes_hist[i] != 0) {
char key[12];
snprintf(key, sizeof(key), "%d", i * 32);
APPEND_STAT(key, "%u", stats_sizes_hist[i]);
}
}
} else {
APPEND_STAT("sizes_status", "disabled", "");
}
add_stats(NULL, 0, NULL, 0, c);
}
/** wrapper around assoc_find which does the lazy expiration logic */
item *do_item_get(const char *key, const size_t nkey, const uint32_t hv, LIBEVENT_THREAD *t, const bool do_update) {
item *it = assoc_find(key, nkey, hv);
if (it != NULL) {
refcount_incr(it);
/* Optimization for slab reassignment. prevents popular items from
* jamming in busy wait. Can only do this here to satisfy lock order
* of item_lock, slabs_lock. */
/* This was made unsafe by removal of the cache_lock:
* slab_rebalance_signal and slab_rebal.* are modified in a separate
* thread under slabs_lock. If slab_rebalance_signal = 1, slab_start =
* NULL (0), but slab_end is still equal to some value, this would end
* up unlinking every item fetched.
* This is either an acceptable loss, or if slab_rebalance_signal is
* true, slab_start/slab_end should be put behind the slabs_lock.
* Which would cause a huge potential slowdown.
* Could also use a specific lock for slab_rebal.* and
* slab_rebalance_signal (shorter lock?)
*/
/*if (slab_rebalance_signal &&
((void *)it >= slab_rebal.slab_start && (void *)it < slab_rebal.slab_end)) {
do_item_unlink(it, hv);