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|
// SPDX-License-Identifier: GPL-3.0-or-later
#define NETDATA_RRD_INTERNALS
#include "rrdengine.h"
/* Forward declerations */
static int pg_cache_try_evict_one_page_unsafe(struct rrdengine_instance *ctx);
/* always inserts into tail */
static inline void pg_cache_replaceQ_insert_unsafe(struct rrdengine_instance *ctx,
struct rrdeng_page_descr *descr)
{
struct page_cache *pg_cache = &ctx->pg_cache;
struct page_cache_descr *pg_cache_descr = descr->pg_cache_descr;
if (likely(NULL != pg_cache->replaceQ.tail)) {
pg_cache_descr->prev = pg_cache->replaceQ.tail;
pg_cache->replaceQ.tail->next = pg_cache_descr;
}
if (unlikely(NULL == pg_cache->replaceQ.head)) {
pg_cache->replaceQ.head = pg_cache_descr;
}
pg_cache->replaceQ.tail = pg_cache_descr;
}
static inline void pg_cache_replaceQ_delete_unsafe(struct rrdengine_instance *ctx,
struct rrdeng_page_descr *descr)
{
struct page_cache *pg_cache = &ctx->pg_cache;
struct page_cache_descr *pg_cache_descr = descr->pg_cache_descr, *prev, *next;
prev = pg_cache_descr->prev;
next = pg_cache_descr->next;
if (likely(NULL != prev)) {
prev->next = next;
}
if (likely(NULL != next)) {
next->prev = prev;
}
if (unlikely(pg_cache_descr == pg_cache->replaceQ.head)) {
pg_cache->replaceQ.head = next;
}
if (unlikely(pg_cache_descr == pg_cache->replaceQ.tail)) {
pg_cache->replaceQ.tail = prev;
}
pg_cache_descr->prev = pg_cache_descr->next = NULL;
}
void pg_cache_replaceQ_insert(struct rrdengine_instance *ctx,
struct rrdeng_page_descr *descr)
{
struct page_cache *pg_cache = &ctx->pg_cache;
uv_rwlock_wrlock(&pg_cache->replaceQ.lock);
pg_cache_replaceQ_insert_unsafe(ctx, descr);
uv_rwlock_wrunlock(&pg_cache->replaceQ.lock);
}
void pg_cache_replaceQ_delete(struct rrdengine_instance *ctx,
struct rrdeng_page_descr *descr)
{
struct page_cache *pg_cache = &ctx->pg_cache;
uv_rwlock_wrlock(&pg_cache->replaceQ.lock);
pg_cache_replaceQ_delete_unsafe(ctx, descr);
uv_rwlock_wrunlock(&pg_cache->replaceQ.lock);
}
void pg_cache_replaceQ_set_hot(struct rrdengine_instance *ctx,
struct rrdeng_page_descr *descr)
{
struct page_cache *pg_cache = &ctx->pg_cache;
uv_rwlock_wrlock(&pg_cache->replaceQ.lock);
pg_cache_replaceQ_delete_unsafe(ctx, descr);
pg_cache_replaceQ_insert_unsafe(ctx, descr);
uv_rwlock_wrunlock(&pg_cache->replaceQ.lock);
}
struct rrdeng_page_descr *pg_cache_create_descr(void)
{
struct rrdeng_page_descr *descr;
descr = mallocz(sizeof(*descr));
descr->page_length = 0;
descr->start_time = INVALID_TIME;
descr->end_time = INVALID_TIME;
descr->id = NULL;
descr->extent = NULL;
descr->pg_cache_descr_state = 0;
descr->pg_cache_descr = NULL;
return descr;
}
/* The caller must hold page descriptor lock. */
void pg_cache_wake_up_waiters_unsafe(struct rrdeng_page_descr *descr)
{
struct page_cache_descr *pg_cache_descr = descr->pg_cache_descr;
if (pg_cache_descr->waiters)
uv_cond_broadcast(&pg_cache_descr->cond);
}
/*
* The caller must hold page descriptor lock.
* The lock will be released and re-acquired. The descriptor is not guaranteed
* to exist after this function returns.
*/
void pg_cache_wait_event_unsafe(struct rrdeng_page_descr *descr)
{
struct page_cache_descr *pg_cache_descr = descr->pg_cache_descr;
++pg_cache_descr->waiters;
uv_cond_wait(&pg_cache_descr->cond, &pg_cache_descr->mutex);
--pg_cache_descr->waiters;
}
/*
* Returns page flags.
* The lock will be released and re-acquired. The descriptor is not guaranteed
* to exist after this function returns.
*/
unsigned long pg_cache_wait_event(struct rrdengine_instance *ctx, struct rrdeng_page_descr *descr)
{
struct page_cache_descr *pg_cache_descr = descr->pg_cache_descr;
unsigned long flags;
rrdeng_page_descr_mutex_lock(ctx, descr);
pg_cache_wait_event_unsafe(descr);
flags = pg_cache_descr->flags;
rrdeng_page_descr_mutex_unlock(ctx, descr);
return flags;
}
/*
* The caller must hold page descriptor lock.
* Gets a reference to the page descriptor.
* Returns 1 on success and 0 on failure.
*/
int pg_cache_try_get_unsafe(struct rrdeng_page_descr *descr, int exclusive_access)
{
struct page_cache_descr *pg_cache_descr = descr->pg_cache_descr;
if ((pg_cache_descr->flags & (RRD_PAGE_LOCKED | RRD_PAGE_READ_PENDING)) ||
(exclusive_access && pg_cache_descr->refcnt)) {
return 0;
}
if (exclusive_access)
pg_cache_descr->flags |= RRD_PAGE_LOCKED;
++pg_cache_descr->refcnt;
return 1;
}
/*
* The caller must hold page descriptor lock.
* Same return values as pg_cache_try_get_unsafe() without doing anything.
*/
int pg_cache_can_get_unsafe(struct rrdeng_page_descr *descr, int exclusive_access)
{
struct page_cache_descr *pg_cache_descr = descr->pg_cache_descr;
if ((pg_cache_descr->flags & (RRD_PAGE_LOCKED | RRD_PAGE_READ_PENDING)) ||
(exclusive_access && pg_cache_descr->refcnt)) {
return 0;
}
return 1;
}
/*
* The caller must hold the page descriptor lock.
* This function may block doing cleanup.
*/
void pg_cache_put_unsafe(struct rrdeng_page_descr *descr)
{
struct page_cache_descr *pg_cache_descr = descr->pg_cache_descr;
pg_cache_descr->flags &= ~RRD_PAGE_LOCKED;
if (0 == --pg_cache_descr->refcnt) {
pg_cache_wake_up_waiters_unsafe(descr);
}
}
/*
* This function may block doing cleanup.
*/
void pg_cache_put(struct rrdengine_instance *ctx, struct rrdeng_page_descr *descr)
{
rrdeng_page_descr_mutex_lock(ctx, descr);
pg_cache_put_unsafe(descr);
rrdeng_page_descr_mutex_unlock(ctx, descr);
}
/* The caller must hold the page cache lock */
static void pg_cache_release_pages_unsafe(struct rrdengine_instance *ctx, unsigned number)
{
struct page_cache *pg_cache = &ctx->pg_cache;
pg_cache->populated_pages -= number;
}
static void pg_cache_release_pages(struct rrdengine_instance *ctx, unsigned number)
{
struct page_cache *pg_cache = &ctx->pg_cache;
uv_rwlock_wrlock(&pg_cache->pg_cache_rwlock);
pg_cache_release_pages_unsafe(ctx, number);
uv_rwlock_wrunlock(&pg_cache->pg_cache_rwlock);
}
/*
* This function returns the maximum number of pages allowed in the page cache.
* The caller must hold the page cache lock.
*/
unsigned long pg_cache_hard_limit(struct rrdengine_instance *ctx)
{
/* it's twice the number of producers since we pin 2 pages per producer */
return ctx->max_cache_pages + 2 * (unsigned long)ctx->stats.metric_API_producers;
}
/*
* This function returns the low watermark number of pages in the page cache. The page cache should strive to keep the
* number of pages below that number.
* The caller must hold the page cache lock.
*/
unsigned long pg_cache_soft_limit(struct rrdengine_instance *ctx)
{
/* it's twice the number of producers since we pin 2 pages per producer */
return ctx->cache_pages_low_watermark + 2 * (unsigned long)ctx->stats.metric_API_producers;
}
/*
* This function will block until it reserves #number populated pages.
* It will trigger evictions or dirty page flushing if the pg_cache_hard_limit() limit is hit.
*/
static void pg_cache_reserve_pages(struct rrdengine_instance *ctx, unsigned number)
{
struct page_cache *pg_cache = &ctx->pg_cache;
unsigned failures = 0;
const unsigned FAILURES_CEILING = 10; /* truncates exponential backoff to (2^FAILURES_CEILING x slot) */
unsigned long exp_backoff_slot_usec = USEC_PER_MS * 10;
assert(number < ctx->max_cache_pages);
uv_rwlock_wrlock(&pg_cache->pg_cache_rwlock);
if (pg_cache->populated_pages + number >= pg_cache_hard_limit(ctx) + 1)
debug(D_RRDENGINE, "==Page cache full. Reserving %u pages.==",
number);
while (pg_cache->populated_pages + number >= pg_cache_hard_limit(ctx) + 1) {
if (!pg_cache_try_evict_one_page_unsafe(ctx)) {
/* failed to evict */
struct completion compl;
struct rrdeng_cmd cmd;
++failures;
uv_rwlock_wrunlock(&pg_cache->pg_cache_rwlock);
init_completion(&compl);
cmd.opcode = RRDENG_FLUSH_PAGES;
cmd.completion = &compl;
rrdeng_enq_cmd(&ctx->worker_config, &cmd);
/* wait for some pages to be flushed */
debug(D_RRDENGINE, "%s: waiting for pages to be written to disk before evicting.", __func__);
wait_for_completion(&compl);
destroy_completion(&compl);
if (unlikely(failures > 1)) {
unsigned long slots;
/* exponential backoff */
slots = random() % (2LU << MIN(failures, FAILURES_CEILING));
(void)sleep_usec(slots * exp_backoff_slot_usec);
}
uv_rwlock_wrlock(&pg_cache->pg_cache_rwlock);
}
}
pg_cache->populated_pages += number;
uv_rwlock_wrunlock(&pg_cache->pg_cache_rwlock);
}
/*
* This function will attempt to reserve #number populated pages.
* It may trigger evictions if the pg_cache_soft_limit() limit is hit.
* Returns 0 on failure and 1 on success.
*/
static int pg_cache_try_reserve_pages(struct rrdengine_instance *ctx, unsigned number)
{
struct page_cache *pg_cache = &ctx->pg_cache;
unsigned count = 0;
int ret = 0;
assert(number < ctx->max_cache_pages);
uv_rwlock_wrlock(&pg_cache->pg_cache_rwlock);
if (pg_cache->populated_pages + number >= pg_cache_soft_limit(ctx) + 1) {
debug(D_RRDENGINE,
"==Page cache full. Trying to reserve %u pages.==",
number);
do {
if (!pg_cache_try_evict_one_page_unsafe(ctx))
break;
++count;
} while (pg_cache->populated_pages + number >= pg_cache_soft_limit(ctx) + 1);
debug(D_RRDENGINE, "Evicted %u pages.", count);
}
if (pg_cache->populated_pages + number < pg_cache_hard_limit(ctx) + 1) {
pg_cache->populated_pages += number;
ret = 1; /* success */
}
uv_rwlock_wrunlock(&pg_cache->pg_cache_rwlock);
return ret;
}
/* The caller must hold the page cache and the page descriptor locks in that order */
static void pg_cache_evict_unsafe(struct rrdengine_instance *ctx, struct rrdeng_page_descr *descr)
{
struct page_cache_descr *pg_cache_descr = descr->pg_cache_descr;
freez(pg_cache_descr->page);
pg_cache_descr->page = NULL;
pg_cache_descr->flags &= ~RRD_PAGE_POPULATED;
pg_cache_release_pages_unsafe(ctx, 1);
++ctx->stats.pg_cache_evictions;
}
/*
* The caller must hold the page cache lock.
* Lock order: page cache -> replaceQ -> page descriptor
* This function iterates all pages and tries to evict one.
* If it fails it sets in_flight_descr to the oldest descriptor that has write-back in progress,
* or it sets it to NULL if no write-back is in progress.
*
* Returns 1 on success and 0 on failure.
*/
static int pg_cache_try_evict_one_page_unsafe(struct rrdengine_instance *ctx)
{
struct page_cache *pg_cache = &ctx->pg_cache;
unsigned long old_flags;
struct rrdeng_page_descr *descr;
struct page_cache_descr *pg_cache_descr = NULL;
uv_rwlock_wrlock(&pg_cache->replaceQ.lock);
for (pg_cache_descr = pg_cache->replaceQ.head ; NULL != pg_cache_descr ; pg_cache_descr = pg_cache_descr->next) {
descr = pg_cache_descr->descr;
rrdeng_page_descr_mutex_lock(ctx, descr);
old_flags = pg_cache_descr->flags;
if ((old_flags & RRD_PAGE_POPULATED) && !(old_flags & RRD_PAGE_DIRTY) && pg_cache_try_get_unsafe(descr, 1)) {
/* must evict */
pg_cache_evict_unsafe(ctx, descr);
pg_cache_put_unsafe(descr);
pg_cache_replaceQ_delete_unsafe(ctx, descr);
rrdeng_page_descr_mutex_unlock(ctx, descr);
uv_rwlock_wrunlock(&pg_cache->replaceQ.lock);
rrdeng_try_deallocate_pg_cache_descr(ctx, descr);
return 1;
}
rrdeng_page_descr_mutex_unlock(ctx, descr);
}
uv_rwlock_wrunlock(&pg_cache->replaceQ.lock);
/* failed to evict */
return 0;
}
void pg_cache_punch_hole(struct rrdengine_instance *ctx, struct rrdeng_page_descr *descr, uint8_t remove_dirty)
{
struct page_cache *pg_cache = &ctx->pg_cache;
struct page_cache_descr *pg_cache_descr = NULL;
Pvoid_t *PValue;
struct pg_cache_page_index *page_index;
int ret;
uv_rwlock_rdlock(&pg_cache->metrics_index.lock);
PValue = JudyHSGet(pg_cache->metrics_index.JudyHS_array, descr->id, sizeof(uuid_t));
assert(NULL != PValue);
page_index = *PValue;
uv_rwlock_rdunlock(&pg_cache->metrics_index.lock);
uv_rwlock_wrlock(&page_index->lock);
ret = JudyLDel(&page_index->JudyL_array, (Word_t)(descr->start_time / USEC_PER_SEC), PJE0);
uv_rwlock_wrunlock(&page_index->lock);
if (unlikely(0 == ret)) {
error("Page under deletion was not in index.");
if (unlikely(debug_flags & D_RRDENGINE)) {
print_page_descr(descr);
}
goto destroy;
}
assert(1 == ret);
uv_rwlock_wrlock(&pg_cache->pg_cache_rwlock);
++ctx->stats.pg_cache_deletions;
--pg_cache->page_descriptors;
uv_rwlock_wrunlock(&pg_cache->pg_cache_rwlock);
rrdeng_page_descr_mutex_lock(ctx, descr);
pg_cache_descr = descr->pg_cache_descr;
while (!pg_cache_try_get_unsafe(descr, 1)) {
debug(D_RRDENGINE, "%s: Waiting for locked page:", __func__);
if (unlikely(debug_flags & D_RRDENGINE))
print_page_cache_descr(descr);
pg_cache_wait_event_unsafe(descr);
}
if (!remove_dirty) {
/* even a locked page could be dirty */
while (unlikely(pg_cache_descr->flags & RRD_PAGE_DIRTY)) {
debug(D_RRDENGINE, "%s: Found dirty page, waiting for it to be flushed:", __func__);
if (unlikely(debug_flags & D_RRDENGINE))
print_page_cache_descr(descr);
pg_cache_wait_event_unsafe(descr);
}
}
rrdeng_page_descr_mutex_unlock(ctx, descr);
if (pg_cache_descr->flags & RRD_PAGE_POPULATED) {
/* only after locking can it be safely deleted from LRU */
pg_cache_replaceQ_delete(ctx, descr);
uv_rwlock_wrlock(&pg_cache->pg_cache_rwlock);
pg_cache_evict_unsafe(ctx, descr);
uv_rwlock_wrunlock(&pg_cache->pg_cache_rwlock);
}
pg_cache_put(ctx, descr);
rrdeng_destroy_pg_cache_descr(ctx, pg_cache_descr);
destroy:
freez(descr);
pg_cache_update_metric_times(page_index);
}
static inline int is_page_in_time_range(struct rrdeng_page_descr *descr, usec_t start_time, usec_t end_time)
{
usec_t pg_start, pg_end;
pg_start = descr->start_time;
pg_end = descr->end_time;
return (pg_start < start_time && pg_end >= start_time) ||
(pg_start >= start_time && pg_start <= end_time);
}
static inline int is_point_in_time_in_page(struct rrdeng_page_descr *descr, usec_t point_in_time)
{
return (point_in_time >= descr->start_time && point_in_time <= descr->end_time);
}
/* The caller must hold the page index lock */
static inline struct rrdeng_page_descr *
find_first_page_in_time_range(struct pg_cache_page_index *page_index, usec_t start_time, usec_t end_time)
{
struct rrdeng_page_descr *descr = NULL;
Pvoid_t *PValue;
Word_t Index;
Index = (Word_t)(start_time / USEC_PER_SEC);
PValue = JudyLLast(page_index->JudyL_array, &Index, PJE0);
if (likely(NULL != PValue)) {
descr = *PValue;
if (is_page_in_time_range(descr, start_time, end_time)) {
return descr;
}
}
Index = (Word_t)(start_time / USEC_PER_SEC);
PValue = JudyLFirst(page_index->JudyL_array, &Index, PJE0);
if (likely(NULL != PValue)) {
descr = *PValue;
if (is_page_in_time_range(descr, start_time, end_time)) {
return descr;
}
}
return NULL;
}
/* Update metric oldest and latest timestamps efficiently when adding new values */
void pg_cache_add_new_metric_time(struct pg_cache_page_index *page_index, struct rrdeng_page_descr *descr)
{
usec_t oldest_time = page_index->oldest_time;
usec_t latest_time = page_index->latest_time;
if (unlikely(oldest_time == INVALID_TIME || descr->start_time < oldest_time)) {
page_index->oldest_time = descr->start_time;
}
if (likely(descr->end_time > latest_time || latest_time == INVALID_TIME)) {
page_index->latest_time = descr->end_time;
}
}
/* Update metric oldest and latest timestamps when removing old values */
void pg_cache_update_metric_times(struct pg_cache_page_index *page_index)
{
Pvoid_t *firstPValue, *lastPValue;
Word_t firstIndex, lastIndex;
struct rrdeng_page_descr *descr;
usec_t oldest_time = INVALID_TIME;
usec_t latest_time = INVALID_TIME;
uv_rwlock_rdlock(&page_index->lock);
/* Find first page in range */
firstIndex = (Word_t)0;
firstPValue = JudyLFirst(page_index->JudyL_array, &firstIndex, PJE0);
if (likely(NULL != firstPValue)) {
descr = *firstPValue;
oldest_time = descr->start_time;
}
lastIndex = (Word_t)-1;
lastPValue = JudyLLast(page_index->JudyL_array, &lastIndex, PJE0);
if (likely(NULL != lastPValue)) {
descr = *lastPValue;
latest_time = descr->end_time;
}
uv_rwlock_rdunlock(&page_index->lock);
if (unlikely(NULL == firstPValue)) {
assert(NULL == lastPValue);
page_index->oldest_time = page_index->latest_time = INVALID_TIME;
return;
}
page_index->oldest_time = oldest_time;
page_index->latest_time = latest_time;
}
/* If index is NULL lookup by UUID (descr->id) */
void pg_cache_insert(struct rrdengine_instance *ctx, struct pg_cache_page_index *index,
struct rrdeng_page_descr *descr)
{
struct page_cache *pg_cache = &ctx->pg_cache;
Pvoid_t *PValue;
struct pg_cache_page_index *page_index;
unsigned long pg_cache_descr_state = descr->pg_cache_descr_state;
if (0 != pg_cache_descr_state) {
/* there is page cache descriptor pre-allocated state */
struct page_cache_descr *pg_cache_descr = descr->pg_cache_descr;
assert(pg_cache_descr_state & PG_CACHE_DESCR_ALLOCATED);
if (pg_cache_descr->flags & RRD_PAGE_POPULATED) {
pg_cache_reserve_pages(ctx, 1);
if (!(pg_cache_descr->flags & RRD_PAGE_DIRTY))
pg_cache_replaceQ_insert(ctx, descr);
}
}
if (unlikely(NULL == index)) {
uv_rwlock_rdlock(&pg_cache->metrics_index.lock);
PValue = JudyHSGet(pg_cache->metrics_index.JudyHS_array, descr->id, sizeof(uuid_t));
assert(NULL != PValue);
page_index = *PValue;
uv_rwlock_rdunlock(&pg_cache->metrics_index.lock);
} else {
page_index = index;
}
uv_rwlock_wrlock(&page_index->lock);
PValue = JudyLIns(&page_index->JudyL_array, (Word_t)(descr->start_time / USEC_PER_SEC), PJE0);
*PValue = descr;
pg_cache_add_new_metric_time(page_index, descr);
uv_rwlock_wrunlock(&page_index->lock);
uv_rwlock_wrlock(&pg_cache->pg_cache_rwlock);
++ctx->stats.pg_cache_insertions;
++pg_cache->page_descriptors;
uv_rwlock_wrunlock(&pg_cache->pg_cache_rwlock);
}
usec_t pg_cache_oldest_time_in_range(struct rrdengine_instance *ctx, uuid_t *id, usec_t start_time, usec_t end_time)
{
struct page_cache *pg_cache = &ctx->pg_cache;
struct rrdeng_page_descr *descr = NULL;
Pvoid_t *PValue;
struct pg_cache_page_index *page_index;
uv_rwlock_rdlock(&pg_cache->metrics_index.lock);
PValue = JudyHSGet(pg_cache->metrics_index.JudyHS_array, id, sizeof(uuid_t));
if (likely(NULL != PValue)) {
page_index = *PValue;
}
uv_rwlock_rdunlock(&pg_cache->metrics_index.lock);
if (NULL == PValue) {
return INVALID_TIME;
}
uv_rwlock_rdlock(&page_index->lock);
descr = find_first_page_in_time_range(page_index, start_time, end_time);
if (NULL == descr) {
uv_rwlock_rdunlock(&page_index->lock);
return INVALID_TIME;
}
uv_rwlock_rdunlock(&page_index->lock);
return descr->start_time;
}
/**
* Return page information for the first page before point_in_time that satisfies the filter.
* @param ctx DB context
* @param page_index page index of a metric
* @param point_in_time the pages that are searched must be older than this timestamp
* @param filter decides if the page satisfies the caller's criteria
* @param page_info the result of the search is set in this pointer
*/
void pg_cache_get_filtered_info_prev(struct rrdengine_instance *ctx, struct pg_cache_page_index *page_index,
usec_t point_in_time, pg_cache_page_info_filter_t *filter,
struct rrdeng_page_info *page_info)
{
struct page_cache *pg_cache = &ctx->pg_cache;
struct rrdeng_page_descr *descr = NULL;
Pvoid_t *PValue;
Word_t Index;
(void)pg_cache;
assert(NULL != page_index);
Index = (Word_t)(point_in_time / USEC_PER_SEC);
uv_rwlock_rdlock(&page_index->lock);
do {
PValue = JudyLPrev(page_index->JudyL_array, &Index, PJE0);
descr = unlikely(NULL == PValue) ? NULL : *PValue;
} while (descr != NULL && !filter(descr));
if (unlikely(NULL == descr)) {
page_info->page_length = 0;
page_info->start_time = INVALID_TIME;
page_info->end_time = INVALID_TIME;
} else {
page_info->page_length = descr->page_length;
page_info->start_time = descr->start_time;
page_info->end_time = descr->end_time;
}
uv_rwlock_rdunlock(&page_index->lock);
}
/**
* Searches for pages in a time range and triggers disk I/O if necessary and possible.
* Does not get a reference.
* @param ctx DB context
* @param id UUID
* @param start_time inclusive starting time in usec
* @param end_time inclusive ending time in usec
* @param page_info_arrayp It allocates (*page_arrayp) and populates it with information of pages that overlap
* with the time range [start_time,end_time]. The caller must free (*page_info_arrayp) with freez().
* If page_info_arrayp is set to NULL nothing was allocated.
* @param ret_page_indexp Sets the page index pointer (*ret_page_indexp) for the given UUID.
* @return the number of pages that overlap with the time range [start_time,end_time].
*/
unsigned pg_cache_preload(struct rrdengine_instance *ctx, uuid_t *id, usec_t start_time, usec_t end_time,
struct rrdeng_page_info **page_info_arrayp, struct pg_cache_page_index **ret_page_indexp)
{
struct page_cache *pg_cache = &ctx->pg_cache;
struct rrdeng_page_descr *descr = NULL, *preload_array[PAGE_CACHE_MAX_PRELOAD_PAGES];
struct page_cache_descr *pg_cache_descr = NULL;
unsigned i, j, k, preload_count, count, page_info_array_max_size;
unsigned long flags;
Pvoid_t *PValue;
struct pg_cache_page_index *page_index;
Word_t Index;
uint8_t failed_to_reserve;
assert(NULL != ret_page_indexp);
uv_rwlock_rdlock(&pg_cache->metrics_index.lock);
PValue = JudyHSGet(pg_cache->metrics_index.JudyHS_array, id, sizeof(uuid_t));
if (likely(NULL != PValue)) {
*ret_page_indexp = page_index = *PValue;
}
uv_rwlock_rdunlock(&pg_cache->metrics_index.lock);
if (NULL == PValue) {
debug(D_RRDENGINE, "%s: No page was found to attempt preload.", __func__);
*ret_page_indexp = NULL;
return 0;
}
uv_rwlock_rdlock(&page_index->lock);
descr = find_first_page_in_time_range(page_index, start_time, end_time);
if (NULL == descr) {
uv_rwlock_rdunlock(&page_index->lock);
debug(D_RRDENGINE, "%s: No page was found to attempt preload.", __func__);
*ret_page_indexp = NULL;
return 0;
} else {
Index = (Word_t)(descr->start_time / USEC_PER_SEC);
}
if (page_info_arrayp) {
page_info_array_max_size = PAGE_CACHE_MAX_PRELOAD_PAGES * sizeof(struct rrdeng_page_info);
*page_info_arrayp = mallocz(page_info_array_max_size);
}
for (count = 0, preload_count = 0 ;
descr != NULL && is_page_in_time_range(descr, start_time, end_time) ;
PValue = JudyLNext(page_index->JudyL_array, &Index, PJE0),
descr = unlikely(NULL == PValue) ? NULL : *PValue) {
/* Iterate all pages in range */
if (unlikely(0 == descr->page_length))
continue;
if (page_info_arrayp) {
if (unlikely(count >= page_info_array_max_size / sizeof(struct rrdeng_page_info))) {
page_info_array_max_size += PAGE_CACHE_MAX_PRELOAD_PAGES * sizeof(struct rrdeng_page_info);
*page_info_arrayp = reallocz(*page_info_arrayp, page_info_array_max_size);
}
(*page_info_arrayp)[count].start_time = descr->start_time;
(*page_info_arrayp)[count].end_time = descr->end_time;
(*page_info_arrayp)[count].page_length = descr->page_length;
}
++count;
rrdeng_page_descr_mutex_lock(ctx, descr);
pg_cache_descr = descr->pg_cache_descr;
flags = pg_cache_descr->flags;
if (pg_cache_can_get_unsafe(descr, 0)) {
if (flags & RRD_PAGE_POPULATED) {
/* success */
rrdeng_page_descr_mutex_unlock(ctx, descr);
debug(D_RRDENGINE, "%s: Page was found in memory.", __func__);
continue;
}
}
if (!(flags & RRD_PAGE_POPULATED) && pg_cache_try_get_unsafe(descr, 1)) {
preload_array[preload_count++] = descr;
if (PAGE_CACHE_MAX_PRELOAD_PAGES == preload_count) {
rrdeng_page_descr_mutex_unlock(ctx, descr);
break;
}
}
rrdeng_page_descr_mutex_unlock(ctx, descr);
}
uv_rwlock_rdunlock(&page_index->lock);
failed_to_reserve = 0;
for (i = 0 ; i < preload_count && !failed_to_reserve ; ++i) {
struct rrdeng_cmd cmd;
struct rrdeng_page_descr *next;
descr = preload_array[i];
if (NULL == descr) {
continue;
}
if (!pg_cache_try_reserve_pages(ctx, 1)) {
failed_to_reserve = 1;
break;
}
cmd.opcode = RRDENG_READ_EXTENT;
cmd.read_extent.page_cache_descr[0] = descr;
/* don't use this page again */
preload_array[i] = NULL;
for (j = 0, k = 1 ; j < preload_count ; ++j) {
next = preload_array[j];
if (NULL == next) {
continue;
}
if (descr->extent == next->extent) {
/* same extent, consolidate */
if (!pg_cache_try_reserve_pages(ctx, 1)) {
failed_to_reserve = 1;
break;
}
cmd.read_extent.page_cache_descr[k++] = next;
/* don't use this page again */
preload_array[j] = NULL;
}
}
cmd.read_extent.page_count = k;
rrdeng_enq_cmd(&ctx->worker_config, &cmd);
}
if (failed_to_reserve) {
debug(D_RRDENGINE, "%s: Failed to reserve enough memory, canceling I/O.", __func__);
for (i = 0 ; i < preload_count ; ++i) {
descr = preload_array[i];
if (NULL == descr) {
continue;
}
pg_cache_put(ctx, descr);
}
}
if (!preload_count) {
/* no such page */
debug(D_RRDENGINE, "%s: No page was eligible to attempt preload.", __func__);
}
if (unlikely(0 == count && page_info_arrayp)) {
freez(*page_info_arrayp);
*page_info_arrayp = NULL;
}
return count;
}
/*
* Searches for a page and gets a reference.
* When point_in_time is INVALID_TIME get any page.
* If index is NULL lookup by UUID (id).
*/
struct rrdeng_page_descr *
pg_cache_lookup(struct rrdengine_instance *ctx, struct pg_cache_page_index *index, uuid_t *id,
usec_t point_in_time)
{
struct page_cache *pg_cache = &ctx->pg_cache;
struct rrdeng_page_descr *descr = NULL;
struct page_cache_descr *pg_cache_descr = NULL;
unsigned long flags;
Pvoid_t *PValue;
struct pg_cache_page_index *page_index;
Word_t Index;
uint8_t page_not_in_cache;
if (unlikely(NULL == index)) {
uv_rwlock_rdlock(&pg_cache->metrics_index.lock);
PValue = JudyHSGet(pg_cache->metrics_index.JudyHS_array, id, sizeof(uuid_t));
if (likely(NULL != PValue)) {
page_index = *PValue;
}
uv_rwlock_rdunlock(&pg_cache->metrics_index.lock);
if (NULL == PValue) {
return NULL;
}
} else {
page_index = index;
}
pg_cache_reserve_pages(ctx, 1);
page_not_in_cache = 0;
uv_rwlock_rdlock(&page_index->lock);
while (1) {
Index = (Word_t)(point_in_time / USEC_PER_SEC);
PValue = JudyLLast(page_index->JudyL_array, &Index, PJE0);
if (likely(NULL != PValue)) {
descr = *PValue;
}
if (NULL == PValue ||
0 == descr->page_length ||
(INVALID_TIME != point_in_time &&
!is_point_in_time_in_page(descr, point_in_time))) {
/* non-empty page not found */
uv_rwlock_rdunlock(&page_index->lock);
pg_cache_release_pages(ctx, 1);
return NULL;
}
rrdeng_page_descr_mutex_lock(ctx, descr);
pg_cache_descr = descr->pg_cache_descr;
flags = pg_cache_descr->flags;
if ((flags & RRD_PAGE_POPULATED) && pg_cache_try_get_unsafe(descr, 0)) {
/* success */
rrdeng_page_descr_mutex_unlock(ctx, descr);
debug(D_RRDENGINE, "%s: Page was found in memory.", __func__);
break;
}
if (!(flags & RRD_PAGE_POPULATED) && pg_cache_try_get_unsafe(descr, 1)) {
struct rrdeng_cmd cmd;
uv_rwlock_rdunlock(&page_index->lock);
cmd.opcode = RRDENG_READ_PAGE;
cmd.read_page.page_cache_descr = descr;
rrdeng_enq_cmd(&ctx->worker_config, &cmd);
debug(D_RRDENGINE, "%s: Waiting for page to be asynchronously read from disk:", __func__);
if(unlikely(debug_flags & D_RRDENGINE))
print_page_cache_descr(descr);
while (!(pg_cache_descr->flags & RRD_PAGE_POPULATED)) {
pg_cache_wait_event_unsafe(descr);
}
/* success */
/* Downgrade exclusive reference to allow other readers */
pg_cache_descr->flags &= ~RRD_PAGE_LOCKED;
pg_cache_wake_up_waiters_unsafe(descr);
rrdeng_page_descr_mutex_unlock(ctx, descr);
rrd_stat_atomic_add(&ctx->stats.pg_cache_misses, 1);
return descr;
}
uv_rwlock_rdunlock(&page_index->lock);
debug(D_RRDENGINE, "%s: Waiting for page to be unlocked:", __func__);
if(unlikely(debug_flags & D_RRDENGINE))
print_page_cache_descr(descr);
if (!(flags & RRD_PAGE_POPULATED))
page_not_in_cache = 1;
pg_cache_wait_event_unsafe(descr);
rrdeng_page_descr_mutex_unlock(ctx, descr);
/* reset scan to find again */
uv_rwlock_rdlock(&page_index->lock);
}
uv_rwlock_rdunlock(&page_index->lock);
if (!(flags & RRD_PAGE_DIRTY))
pg_cache_replaceQ_set_hot(ctx, descr);
pg_cache_release_pages(ctx, 1);
if (page_not_in_cache)
rrd_stat_atomic_add(&ctx->stats.pg_cache_misses, 1);
else
rrd_stat_atomic_add(&ctx->stats.pg_cache_hits, 1);
return descr;
}
/*
* Searches for the first page between start_time and end_time and gets a reference.
* start_time and end_time are inclusive.
* If index is NULL lookup by UUID (id).
*/
struct rrdeng_page_descr *
pg_cache_lookup_next(struct rrdengine_instance *ctx, struct pg_cache_page_index *index, uuid_t *id,
usec_t start_time, usec_t end_time)
{
struct page_cache *pg_cache = &ctx->pg_cache;
struct rrdeng_page_descr *descr = NULL;
struct page_cache_descr *pg_cache_descr = NULL;
unsigned long flags;
Pvoid_t *PValue;
struct pg_cache_page_index *page_index;
uint8_t page_not_in_cache;
if (unlikely(NULL == index)) {
uv_rwlock_rdlock(&pg_cache->metrics_index.lock);
PValue = JudyHSGet(pg_cache->metrics_index.JudyHS_array, id, sizeof(uuid_t));
if (likely(NULL != PValue)) {
page_index = *PValue;
}
uv_rwlock_rdunlock(&pg_cache->metrics_index.lock);
if (NULL == PValue) {
return NULL;
}
} else {
page_index = index;
}
pg_cache_reserve_pages(ctx, 1);
page_not_in_cache = 0;
uv_rwlock_rdlock(&page_index->lock);
while (1) {
descr = find_first_page_in_time_range(page_index, start_time, end_time);
if (NULL == descr || 0 == descr->page_length) {
/* non-empty page not found */
uv_rwlock_rdunlock(&page_index->lock);
pg_cache_release_pages(ctx, 1);
return NULL;
}
rrdeng_page_descr_mutex_lock(ctx, descr);
pg_cache_descr = descr->pg_cache_descr;
flags = pg_cache_descr->flags;
if ((flags & RRD_PAGE_POPULATED) && pg_cache_try_get_unsafe(descr, 0)) {
/* success */
rrdeng_page_descr_mutex_unlock(ctx, descr);
debug(D_RRDENGINE, "%s: Page was found in memory.", __func__);
break;
}
if (!(flags & RRD_PAGE_POPULATED) && pg_cache_try_get_unsafe(descr, 1)) {
struct rrdeng_cmd cmd;
uv_rwlock_rdunlock(&page_index->lock);
cmd.opcode = RRDENG_READ_PAGE;
cmd.read_page.page_cache_descr = descr;
rrdeng_enq_cmd(&ctx->worker_config, &cmd);
debug(D_RRDENGINE, "%s: Waiting for page to be asynchronously read from disk:", __func__);
if(unlikely(debug_flags & D_RRDENGINE))
print_page_cache_descr(descr);
while (!(pg_cache_descr->flags & RRD_PAGE_POPULATED)) {
pg_cache_wait_event_unsafe(descr);
}
/* success */
/* Downgrade exclusive reference to allow other readers */
pg_cache_descr->flags &= ~RRD_PAGE_LOCKED;
pg_cache_wake_up_waiters_unsafe(descr);
rrdeng_page_descr_mutex_unlock(ctx, descr);
rrd_stat_atomic_add(&ctx->stats.pg_cache_misses, 1);
return descr;
}
uv_rwlock_rdunlock(&page_index->lock);
debug(D_RRDENGINE, "%s: Waiting for page to be unlocked:", __func__);
if(unlikely(debug_flags & D_RRDENGINE))
print_page_cache_descr(descr);
if (!(flags & RRD_PAGE_POPULATED))
page_not_in_cache = 1;
pg_cache_wait_event_unsafe(descr);
rrdeng_page_descr_mutex_unlock(ctx, descr);
/* reset scan to find again */
uv_rwlock_rdlock(&page_index->lock);
}
uv_rwlock_rdunlock(&page_index->lock);
if (!(flags & RRD_PAGE_DIRTY))
pg_cache_replaceQ_set_hot(ctx, descr);
pg_cache_release_pages(ctx, 1);
if (page_not_in_cache)
rrd_stat_atomic_add(&ctx->stats.pg_cache_misses, 1);
else
rrd_stat_atomic_add(&ctx->stats.pg_cache_hits, 1);
return descr;
}
struct pg_cache_page_index *create_page_index(uuid_t *id)
{
struct pg_cache_page_index *page_index;
page_index = mallocz(sizeof(*page_index));
page_index->JudyL_array = (Pvoid_t) NULL;
uuid_copy(page_index->id, *id);
assert(0 == uv_rwlock_init(&page_index->lock));
page_index->oldest_time = INVALID_TIME;
page_index->latest_time = INVALID_TIME;
page_index->prev = NULL;
return page_index;
}
static void init_metrics_index(struct rrdengine_instance *ctx)
{
struct page_cache *pg_cache = &ctx->pg_cache;
pg_cache->metrics_index.JudyHS_array = (Pvoid_t) NULL;
pg_cache->metrics_index.last_page_index = NULL;
assert(0 == uv_rwlock_init(&pg_cache->metrics_index.lock));
}
static void init_replaceQ(struct rrdengine_instance *ctx)
{
struct page_cache *pg_cache = &ctx->pg_cache;
pg_cache->replaceQ.head = NULL;
pg_cache->replaceQ.tail = NULL;
assert(0 == uv_rwlock_init(&pg_cache->replaceQ.lock));
}
static void init_committed_page_index(struct rrdengine_instance *ctx)
{
struct page_cache *pg_cache = &ctx->pg_cache;
pg_cache->committed_page_index.JudyL_array = (Pvoid_t) NULL;
assert(0 == uv_rwlock_init(&pg_cache->committed_page_index.lock));
pg_cache->committed_page_index.latest_corr_id = 0;
pg_cache->committed_page_index.nr_committed_pages = 0;
}
void init_page_cache(struct rrdengine_instance *ctx)
{
struct page_cache *pg_cache = &ctx->pg_cache;
pg_cache->page_descriptors = 0;
pg_cache->populated_pages = 0;
assert(0 == uv_rwlock_init(&pg_cache->pg_cache_rwlock));
init_metrics_index(ctx);
init_replaceQ(ctx);
init_committed_page_index(ctx);
}
void free_page_cache(struct rrdengine_instance *ctx)
{
struct page_cache *pg_cache = &ctx->pg_cache;
Word_t ret_Judy, bytes_freed = 0;
Pvoid_t *PValue;
struct pg_cache_page_index *page_index, *prev_page_index;
Word_t Index;
struct rrdeng_page_descr *descr;
struct page_cache_descr *pg_cache_descr;
/* Free committed page index */
ret_Judy = JudyLFreeArray(&pg_cache->committed_page_index.JudyL_array, PJE0);
assert(NULL == pg_cache->committed_page_index.JudyL_array);
bytes_freed += ret_Judy;
for (page_index = pg_cache->metrics_index.last_page_index ;
page_index != NULL ;
page_index = prev_page_index) {
prev_page_index = page_index->prev;
/* Find first page in range */
Index = (Word_t) 0;
PValue = JudyLFirst(page_index->JudyL_array, &Index, PJE0);
descr = unlikely(NULL == PValue) ? NULL : *PValue;
while (descr != NULL) {
/* Iterate all page descriptors of this metric */
if (descr->pg_cache_descr_state & PG_CACHE_DESCR_ALLOCATED) {
/* Check rrdenglocking.c */
pg_cache_descr = descr->pg_cache_descr;
if (pg_cache_descr->flags & RRD_PAGE_POPULATED) {
freez(pg_cache_descr->page);
bytes_freed += RRDENG_BLOCK_SIZE;
}
rrdeng_destroy_pg_cache_descr(ctx, pg_cache_descr);
bytes_freed += sizeof(*pg_cache_descr);
}
freez(descr);
bytes_freed += sizeof(*descr);
PValue = JudyLNext(page_index->JudyL_array, &Index, PJE0);
descr = unlikely(NULL == PValue) ? NULL : *PValue;
}
/* Free page index */
ret_Judy = JudyLFreeArray(&page_index->JudyL_array, PJE0);
assert(NULL == page_index->JudyL_array);
bytes_freed += ret_Judy;
freez(page_index);
bytes_freed += sizeof(*page_index);
}
/* Free metrics index */
ret_Judy = JudyHSFreeArray(&pg_cache->metrics_index.JudyHS_array, PJE0);
assert(NULL == pg_cache->metrics_index.JudyHS_array);
bytes_freed += ret_Judy;
info("Freed %lu bytes of memory from page cache.", bytes_freed);
}
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