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|
// SPDX-License-Identifier: GPL-3.0-or-later
#include "rrdengine.h"
/* Default global database instance */
struct rrdengine_instance multidb_ctx_storage_tier0;
struct rrdengine_instance multidb_ctx_storage_tier1;
struct rrdengine_instance multidb_ctx_storage_tier2;
struct rrdengine_instance multidb_ctx_storage_tier3;
struct rrdengine_instance multidb_ctx_storage_tier4;
#if RRD_STORAGE_TIERS != 5
#error RRD_STORAGE_TIERS is not 5 - you need to add allocations here
#endif
struct rrdengine_instance *multidb_ctx[RRD_STORAGE_TIERS];
uint8_t tier_page_type[RRD_STORAGE_TIERS] = {PAGE_METRICS, PAGE_TIER, PAGE_TIER, PAGE_TIER, PAGE_TIER};
#if PAGE_TYPE_MAX != 1
#error PAGE_TYPE_MAX is not 1 - you need to add allocations here
#endif
size_t page_type_size[256] = {sizeof(storage_number), sizeof(storage_number_tier1_t)};
__attribute__((constructor)) void initialize_multidb_ctx(void) {
multidb_ctx[0] = &multidb_ctx_storage_tier0;
multidb_ctx[1] = &multidb_ctx_storage_tier1;
multidb_ctx[2] = &multidb_ctx_storage_tier2;
multidb_ctx[3] = &multidb_ctx_storage_tier3;
multidb_ctx[4] = &multidb_ctx_storage_tier4;
}
int db_engine_use_malloc = 0;
int default_rrdeng_page_fetch_timeout = 3;
int default_rrdeng_page_fetch_retries = 3;
int default_rrdeng_page_cache_mb = 32;
int default_rrdeng_disk_quota_mb = 256;
int default_multidb_disk_quota_mb = 256;
/* Default behaviour is to unblock data collection if the page cache is full of dirty pages by dropping metrics */
uint8_t rrdeng_drop_metrics_under_page_cache_pressure = 1;
static inline struct rrdengine_instance *get_rrdeng_ctx_from_host(RRDHOST *host, int tier) {
if(tier < 0 || tier >= RRD_STORAGE_TIERS) tier = 0;
if(!host->storage_instance[tier]) tier = 0;
return (struct rrdengine_instance *)host->storage_instance[tier];
}
/* This UUID is not unique across hosts */
void rrdeng_generate_legacy_uuid(const char *dim_id, char *chart_id, uuid_t *ret_uuid)
{
EVP_MD_CTX *evpctx;
unsigned char hash_value[EVP_MAX_MD_SIZE];
unsigned int hash_len;
evpctx = EVP_MD_CTX_create();
EVP_DigestInit_ex(evpctx, EVP_sha256(), NULL);
EVP_DigestUpdate(evpctx, dim_id, strlen(dim_id));
EVP_DigestUpdate(evpctx, chart_id, strlen(chart_id));
EVP_DigestFinal_ex(evpctx, hash_value, &hash_len);
EVP_MD_CTX_destroy(evpctx);
fatal_assert(hash_len > sizeof(uuid_t));
memcpy(ret_uuid, hash_value, sizeof(uuid_t));
}
/* Transform legacy UUID to be unique across hosts deterministically */
void rrdeng_convert_legacy_uuid_to_multihost(char machine_guid[GUID_LEN + 1], uuid_t *legacy_uuid, uuid_t *ret_uuid)
{
EVP_MD_CTX *evpctx;
unsigned char hash_value[EVP_MAX_MD_SIZE];
unsigned int hash_len;
evpctx = EVP_MD_CTX_create();
EVP_DigestInit_ex(evpctx, EVP_sha256(), NULL);
EVP_DigestUpdate(evpctx, machine_guid, GUID_LEN);
EVP_DigestUpdate(evpctx, *legacy_uuid, sizeof(uuid_t));
EVP_DigestFinal_ex(evpctx, hash_value, &hash_len);
EVP_MD_CTX_destroy(evpctx);
fatal_assert(hash_len > sizeof(uuid_t));
memcpy(ret_uuid, hash_value, sizeof(uuid_t));
}
struct rrdeng_metric_handle {
RRDDIM *rd;
struct rrdengine_instance *ctx;
uuid_t *rrdeng_uuid; // database engine metric UUID
struct pg_cache_page_index *page_index;
};
void rrdeng_metric_free(STORAGE_METRIC_HANDLE *db_metric_handle) {
freez(db_metric_handle);
}
STORAGE_METRIC_HANDLE *rrdeng_metric_init(RRDDIM *rd, STORAGE_INSTANCE *db_instance) {
struct rrdengine_instance *ctx = (struct rrdengine_instance *)db_instance;
struct page_cache *pg_cache;
uuid_t legacy_uuid;
uuid_t multihost_legacy_uuid;
Pvoid_t *PValue;
struct pg_cache_page_index *page_index = NULL;
int is_multihost_child = 0;
RRDHOST *host = rd->rrdset->rrdhost;
pg_cache = &ctx->pg_cache;
rrdeng_generate_legacy_uuid(rd->id, rd->rrdset->id, &legacy_uuid);
if (host != localhost && is_storage_engine_shared((STORAGE_INSTANCE *)ctx))
is_multihost_child = 1;
uv_rwlock_rdlock(&pg_cache->metrics_index.lock);
PValue = JudyHSGet(pg_cache->metrics_index.JudyHS_array, &legacy_uuid, sizeof(uuid_t));
if (likely(NULL != PValue)) {
page_index = *PValue;
}
uv_rwlock_rdunlock(&pg_cache->metrics_index.lock);
if (is_multihost_child || NULL == PValue) {
/* First time we see the legacy UUID or metric belongs to child host in multi-host DB.
* Drop legacy support, normal path */
uv_rwlock_rdlock(&pg_cache->metrics_index.lock);
PValue = JudyHSGet(pg_cache->metrics_index.JudyHS_array, &rd->metric_uuid, sizeof(uuid_t));
if (likely(NULL != PValue)) {
page_index = *PValue;
}
uv_rwlock_rdunlock(&pg_cache->metrics_index.lock);
if (NULL == PValue) {
uv_rwlock_wrlock(&pg_cache->metrics_index.lock);
PValue = JudyHSIns(&pg_cache->metrics_index.JudyHS_array, &rd->metric_uuid, sizeof(uuid_t), PJE0);
fatal_assert(NULL == *PValue); /* TODO: figure out concurrency model */
*PValue = page_index = create_page_index(&rd->metric_uuid);
page_index->prev = pg_cache->metrics_index.last_page_index;
pg_cache->metrics_index.last_page_index = page_index;
uv_rwlock_wrunlock(&pg_cache->metrics_index.lock);
}
} else {
/* There are legacy UUIDs in the database, implement backward compatibility */
rrdeng_convert_legacy_uuid_to_multihost(rd->rrdset->rrdhost->machine_guid, &legacy_uuid,
&multihost_legacy_uuid);
int need_to_store = uuid_compare(rd->metric_uuid, multihost_legacy_uuid);
uuid_copy(rd->metric_uuid, multihost_legacy_uuid);
if (unlikely(need_to_store && !ctx->tier))
(void)sql_store_dimension(&rd->metric_uuid, rd->rrdset->chart_uuid, rd->id, rd->name, rd->multiplier, rd->divisor,
rd->algorithm);
}
struct rrdeng_metric_handle *mh = mallocz(sizeof(struct rrdeng_metric_handle));
mh->rd = rd;
mh->ctx = ctx;
mh->rrdeng_uuid = &page_index->id;
mh->page_index = page_index;
return (STORAGE_METRIC_HANDLE *)mh;
}
/*
* Gets a handle for storing metrics to the database.
* The handle must be released with rrdeng_store_metric_final().
*/
STORAGE_COLLECT_HANDLE *rrdeng_store_metric_init(STORAGE_METRIC_HANDLE *db_metric_handle) {
struct rrdeng_metric_handle *metric_handle = (struct rrdeng_metric_handle *)db_metric_handle;
struct rrdeng_collect_handle *handle;
struct pg_cache_page_index *page_index;
handle = callocz(1, sizeof(struct rrdeng_collect_handle));
handle->metric_handle = metric_handle;
handle->ctx = metric_handle->ctx;
handle->descr = NULL;
handle->unaligned_page = 0;
page_index = metric_handle->page_index;
uv_rwlock_wrlock(&page_index->lock);
++page_index->writers;
uv_rwlock_wrunlock(&page_index->lock);
return (STORAGE_COLLECT_HANDLE *)handle;
}
/* The page must be populated and referenced */
static int page_has_only_empty_metrics(struct rrdeng_page_descr *descr)
{
switch(descr->type) {
case PAGE_METRICS: {
size_t slots = descr->page_length / PAGE_POINT_SIZE_BYTES(descr);
storage_number *array = (storage_number *)descr->pg_cache_descr->page;
for (size_t i = 0 ; i < slots; ++i) {
if(does_storage_number_exist(array[i]))
return 0;
}
}
break;
case PAGE_TIER: {
size_t slots = descr->page_length / PAGE_POINT_SIZE_BYTES(descr);
storage_number_tier1_t *array = (storage_number_tier1_t *)descr->pg_cache_descr->page;
for (size_t i = 0 ; i < slots; ++i) {
if(fpclassify(array[i].sum_value) != FP_NAN)
return 0;
}
}
break;
default: {
static bool logged = false;
if(!logged) {
error("DBENGINE: cannot check page for nulls on unknown page type id %d", descr->type);
logged = true;
}
return 0;
}
}
return 1;
}
void rrdeng_store_metric_flush_current_page(STORAGE_COLLECT_HANDLE *collection_handle) {
struct rrdeng_collect_handle *handle = (struct rrdeng_collect_handle *)collection_handle;
// struct rrdeng_metric_handle *metric_handle = (struct rrdeng_metric_handle *)handle->metric_handle;
struct rrdengine_instance *ctx = handle->ctx;
struct rrdeng_page_descr *descr = handle->descr;
if (unlikely(!ctx)) return;
if (unlikely(!descr)) return;
if (likely(descr->page_length)) {
int page_is_empty;
rrd_stat_atomic_add(&ctx->stats.metric_API_producers, -1);
page_is_empty = page_has_only_empty_metrics(descr);
if (page_is_empty) {
debug(D_RRDENGINE, "Page has empty metrics only, deleting:");
if (unlikely(debug_flags & D_RRDENGINE))
print_page_cache_descr(descr);
pg_cache_put(ctx, descr);
pg_cache_punch_hole(ctx, descr, 1, 0, NULL);
} else
rrdeng_commit_page(ctx, descr, handle->page_correlation_id);
} else {
dbengine_page_free(descr->pg_cache_descr->page);
rrdeng_destroy_pg_cache_descr(ctx, descr->pg_cache_descr);
rrdeng_page_descr_freez(descr);
}
handle->descr = NULL;
}
void rrdeng_store_metric_next(STORAGE_COLLECT_HANDLE *collection_handle,
usec_t point_in_time,
NETDATA_DOUBLE n,
NETDATA_DOUBLE min_value,
NETDATA_DOUBLE max_value,
uint16_t count,
uint16_t anomaly_count,
SN_FLAGS flags)
{
struct rrdeng_collect_handle *handle = (struct rrdeng_collect_handle *)collection_handle;
struct rrdeng_metric_handle *metric_handle = (struct rrdeng_metric_handle *)handle->metric_handle;
struct rrdengine_instance *ctx = handle->ctx;
struct page_cache *pg_cache = &ctx->pg_cache;
struct rrdeng_page_descr *descr = handle->descr;
RRDDIM *rd = metric_handle->rd;
void *page;
uint8_t must_flush_unaligned_page = 0, perfect_page_alignment = 0;
if (descr) {
/* Make alignment decisions */
if (descr->page_length == rd->rrdset->rrddim_page_alignment) {
/* this is the leading dimension that defines chart alignment */
perfect_page_alignment = 1;
}
/* is the metric far enough out of alignment with the others? */
if (unlikely(descr->page_length + PAGE_POINT_SIZE_BYTES(descr) < rd->rrdset->rrddim_page_alignment)) {
handle->unaligned_page = 1;
debug(D_RRDENGINE, "Metric page is not aligned with chart:");
if (unlikely(debug_flags & D_RRDENGINE))
print_page_cache_descr(descr);
}
if (unlikely(handle->unaligned_page &&
/* did the other metrics change page? */
rd->rrdset->rrddim_page_alignment <= PAGE_POINT_SIZE_BYTES(descr))) {
debug(D_RRDENGINE, "Flushing unaligned metric page.");
must_flush_unaligned_page = 1;
handle->unaligned_page = 0;
}
}
if (unlikely(NULL == descr ||
descr->page_length + PAGE_POINT_SIZE_BYTES(descr) > RRDENG_BLOCK_SIZE ||
must_flush_unaligned_page)) {
rrdeng_store_metric_flush_current_page(collection_handle);
page = rrdeng_create_page(ctx, &metric_handle->page_index->id, &descr);
fatal_assert(page);
handle->descr = descr;
handle->page_correlation_id = rrd_atomic_fetch_add(&pg_cache->committed_page_index.latest_corr_id, 1);
if (0 == rd->rrdset->rrddim_page_alignment) {
/* this is the leading dimension that defines chart alignment */
perfect_page_alignment = 1;
}
}
page = descr->pg_cache_descr->page;
switch (descr->type) {
case PAGE_METRICS: {
((storage_number *)page)[descr->page_length / PAGE_POINT_SIZE_BYTES(descr)] = pack_storage_number(n, flags);
}
break;
case PAGE_TIER: {
storage_number_tier1_t number_tier1;
number_tier1.sum_value = (float)n;
number_tier1.min_value = (float)min_value;
number_tier1.max_value = (float)max_value;
number_tier1.anomaly_count = anomaly_count;
number_tier1.count = count;
((storage_number_tier1_t *)page)[descr->page_length / PAGE_POINT_SIZE_BYTES(descr)] = number_tier1;
}
break;
default: {
static bool logged = false;
if(!logged) {
error("DBENGINE: cannot store metric on unknown page type id %d", descr->type);
logged = true;
}
}
break;
}
pg_cache_atomic_set_pg_info(descr, point_in_time, descr->page_length + PAGE_POINT_SIZE_BYTES(descr));
if (perfect_page_alignment)
rd->rrdset->rrddim_page_alignment = descr->page_length;
if (unlikely(INVALID_TIME == descr->start_time)) {
unsigned long new_metric_API_producers, old_metric_API_max_producers, ret_metric_API_max_producers;
descr->start_time = point_in_time;
new_metric_API_producers = rrd_atomic_add_fetch(&ctx->stats.metric_API_producers, 1);
while (unlikely(new_metric_API_producers > (old_metric_API_max_producers = ctx->metric_API_max_producers))) {
/* Increase ctx->metric_API_max_producers */
ret_metric_API_max_producers = ulong_compare_and_swap(&ctx->metric_API_max_producers,
old_metric_API_max_producers,
new_metric_API_producers);
if (old_metric_API_max_producers == ret_metric_API_max_producers) {
/* success */
break;
}
}
pg_cache_insert(ctx, metric_handle->page_index, descr);
} else {
pg_cache_add_new_metric_time(metric_handle->page_index, descr);
}
}
/*
* Releases the database reference from the handle for storing metrics.
* Returns 1 if it's safe to delete the dimension.
*/
int rrdeng_store_metric_finalize(STORAGE_COLLECT_HANDLE *collection_handle) {
struct rrdeng_collect_handle *handle = (struct rrdeng_collect_handle *)collection_handle;
struct rrdeng_metric_handle *metric_handle = (struct rrdeng_metric_handle *)handle->metric_handle;
struct pg_cache_page_index *page_index = metric_handle->page_index;
uint8_t can_delete_metric = 0;
rrdeng_store_metric_flush_current_page(collection_handle);
uv_rwlock_wrlock(&page_index->lock);
if (!--page_index->writers && !page_index->page_count) {
can_delete_metric = 1;
}
uv_rwlock_wrunlock(&page_index->lock);
freez(handle);
return can_delete_metric;
}
//static inline uint32_t *pginfo_to_dt(struct rrdeng_page_info *page_info)
//{
// return (uint32_t *)&page_info->scratch[0];
//}
//
//static inline uint32_t *pginfo_to_points(struct rrdeng_page_info *page_info)
//{
// return (uint32_t *)&page_info->scratch[sizeof(uint32_t)];
//}
//
/*
* Gets a handle for loading metrics from the database.
* The handle must be released with rrdeng_load_metric_final().
*/
void rrdeng_load_metric_init(STORAGE_METRIC_HANDLE *db_metric_handle, struct rrddim_query_handle *rrdimm_handle, time_t start_time, time_t end_time, TIER_QUERY_FETCH tier_query_fetch_type)
{
struct rrdeng_metric_handle *metric_handle = (struct rrdeng_metric_handle *)db_metric_handle;
struct rrdengine_instance *ctx = metric_handle->ctx;
RRDDIM *rd = metric_handle->rd;
// fprintf(stderr, "%s: %s/%s start time %ld, end time %ld\n", __FUNCTION__ , rd->rrdset->name, rd->name, start_time, end_time);
struct rrdeng_query_handle *handle;
unsigned pages_nr;
rrdimm_handle->start_time = start_time;
rrdimm_handle->end_time = end_time;
handle = callocz(1, sizeof(struct rrdeng_query_handle));
handle->next_page_time = start_time;
handle->now = start_time;
handle->tier_query_fetch_type = tier_query_fetch_type;
// TODO we should store the dt of each page in each page
// this will produce wrong values for dt in case the user changes
// the update every of the charts or the tier grouping iterations
handle->dt_sec = get_tier_grouping(ctx->tier) * (time_t)rd->update_every;
handle->dt = handle->dt_sec * USEC_PER_SEC;
handle->position = 0;
handle->ctx = ctx;
handle->metric_handle = metric_handle;
handle->descr = NULL;
rrdimm_handle->handle = (STORAGE_QUERY_HANDLE *)handle;
pages_nr = pg_cache_preload(ctx, metric_handle->rrdeng_uuid, start_time * USEC_PER_SEC, end_time * USEC_PER_SEC,
NULL, &handle->page_index);
if (unlikely(NULL == handle->page_index || 0 == pages_nr))
// there are no metrics to load
handle->next_page_time = INVALID_TIME;
}
static int rrdeng_load_page_next(struct rrddim_query_handle *rrdimm_handle) {
struct rrdeng_query_handle *handle = (struct rrdeng_query_handle *)rrdimm_handle->handle;
struct rrdengine_instance *ctx = handle->ctx;
struct rrdeng_page_descr *descr = handle->descr;
uint32_t page_length;
usec_t page_end_time;
unsigned position;
if (likely(descr)) {
// Drop old page's reference
#ifdef NETDATA_INTERNAL_CHECKS
rrd_stat_atomic_add(&ctx->stats.metric_API_consumers, -1);
#endif
pg_cache_put(ctx, descr);
handle->descr = NULL;
handle->next_page_time = (handle->page_end_time / USEC_PER_SEC) + 1;
if (unlikely(handle->next_page_time > rrdimm_handle->end_time))
return 1;
}
usec_t next_page_time = handle->next_page_time * USEC_PER_SEC;
descr = pg_cache_lookup_next(ctx, handle->page_index, &handle->page_index->id, next_page_time, rrdimm_handle->end_time * USEC_PER_SEC);
if (NULL == descr)
return 1;
#ifdef NETDATA_INTERNAL_CHECKS
rrd_stat_atomic_add(&ctx->stats.metric_API_consumers, 1);
#endif
handle->descr = descr;
pg_cache_atomic_get_pg_info(descr, &page_end_time, &page_length);
if (unlikely(INVALID_TIME == descr->start_time || INVALID_TIME == page_end_time))
return 1;
if (unlikely(descr->start_time != page_end_time && next_page_time > descr->start_time)) {
// we're in the middle of the page somewhere
unsigned entries = page_length / PAGE_POINT_SIZE_BYTES(descr);
position = ((uint64_t)(next_page_time - descr->start_time)) * (entries - 1) /
(page_end_time - descr->start_time);
}
else
position = 0;
handle->page_end_time = page_end_time;
handle->page_length = page_length;
handle->page = descr->pg_cache_descr->page;
usec_t entries = handle->entries = page_length / PAGE_POINT_SIZE_BYTES(descr);
if (likely(entries > 1))
handle->dt = (page_end_time - descr->start_time) / (entries - 1);
else {
// TODO we should store the dt of each page in each page
// now we keep the dt of whatever was before
;
}
handle->dt_sec = (time_t)(handle->dt / USEC_PER_SEC);
handle->position = position;
return 0;
}
// Returns the metric and sets its timestamp into current_time
// IT IS REQUIRED TO **ALWAYS** SET ALL RETURN VALUES (current_time, end_time, flags)
// IT IS REQUIRED TO **ALWAYS** KEEP TRACK OF TIME, EVEN OUTSIDE THE DATABASE BOUNDARIES
STORAGE_POINT rrdeng_load_metric_next(struct rrddim_query_handle *rrdimm_handle) {
struct rrdeng_query_handle *handle = (struct rrdeng_query_handle *)rrdimm_handle->handle;
// struct rrdeng_metric_handle *metric_handle = handle->metric_handle;
STORAGE_POINT sp;
struct rrdeng_page_descr *descr = handle->descr;
unsigned position = handle->position + 1;
time_t now = handle->now + handle->dt_sec;
storage_number_tier1_t tier1_value;
if (unlikely(INVALID_TIME == handle->next_page_time)) {
handle->next_page_time = INVALID_TIME;
handle->now = now;
storage_point_empty(sp, now - handle->dt_sec, now);
return sp;
}
if (unlikely(!descr || position >= handle->entries)) {
// We need to get a new page
if(rrdeng_load_page_next(rrdimm_handle)) {
// next calls will not load any more metrics
handle->next_page_time = INVALID_TIME;
handle->now = now;
storage_point_empty(sp, now - handle->dt_sec, now);
return sp;
}
descr = handle->descr;
position = handle->position;
now = (time_t)((descr->start_time + position * handle->dt) / USEC_PER_SEC);
}
sp.start_time = now - handle->dt_sec;
sp.end_time = now;
handle->position = position;
handle->now = now;
switch(descr->type) {
case PAGE_METRICS: {
storage_number n = handle->page[position];
sp.min = sp.max = sp.sum = unpack_storage_number(n);
sp.flags = n & SN_USER_FLAGS;
sp.count = 1;
sp.anomaly_count = is_storage_number_anomalous(n) ? 1 : 0;
}
break;
case PAGE_TIER: {
tier1_value = ((storage_number_tier1_t *)handle->page)[position];
sp.flags = tier1_value.anomaly_count ? SN_FLAG_NONE : SN_FLAG_NOT_ANOMALOUS;
sp.count = tier1_value.count;
sp.anomaly_count = tier1_value.anomaly_count;
sp.min = tier1_value.min_value;
sp.max = tier1_value.max_value;
sp.sum = tier1_value.sum_value;
}
break;
// we don't know this page type
default: {
static bool logged = false;
if(!logged) {
error("DBENGINE: unknown page type %d found. Cannot decode it. Ignoring its metrics.", descr->type);
logged = true;
}
storage_point_empty(sp, sp.start_time, sp.end_time);
}
break;
}
if (unlikely(now >= rrdimm_handle->end_time)) {
// next calls will not load any more metrics
handle->next_page_time = INVALID_TIME;
}
return sp;
}
int rrdeng_load_metric_is_finished(struct rrddim_query_handle *rrdimm_handle)
{
struct rrdeng_query_handle *handle = (struct rrdeng_query_handle *)rrdimm_handle->handle;
return (INVALID_TIME == handle->next_page_time);
}
/*
* Releases the database reference from the handle for loading metrics.
*/
void rrdeng_load_metric_finalize(struct rrddim_query_handle *rrdimm_handle)
{
struct rrdeng_query_handle *handle = (struct rrdeng_query_handle *)rrdimm_handle->handle;
struct rrdengine_instance *ctx = handle->ctx;
struct rrdeng_page_descr *descr = handle->descr;
if (descr) {
#ifdef NETDATA_INTERNAL_CHECKS
rrd_stat_atomic_add(&ctx->stats.metric_API_consumers, -1);
#endif
pg_cache_put(ctx, descr);
}
// whatever is allocated at rrdeng_load_metric_init() should be freed here
freez(handle);
rrdimm_handle->handle = NULL;
}
time_t rrdeng_metric_latest_time(STORAGE_METRIC_HANDLE *db_metric_handle) {
struct rrdeng_metric_handle *metric_handle = (struct rrdeng_metric_handle *)db_metric_handle;
struct pg_cache_page_index *page_index = metric_handle->page_index;
return page_index->latest_time / USEC_PER_SEC;
}
time_t rrdeng_metric_oldest_time(STORAGE_METRIC_HANDLE *db_metric_handle) {
struct rrdeng_metric_handle *metric_handle = (struct rrdeng_metric_handle *)db_metric_handle;
struct pg_cache_page_index *page_index = metric_handle->page_index;
return page_index->oldest_time / USEC_PER_SEC;
}
int rrdeng_metric_latest_time_by_uuid(uuid_t *dim_uuid, time_t *first_entry_t, time_t *last_entry_t, int tier)
{
struct page_cache *pg_cache;
struct rrdengine_instance *ctx;
Pvoid_t *PValue;
struct pg_cache_page_index *page_index = NULL;
ctx = get_rrdeng_ctx_from_host(localhost, tier);
if (unlikely(!ctx)) {
error("Failed to fetch multidb context");
return 1;
}
pg_cache = &ctx->pg_cache;
uv_rwlock_rdlock(&pg_cache->metrics_index.lock);
PValue = JudyHSGet(pg_cache->metrics_index.JudyHS_array, dim_uuid, sizeof(uuid_t));
if (likely(NULL != PValue)) {
page_index = *PValue;
}
uv_rwlock_rdunlock(&pg_cache->metrics_index.lock);
if (likely(page_index)) {
*first_entry_t = page_index->oldest_time / USEC_PER_SEC;
*last_entry_t = page_index->latest_time / USEC_PER_SEC;
return 0;
}
return 1;
}
int rrdeng_metric_retention_by_uuid(STORAGE_INSTANCE *si, uuid_t *dim_uuid, time_t *first_entry_t, time_t *last_entry_t)
{
struct page_cache *pg_cache;
struct rrdengine_instance *ctx;
Pvoid_t *PValue;
struct pg_cache_page_index *page_index = NULL;
ctx = (struct rrdengine_instance *)si;
if (unlikely(!ctx)) {
error("DBENGINE: invalid STORAGE INSTANCE to %s()", __FUNCTION__);
return 1;
}
pg_cache = &ctx->pg_cache;
uv_rwlock_rdlock(&pg_cache->metrics_index.lock);
PValue = JudyHSGet(pg_cache->metrics_index.JudyHS_array, dim_uuid, sizeof(uuid_t));
if (likely(NULL != PValue)) {
page_index = *PValue;
}
uv_rwlock_rdunlock(&pg_cache->metrics_index.lock);
if (likely(page_index)) {
*first_entry_t = page_index->oldest_time / USEC_PER_SEC;
*last_entry_t = page_index->latest_time / USEC_PER_SEC;
return 0;
}
return 1;
}
/* Also gets a reference for the page */
void *rrdeng_create_page(struct rrdengine_instance *ctx, uuid_t *id, struct rrdeng_page_descr **ret_descr)
{
struct rrdeng_page_descr *descr;
struct page_cache_descr *pg_cache_descr;
void *page;
/* TODO: check maximum number of pages in page cache limit */
descr = pg_cache_create_descr();
descr->id = id; /* TODO: add page type: metric, log, something? */
descr->type = ctx->page_type;
page = dbengine_page_alloc(); /*TODO: add page size */
rrdeng_page_descr_mutex_lock(ctx, descr);
pg_cache_descr = descr->pg_cache_descr;
pg_cache_descr->page = page;
pg_cache_descr->flags = RRD_PAGE_DIRTY /*| RRD_PAGE_LOCKED */ | RRD_PAGE_POPULATED /* | BEING_COLLECTED */;
pg_cache_descr->refcnt = 1;
debug(D_RRDENGINE, "Created new page:");
if (unlikely(debug_flags & D_RRDENGINE))
print_page_cache_descr(descr);
rrdeng_page_descr_mutex_unlock(ctx, descr);
*ret_descr = descr;
return page;
}
/* The page must not be empty */
void rrdeng_commit_page(struct rrdengine_instance *ctx, struct rrdeng_page_descr *descr,
Word_t page_correlation_id)
{
struct page_cache *pg_cache = &ctx->pg_cache;
Pvoid_t *PValue;
unsigned nr_committed_pages;
if (unlikely(NULL == descr)) {
debug(D_RRDENGINE, "%s: page descriptor is NULL, page has already been force-committed.", __func__);
return;
}
fatal_assert(descr->page_length);
uv_rwlock_wrlock(&pg_cache->committed_page_index.lock);
PValue = JudyLIns(&pg_cache->committed_page_index.JudyL_array, page_correlation_id, PJE0);
*PValue = descr;
nr_committed_pages = ++pg_cache->committed_page_index.nr_committed_pages;
uv_rwlock_wrunlock(&pg_cache->committed_page_index.lock);
if (nr_committed_pages >= pg_cache_hard_limit(ctx) / 2) {
/* over 50% of pages have not been committed yet */
if (ctx->drop_metrics_under_page_cache_pressure &&
nr_committed_pages >= pg_cache_committed_hard_limit(ctx)) {
/* 100% of pages are dirty */
struct rrdeng_cmd cmd;
cmd.opcode = RRDENG_INVALIDATE_OLDEST_MEMORY_PAGE;
rrdeng_enq_cmd(&ctx->worker_config, &cmd);
} else {
if (0 == (unsigned long) ctx->stats.pg_cache_over_half_dirty_events) {
/* only print the first time */
errno = 0;
error("Failed to flush dirty buffers quickly enough in dbengine instance \"%s\". "
"Metric data at risk of not being stored in the database, "
"please reduce disk load or use a faster disk.", ctx->dbfiles_path);
}
rrd_stat_atomic_add(&ctx->stats.pg_cache_over_half_dirty_events, 1);
rrd_stat_atomic_add(&global_pg_cache_over_half_dirty_events, 1);
}
}
pg_cache_put(ctx, descr);
}
/* Gets a reference for the page */
void *rrdeng_get_latest_page(struct rrdengine_instance *ctx, uuid_t *id, void **handle)
{
struct rrdeng_page_descr *descr;
struct page_cache_descr *pg_cache_descr;
debug(D_RRDENGINE, "Reading existing page:");
descr = pg_cache_lookup(ctx, NULL, id, INVALID_TIME);
if (NULL == descr) {
*handle = NULL;
return NULL;
}
*handle = descr;
pg_cache_descr = descr->pg_cache_descr;
return pg_cache_descr->page;
}
/* Gets a reference for the page */
void *rrdeng_get_page(struct rrdengine_instance *ctx, uuid_t *id, usec_t point_in_time, void **handle)
{
struct rrdeng_page_descr *descr;
struct page_cache_descr *pg_cache_descr;
debug(D_RRDENGINE, "Reading existing page:");
descr = pg_cache_lookup(ctx, NULL, id, point_in_time);
if (NULL == descr) {
*handle = NULL;
return NULL;
}
*handle = descr;
pg_cache_descr = descr->pg_cache_descr;
return pg_cache_descr->page;
}
/*
* Gathers Database Engine statistics.
* Careful when modifying this function.
* You must not change the indices of the statistics or user code will break.
* You must not exceed RRDENG_NR_STATS or it will crash.
*/
void rrdeng_get_37_statistics(struct rrdengine_instance *ctx, unsigned long long *array)
{
if (ctx == NULL)
return;
struct page_cache *pg_cache = &ctx->pg_cache;
array[0] = (uint64_t)ctx->stats.metric_API_producers;
array[1] = (uint64_t)ctx->stats.metric_API_consumers;
array[2] = (uint64_t)pg_cache->page_descriptors;
array[3] = (uint64_t)pg_cache->populated_pages;
array[4] = (uint64_t)pg_cache->committed_page_index.nr_committed_pages;
array[5] = (uint64_t)ctx->stats.pg_cache_insertions;
array[6] = (uint64_t)ctx->stats.pg_cache_deletions;
array[7] = (uint64_t)ctx->stats.pg_cache_hits;
array[8] = (uint64_t)ctx->stats.pg_cache_misses;
array[9] = (uint64_t)ctx->stats.pg_cache_backfills;
array[10] = (uint64_t)ctx->stats.pg_cache_evictions;
array[11] = (uint64_t)ctx->stats.before_compress_bytes;
array[12] = (uint64_t)ctx->stats.after_compress_bytes;
array[13] = (uint64_t)ctx->stats.before_decompress_bytes;
array[14] = (uint64_t)ctx->stats.after_decompress_bytes;
array[15] = (uint64_t)ctx->stats.io_write_bytes;
array[16] = (uint64_t)ctx->stats.io_write_requests;
array[17] = (uint64_t)ctx->stats.io_read_bytes;
array[18] = (uint64_t)ctx->stats.io_read_requests;
array[19] = (uint64_t)ctx->stats.io_write_extent_bytes;
array[20] = (uint64_t)ctx->stats.io_write_extents;
array[21] = (uint64_t)ctx->stats.io_read_extent_bytes;
array[22] = (uint64_t)ctx->stats.io_read_extents;
array[23] = (uint64_t)ctx->stats.datafile_creations;
array[24] = (uint64_t)ctx->stats.datafile_deletions;
array[25] = (uint64_t)ctx->stats.journalfile_creations;
array[26] = (uint64_t)ctx->stats.journalfile_deletions;
array[27] = (uint64_t)ctx->stats.page_cache_descriptors;
array[28] = (uint64_t)ctx->stats.io_errors;
array[29] = (uint64_t)ctx->stats.fs_errors;
array[30] = (uint64_t)global_io_errors;
array[31] = (uint64_t)global_fs_errors;
array[32] = (uint64_t)rrdeng_reserved_file_descriptors;
array[33] = (uint64_t)ctx->stats.pg_cache_over_half_dirty_events;
array[34] = (uint64_t)global_pg_cache_over_half_dirty_events;
array[35] = (uint64_t)ctx->stats.flushing_pressure_page_deletions;
array[36] = (uint64_t)global_flushing_pressure_page_deletions;
fatal_assert(RRDENG_NR_STATS == 37);
}
/* Releases reference to page */
void rrdeng_put_page(struct rrdengine_instance *ctx, void *handle)
{
(void)ctx;
pg_cache_put(ctx, (struct rrdeng_page_descr *)handle);
}
/*
* Returns 0 on success, negative on error
*/
int rrdeng_init(RRDHOST *host, struct rrdengine_instance **ctxp, char *dbfiles_path, unsigned page_cache_mb,
unsigned disk_space_mb, int tier) {
struct rrdengine_instance *ctx;
int error;
uint32_t max_open_files;
max_open_files = rlimit_nofile.rlim_cur / 4;
/* reserve RRDENG_FD_BUDGET_PER_INSTANCE file descriptors for this instance */
rrd_stat_atomic_add(&rrdeng_reserved_file_descriptors, RRDENG_FD_BUDGET_PER_INSTANCE);
if (rrdeng_reserved_file_descriptors > max_open_files) {
error(
"Exceeded the budget of available file descriptors (%u/%u), cannot create new dbengine instance.",
(unsigned)rrdeng_reserved_file_descriptors,
(unsigned)max_open_files);
rrd_stat_atomic_add(&global_fs_errors, 1);
rrd_stat_atomic_add(&rrdeng_reserved_file_descriptors, -RRDENG_FD_BUDGET_PER_INSTANCE);
return UV_EMFILE;
}
if(NULL == ctxp) {
ctx = multidb_ctx[tier];
memset(ctx, 0, sizeof(*ctx));
}
else {
*ctxp = ctx = callocz(1, sizeof(*ctx));
}
ctx->tier = tier;
ctx->page_type = tier_page_type[tier];
ctx->global_compress_alg = RRD_LZ4;
if (page_cache_mb < RRDENG_MIN_PAGE_CACHE_SIZE_MB)
page_cache_mb = RRDENG_MIN_PAGE_CACHE_SIZE_MB;
ctx->max_cache_pages = page_cache_mb * (1048576LU / RRDENG_BLOCK_SIZE);
/* try to keep 5% of the page cache free */
ctx->cache_pages_low_watermark = (ctx->max_cache_pages * 95LLU) / 100;
if (disk_space_mb < RRDENG_MIN_DISK_SPACE_MB)
disk_space_mb = RRDENG_MIN_DISK_SPACE_MB;
ctx->max_disk_space = disk_space_mb * 1048576LLU;
strncpyz(ctx->dbfiles_path, dbfiles_path, sizeof(ctx->dbfiles_path) - 1);
ctx->dbfiles_path[sizeof(ctx->dbfiles_path) - 1] = '\0';
if (NULL == host)
strncpyz(ctx->machine_guid, registry_get_this_machine_guid(), GUID_LEN);
else
strncpyz(ctx->machine_guid, host->machine_guid, GUID_LEN);
ctx->drop_metrics_under_page_cache_pressure = rrdeng_drop_metrics_under_page_cache_pressure;
ctx->metric_API_max_producers = 0;
ctx->quiesce = NO_QUIESCE;
ctx->metalog_ctx = NULL; /* only set this after the metadata log has finished initializing */
ctx->host = host;
memset(&ctx->worker_config, 0, sizeof(ctx->worker_config));
ctx->worker_config.ctx = ctx;
init_page_cache(ctx);
init_commit_log(ctx);
error = init_rrd_files(ctx);
if (error) {
goto error_after_init_rrd_files;
}
completion_init(&ctx->rrdengine_completion);
fatal_assert(0 == uv_thread_create(&ctx->worker_config.thread, rrdeng_worker, &ctx->worker_config));
/* wait for worker thread to initialize */
completion_wait_for(&ctx->rrdengine_completion);
completion_destroy(&ctx->rrdengine_completion);
uv_thread_set_name_np(ctx->worker_config.thread, "LIBUV_WORKER");
if (ctx->worker_config.error) {
goto error_after_rrdeng_worker;
}
error = metalog_init(ctx);
if (error) {
error("Failed to initialize metadata log file event loop.");
goto error_after_rrdeng_worker;
}
return 0;
error_after_rrdeng_worker:
finalize_rrd_files(ctx);
error_after_init_rrd_files:
free_page_cache(ctx);
if (!is_storage_engine_shared((STORAGE_INSTANCE *)ctx)) {
freez(ctx);
if (ctxp)
*ctxp = NULL;
}
rrd_stat_atomic_add(&rrdeng_reserved_file_descriptors, -RRDENG_FD_BUDGET_PER_INSTANCE);
return UV_EIO;
}
/*
* Returns 0 on success, 1 on error
*/
int rrdeng_exit(struct rrdengine_instance *ctx)
{
struct rrdeng_cmd cmd;
if (NULL == ctx) {
return 1;
}
/* TODO: add page to page cache */
cmd.opcode = RRDENG_SHUTDOWN;
rrdeng_enq_cmd(&ctx->worker_config, &cmd);
fatal_assert(0 == uv_thread_join(&ctx->worker_config.thread));
finalize_rrd_files(ctx);
//metalog_exit(ctx->metalog_ctx);
free_page_cache(ctx);
if(!is_storage_engine_shared((STORAGE_INSTANCE *)ctx))
freez(ctx);
rrd_stat_atomic_add(&rrdeng_reserved_file_descriptors, -RRDENG_FD_BUDGET_PER_INSTANCE);
return 0;
}
void rrdeng_prepare_exit(struct rrdengine_instance *ctx)
{
struct rrdeng_cmd cmd;
if (NULL == ctx) {
return;
}
completion_init(&ctx->rrdengine_completion);
cmd.opcode = RRDENG_QUIESCE;
rrdeng_enq_cmd(&ctx->worker_config, &cmd);
/* wait for dbengine to quiesce */
completion_wait_for(&ctx->rrdengine_completion);
completion_destroy(&ctx->rrdengine_completion);
//metalog_prepare_exit(ctx->metalog_ctx);
}
RRDENG_SIZE_STATS rrdeng_size_statistics(struct rrdengine_instance *ctx) {
RRDENG_SIZE_STATS stats = { 0 };
for(struct pg_cache_page_index *page_index = ctx->pg_cache.metrics_index.last_page_index;
page_index != NULL ;page_index = page_index->prev) {
stats.metrics++;
stats.metrics_pages += page_index->page_count;
}
for(struct rrdengine_datafile *df = ctx->datafiles.first; df ;df = df->next) {
stats.datafiles++;
for(struct extent_info *ei = df->extents.first; ei ; ei = ei->next) {
stats.extents++;
stats.extents_compressed_bytes += ei->size;
for(int p = 0; p < ei->number_of_pages ;p++) {
struct rrdeng_page_descr *descr = ei->pages[p];
usec_t update_every_usec;
size_t points = descr->page_length / PAGE_POINT_SIZE_BYTES(descr);
if(likely(points > 1))
update_every_usec = (descr->end_time - descr->start_time) / (points - 1);
else {
update_every_usec = default_rrd_update_every * get_tier_grouping(ctx->tier) * USEC_PER_SEC;
stats.single_point_pages++;
}
time_t duration_secs = (time_t)((descr->end_time - descr->start_time + update_every_usec)/USEC_PER_SEC);
stats.extents_pages++;
stats.pages_uncompressed_bytes += descr->page_length;
stats.pages_duration_secs += duration_secs;
stats.points += points;
stats.page_types[descr->type].pages++;
stats.page_types[descr->type].pages_uncompressed_bytes += descr->page_length;
stats.page_types[descr->type].pages_duration_secs += duration_secs;
stats.page_types[descr->type].points += points;
if(!stats.first_t || (descr->start_time - update_every_usec) < stats.first_t)
stats.first_t = (descr->start_time - update_every_usec) / USEC_PER_SEC;
if(!stats.last_t || descr->end_time > stats.last_t)
stats.last_t = descr->end_time / USEC_PER_SEC;
}
}
}
stats.currently_collected_metrics = ctx->stats.metric_API_producers;
stats.max_concurrently_collected_metrics = ctx->metric_API_max_producers;
internal_error(stats.metrics_pages != stats.extents_pages + stats.currently_collected_metrics,
"DBENGINE: metrics pages is %zu, but extents pages is %zu and API consumers is %zu",
stats.metrics_pages, stats.extents_pages, stats.currently_collected_metrics);
stats.disk_space = ctx->disk_space;
stats.max_disk_space = ctx->max_disk_space;
stats.database_retention_secs = (time_t)(stats.last_t - stats.first_t);
if(stats.extents_pages)
stats.average_page_size_bytes = (double)stats.pages_uncompressed_bytes / (double)stats.extents_pages;
if(stats.pages_uncompressed_bytes > 0)
stats.average_compression_savings = 100.0 - ((double)stats.extents_compressed_bytes * 100.0 / (double)stats.pages_uncompressed_bytes);
if(stats.points)
stats.average_point_duration_secs = (double)stats.pages_duration_secs / (double)stats.points;
if(stats.metrics) {
stats.average_metric_retention_secs = (double)stats.pages_duration_secs / (double)stats.metrics;
if(stats.database_retention_secs) {
double metric_coverage = stats.average_metric_retention_secs / (double)stats.database_retention_secs;
double db_retention_days = (double)stats.database_retention_secs / 86400.0;
stats.estimated_concurrently_collected_metrics = stats.metrics * metric_coverage;
stats.ephemeral_metrics_per_day_percent = ((double)stats.metrics * 100.0 / (double)stats.estimated_concurrently_collected_metrics - 100.0) / (double)db_retention_days;
}
}
stats.sizeof_metric = struct_natural_alignment(sizeof(struct pg_cache_page_index));
stats.sizeof_page = struct_natural_alignment(sizeof(struct rrdeng_page_descr));
stats.sizeof_datafile = struct_natural_alignment(sizeof(struct rrdengine_datafile)) + struct_natural_alignment(sizeof(struct rrdengine_journalfile));
stats.sizeof_page_in_cache = struct_natural_alignment(sizeof(struct page_cache_descr));
stats.sizeof_point_data = page_type_size[ctx->page_type];
stats.sizeof_page_data = RRDENG_BLOCK_SIZE;
stats.pages_per_extent = rrdeng_pages_per_extent;
stats.sizeof_extent = sizeof(struct extent_info);
stats.sizeof_page_in_extent = sizeof(struct rrdeng_page_descr *);
stats.sizeof_metric_in_index = 40;
stats.sizeof_page_in_index = 24;
stats.default_granularity_secs = (size_t)default_rrd_update_every * get_tier_grouping(ctx->tier);
return stats;
}
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