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// SPDX-License-Identifier: GPL-3.0-or-later
#define NETDATA_RRD_INTERNALS
#include "rrdengine.h"
MRG *main_mrg = NULL;
PGC *main_cache = NULL;
PGC *open_cache = NULL;
PGC *extent_cache = NULL;
struct rrdeng_cache_efficiency_stats rrdeng_cache_efficiency_stats = {};
static void main_cache_free_clean_page_callback(PGC *cache __maybe_unused, PGC_ENTRY entry __maybe_unused)
{
// Release storage associated with the page
pgd_free(entry.data);
}
static void main_cache_flush_dirty_page_init_callback(PGC *cache __maybe_unused, Word_t section) {
struct rrdengine_instance *ctx = (struct rrdengine_instance *) section;
// mark ctx as having flushing in progress
__atomic_add_fetch(&ctx->atomic.extents_currently_being_flushed, 1, __ATOMIC_RELAXED);
}
static void main_cache_flush_dirty_page_callback(PGC *cache __maybe_unused, PGC_ENTRY *entries_array __maybe_unused, PGC_PAGE **pages_array __maybe_unused, size_t entries __maybe_unused)
{
if(!entries)
return;
struct rrdengine_instance *ctx = (struct rrdengine_instance *) entries_array[0].section;
struct page_descr_with_data *base = NULL;
for (size_t Index = 0 ; Index < entries; Index++) {
time_t start_time_s = entries_array[Index].start_time_s;
time_t end_time_s = entries_array[Index].end_time_s;
struct page_descr_with_data *descr = page_descriptor_get();
descr->id = mrg_metric_uuid(main_mrg, (METRIC *) entries_array[Index].metric_id);
descr->metric_id = entries_array[Index].metric_id;
descr->start_time_ut = start_time_s * USEC_PER_SEC;
descr->end_time_ut = end_time_s * USEC_PER_SEC;
descr->update_every_s = entries_array[Index].update_every_s;
descr->pgd = pgc_page_data(pages_array[Index]);
descr->type = pgd_type(descr->pgd);
descr->page_length = pgd_disk_footprint(descr->pgd);
DOUBLE_LINKED_LIST_APPEND_ITEM_UNSAFE(base, descr, link.prev, link.next);
// TODO: ask @stelfrag/@ktsaou about this.
// internal_fatal(descr->page_length > RRDENG_BLOCK_SIZE, "DBENGINE: faulty page length calculation");
}
struct completion completion;
completion_init(&completion);
rrdeng_enq_cmd(ctx, RRDENG_OPCODE_EXTENT_WRITE, base, &completion, STORAGE_PRIORITY_INTERNAL_DBENGINE, NULL, NULL);
completion_wait_for(&completion);
completion_destroy(&completion);
}
static void open_cache_free_clean_page_callback(PGC *cache __maybe_unused, PGC_ENTRY entry __maybe_unused)
{
struct rrdengine_datafile *datafile = entry.data;
datafile_release(datafile, DATAFILE_ACQUIRE_OPEN_CACHE);
}
static void open_cache_flush_dirty_page_callback(PGC *cache __maybe_unused, PGC_ENTRY *entries_array __maybe_unused, PGC_PAGE **pages_array __maybe_unused, size_t entries __maybe_unused)
{
;
}
static void extent_cache_free_clean_page_callback(PGC *cache __maybe_unused, PGC_ENTRY entry __maybe_unused)
{
dbengine_extent_free(entry.data, entry.size);
}
static void extent_cache_flush_dirty_page_callback(PGC *cache __maybe_unused, PGC_ENTRY *entries_array __maybe_unused, PGC_PAGE **pages_array __maybe_unused, size_t entries __maybe_unused)
{
;
}
inline TIME_RANGE_COMPARE is_page_in_time_range(time_t page_first_time_s, time_t page_last_time_s, time_t wanted_start_time_s, time_t wanted_end_time_s) {
// page_first_time_s <= wanted_end_time_s && page_last_time_s >= wanted_start_time_s
if(page_last_time_s < wanted_start_time_s)
return PAGE_IS_IN_THE_PAST;
if(page_first_time_s > wanted_end_time_s)
return PAGE_IS_IN_THE_FUTURE;
return PAGE_IS_IN_RANGE;
}
static inline struct page_details *pdc_find_page_for_time(
Pcvoid_t PArray,
time_t wanted_time_s,
size_t *gaps,
PDC_PAGE_STATUS mode,
PDC_PAGE_STATUS skip_list
) {
Word_t PIndexF = wanted_time_s, PIndexL = wanted_time_s;
Pvoid_t *PValueF, *PValueL;
struct page_details *pdF = NULL, *pdL = NULL;
bool firstF = true, firstL = true;
PDC_PAGE_STATUS ignore_list = PDC_PAGE_QUERY_GLOBAL_SKIP_LIST | skip_list;
while ((PValueF = PDCJudyLFirstThenNext(PArray, &PIndexF, &firstF))) {
pdF = *PValueF;
PDC_PAGE_STATUS status = __atomic_load_n(&pdF->status, __ATOMIC_ACQUIRE);
if (!(status & (ignore_list | mode)))
break;
pdF = NULL;
}
while ((PValueL = PDCJudyLLastThenPrev(PArray, &PIndexL, &firstL))) {
pdL = *PValueL;
PDC_PAGE_STATUS status = __atomic_load_n(&pdL->status, __ATOMIC_ACQUIRE);
if(status & mode) {
// don't go all the way back to the beginning
// stop at the last processed
pdL = NULL;
break;
}
if (!(status & ignore_list))
break;
pdL = NULL;
}
TIME_RANGE_COMPARE rcF = (pdF) ? is_page_in_time_range(pdF->first_time_s, pdF->last_time_s, wanted_time_s, wanted_time_s) : PAGE_IS_IN_THE_FUTURE;
TIME_RANGE_COMPARE rcL = (pdL) ? is_page_in_time_range(pdL->first_time_s, pdL->last_time_s, wanted_time_s, wanted_time_s) : PAGE_IS_IN_THE_PAST;
if (!pdF || pdF == pdL) {
// F is missing, or they are the same
// return L
(*gaps) += (rcL == PAGE_IS_IN_RANGE) ? 0 : 1;
return pdL;
}
if (!pdL) {
// L is missing
// return F
(*gaps) += (rcF == PAGE_IS_IN_RANGE) ? 0 : 1;
return pdF;
}
if (rcF == rcL) {
// both are on the same side,
// but they are different pages
switch (rcF) {
case PAGE_IS_IN_RANGE:
// pick the higher resolution
if (pdF->update_every_s && pdF->update_every_s < pdL->update_every_s)
return pdF;
if (pdL->update_every_s && pdL->update_every_s < pdF->update_every_s)
return pdL;
// same resolution - pick the one that starts earlier
if (pdL->first_time_s < pdF->first_time_s)
return pdL;
return pdF;
break;
case PAGE_IS_IN_THE_FUTURE:
(*gaps)++;
// pick the one that starts earlier
if (pdL->first_time_s < pdF->first_time_s)
return pdL;
return pdF;
break;
default:
case PAGE_IS_IN_THE_PAST:
(*gaps)++;
return NULL;
break;
}
}
if(rcF == PAGE_IS_IN_RANGE) {
// (*gaps) += 0;
return pdF;
}
if(rcL == PAGE_IS_IN_RANGE) {
// (*gaps) += 0;
return pdL;
}
if(rcF == PAGE_IS_IN_THE_FUTURE) {
(*gaps)++;
return pdF;
}
if(rcL == PAGE_IS_IN_THE_FUTURE) {
(*gaps)++;
return pdL;
}
// impossible case
(*gaps)++;
return NULL;
}
static size_t get_page_list_from_pgc(PGC *cache, METRIC *metric, struct rrdengine_instance *ctx,
time_t wanted_start_time_s, time_t wanted_end_time_s,
Pvoid_t *JudyL_page_array, size_t *cache_gaps,
bool open_cache_mode, PDC_PAGE_STATUS tags) {
size_t pages_found_in_cache = 0;
Word_t metric_id = mrg_metric_id(main_mrg, metric);
time_t now_s = wanted_start_time_s;
time_t dt_s = mrg_metric_get_update_every_s(main_mrg, metric);
if(!dt_s)
dt_s = default_rrd_update_every;
time_t previous_page_end_time_s = now_s - dt_s;
bool first = true;
do {
PGC_PAGE *page = pgc_page_get_and_acquire(
cache, (Word_t)ctx, (Word_t)metric_id, now_s,
(first) ? PGC_SEARCH_CLOSEST : PGC_SEARCH_NEXT);
first = false;
if(!page) {
if(previous_page_end_time_s < wanted_end_time_s)
(*cache_gaps)++;
break;
}
time_t page_start_time_s = pgc_page_start_time_s(page);
time_t page_end_time_s = pgc_page_end_time_s(page);
time_t page_update_every_s = pgc_page_update_every_s(page);
if(!page_update_every_s)
page_update_every_s = dt_s;
if(is_page_in_time_range(page_start_time_s, page_end_time_s, wanted_start_time_s, wanted_end_time_s) != PAGE_IS_IN_RANGE) {
// not a useful page for this query
pgc_page_release(cache, page);
page = NULL;
if(previous_page_end_time_s < wanted_end_time_s)
(*cache_gaps)++;
break;
}
if (page_start_time_s - previous_page_end_time_s > dt_s)
(*cache_gaps)++;
Pvoid_t *PValue = PDCJudyLIns(JudyL_page_array, (Word_t) page_start_time_s, PJE0);
if (!PValue || PValue == PJERR)
fatal("DBENGINE: corrupted judy array in %s()", __FUNCTION__ );
if (unlikely(*PValue))
// already exists in our list
pgc_page_release(cache, page);
else {
internal_fatal(pgc_page_metric(page) != metric_id, "Wrong metric id in page found in cache");
internal_fatal(pgc_page_section(page) != (Word_t)ctx, "Wrong section in page found in cache");
struct page_details *pd = page_details_get();
pd->metric_id = metric_id;
pd->first_time_s = page_start_time_s;
pd->last_time_s = page_end_time_s;
pd->update_every_s = (uint32_t) page_update_every_s;
pd->page = (open_cache_mode) ? NULL : page;
pd->status |= tags;
if((pd->page)) {
pd->status |= PDC_PAGE_READY | PDC_PAGE_PRELOADED;
if(pgd_is_empty(pgc_page_data(page)))
pd->status |= PDC_PAGE_EMPTY;
}
if(open_cache_mode) {
struct rrdengine_datafile *datafile = pgc_page_data(page);
if(datafile_acquire(datafile, DATAFILE_ACQUIRE_PAGE_DETAILS)) { // for pd
struct extent_io_data *xio = (struct extent_io_data *) pgc_page_custom_data(cache, page);
pd->datafile.ptr = pgc_page_data(page);
pd->datafile.file = xio->file;
pd->datafile.extent.pos = xio->pos;
pd->datafile.extent.bytes = xio->bytes;
pd->datafile.fileno = pd->datafile.ptr->fileno;
pd->status |= PDC_PAGE_DATAFILE_ACQUIRED | PDC_PAGE_DISK_PENDING;
}
else {
pd->status |= PDC_PAGE_FAILED | PDC_PAGE_FAILED_TO_ACQUIRE_DATAFILE;
}
pgc_page_release(cache, page);
}
*PValue = pd;
pages_found_in_cache++;
}
// prepare for the next iteration
previous_page_end_time_s = page_end_time_s;
if(page_update_every_s > 0)
dt_s = page_update_every_s;
// we are going to as for the NEXT page
// so, set this to our first time
now_s = page_start_time_s;
} while(now_s <= wanted_end_time_s);
return pages_found_in_cache;
}
static void pgc_inject_gap(struct rrdengine_instance *ctx, METRIC *metric, time_t start_time_s, time_t end_time_s) {
time_t db_first_time_s, db_last_time_s, db_update_every_s;
mrg_metric_get_retention(main_mrg, metric, &db_first_time_s, &db_last_time_s, &db_update_every_s);
if(is_page_in_time_range(start_time_s, end_time_s, db_first_time_s, db_last_time_s) != PAGE_IS_IN_RANGE)
return;
PGC_ENTRY page_entry = {
.hot = false,
.section = (Word_t)ctx,
.metric_id = (Word_t)metric,
.start_time_s = MAX(start_time_s, db_first_time_s),
.end_time_s = MIN(end_time_s, db_last_time_s),
.update_every_s = 0,
.size = 0,
.data = PGD_EMPTY,
};
if(page_entry.start_time_s >= page_entry.end_time_s)
return;
PGC_PAGE *page = pgc_page_add_and_acquire(main_cache, page_entry, NULL);
pgc_page_release(main_cache, page);
}
static size_t list_has_time_gaps(
struct rrdengine_instance *ctx,
METRIC *metric,
Pvoid_t JudyL_page_array,
time_t wanted_start_time_s,
time_t wanted_end_time_s,
size_t *pages_total,
size_t *pages_found_pass4,
size_t *pages_to_load_from_disk,
size_t *pages_overlapping,
time_t *optimal_end_time_s,
bool populate_gaps,
PDC_PAGE_STATUS *common_status
) {
// we will recalculate these, so zero them
*pages_to_load_from_disk = 0;
*pages_overlapping = 0;
*optimal_end_time_s = 0;
*common_status = 0;
bool first;
Pvoid_t *PValue;
Word_t this_page_start_time;
struct page_details *pd;
size_t gaps = 0;
Word_t metric_id = mrg_metric_id(main_mrg, metric);
// ------------------------------------------------------------------------
// PASS 1: remove the preprocessing flags from the pages in PDC
first = true;
this_page_start_time = 0;
while((PValue = PDCJudyLFirstThenNext(JudyL_page_array, &this_page_start_time, &first))) {
pd = *PValue;
pd->status &= ~(PDC_PAGE_SKIP|PDC_PAGE_PREPROCESSED);
}
// ------------------------------------------------------------------------
// PASS 2: emulate processing to find the useful pages
time_t now_s = wanted_start_time_s;
time_t dt_s = mrg_metric_get_update_every_s(main_mrg, metric);
if(!dt_s)
dt_s = default_rrd_update_every;
size_t pages_pass2 = 0, pages_pass3 = 0;
while((pd = pdc_find_page_for_time(
JudyL_page_array, now_s, &gaps,
PDC_PAGE_PREPROCESSED, 0))) {
pd->status |= PDC_PAGE_PREPROCESSED;
pages_pass2++;
if(pd->update_every_s)
dt_s = pd->update_every_s;
if(populate_gaps && pd->first_time_s > now_s)
pgc_inject_gap(ctx, metric, now_s, pd->first_time_s);
now_s = pd->last_time_s + dt_s;
if(now_s > wanted_end_time_s) {
*optimal_end_time_s = pd->last_time_s;
break;
}
}
if(populate_gaps && now_s < wanted_end_time_s)
pgc_inject_gap(ctx, metric, now_s, wanted_end_time_s);
// ------------------------------------------------------------------------
// PASS 3: mark as skipped all the pages not useful
first = true;
this_page_start_time = 0;
while((PValue = PDCJudyLFirstThenNext(JudyL_page_array, &this_page_start_time, &first))) {
pd = *PValue;
internal_fatal(pd->metric_id != metric_id, "pd has wrong metric_id");
if(!(pd->status & PDC_PAGE_PREPROCESSED)) {
(*pages_overlapping)++;
pd->status |= PDC_PAGE_SKIP;
pd->status &= ~(PDC_PAGE_READY | PDC_PAGE_DISK_PENDING);
*common_status |= pd->status;
continue;
}
pages_pass3++;
if(!pd->page) {
pd->page = pgc_page_get_and_acquire(main_cache, (Word_t) ctx, (Word_t) metric_id, pd->first_time_s, PGC_SEARCH_EXACT);
if(pd->page) {
(*pages_found_pass4)++;
pd->status &= ~PDC_PAGE_DISK_PENDING;
pd->status |= PDC_PAGE_READY | PDC_PAGE_PRELOADED | PDC_PAGE_PRELOADED_PASS4;
if(pgd_is_empty(pgc_page_data(pd->page)))
pd->status |= PDC_PAGE_EMPTY;
}
else if(!(pd->status & PDC_PAGE_FAILED) && (pd->status & PDC_PAGE_DATAFILE_ACQUIRED)) {
(*pages_to_load_from_disk)++;
pd->status |= PDC_PAGE_DISK_PENDING;
internal_fatal(pd->status & PDC_PAGE_SKIP, "page is disk pending and skipped");
internal_fatal(!pd->datafile.ptr, "datafile is NULL");
internal_fatal(!pd->datafile.extent.bytes, "datafile.extent.bytes zero");
internal_fatal(!pd->datafile.extent.pos, "datafile.extent.pos is zero");
internal_fatal(!pd->datafile.fileno, "datafile.fileno is zero");
}
}
else {
pd->status &= ~PDC_PAGE_DISK_PENDING;
pd->status |= (PDC_PAGE_READY | PDC_PAGE_PRELOADED);
}
*common_status |= pd->status;
}
internal_fatal(pages_pass2 != pages_pass3,
"DBENGINE: page count does not match");
*pages_total = pages_pass2;
return gaps;
}
// ----------------------------------------------------------------------------
typedef void (*page_found_callback_t)(PGC_PAGE *page, void *data);
static size_t get_page_list_from_journal_v2(struct rrdengine_instance *ctx, METRIC *metric, usec_t start_time_ut, usec_t end_time_ut, page_found_callback_t callback, void *callback_data) {
uuid_t *uuid = mrg_metric_uuid(main_mrg, metric);
Word_t metric_id = mrg_metric_id(main_mrg, metric);
time_t wanted_start_time_s = (time_t)(start_time_ut / USEC_PER_SEC);
time_t wanted_end_time_s = (time_t)(end_time_ut / USEC_PER_SEC);
size_t pages_found = 0;
NJFV2IDX_FIND_STATE state = {
.init = false,
.last = 0,
.ctx = ctx,
.wanted_start_time_s = wanted_start_time_s,
.wanted_end_time_s = wanted_end_time_s,
.j2_header_acquired = NULL,
};
struct rrdengine_datafile *datafile;
while((datafile = njfv2idx_find_and_acquire_j2_header(&state))) {
struct journal_v2_header *j2_header = state.j2_header_acquired;
if (unlikely(!j2_header))
continue;
time_t journal_start_time_s = (time_t)(j2_header->start_time_ut / USEC_PER_SEC);
// the datafile possibly contains useful data for this query
size_t journal_metric_count = (size_t)j2_header->metric_count;
struct journal_metric_list *uuid_list = (struct journal_metric_list *)((uint8_t *) j2_header + j2_header->metric_offset);
struct journal_metric_list *uuid_entry = bsearch(uuid,uuid_list,journal_metric_count,sizeof(*uuid_list), journal_metric_uuid_compare);
if (unlikely(!uuid_entry)) {
// our UUID is not in this datafile
journalfile_v2_data_release(datafile->journalfile);
continue;
}
struct journal_page_header *page_list_header = (struct journal_page_header *) ((uint8_t *) j2_header + uuid_entry->page_offset);
struct journal_page_list *page_list = (struct journal_page_list *)((uint8_t *) page_list_header + sizeof(*page_list_header));
struct journal_extent_list *extent_list = (void *)((uint8_t *)j2_header + j2_header->extent_offset);
uint32_t uuid_page_entries = page_list_header->entries;
for (uint32_t index = 0; index < uuid_page_entries; index++) {
struct journal_page_list *page_entry_in_journal = &page_list[index];
time_t page_first_time_s = page_entry_in_journal->delta_start_s + journal_start_time_s;
time_t page_last_time_s = page_entry_in_journal->delta_end_s + journal_start_time_s;
TIME_RANGE_COMPARE prc = is_page_in_time_range(page_first_time_s, page_last_time_s, wanted_start_time_s, wanted_end_time_s);
if(prc == PAGE_IS_IN_THE_PAST)
continue;
if(prc == PAGE_IS_IN_THE_FUTURE)
break;
time_t page_update_every_s = page_entry_in_journal->update_every_s;
size_t page_length = page_entry_in_journal->page_length;
if(datafile_acquire(datafile, DATAFILE_ACQUIRE_OPEN_CACHE)) { //for open cache item
// add this page to open cache
bool added = false;
struct extent_io_data ei = {
.pos = extent_list[page_entry_in_journal->extent_index].datafile_offset,
.bytes = extent_list[page_entry_in_journal->extent_index].datafile_size,
.page_length = page_length,
.file = datafile->file,
.fileno = datafile->fileno,
};
PGC_PAGE *page = pgc_page_add_and_acquire(open_cache, (PGC_ENTRY) {
.hot = false,
.section = (Word_t) ctx,
.metric_id = metric_id,
.start_time_s = page_first_time_s,
.end_time_s = page_last_time_s,
.update_every_s = (uint32_t) page_update_every_s,
.data = datafile,
.size = 0,
.custom_data = (uint8_t *) &ei,
}, &added);
if(!added)
datafile_release(datafile, DATAFILE_ACQUIRE_OPEN_CACHE);
callback(page, callback_data);
pgc_page_release(open_cache, page);
pages_found++;
}
}
journalfile_v2_data_release(datafile->journalfile);
}
return pages_found;
}
void add_page_details_from_journal_v2(PGC_PAGE *page, void *JudyL_pptr) {
struct rrdengine_datafile *datafile = pgc_page_data(page);
if(!datafile_acquire(datafile, DATAFILE_ACQUIRE_PAGE_DETAILS)) // for pd
return;
Pvoid_t *PValue = PDCJudyLIns(JudyL_pptr, pgc_page_start_time_s(page), PJE0);
if (!PValue || PValue == PJERR)
fatal("DBENGINE: corrupted judy array");
if (unlikely(*PValue)) {
datafile_release(datafile, DATAFILE_ACQUIRE_PAGE_DETAILS);
return;
}
Word_t metric_id = pgc_page_metric(page);
// let's add it to the judy
struct extent_io_data *ei = pgc_page_custom_data(open_cache, page);
struct page_details *pd = page_details_get();
*PValue = pd;
pd->datafile.extent.pos = ei->pos;
pd->datafile.extent.bytes = ei->bytes;
pd->datafile.file = ei->file;
pd->datafile.fileno = ei->fileno;
pd->first_time_s = pgc_page_start_time_s(page);
pd->last_time_s = pgc_page_end_time_s(page);
pd->datafile.ptr = datafile;
pd->update_every_s = (uint32_t) pgc_page_update_every_s(page);
pd->metric_id = metric_id;
pd->status |= PDC_PAGE_DISK_PENDING | PDC_PAGE_SOURCE_JOURNAL_V2 | PDC_PAGE_DATAFILE_ACQUIRED;
}
// Return a judyL will all pages that have start_time_ut and end_time_ut
// Pvalue of the judy will be the end time for that page
// DBENGINE2:
#define time_delta(finish, pass) do { if(pass) { usec_t t = pass; (pass) = (finish) - (pass); (finish) = t; } } while(0)
static Pvoid_t get_page_list(
struct rrdengine_instance *ctx,
METRIC *metric,
usec_t start_time_ut,
usec_t end_time_ut,
time_t *optimal_end_time_s,
size_t *pages_to_load_from_disk,
PDC_PAGE_STATUS *common_status
) {
*optimal_end_time_s = 0;
*pages_to_load_from_disk = 0;
*common_status = 0;
Pvoid_t JudyL_page_array = (Pvoid_t) NULL;
time_t wanted_start_time_s = (time_t)(start_time_ut / USEC_PER_SEC);
time_t wanted_end_time_s = (time_t)(end_time_ut / USEC_PER_SEC);
size_t pages_found_in_main_cache = 0,
pages_found_in_open_cache = 0,
pages_found_in_journals_v2 = 0,
pages_found_pass4 = 0,
pages_overlapping = 0,
pages_total = 0;
size_t cache_gaps = 0, query_gaps = 0;
bool done_v2 = false, done_open = false;
usec_t pass1_ut = 0, pass2_ut = 0, pass3_ut = 0, pass4_ut = 0, finish_ut = 0;
// --------------------------------------------------------------
// PASS 1: Check what the main page cache has available
pass1_ut = now_monotonic_usec();
size_t pages_pass1 = get_page_list_from_pgc(main_cache, metric, ctx, wanted_start_time_s, wanted_end_time_s,
&JudyL_page_array, &cache_gaps,
false, PDC_PAGE_SOURCE_MAIN_CACHE);
query_gaps += cache_gaps;
pages_found_in_main_cache += pages_pass1;
pages_total += pages_pass1;
if(pages_found_in_main_cache && !cache_gaps) {
query_gaps = list_has_time_gaps(ctx, metric, JudyL_page_array, wanted_start_time_s, wanted_end_time_s,
&pages_total, &pages_found_pass4, pages_to_load_from_disk, &pages_overlapping,
optimal_end_time_s, false, common_status);
if (pages_total && !query_gaps)
goto we_are_done;
}
// --------------------------------------------------------------
// PASS 2: Check what the open journal page cache has available
// these will be loaded from disk
pass2_ut = now_monotonic_usec();
size_t pages_pass2 = get_page_list_from_pgc(open_cache, metric, ctx, wanted_start_time_s, wanted_end_time_s,
&JudyL_page_array, &cache_gaps,
true, PDC_PAGE_SOURCE_OPEN_CACHE);
query_gaps += cache_gaps;
pages_found_in_open_cache += pages_pass2;
pages_total += pages_pass2;
done_open = true;
if(pages_found_in_open_cache) {
query_gaps = list_has_time_gaps(ctx, metric, JudyL_page_array, wanted_start_time_s, wanted_end_time_s,
&pages_total, &pages_found_pass4, pages_to_load_from_disk, &pages_overlapping,
optimal_end_time_s, false, common_status);
if (pages_total && !query_gaps)
goto we_are_done;
}
// --------------------------------------------------------------
// PASS 3: Check Journal v2 to fill the gaps
pass3_ut = now_monotonic_usec();
size_t pages_pass3 = get_page_list_from_journal_v2(ctx, metric, start_time_ut, end_time_ut,
add_page_details_from_journal_v2, &JudyL_page_array);
pages_found_in_journals_v2 += pages_pass3;
pages_total += pages_pass3;
done_v2 = true;
// --------------------------------------------------------------
// PASS 4: Check the cache again
// and calculate the time gaps in the query
// THIS IS REQUIRED AFTER JOURNAL V2 LOOKUP
pass4_ut = now_monotonic_usec();
query_gaps = list_has_time_gaps(ctx, metric, JudyL_page_array, wanted_start_time_s, wanted_end_time_s,
&pages_total, &pages_found_pass4, pages_to_load_from_disk, &pages_overlapping,
optimal_end_time_s, true, common_status);
we_are_done:
finish_ut = now_monotonic_usec();
time_delta(finish_ut, pass4_ut);
time_delta(finish_ut, pass3_ut);
time_delta(finish_ut, pass2_ut);
time_delta(finish_ut, pass1_ut);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.prep_time_in_main_cache_lookup, pass1_ut, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.prep_time_in_open_cache_lookup, pass2_ut, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.prep_time_in_journal_v2_lookup, pass3_ut, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.prep_time_in_pass4_lookup, pass4_ut, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.queries, 1, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.queries_planned_with_gaps, (query_gaps) ? 1 : 0, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.queries_open, done_open ? 1 : 0, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.queries_journal_v2, done_v2 ? 1 : 0, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.pages_total, pages_total, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.pages_meta_source_main_cache, pages_found_in_main_cache, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.pages_meta_source_open_cache, pages_found_in_open_cache, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.pages_meta_source_journal_v2, pages_found_in_journals_v2, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.pages_data_source_main_cache, pages_found_in_main_cache, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.pages_data_source_main_cache_at_pass4, pages_found_pass4, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.pages_to_load_from_disk, *pages_to_load_from_disk, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.pages_overlapping_skipped, pages_overlapping, __ATOMIC_RELAXED);
return JudyL_page_array;
}
inline void rrdeng_prep_wait(PDC *pdc) {
if (unlikely(pdc && !pdc->prep_done)) {
usec_t started_ut = now_monotonic_usec();
completion_wait_for(&pdc->prep_completion);
pdc->prep_done = true;
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.query_time_wait_for_prep, now_monotonic_usec() - started_ut, __ATOMIC_RELAXED);
}
}
void rrdeng_prep_query(struct page_details_control *pdc, bool worker) {
if(worker)
worker_is_busy(UV_EVENT_DBENGINE_QUERY);
pdc->page_list_JudyL = get_page_list(pdc->ctx, pdc->metric,
pdc->start_time_s * USEC_PER_SEC,
pdc->end_time_s * USEC_PER_SEC,
&pdc->optimal_end_time_s,
&pdc->pages_to_load_from_disk,
&pdc->common_status);
internal_fatal(pdc->pages_to_load_from_disk && !(pdc->common_status & PDC_PAGE_DISK_PENDING),
"DBENGINE: PDC reports there are %zu pages to load from disk, "
"but none of the pages has the PDC_PAGE_DISK_PENDING flag",
pdc->pages_to_load_from_disk);
internal_fatal(!pdc->pages_to_load_from_disk && (pdc->common_status & PDC_PAGE_DISK_PENDING),
"DBENGINE: PDC reports there are no pages to load from disk, "
"but one or more pages have the PDC_PAGE_DISK_PENDING flag");
if (pdc->pages_to_load_from_disk && pdc->page_list_JudyL) {
pdc_acquire(pdc); // we get 1 for the 1st worker in the chain: do_read_page_list_work()
usec_t start_ut = now_monotonic_usec();
if(likely(pdc->priority == STORAGE_PRIORITY_SYNCHRONOUS))
pdc_route_synchronously(pdc->ctx, pdc);
else
pdc_route_asynchronously(pdc->ctx, pdc);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.prep_time_to_route, now_monotonic_usec() - start_ut, __ATOMIC_RELAXED);
}
else
completion_mark_complete(&pdc->page_completion);
completion_mark_complete(&pdc->prep_completion);
pdc_release_and_destroy_if_unreferenced(pdc, true, true);
if(worker)
worker_is_idle();
}
/**
* Searches for pages in a time range and triggers disk I/O if necessary and possible.
* @param ctx DB context
* @param handle query handle as initialized
* @param start_time_ut inclusive starting time in usec
* @param end_time_ut inclusive ending time in usec
* @return 1 / 0 (pages found or not found)
*/
void pg_cache_preload(struct rrdeng_query_handle *handle) {
if (unlikely(!handle || !handle->metric))
return;
__atomic_add_fetch(&handle->ctx->atomic.inflight_queries, 1, __ATOMIC_RELAXED);
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.currently_running_queries, 1, __ATOMIC_RELAXED);
handle->pdc = pdc_get();
handle->pdc->metric = mrg_metric_dup(main_mrg, handle->metric);
handle->pdc->start_time_s = handle->start_time_s;
handle->pdc->end_time_s = handle->end_time_s;
handle->pdc->priority = handle->priority;
handle->pdc->optimal_end_time_s = handle->end_time_s;
handle->pdc->ctx = handle->ctx;
handle->pdc->refcount = 1;
spinlock_init(&handle->pdc->refcount_spinlock);
completion_init(&handle->pdc->prep_completion);
completion_init(&handle->pdc->page_completion);
if(ctx_is_available_for_queries(handle->ctx)) {
handle->pdc->refcount++; // we get 1 for the query thread and 1 for the prep thread
if(unlikely(handle->pdc->priority == STORAGE_PRIORITY_SYNCHRONOUS))
rrdeng_prep_query(handle->pdc, false);
else
rrdeng_enq_cmd(handle->ctx, RRDENG_OPCODE_QUERY, handle->pdc, NULL, handle->priority, NULL, NULL);
}
else {
completion_mark_complete(&handle->pdc->prep_completion);
completion_mark_complete(&handle->pdc->page_completion);
}
}
/*
* 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 pgc_page *pg_cache_lookup_next(
struct rrdengine_instance *ctx,
PDC *pdc,
time_t now_s,
time_t last_update_every_s,
size_t *entries
) {
if (unlikely(!pdc))
return NULL;
rrdeng_prep_wait(pdc);
if (unlikely(!pdc->page_list_JudyL))
return NULL;
usec_t start_ut = now_monotonic_usec();
size_t gaps = 0;
bool waited = false, preloaded;
PGC_PAGE *page = NULL;
while(!page) {
bool page_from_pd = false;
preloaded = false;
struct page_details *pd = pdc_find_page_for_time(
pdc->page_list_JudyL, now_s, &gaps,
PDC_PAGE_PROCESSED, PDC_PAGE_EMPTY);
if (!pd)
break;
page = pd->page;
page_from_pd = true;
preloaded = pdc_page_status_check(pd, PDC_PAGE_PRELOADED);
if(!page) {
if(!completion_is_done(&pdc->page_completion)) {
page = pgc_page_get_and_acquire(main_cache, (Word_t)ctx,
pd->metric_id, pd->first_time_s, PGC_SEARCH_EXACT);
page_from_pd = false;
preloaded = pdc_page_status_check(pd, PDC_PAGE_PRELOADED);
}
if(!page) {
pdc->completed_jobs =
completion_wait_for_a_job(&pdc->page_completion, pdc->completed_jobs);
page = pd->page;
page_from_pd = true;
preloaded = pdc_page_status_check(pd, PDC_PAGE_PRELOADED);
waited = true;
}
}
if(page && pgd_is_empty(pgc_page_data(page)))
pdc_page_status_set(pd, PDC_PAGE_EMPTY);
if(!page || pdc_page_status_check(pd, PDC_PAGE_QUERY_GLOBAL_SKIP_LIST | PDC_PAGE_EMPTY)) {
page = NULL;
continue;
}
// we now have page and is not empty
time_t page_start_time_s = pgc_page_start_time_s(page);
time_t page_end_time_s = pgc_page_end_time_s(page);
time_t page_update_every_s = pgc_page_update_every_s(page);
if(unlikely(page_start_time_s == INVALID_TIME || page_end_time_s == INVALID_TIME)) {
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.pages_zero_time_skipped, 1, __ATOMIC_RELAXED);
pgc_page_to_clean_evict_or_release(main_cache, page);
pdc_page_status_set(pd, PDC_PAGE_INVALID | PDC_PAGE_RELEASED);
pd->page = page = NULL;
continue;
}
else {
if (unlikely(page_update_every_s <= 0 || page_update_every_s > 86400)) {
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.pages_invalid_update_every_fixed, 1, __ATOMIC_RELAXED);
page_update_every_s = pgc_page_fix_update_every(page, last_update_every_s);
pd->update_every_s = (uint32_t) page_update_every_s;
}
size_t entries_by_size = pgd_slots_used(pgc_page_data(page));
size_t entries_by_time = page_entries_by_time(page_start_time_s, page_end_time_s, page_update_every_s);
if(unlikely(entries_by_size < entries_by_time)) {
time_t fixed_page_end_time_s = (time_t)(page_start_time_s + (entries_by_size - 1) * page_update_every_s);
pd->last_time_s = page_end_time_s = pgc_page_fix_end_time_s(page, fixed_page_end_time_s);
entries_by_time = (page_end_time_s - (page_start_time_s - page_update_every_s)) / page_update_every_s;
internal_fatal(entries_by_size != entries_by_time, "DBENGINE: wrong entries by time again!");
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.pages_invalid_entries_fixed, 1, __ATOMIC_RELAXED);
}
*entries = entries_by_time;
}
if(unlikely(page_end_time_s < now_s)) {
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.pages_past_time_skipped, 1, __ATOMIC_RELAXED);
pgc_page_release(main_cache, page);
pdc_page_status_set(pd, PDC_PAGE_SKIP | PDC_PAGE_RELEASED);
pd->page = page = NULL;
continue;
}
if(page_from_pd)
// PDC_PAGE_RELEASED is for pdc_destroy() to not release the page twice - the caller will release it
pdc_page_status_set(pd, PDC_PAGE_RELEASED | PDC_PAGE_PROCESSED);
else
pdc_page_status_set(pd, PDC_PAGE_PROCESSED);
}
if(gaps && !pdc->executed_with_gaps)
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.queries_executed_with_gaps, 1, __ATOMIC_RELAXED);
pdc->executed_with_gaps = +gaps;
if(page) {
if(waited)
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.page_next_wait_loaded, 1, __ATOMIC_RELAXED);
else
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.page_next_nowait_loaded, 1, __ATOMIC_RELAXED);
}
else {
if(waited)
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.page_next_wait_failed, 1, __ATOMIC_RELAXED);
else
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.page_next_nowait_failed, 1, __ATOMIC_RELAXED);
}
if(waited) {
if(preloaded)
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.query_time_to_slow_preload_next_page, now_monotonic_usec() - start_ut, __ATOMIC_RELAXED);
else
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.query_time_to_slow_disk_next_page, now_monotonic_usec() - start_ut, __ATOMIC_RELAXED);
}
else {
if(preloaded)
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.query_time_to_fast_preload_next_page, now_monotonic_usec() - start_ut, __ATOMIC_RELAXED);
else
__atomic_add_fetch(&rrdeng_cache_efficiency_stats.query_time_to_fast_disk_next_page, now_monotonic_usec() - start_ut, __ATOMIC_RELAXED);
}
return page;
}
void pgc_open_add_hot_page(Word_t section, Word_t metric_id, time_t start_time_s, time_t end_time_s, time_t update_every_s,
struct rrdengine_datafile *datafile, uint64_t extent_offset, unsigned extent_size, uint32_t page_length) {
if(!datafile_acquire(datafile, DATAFILE_ACQUIRE_OPEN_CACHE)) // for open cache item
fatal("DBENGINE: cannot acquire datafile to put page in open cache");
struct extent_io_data ext_io_data = {
.file = datafile->file,
.fileno = datafile->fileno,
.pos = extent_offset,
.bytes = extent_size,
.page_length = page_length
};
PGC_ENTRY page_entry = {
.hot = true,
.section = section,
.metric_id = metric_id,
.start_time_s = start_time_s,
.end_time_s = end_time_s,
.update_every_s = (uint32_t) update_every_s,
.size = 0,
.data = datafile,
.custom_data = (uint8_t *) &ext_io_data,
};
internal_fatal(!datafile->fileno, "DBENGINE: datafile supplied does not have a number");
bool added = true;
PGC_PAGE *page = pgc_page_add_and_acquire(open_cache, page_entry, &added);
int tries = 100;
while(!added && page_entry.end_time_s > pgc_page_end_time_s(page) && tries--) {
pgc_page_to_clean_evict_or_release(open_cache, page);
page = pgc_page_add_and_acquire(open_cache, page_entry, &added);
}
if(!added) {
datafile_release(datafile, DATAFILE_ACQUIRE_OPEN_CACHE);
internal_fatal(page_entry.end_time_s > pgc_page_end_time_s(page),
"DBENGINE: cannot add longer page to open cache");
}
pgc_page_release(open_cache, (PGC_PAGE *)page);
}
size_t dynamic_open_cache_size(void) {
size_t main_cache_size = pgc_get_wanted_cache_size(main_cache);
size_t target_size = main_cache_size / 100 * 5;
if(target_size < 2 * 1024 * 1024)
target_size = 2 * 1024 * 1024;
return target_size;
}
size_t dynamic_extent_cache_size(void) {
size_t main_cache_size = pgc_get_wanted_cache_size(main_cache);
size_t target_size = main_cache_size / 100 * 5;
if(target_size < 3 * 1024 * 1024)
target_size = 3 * 1024 * 1024;
return target_size;
}
void pgc_and_mrg_initialize(void)
{
main_mrg = mrg_create(0);
size_t target_cache_size = (size_t)default_rrdeng_page_cache_mb * 1024ULL * 1024ULL;
size_t main_cache_size = (target_cache_size / 100) * 95;
size_t open_cache_size = 0;
size_t extent_cache_size = (target_cache_size / 100) * 5;
if(extent_cache_size < 3 * 1024 * 1024) {
extent_cache_size = 3 * 1024 * 1024;
main_cache_size = target_cache_size - extent_cache_size;
}
extent_cache_size += (size_t)(default_rrdeng_extent_cache_mb * 1024ULL * 1024ULL);
main_cache = pgc_create(
"main_cache",
main_cache_size,
main_cache_free_clean_page_callback,
(size_t) rrdeng_pages_per_extent,
main_cache_flush_dirty_page_init_callback,
main_cache_flush_dirty_page_callback,
10,
10240, // if there are that many threads, evict so many at once!
1000, //
5, // don't delay too much other threads
PGC_OPTIONS_AUTOSCALE, // AUTOSCALE = 2x max hot pages
0, // 0 = as many as the system cpus
0
);
open_cache = pgc_create(
"open_cache",
open_cache_size, // the default is 1MB
open_cache_free_clean_page_callback,
1,
NULL,
open_cache_flush_dirty_page_callback,
10,
10240, // if there are that many threads, evict that many at once!
1000, //
3, // don't delay too much other threads
PGC_OPTIONS_AUTOSCALE | PGC_OPTIONS_EVICT_PAGES_INLINE | PGC_OPTIONS_FLUSH_PAGES_INLINE,
0, // 0 = as many as the system cpus
sizeof(struct extent_io_data)
);
pgc_set_dynamic_target_cache_size_callback(open_cache, dynamic_open_cache_size);
extent_cache = pgc_create(
"extent_cache",
extent_cache_size,
extent_cache_free_clean_page_callback,
1,
NULL,
extent_cache_flush_dirty_page_callback,
5,
10, // it will lose up to that extents at once!
100, //
2, // don't delay too much other threads
PGC_OPTIONS_AUTOSCALE | PGC_OPTIONS_EVICT_PAGES_INLINE | PGC_OPTIONS_FLUSH_PAGES_INLINE,
0, // 0 = as many as the system cpus
0
);
pgc_set_dynamic_target_cache_size_callback(extent_cache, dynamic_extent_cache_size);
}
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