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|
// SPDX-License-Identifier: GPL-3.0-or-later
#include "sqlite_functions.h"
#include "sqlite3recover.h"
#include "sqlite_db_migration.h"
#define DB_METADATA_VERSION 14
const char *database_config[] = {
"CREATE TABLE IF NOT EXISTS host(host_id BLOB PRIMARY KEY, hostname TEXT NOT NULL, "
"registry_hostname TEXT NOT NULL default 'unknown', update_every INT NOT NULL default 1, "
"os TEXT NOT NULL default 'unknown', timezone TEXT NOT NULL default 'unknown', tags TEXT NOT NULL default '',"
"hops INT NOT NULL DEFAULT 0,"
"memory_mode INT DEFAULT 0, abbrev_timezone TEXT DEFAULT '', utc_offset INT NOT NULL DEFAULT 0,"
"program_name TEXT NOT NULL DEFAULT 'unknown', program_version TEXT NOT NULL DEFAULT 'unknown', "
"entries INT NOT NULL DEFAULT 0,"
"health_enabled INT NOT NULL DEFAULT 0, last_connected INT NOT NULL DEFAULT 0);",
"CREATE TABLE IF NOT EXISTS chart(chart_id blob PRIMARY KEY, host_id blob, type text, id text, name text, "
"family text, context text, title text, unit text, plugin text, module text, priority int, update_every int, "
"chart_type int, memory_mode int, history_entries);",
"CREATE TABLE IF NOT EXISTS dimension(dim_id blob PRIMARY KEY, chart_id blob, id text, name text, "
"multiplier int, divisor int , algorithm int, options text);",
"CREATE TABLE IF NOT EXISTS metadata_migration(filename text, file_size, date_created int);",
"CREATE INDEX IF NOT EXISTS ind_d2 on dimension (chart_id);",
"CREATE INDEX IF NOT EXISTS ind_c3 on chart (host_id);",
"CREATE TABLE IF NOT EXISTS chart_label(chart_id blob, source_type int, label_key text, "
"label_value text, date_created int, PRIMARY KEY (chart_id, label_key));",
"CREATE TABLE IF NOT EXISTS node_instance (host_id blob PRIMARY KEY, claim_id, node_id, date_created);",
"CREATE TABLE IF NOT EXISTS alert_hash(hash_id blob PRIMARY KEY, date_updated int, alarm text, template text, "
"on_key text, class text, component text, type text, os text, hosts text, lookup text, "
"every text, units text, calc text, families text, plugin text, module text, charts text, green text, "
"red text, warn text, crit text, exec text, to_key text, info text, delay text, options text, "
"repeat text, host_labels text, p_db_lookup_dimensions text, p_db_lookup_method text, p_db_lookup_options int, "
"p_db_lookup_after int, p_db_lookup_before int, p_update_every int, source text, chart_labels text, summary text);",
"CREATE TABLE IF NOT EXISTS host_info(host_id blob, system_key text NOT NULL, system_value text NOT NULL, "
"date_created INT, PRIMARY KEY(host_id, system_key));",
"CREATE TABLE IF NOT EXISTS host_label(host_id blob, source_type int, label_key text NOT NULL, "
"label_value text NOT NULL, date_created INT, PRIMARY KEY (host_id, label_key));",
"CREATE TRIGGER IF NOT EXISTS ins_host AFTER INSERT ON host BEGIN INSERT INTO node_instance (host_id, date_created)"
" SELECT new.host_id, unixepoch() WHERE new.host_id NOT IN (SELECT host_id FROM node_instance); END;",
"CREATE TABLE IF NOT EXISTS health_log (health_log_id INTEGER PRIMARY KEY, host_id blob, alarm_id int, "
"config_hash_id blob, name text, chart text, family text, recipient text, units text, exec text, "
"chart_context text, last_transition_id blob, chart_name text, UNIQUE (host_id, alarm_id)) ;",
"CREATE INDEX IF NOT EXISTS health_log_ind_1 ON health_log (host_id);",
"CREATE TABLE IF NOT EXISTS health_log_detail (health_log_id int, unique_id int, alarm_id int, alarm_event_id int, "
"updated_by_id int, updates_id int, when_key int, duration int, non_clear_duration int, "
"flags int, exec_run_timestamp int, delay_up_to_timestamp int, "
"info text, exec_code int, new_status real, old_status real, delay int, "
"new_value double, old_value double, last_repeat int, transition_id blob, global_id int, summary text);",
"CREATE INDEX IF NOT EXISTS health_log_d_ind_2 ON health_log_detail (global_id);",
"CREATE INDEX IF NOT EXISTS health_log_d_ind_3 ON health_log_detail (transition_id);",
"CREATE INDEX IF NOT EXISTS health_log_d_ind_5 ON health_log_detail (health_log_id, unique_id DESC);",
"CREATE INDEX IF NOT EXISTS health_log_d_ind_6 on health_log_detail (health_log_id, when_key)",
NULL
};
const char *database_cleanup[] = {
"DELETE FROM host WHERE host_id NOT IN (SELECT host_id FROM chart);",
"DELETE FROM node_instance WHERE host_id NOT IN (SELECT host_id FROM host);",
"DELETE FROM host_info WHERE host_id NOT IN (SELECT host_id FROM host);",
"DELETE FROM host_label WHERE host_id NOT IN (SELECT host_id FROM host);",
"DROP TRIGGER IF EXISTS tr_dim_del;",
"DROP INDEX IF EXISTS ind_d1;",
"DROP INDEX IF EXISTS ind_c1;",
"DROP INDEX IF EXISTS ind_c2;",
"DROP INDEX IF EXISTS alert_hash_index;",
"DROP INDEX IF EXISTS health_log_d_ind_4;",
"DROP INDEX IF EXISTS health_log_d_ind_1;",
NULL
};
sqlite3 *db_meta = NULL;
#define MAX_PREPARED_STATEMENTS (32)
pthread_key_t key_pool[MAX_PREPARED_STATEMENTS];
SQLITE_API int sqlite3_exec_monitored(
sqlite3 *db, /* An open database */
const char *sql, /* SQL to be evaluated */
int (*callback)(void*,int,char**,char**), /* Callback function */
void *data, /* 1st argument to callback */
char **errmsg /* Error msg written here */
) {
int rc = sqlite3_exec(db, sql, callback, data, errmsg);
global_statistics_sqlite3_query_completed(rc == SQLITE_OK, rc == SQLITE_BUSY, rc == SQLITE_LOCKED);
return rc;
}
SQLITE_API int sqlite3_step_monitored(sqlite3_stmt *stmt) {
int rc;
int cnt = 0;
while (cnt++ < SQL_MAX_RETRY) {
rc = sqlite3_step(stmt);
switch (rc) {
case SQLITE_DONE:
global_statistics_sqlite3_query_completed(1, 0, 0);
break;
case SQLITE_ROW:
global_statistics_sqlite3_row_completed();
break;
case SQLITE_BUSY:
case SQLITE_LOCKED:
global_statistics_sqlite3_query_completed(rc == SQLITE_DONE, rc == SQLITE_BUSY, rc == SQLITE_LOCKED);
usleep(SQLITE_INSERT_DELAY * USEC_PER_MS);
continue;
default:
break;
}
break;
}
return rc;
}
static bool mark_database_to_recover(sqlite3_stmt *res, sqlite3 *database)
{
if (!res && !database)
return false;
if (!database)
database = sqlite3_db_handle(res);
if (db_meta == database) {
char recover_file[FILENAME_MAX + 1];
snprintfz(recover_file, FILENAME_MAX, "%s/.netdata-meta.db.recover", netdata_configured_cache_dir);
int fd = open(recover_file, O_WRONLY | O_CREAT | O_TRUNC, 444);
if (fd >= 0) {
close(fd);
return true;
}
}
return false;
}
static void recover_database(const char *sqlite_database, const char *new_sqlite_database)
{
sqlite3 *database;
int rc = sqlite3_open(sqlite_database, &database);
if (rc != SQLITE_OK)
return;
netdata_log_info("Recover %s", sqlite_database);
netdata_log_info(" to %s", new_sqlite_database);
// This will remove the -shm and -wal files when we close the database
(void) db_execute(database, "select count(*) from sqlite_master limit 0");
sqlite3_recover *recover = sqlite3_recover_init(database, "main", new_sqlite_database);
if (recover) {
rc = sqlite3_recover_run(recover);
if (rc == SQLITE_OK)
netdata_log_info("Recover complete");
else
netdata_log_info("Recover encountered an error but the database may be usable");
rc = sqlite3_recover_finish(recover);
(void) sqlite3_close(database);
if (rc == SQLITE_OK) {
rc = rename(new_sqlite_database, sqlite_database);
if (rc == 0) {
netdata_log_info("Renamed %s", new_sqlite_database);
netdata_log_info(" to %s", sqlite_database);
}
}
}
else
(void) sqlite3_close(database);
}
int execute_insert(sqlite3_stmt *res)
{
int rc;
rc = sqlite3_step_monitored(res);
if (rc == SQLITE_CORRUPT) {
(void)mark_database_to_recover(res, NULL);
error_report("SQLite error %d", rc);
}
return rc;
}
int configure_sqlite_database(sqlite3 *database, int target_version)
{
char buf[1024 + 1] = "";
const char *list[2] = { buf, NULL };
// https://www.sqlite.org/pragma.html#pragma_auto_vacuum
// PRAGMA schema.auto_vacuum = 0 | NONE | 1 | FULL | 2 | INCREMENTAL;
snprintfz(buf, 1024, "PRAGMA auto_vacuum=%s;", config_get(CONFIG_SECTION_SQLITE, "auto vacuum", "INCREMENTAL"));
if (init_database_batch(database, list))
return 1;
// https://www.sqlite.org/pragma.html#pragma_synchronous
// PRAGMA schema.synchronous = 0 | OFF | 1 | NORMAL | 2 | FULL | 3 | EXTRA;
snprintfz(buf, 1024, "PRAGMA synchronous=%s;", config_get(CONFIG_SECTION_SQLITE, "synchronous", "NORMAL"));
if (init_database_batch(database, list))
return 1;
// https://www.sqlite.org/pragma.html#pragma_journal_mode
// PRAGMA schema.journal_mode = DELETE | TRUNCATE | PERSIST | MEMORY | WAL | OFF
snprintfz(buf, 1024, "PRAGMA journal_mode=%s;", config_get(CONFIG_SECTION_SQLITE, "journal mode", "WAL"));
if (init_database_batch(database, list))
return 1;
// https://www.sqlite.org/pragma.html#pragma_temp_store
// PRAGMA temp_store = 0 | DEFAULT | 1 | FILE | 2 | MEMORY;
snprintfz(buf, 1024, "PRAGMA temp_store=%s;", config_get(CONFIG_SECTION_SQLITE, "temp store", "MEMORY"));
if (init_database_batch(database, list))
return 1;
// https://www.sqlite.org/pragma.html#pragma_journal_size_limit
// PRAGMA schema.journal_size_limit = N ;
snprintfz(buf, 1024, "PRAGMA journal_size_limit=%lld;", config_get_number(CONFIG_SECTION_SQLITE, "journal size limit", 16777216));
if (init_database_batch(database, list))
return 1;
// https://www.sqlite.org/pragma.html#pragma_cache_size
// PRAGMA schema.cache_size = pages;
// PRAGMA schema.cache_size = -kibibytes;
snprintfz(buf, 1024, "PRAGMA cache_size=%lld;", config_get_number(CONFIG_SECTION_SQLITE, "cache size", -2000));
if (init_database_batch(database, list))
return 1;
snprintfz(buf, 1024, "PRAGMA user_version=%d;", target_version);
if (init_database_batch(database, list))
return 1;
return 0;
}
#define MAX_OPEN_STATEMENTS (512)
static void add_stmt_to_list(sqlite3_stmt *res)
{
static int idx = 0;
static sqlite3_stmt *statements[MAX_OPEN_STATEMENTS];
if (unlikely(!res)) {
if (idx)
netdata_log_info("Finilizing %d statements", idx);
else
netdata_log_info("No statements pending to finalize");
while (idx > 0) {
int rc;
rc = sqlite3_finalize(statements[--idx]);
if (unlikely(rc != SQLITE_OK))
error_report("Failed to finalize statement during shutdown, rc = %d", rc);
}
return;
}
if (unlikely(idx == MAX_OPEN_STATEMENTS))
return;
}
static void release_statement(void *statement)
{
int rc;
#ifdef NETDATA_DEV_MODE
netdata_log_info("Thread %d: Cleaning prepared statement on %p", gettid(), statement);
#endif
if (unlikely(rc = sqlite3_finalize((sqlite3_stmt *) statement) != SQLITE_OK))
error_report("Failed to finalize statement, rc = %d", rc);
}
void initialize_thread_key_pool(void)
{
for (int i = 0; i < MAX_PREPARED_STATEMENTS; i++)
(void)pthread_key_create(&key_pool[i], release_statement);
}
int prepare_statement(sqlite3 *database, const char *query, sqlite3_stmt **statement)
{
static __thread uint32_t keys_used = 0;
pthread_key_t *key = NULL;
int ret = 1;
if (likely(keys_used < MAX_PREPARED_STATEMENTS))
key = &key_pool[keys_used++];
int rc = sqlite3_prepare_v2(database, query, -1, statement, 0);
if (likely(rc == SQLITE_OK)) {
if (likely(key)) {
ret = pthread_setspecific(*key, *statement);
#ifdef NETDATA_DEV_MODE
netdata_log_info("Thread %d: Using key %u on statement %p", gettid(), keys_used, *statement);
#endif
}
if (ret)
add_stmt_to_list(*statement);
}
return rc;
}
int init_database_batch(sqlite3 *database, const char *batch[])
{
int rc;
char *err_msg = NULL;
for (int i = 0; batch[i]; i++) {
rc = sqlite3_exec_monitored(database, batch[i], 0, 0, &err_msg);
if (rc != SQLITE_OK) {
error_report("SQLite error during database initialization, rc = %d (%s)", rc, err_msg);
error_report("SQLite failed statement %s", batch[i]);
analytics_set_data_str(&analytics_data.netdata_fail_reason, sqlite3_errstr(sqlite3_extended_errcode(database)));
sqlite3_free(err_msg);
if (SQLITE_CORRUPT == rc) {
if (mark_database_to_recover(NULL, database))
error_report("Database is corrupted will attempt to fix");
return SQLITE_CORRUPT;
}
return 1;
}
}
return 0;
}
static void sqlite_uuid_parse(sqlite3_context *context, int argc, sqlite3_value **argv)
{
uuid_t uuid;
if ( argc != 1 ){
sqlite3_result_null(context);
return ;
}
int rc = uuid_parse((const char *) sqlite3_value_text(argv[0]), uuid);
if (rc == -1) {
sqlite3_result_null(context);
return ;
}
sqlite3_result_blob(context, &uuid, sizeof(uuid_t), SQLITE_TRANSIENT);
}
void sqlite_now_usec(sqlite3_context *context, int argc, sqlite3_value **argv)
{
if (argc != 1 ){
sqlite3_result_null(context);
return ;
}
if (sqlite3_value_int(argv[0]) != 0) {
struct timespec req = {.tv_sec = 0, .tv_nsec = 1};
nanosleep(&req, NULL);
}
sqlite3_result_int64(context, (sqlite_int64) now_realtime_usec());
}
void sqlite_uuid_random(sqlite3_context *context, int argc, sqlite3_value **argv)
{
(void)argc;
(void)argv;
uuid_t uuid;
uuid_generate_random(uuid);
sqlite3_result_blob(context, &uuid, sizeof(uuid_t), SQLITE_TRANSIENT);
}
/*
* Initialize the SQLite database
* Return 0 on success
*/
int sql_init_database(db_check_action_type_t rebuild, int memory)
{
char *err_msg = NULL;
char sqlite_database[FILENAME_MAX + 1];
int rc;
if (likely(!memory)) {
snprintfz(sqlite_database, FILENAME_MAX, "%s/.netdata-meta.db.recover", netdata_configured_cache_dir);
rc = unlink(sqlite_database);
snprintfz(sqlite_database, FILENAME_MAX, "%s/netdata-meta.db", netdata_configured_cache_dir);
if (rc == 0 || (rebuild & DB_CHECK_RECOVER)) {
char new_sqlite_database[FILENAME_MAX + 1];
snprintfz(new_sqlite_database, FILENAME_MAX, "%s/netdata-meta-recover.db", netdata_configured_cache_dir);
recover_database(sqlite_database, new_sqlite_database);
if (rebuild & DB_CHECK_RECOVER)
return 0;
}
}
else
strcpy(sqlite_database, ":memory:");
rc = sqlite3_open(sqlite_database, &db_meta);
if (rc != SQLITE_OK) {
error_report("Failed to initialize database at %s, due to \"%s\"", sqlite_database, sqlite3_errstr(rc));
analytics_set_data_str(&analytics_data.netdata_fail_reason, sqlite3_errstr(sqlite3_extended_errcode(db_meta)));
sqlite3_close(db_meta);
db_meta = NULL;
return 1;
}
if (rebuild & DB_CHECK_RECLAIM_SPACE) {
netdata_log_info("Reclaiming space of %s", sqlite_database);
rc = sqlite3_exec_monitored(db_meta, "VACUUM;", 0, 0, &err_msg);
if (rc != SQLITE_OK) {
error_report("Failed to execute VACUUM rc = %d (%s)", rc, err_msg);
sqlite3_free(err_msg);
}
else {
(void) db_execute(db_meta, "select count(*) from sqlite_master limit 0");
(void) sqlite3_close(db_meta);
}
return 1;
}
netdata_log_info("SQLite database %s initialization", sqlite_database);
rc = sqlite3_create_function(db_meta, "u2h", 1, SQLITE_ANY | SQLITE_DETERMINISTIC, 0, sqlite_uuid_parse, 0, 0);
if (unlikely(rc != SQLITE_OK))
error_report("Failed to register internal u2h function");
rc = sqlite3_create_function(db_meta, "now_usec", 1, SQLITE_ANY, 0, sqlite_now_usec, 0, 0);
if (unlikely(rc != SQLITE_OK))
error_report("Failed to register internal now_usec function");
rc = sqlite3_create_function(db_meta, "uuid_random", 0, SQLITE_ANY, 0, sqlite_uuid_random, 0, 0);
if (unlikely(rc != SQLITE_OK))
error_report("Failed to register internal uuid_random function");
int target_version = DB_METADATA_VERSION;
if (likely(!memory))
target_version = perform_database_migration(db_meta, DB_METADATA_VERSION);
if (configure_sqlite_database(db_meta, target_version))
return 1;
if (init_database_batch(db_meta, &database_config[0]))
return 1;
if (init_database_batch(db_meta, &database_cleanup[0]))
return 1;
netdata_log_info("SQLite database initialization completed");
initialize_thread_key_pool();
return 0;
}
/*
* Close the sqlite database
*/
void sql_close_database(void)
{
int rc;
if (unlikely(!db_meta))
return;
netdata_log_info("Closing SQLite database");
add_stmt_to_list(NULL);
rc = sqlite3_close_v2(db_meta);
if (unlikely(rc != SQLITE_OK))
error_report("Error %d while closing the SQLite database, %s", rc, sqlite3_errstr(rc));
}
int exec_statement_with_uuid(const char *sql, uuid_t *uuid)
{
int rc, result = 1;
sqlite3_stmt *res = NULL;
rc = sqlite3_prepare_v2(db_meta, sql, -1, &res, 0);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to prepare statement %s, rc = %d", sql, rc);
return 1;
}
rc = sqlite3_bind_blob(res, 1, uuid, sizeof(*uuid), SQLITE_STATIC);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to bind UUID parameter to %s, rc = %d", sql, rc);
goto skip;
}
rc = execute_insert(res);
if (likely(rc == SQLITE_DONE))
result = SQLITE_OK;
else
error_report("Failed to execute %s, rc = %d", sql, rc);
skip:
rc = sqlite3_finalize(res);
if (unlikely(rc != SQLITE_OK))
error_report("Failed to finalize statement %s, rc = %d", sql, rc);
return result;
}
// Return 0 OK
// Return 1 Failed
int db_execute(sqlite3 *db, const char *cmd)
{
int rc;
int cnt = 0;
while (cnt < SQL_MAX_RETRY) {
char *err_msg;
rc = sqlite3_exec_monitored(db, cmd, 0, 0, &err_msg);
if (rc != SQLITE_OK) {
error_report("Failed to execute '%s', rc = %d (%s) -- attempt %d", cmd, rc, err_msg, cnt);
sqlite3_free(err_msg);
if (likely(rc == SQLITE_BUSY || rc == SQLITE_LOCKED)) {
usleep(SQLITE_INSERT_DELAY * USEC_PER_MS);
}
else
break;
}
else
break;
++cnt;
}
return (rc != SQLITE_OK);
}
static inline void set_host_node_id(RRDHOST *host, uuid_t *node_id)
{
if (unlikely(!host))
return;
if (unlikely(!node_id)) {
freez(host->node_id);
__atomic_store_n(&host->node_id, NULL, __ATOMIC_RELAXED);
return;
}
struct aclk_sync_host_config *wc = host->aclk_sync_host_config;
if (unlikely(!host->node_id)) {
uuid_t *t = mallocz(sizeof(*host->node_id));
uuid_copy(*t, *node_id);
__atomic_store_n(&host->node_id, t, __ATOMIC_RELAXED);
}
else {
uuid_copy(*(host->node_id), *node_id);
}
if (unlikely(!wc))
sql_create_aclk_table(host, &host->host_uuid, node_id);
else
uuid_unparse_lower(*node_id, wc->node_id);
}
#define SQL_UPDATE_NODE_ID "update node_instance set node_id = @node_id where host_id = @host_id;"
int update_node_id(uuid_t *host_id, uuid_t *node_id)
{
sqlite3_stmt *res = NULL;
RRDHOST *host = NULL;
int rc = 2;
char host_guid[GUID_LEN + 1];
uuid_unparse_lower(*host_id, host_guid);
rrd_wrlock();
host = rrdhost_find_by_guid(host_guid);
if (likely(host))
set_host_node_id(host, node_id);
rrd_unlock();
if (unlikely(!db_meta)) {
if (default_rrd_memory_mode == RRD_MEMORY_MODE_DBENGINE)
error_report("Database has not been initialized");
return 1;
}
rc = sqlite3_prepare_v2(db_meta, SQL_UPDATE_NODE_ID, -1, &res, 0);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to prepare statement to store node instance information");
return 1;
}
rc = sqlite3_bind_blob(res, 1, node_id, sizeof(*node_id), SQLITE_STATIC);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to bind host_id parameter to store node instance information");
goto failed;
}
rc = sqlite3_bind_blob(res, 2, host_id, sizeof(*host_id), SQLITE_STATIC);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to bind host_id parameter to store node instance information");
goto failed;
}
rc = execute_insert(res);
if (unlikely(rc != SQLITE_DONE))
error_report("Failed to store node instance information, rc = %d", rc);
rc = sqlite3_changes(db_meta);
failed:
if (unlikely(sqlite3_finalize(res) != SQLITE_OK))
error_report("Failed to finalize the prepared statement when storing node instance information");
return rc - 1;
}
#define SQL_SELECT_NODE_ID "SELECT node_id FROM node_instance WHERE host_id = @host_id AND node_id IS NOT NULL;"
int get_node_id(uuid_t *host_id, uuid_t *node_id)
{
sqlite3_stmt *res = NULL;
int rc;
if (unlikely(!db_meta)) {
if (default_rrd_memory_mode == RRD_MEMORY_MODE_DBENGINE)
error_report("Database has not been initialized");
return 1;
}
rc = sqlite3_prepare_v2(db_meta, SQL_SELECT_NODE_ID, -1, &res, 0);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to prepare statement to select node instance information for a host");
return 1;
}
rc = sqlite3_bind_blob(res, 1, host_id, sizeof(*host_id), SQLITE_STATIC);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to bind host_id parameter to select node instance information");
goto failed;
}
rc = sqlite3_step_monitored(res);
if (likely(rc == SQLITE_ROW && node_id))
uuid_copy(*node_id, *((uuid_t *) sqlite3_column_blob(res, 0)));
failed:
if (unlikely(sqlite3_finalize(res) != SQLITE_OK))
error_report("Failed to finalize the prepared statement when selecting node instance information");
return (rc == SQLITE_ROW) ? 0 : -1;
}
#define SQL_INVALIDATE_NODE_INSTANCES "UPDATE node_instance SET node_id = NULL WHERE EXISTS " \
"(SELECT host_id FROM node_instance WHERE host_id = @host_id AND (@claim_id IS NULL OR claim_id <> @claim_id));"
void invalidate_node_instances(uuid_t *host_id, uuid_t *claim_id)
{
sqlite3_stmt *res = NULL;
int rc;
if (unlikely(!db_meta)) {
if (default_rrd_memory_mode == RRD_MEMORY_MODE_DBENGINE)
error_report("Database has not been initialized");
return;
}
rc = sqlite3_prepare_v2(db_meta, SQL_INVALIDATE_NODE_INSTANCES, -1, &res, 0);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to prepare statement to invalidate node instance ids");
return;
}
rc = sqlite3_bind_blob(res, 1, host_id, sizeof(*host_id), SQLITE_STATIC);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to bind host_id parameter to invalidate node instance information");
goto failed;
}
if (claim_id)
rc = sqlite3_bind_blob(res, 2, claim_id, sizeof(*claim_id), SQLITE_STATIC);
else
rc = sqlite3_bind_null(res, 2);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to bind claim_id parameter to invalidate node instance information");
goto failed;
}
rc = execute_insert(res);
if (unlikely(rc != SQLITE_DONE))
error_report("Failed to invalidate node instance information, rc = %d", rc);
failed:
if (unlikely(sqlite3_finalize(res) != SQLITE_OK))
error_report("Failed to finalize the prepared statement when invalidating node instance information");
}
#define SQL_GET_NODE_INSTANCE_LIST "SELECT ni.node_id, ni.host_id, h.hostname " \
"FROM node_instance ni, host h WHERE ni.host_id = h.host_id AND h.hops >=0;"
struct node_instance_list *get_node_list(void)
{
struct node_instance_list *node_list = NULL;
sqlite3_stmt *res = NULL;
int rc;
if (unlikely(!db_meta)) {
if (default_rrd_memory_mode == RRD_MEMORY_MODE_DBENGINE)
error_report("Database has not been initialized");
return NULL;
}
rc = sqlite3_prepare_v2(db_meta, SQL_GET_NODE_INSTANCE_LIST, -1, &res, 0);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to prepare statement to get node instance information");
return NULL;
};
int row = 0;
char host_guid[37];
while (sqlite3_step_monitored(res) == SQLITE_ROW)
row++;
if (sqlite3_reset(res) != SQLITE_OK) {
error_report("Failed to reset the prepared statement while fetching node instance information");
goto failed;
}
node_list = callocz(row + 1, sizeof(*node_list));
int max_rows = row;
row = 0;
// TODO: Check to remove lock
rrd_rdlock();
while (sqlite3_step_monitored(res) == SQLITE_ROW) {
if (sqlite3_column_bytes(res, 0) == sizeof(uuid_t))
uuid_copy(node_list[row].node_id, *((uuid_t *)sqlite3_column_blob(res, 0)));
if (sqlite3_column_bytes(res, 1) == sizeof(uuid_t)) {
uuid_t *host_id = (uuid_t *)sqlite3_column_blob(res, 1);
uuid_unparse_lower(*host_id, host_guid);
RRDHOST *host = rrdhost_find_by_guid(host_guid);
if (!host)
continue;
if (rrdhost_flag_check(host, RRDHOST_FLAG_PENDING_CONTEXT_LOAD)) {
netdata_log_info("ACLK: 'host:%s' skipping get node list because context is initializing", rrdhost_hostname(host));
continue;
}
uuid_copy(node_list[row].host_id, *host_id);
node_list[row].queryable = 1;
node_list[row].live = (host && (host == localhost || host->receiver
|| !(rrdhost_flag_check(host, RRDHOST_FLAG_ORPHAN)))) ? 1 : 0;
node_list[row].hops = (host && host->system_info) ? host->system_info->hops :
uuid_memcmp(host_id, &localhost->host_uuid) ? 1 : 0;
node_list[row].hostname =
sqlite3_column_bytes(res, 2) ? strdupz((char *)sqlite3_column_text(res, 2)) : NULL;
}
row++;
if (row == max_rows)
break;
}
rrd_unlock();
failed:
if (unlikely(sqlite3_finalize(res) != SQLITE_OK))
error_report("Failed to finalize the prepared statement when fetching node instance information");
return node_list;
};
#define SQL_GET_HOST_NODE_ID "select node_id from node_instance where host_id = @host_id;"
void sql_load_node_id(RRDHOST *host)
{
sqlite3_stmt *res = NULL;
int rc;
if (unlikely(!db_meta)) {
if (default_rrd_memory_mode == RRD_MEMORY_MODE_DBENGINE)
error_report("Database has not been initialized");
return;
}
rc = sqlite3_prepare_v2(db_meta, SQL_GET_HOST_NODE_ID, -1, &res, 0);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to prepare statement to fetch node id");
return;
};
rc = sqlite3_bind_blob(res, 1, &host->host_uuid, sizeof(host->host_uuid), SQLITE_STATIC);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to bind host_id parameter to load node instance information");
goto failed;
}
rc = sqlite3_step_monitored(res);
if (likely(rc == SQLITE_ROW)) {
if (likely(sqlite3_column_bytes(res, 0) == sizeof(uuid_t)))
set_host_node_id(host, (uuid_t *)sqlite3_column_blob(res, 0));
else
set_host_node_id(host, NULL);
}
failed:
if (unlikely(sqlite3_finalize(res) != SQLITE_OK))
error_report("Failed to finalize the prepared statement when loading node instance information");
};
#define SELECT_HOST_INFO "SELECT system_key, system_value FROM host_info WHERE host_id = @host_id;"
void sql_build_host_system_info(uuid_t *host_id, struct rrdhost_system_info *system_info)
{
int rc;
sqlite3_stmt *res = NULL;
rc = sqlite3_prepare_v2(db_meta, SELECT_HOST_INFO, -1, &res, 0);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to prepare statement to read host information");
return;
}
rc = sqlite3_bind_blob(res, 1, host_id, sizeof(*host_id), SQLITE_STATIC);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to bind host parameter host information");
goto skip;
}
while (sqlite3_step_monitored(res) == SQLITE_ROW) {
rrdhost_set_system_info_variable(system_info, (char *) sqlite3_column_text(res, 0),
(char *) sqlite3_column_text(res, 1));
}
skip:
if (unlikely(sqlite3_finalize(res) != SQLITE_OK))
error_report("Failed to finalize the prepared statement when reading host information");
}
#define SELECT_HOST_LABELS "SELECT label_key, label_value, source_type FROM host_label WHERE host_id = @host_id " \
"AND label_key IS NOT NULL AND label_value IS NOT NULL;"
RRDLABELS *sql_load_host_labels(uuid_t *host_id)
{
int rc;
RRDLABELS *labels = NULL;
sqlite3_stmt *res = NULL;
rc = sqlite3_prepare_v2(db_meta, SELECT_HOST_LABELS, -1, &res, 0);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to prepare statement to read host information");
return NULL;
}
rc = sqlite3_bind_blob(res, 1, host_id, sizeof(*host_id), SQLITE_STATIC);
if (unlikely(rc != SQLITE_OK)) {
error_report("Failed to bind host parameter host information");
goto skip;
}
labels = rrdlabels_create();
while (sqlite3_step_monitored(res) == SQLITE_ROW) {
rrdlabels_add(labels, (const char *)sqlite3_column_text(res, 0), (const char *)sqlite3_column_text(res, 1), sqlite3_column_int(res, 2));
}
skip:
if (unlikely(sqlite3_finalize(res) != SQLITE_OK))
error_report("Failed to finalize the prepared statement when reading host information");
return labels;
}
// Utils
int bind_text_null(sqlite3_stmt *res, int position, const char *text, bool can_be_null)
{
if (likely(text))
return sqlite3_bind_text(res, position, text, -1, SQLITE_STATIC);
if (!can_be_null)
return 1;
return sqlite3_bind_null(res, position);
}
int sql_metadata_cache_stats(int op)
{
int count, dummy;
if (unlikely(!db_meta))
return 0;
netdata_thread_disable_cancelability();
sqlite3_db_status(db_meta, op, &count, &dummy, 0);
netdata_thread_enable_cancelability();
return count;
}
#define SQL_DROP_TABLE "DROP table %s;"
void sql_drop_table(const char *table)
{
if (!table)
return;
char wstr[255];
snprintfz(wstr, 254, SQL_DROP_TABLE, table);
int rc = sqlite3_exec_monitored(db_meta, wstr, 0, 0, NULL);
if (rc != SQLITE_OK) {
error_report("DES SQLite error during drop table operation for %s, rc = %d", table, rc);
}
}
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