#include "../deps/json/json.hpp" using json = nlohmann::json; #define PROXYJSON #include "MySQL_HostGroups_Manager.h" #include "proxysql.h" #include "cpp.h" #include "MySQL_PreparedStatement.h" #include "MySQL_Data_Stream.h" #include #include #include #include "prometheus/counter.h" #include "prometheus/detail/builder.h" #include "prometheus/family.h" #include "prometheus/gauge.h" #include "prometheus_helpers.h" #include "proxysql_utils.h" #define char_malloc (char *)malloc #define itostr(__s, __i) { __s=char_malloc(32); sprintf(__s, "%lld", __i); } #include "thread.h" #include "wqueue.h" #include "ev.h" #include #include #include using std::function; #include "Base_HostGroups_Manager.h" template Base_HostGroups_Manager::Base_HostGroups_Manager(); template MyHGC * Base_HostGroups_Manager::MyHGC_find(unsigned int); template MyHGC * Base_HostGroups_Manager::MyHGC_create(unsigned int); template MyHGC * Base_HostGroups_Manager::MyHGC_lookup(unsigned int); template void Base_HostGroups_Manager::wrlock(); template void Base_HostGroups_Manager::wrunlock(); template Base_HostGroups_Manager::Base_HostGroups_Manager(); template PgSQL_HGC * Base_HostGroups_Manager::MyHGC_find(unsigned int); template PgSQL_HGC * Base_HostGroups_Manager::MyHGC_create(unsigned int); template PgSQL_HGC * Base_HostGroups_Manager::MyHGC_lookup(unsigned int); template void Base_HostGroups_Manager::wrlock(); template void Base_HostGroups_Manager::wrunlock(); template SQLite3_result * Base_HostGroups_Manager::execute_query(char*, char**); template SQLite3_result * Base_HostGroups_Manager::execute_query(char*, char**); #if 0 #define SAFE_SQLITE3_STEP(_stmt) do {\ do {\ rc=(*proxy_sqlite3_step)(_stmt);\ if (rc!=SQLITE_DONE) {\ assert(rc==SQLITE_LOCKED);\ usleep(100);\ }\ } while (rc!=SQLITE_DONE);\ } while (0) extern ProxySQL_Admin *GloAdmin; extern MySQL_Threads_Handler *GloMTH; extern MySQL_Monitor *GloMyMon; class MySrvConnList; class MySrvC; class MySrvList; class MyHGC; const int MYSQL_ERRORS_STATS_FIELD_NUM = 11; static int wait_for_mysql(MYSQL *mysql, int status) { struct pollfd pfd; int timeout, res; pfd.fd = mysql_get_socket(mysql); pfd.events = (status & MYSQL_WAIT_READ ? POLLIN : 0) | (status & MYSQL_WAIT_WRITE ? POLLOUT : 0) | (status & MYSQL_WAIT_EXCEPT ? POLLPRI : 0); timeout = 1; res = poll(&pfd, 1, timeout); if (res == 0) return MYSQL_WAIT_TIMEOUT | status; else if (res < 0) return MYSQL_WAIT_TIMEOUT; else { int status = 0; if (pfd.revents & POLLIN) status |= MYSQL_WAIT_READ; if (pfd.revents & POLLOUT) status |= MYSQL_WAIT_WRITE; if (pfd.revents & POLLPRI) status |= MYSQL_WAIT_EXCEPT; return status; } } /** * @brief Helper function used to try to extract a value from the JSON field 'servers_defaults'. * * @param j JSON object constructed from 'servers_defaults' field. * @param hid Hostgroup for which the 'servers_defaults' is defined in 'mysql_hostgroup_attributes'. Used for * error logging. * @param key The key for the value to be extracted. * @param val_check A validation function, checks if the value is within a expected range. * * @return The value extracted from the supplied JSON. In case of error '-1', and error cause is logged. */ template ::value, bool>::type = true> T j_get_srv_default_int_val( const json& j, uint32_t hid, const string& key, const function& val_check ) { if (j.find(key) != j.end()) { const json::value_t val_type = j[key].type(); const char* type_name = j[key].type_name(); if (val_type == json::value_t::number_integer || val_type == json::value_t::number_unsigned) { T val = j[key].get(); if (val_check(val)) { return val; } else { proxy_error( "Invalid value %ld supplied for 'mysql_hostgroup_attributes.servers_defaults.%s' for hostgroup %d." " Value NOT UPDATED.\n", static_cast(val), key.c_str(), hid ); } } else { proxy_error( "Invalid type '%s'(%hhu) supplied for 'mysql_hostgroup_attributes.servers_defaults.%s' for hostgroup %d." " Value NOT UPDATED.\n", type_name, static_cast(val_type), key.c_str(), hid ); } } return static_cast(-1); } //static void * HGCU_thread_run() { static void * HGCU_thread_run() { PtrArray *conn_array=new PtrArray(); while(1) { MySQL_Connection *myconn= NULL; myconn = (MySQL_Connection *)MyHGM->queue.remove(); if (myconn==NULL) { // intentionally exit immediately delete conn_array; return NULL; } conn_array->add(myconn); while (MyHGM->queue.size()) { myconn=(MySQL_Connection *)MyHGM->queue.remove(); if (myconn==NULL) { delete conn_array; return NULL; } conn_array->add(myconn); } unsigned int l=conn_array->len; int *errs=(int *)malloc(sizeof(int)*l); int *statuses=(int *)malloc(sizeof(int)*l); my_bool *ret=(my_bool *)malloc(sizeof(my_bool)*l); int i; for (i=0;i<(int)l;i++) { myconn->reset(); MyHGM->increase_reset_counter(); myconn=(MySQL_Connection *)conn_array->index(i); if (myconn->mysql->net.pvio && myconn->mysql->net.fd && myconn->mysql->net.buff) { MySQL_Connection_userinfo *userinfo = myconn->userinfo; char *auth_password = NULL; if (userinfo->password) { if (userinfo->password[0]=='*') { // we don't have the real password, let's pass sha1 auth_password=userinfo->sha1_pass; } else { auth_password=userinfo->password; } } //async_exit_status = mysql_change_user_start(&ret_bool,mysql,_ui->username, auth_password, _ui->schemaname); // we first reset the charset to a default one. // this to solve the problem described here: // https://github.com/sysown/proxysql/pull/3249#issuecomment-761887970 if (myconn->mysql->charset->nr >= 255) mysql_options(myconn->mysql, MYSQL_SET_CHARSET_NAME, myconn->mysql->charset->csname); statuses[i]=mysql_change_user_start(&ret[i], myconn->mysql, myconn->userinfo->username, auth_password, myconn->userinfo->schemaname); if (myconn->mysql->net.pvio==NULL || myconn->mysql->net.fd==0 || myconn->mysql->net.buff==NULL) { statuses[i]=0; ret[i]=1; } } else { statuses[i]=0; ret[i]=1; } } for (i=0;i<(int)conn_array->len;i++) { if (statuses[i]==0) { myconn=(MySQL_Connection *)conn_array->remove_index_fast(i); if (!ret[i]) { MyHGM->push_MyConn_to_pool(myconn); } else { myconn->send_quit=false; MyHGM->destroy_MyConn_from_pool(myconn); } statuses[i]=statuses[conn_array->len]; ret[i]=ret[conn_array->len]; i--; } } unsigned long long now=monotonic_time(); while (conn_array->len && ((monotonic_time() - now) < 1000000)) { usleep(50); for (i=0;i<(int)conn_array->len;i++) { myconn=(MySQL_Connection *)conn_array->index(i); if (myconn->mysql->net.pvio && myconn->mysql->net.fd && myconn->mysql->net.buff) { statuses[i]=wait_for_mysql(myconn->mysql, statuses[i]); if (myconn->mysql->net.pvio && myconn->mysql->net.fd && myconn->mysql->net.buff) { if ((statuses[i] & MYSQL_WAIT_TIMEOUT) == 0) { statuses[i]=mysql_change_user_cont(&ret[i], myconn->mysql, statuses[i]); if (myconn->mysql->net.pvio==NULL || myconn->mysql->net.fd==0 || myconn->mysql->net.buff==NULL ) { statuses[i]=0; ret[i]=1; } } } else { statuses[i]=0; ret[i]=1; } } else { statuses[i]=0; ret[i]=1; } } for (i=0;i<(int)conn_array->len;i++) { if (statuses[i]==0) { myconn=(MySQL_Connection *)conn_array->remove_index_fast(i); if (!ret[i]) { myconn->reset(); MyHGM->push_MyConn_to_pool(myconn); } else { myconn->send_quit=false; MyHGM->destroy_MyConn_from_pool(myconn); } statuses[i]=statuses[conn_array->len]; ret[i]=ret[conn_array->len]; i--; } } } while (conn_array->len) { // we reached here, and there are still connections myconn=(MySQL_Connection *)conn_array->remove_index_fast(0); myconn->send_quit=false; MyHGM->destroy_MyConn_from_pool(myconn); } free(statuses); free(errs); free(ret); } delete conn_array; } using metric_name = std::string; using metric_help = std::string; using metric_tags = std::map; using hg_counter_tuple = std::tuple< p_hg_counter::metric, metric_name, metric_help, metric_tags >; using hg_gauge_tuple = std::tuple< p_hg_gauge::metric, metric_name, metric_help, metric_tags >; using hg_dyn_counter_tuple = std::tuple< p_hg_dyn_counter::metric, metric_name, metric_help, metric_tags >; using hg_dyn_gauge_tuple = std::tuple< p_hg_dyn_gauge::metric, metric_name, metric_help, metric_tags >; using hg_counter_vector = std::vector; using hg_gauge_vector = std::vector; using hg_dyn_counter_vector = std::vector; using hg_dyn_gauge_vector = std::vector; /** * @brief Metrics map holding the metrics for the 'MySQL_HostGroups_Manager' module. * * @note Many metrics in this map, share a common "id name", because * they differ only by label, because of this, HELP is shared between * them. For better visual identification of this groups they are * sepparated using a line separator comment. */ const std::tuple< hg_counter_vector, hg_gauge_vector, hg_dyn_counter_vector, hg_dyn_gauge_vector > hg_metrics_map = std::make_tuple( hg_counter_vector { std::make_tuple ( p_hg_counter::servers_table_version, "proxysql_servers_table_version_total", "Number of times the \"servers_table\" have been modified.", metric_tags {} ), // ==================================================================== std::make_tuple ( p_hg_counter::server_connections_created, "proxysql_server_connections_total", "Total number of server connections (created|delayed|aborted).", metric_tags { { "status", "created" } } ), std::make_tuple ( p_hg_counter::server_connections_delayed, "proxysql_server_connections_total", "Total number of server connections (created|delayed|aborted).", metric_tags { { "status", "delayed" } } ), std::make_tuple ( p_hg_counter::server_connections_aborted, "proxysql_server_connections_total", "Total number of server connections (created|delayed|aborted).", metric_tags { { "status", "aborted" } } ), // ==================================================================== // ==================================================================== std::make_tuple ( p_hg_counter::client_connections_created, "proxysql_client_connections_total", "Total number of client connections created.", metric_tags { { "status", "created" } } ), std::make_tuple ( p_hg_counter::client_connections_aborted, "proxysql_client_connections_total", "Total number of client failed connections (or closed improperly).", metric_tags { { "status", "aborted" } } ), // ==================================================================== std::make_tuple ( p_hg_counter::com_autocommit, "proxysql_com_autocommit_total", "Total queries autocommited.", metric_tags {} ), std::make_tuple ( p_hg_counter::com_autocommit_filtered, "proxysql_com_autocommit_filtered_total", "Total queries filtered autocommit.", metric_tags {} ), std::make_tuple ( p_hg_counter::com_rollback, "proxysql_com_rollback_total", "Total queries rollbacked.", metric_tags {} ), std::make_tuple ( p_hg_counter::com_rollback_filtered, "proxysql_com_rollback_filtered_total", "Total queries filtered rollbacked.", metric_tags {} ), std::make_tuple ( p_hg_counter::com_backend_change_user, "proxysql_com_backend_change_user_total", "Total CHANGE_USER queries backend.", metric_tags {} ), std::make_tuple ( p_hg_counter::com_backend_init_db, "proxysql_com_backend_init_db_total", "Total queries backend INIT DB.", metric_tags {} ), std::make_tuple ( p_hg_counter::com_backend_set_names, "proxysql_com_backend_set_names_total", "Total queries backend SET NAMES.", metric_tags {} ), std::make_tuple ( p_hg_counter::com_frontend_init_db, "proxysql_com_frontend_init_db_total", "Total INIT DB queries frontend.", metric_tags {} ), std::make_tuple ( p_hg_counter::com_frontend_set_names, "proxysql_com_frontend_set_names_total", "Total SET NAMES frontend queries.", metric_tags {} ), std::make_tuple ( p_hg_counter::com_frontend_use_db, "proxysql_com_frontend_use_db_total", "Total USE DB queries frontend.", metric_tags {} ), std::make_tuple ( p_hg_counter::com_commit_cnt, "proxysql_com_commit_cnt_total", "Total queries commit.", metric_tags {} ), std::make_tuple ( p_hg_counter::com_commit_cnt_filtered, "proxysql_com_commit_cnt_filtered_total", "Total queries commit filtered.", metric_tags {} ), std::make_tuple ( p_hg_counter::selects_for_update__autocommit0, "proxysql_selects_for_update__autocommit0_total", "Total queries that are SELECT for update or equivalent.", metric_tags {} ), std::make_tuple ( p_hg_counter::access_denied_wrong_password, "proxysql_access_denied_wrong_password_total", "Total access denied \"wrong password\".", metric_tags {} ), std::make_tuple ( p_hg_counter::access_denied_max_connections, "proxysql_access_denied_max_connections_total", "Total access denied \"max connections\".", metric_tags {} ), std::make_tuple ( p_hg_counter::access_denied_max_user_connections, "proxysql_access_denied_max_user_connections_total", "Total access denied \"max user connections\".", metric_tags {} ), // ==================================================================== std::make_tuple ( p_hg_counter::myhgm_myconnpool_get, "proxysql_myhgm_myconnpool_get_total", "The number of requests made to the connection pool.", metric_tags {} ), std::make_tuple ( p_hg_counter::myhgm_myconnpool_get_ok, "proxysql_myhgm_myconnpool_get_ok_total", "The number of successful requests to the connection pool (i.e. where a connection was available).", metric_tags {} ), std::make_tuple ( p_hg_counter::myhgm_myconnpool_get_ping, "proxysql_myhgm_myconnpool_get_ping_total", "The number of connections that were taken from the pool to run a ping to keep them alive.", metric_tags {} ), // ==================================================================== std::make_tuple ( p_hg_counter::myhgm_myconnpool_push, "proxysql_myhgm_myconnpool_push_total", "The number of connections returned to the connection pool.", metric_tags {} ), std::make_tuple ( p_hg_counter::myhgm_myconnpool_reset, "proxysql_myhgm_myconnpool_reset_total", "The number of connections that have been reset / re-initialized using \"COM_CHANGE_USER\"", metric_tags {} ), std::make_tuple ( p_hg_counter::myhgm_myconnpool_destroy, "proxysql_myhgm_myconnpool_destroy_total", "The number of connections considered unhealthy and therefore closed.", metric_tags {} ), // ==================================================================== std::make_tuple ( p_hg_counter::auto_increment_delay_multiplex, "proxysql_myhgm_auto_increment_multiplex_total", "The number of times that 'auto_increment_delay_multiplex' has been triggered.", metric_tags {} ), }, // prometheus gauges hg_gauge_vector { std::make_tuple ( p_hg_gauge::server_connections_connected, "proxysql_server_connections_connected", "Backend connections that are currently connected.", metric_tags {} ), std::make_tuple ( p_hg_gauge::client_connections_connected, "proxysql_client_connections_connected", "Client connections that are currently connected.", metric_tags {} ) }, // prometheus dynamic counters hg_dyn_counter_vector { // connection_pool // ==================================================================== // ==================================================================== std::make_tuple ( p_hg_dyn_counter::conn_pool_bytes_data_recv, "proxysql_connpool_data_bytes_total", "Amount of data (sent|recv) from the backend, excluding metadata.", metric_tags { { "traffic_flow", "recv" } } ), std::make_tuple ( p_hg_dyn_counter::conn_pool_bytes_data_sent, "proxysql_connpool_data_bytes_total", "Amount of data (sent|recv) from the backend, excluding metadata.", metric_tags { { "traffic_flow", "sent" } } ), // ==================================================================== // ==================================================================== std::make_tuple ( p_hg_dyn_counter::connection_pool_conn_err, "proxysql_connpool_conns_total", "How many connections have been tried to be established.", metric_tags { { "status", "err" } } ), std::make_tuple ( p_hg_dyn_counter::connection_pool_conn_ok, "proxysql_connpool_conns_total", "How many connections have been tried to be established.", metric_tags { { "status", "ok" } } ), // ==================================================================== std::make_tuple ( p_hg_dyn_counter::connection_pool_queries, "proxysql_connpool_conns_queries_total", "The number of queries routed towards this particular backend server.", metric_tags {} ), // gtid std::make_tuple ( p_hg_dyn_counter::gtid_executed, "proxysql_gtid_executed_total", "Tracks the number of executed gtid per host and port.", metric_tags {} ), // mysql_error std::make_tuple ( p_hg_dyn_counter::proxysql_mysql_error, "proxysql_mysql_error_total", "Tracks the mysql errors generated by proxysql.", metric_tags {} ), std::make_tuple ( p_hg_dyn_counter::mysql_error, "mysql_error_total", "Tracks the mysql errors encountered.", metric_tags {} ) }, // prometheus dynamic gauges hg_dyn_gauge_vector { std::make_tuple ( p_hg_dyn_gauge::connection_pool_conn_free, "proxysql_connpool_conns", "How many backend connections are currently (free|used).", metric_tags { { "status", "free" } } ), std::make_tuple ( p_hg_dyn_gauge::connection_pool_conn_used, "proxysql_connpool_conns", "How many backend connections are currently (free|used).", metric_tags { { "status", "used" } } ), std::make_tuple ( p_hg_dyn_gauge::connection_pool_latency_us, "proxysql_connpool_conns_latency_us", "The currently ping time in microseconds, as reported from Monitor.", metric_tags {} ), std::make_tuple ( p_hg_dyn_gauge::connection_pool_status, "proxysql_connpool_conns_status", "The status of the backend server (1 - ONLINE, 2 - SHUNNED, 3 - OFFLINE_SOFT, 4 - OFFLINE_HARD).", metric_tags {} ) } ); #endif // 0 template Base_HostGroups_Manager::Base_HostGroups_Manager() { pthread_mutex_init(&readonly_mutex, NULL); pthread_mutex_init(&lock, NULL); admindb=NULL; // initialized only if needed mydb=new SQLite3DB(); } #if 0 MySQL_HostGroups_Manager::MySQL_HostGroups_Manager() { status.client_connections=0; status.client_connections_aborted=0; status.client_connections_created=0; status.server_connections_connected=0; status.server_connections_aborted=0; status.server_connections_created=0; status.server_connections_delayed=0; status.servers_table_version=0; pthread_mutex_init(&status.servers_table_version_lock, NULL); pthread_cond_init(&status.servers_table_version_cond, NULL); status.myconnpoll_get=0; status.myconnpoll_get_ok=0; status.myconnpoll_get_ping=0; status.myconnpoll_push=0; status.myconnpoll_destroy=0; status.myconnpoll_reset=0; status.autocommit_cnt=0; status.commit_cnt=0; status.rollback_cnt=0; status.autocommit_cnt_filtered=0; status.commit_cnt_filtered=0; status.rollback_cnt_filtered=0; status.backend_change_user=0; status.backend_init_db=0; status.backend_set_names=0; status.frontend_init_db=0; status.frontend_set_names=0; status.frontend_use_db=0; status.access_denied_wrong_password=0; status.access_denied_max_connections=0; status.access_denied_max_user_connections=0; status.select_for_update_or_equivalent=0; status.auto_increment_delay_multiplex=0; pthread_mutex_init(&readonly_mutex, NULL); pthread_mutex_init(&Group_Replication_Info_mutex, NULL); pthread_mutex_init(&Galera_Info_mutex, NULL); pthread_mutex_init(&AWS_Aurora_Info_mutex, NULL); pthread_mutex_init(&lock, NULL); admindb=NULL; // initialized only if needed mydb=new SQLite3DB(); #ifdef DEBUG mydb->open((char *)"file:mem_mydb?mode=memory&cache=shared", SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE | SQLITE_OPEN_FULLMUTEX); #else mydb->open((char *)"file:mem_mydb?mode=memory", SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE | SQLITE_OPEN_FULLMUTEX); #endif /* DEBUG */ mydb->execute(MYHGM_MYSQL_SERVERS); mydb->execute(MYHGM_MYSQL_SERVERS_INCOMING); mydb->execute(MYHGM_MYSQL_REPLICATION_HOSTGROUPS); mydb->execute(MYHGM_MYSQL_GROUP_REPLICATION_HOSTGROUPS); mydb->execute(MYHGM_MYSQL_GALERA_HOSTGROUPS); mydb->execute(MYHGM_MYSQL_AWS_AURORA_HOSTGROUPS); mydb->execute(MYHGM_MYSQL_HOSTGROUP_ATTRIBUTES); mydb->execute(MYHGM_MYSQL_SERVERS_SSL_PARAMS); mydb->execute("CREATE INDEX IF NOT EXISTS idx_mysql_servers_hostname_port ON mysql_servers (hostname,port)"); MyHostGroups=new PtrArray(); runtime_mysql_servers=NULL; incoming_replication_hostgroups=NULL; incoming_group_replication_hostgroups=NULL; incoming_galera_hostgroups=NULL; incoming_aws_aurora_hostgroups = NULL; incoming_hostgroup_attributes = NULL; incoming_mysql_servers_ssl_params = NULL; incoming_mysql_servers_v2 = NULL; pthread_rwlock_init(>id_rwlock, NULL); gtid_missing_nodes = false; gtid_ev_loop=NULL; gtid_ev_timer=NULL; gtid_ev_async = (struct ev_async *)malloc(sizeof(struct ev_async)); mysql_servers_to_monitor = NULL; { static const char alphanum[] = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"; rand_del[0] = '-'; for (int i = 1; i < 6; i++) { rand_del[i] = alphanum[rand() % (sizeof(alphanum) - 1)]; } rand_del[6] = '-'; rand_del[7] = 0; } pthread_mutex_init(&mysql_errors_mutex, NULL); // Initialize prometheus metrics init_prometheus_counter_array(hg_metrics_map, this->status.p_counter_array); init_prometheus_gauge_array(hg_metrics_map, this->status.p_gauge_array); init_prometheus_dyn_counter_array(hg_metrics_map, this->status.p_dyn_counter_array); init_prometheus_dyn_gauge_array(hg_metrics_map, this->status.p_dyn_gauge_array); pthread_mutex_init(&mysql_errors_mutex, NULL); } void MySQL_HostGroups_Manager::init() { //conn_reset_queue = NULL; //conn_reset_queue = new wqueue(); HGCU_thread = new std::thread(&HGCU_thread_run); //pthread_create(&HGCU_thread_id, NULL, HGCU_thread_run , NULL); // gtid initialization; GTID_syncer_thread = new std::thread(>ID_syncer_run); //pthread_create(>ID_syncer_thread_id, NULL, GTID_syncer_run , NULL); } void MySQL_HostGroups_Manager::shutdown() { queue.add(NULL); HGCU_thread->join(); delete HGCU_thread; ev_async_send(gtid_ev_loop, gtid_ev_async); GTID_syncer_thread->join(); delete GTID_syncer_thread; } MySQL_HostGroups_Manager::~MySQL_HostGroups_Manager() { while (MyHostGroups->len) { MyHGC *myhgc=(MyHGC *)MyHostGroups->remove_index_fast(0); delete myhgc; } delete MyHostGroups; delete mydb; if (admindb) { delete admindb; } for (auto info : AWS_Aurora_Info_Map) delete info.second; free(gtid_ev_async); if (gtid_ev_loop) ev_loop_destroy(gtid_ev_loop); if (gtid_ev_timer) free(gtid_ev_timer); pthread_mutex_destroy(&lock); } #endif // 0 // wrlock() is only required during commit() template void Base_HostGroups_Manager::wrlock() { pthread_mutex_lock(&lock); #ifdef DEBUG is_locked = true; #endif } #if 0 void MySQL_HostGroups_Manager::p_update_mysql_error_counter(p_mysql_error_type err_type, unsigned int hid, char* address, uint16_t port, unsigned int code) { p_hg_dyn_counter::metric metric = p_hg_dyn_counter::mysql_error; if (err_type == p_mysql_error_type::proxysql) { metric = p_hg_dyn_counter::proxysql_mysql_error; } std::string s_hostgroup = std::to_string(hid); std::string s_address = std::string(address); std::string s_port = std::to_string(port); // TODO: Create switch here to classify error codes std::string s_code = std::to_string(code); std::string metric_id = s_hostgroup + ":" + address + ":" + s_port + ":" + s_code; std::map metric_labels { { "hostgroup", s_hostgroup }, { "address", address }, { "port", s_port }, { "code", s_code } }; pthread_mutex_lock(&mysql_errors_mutex); p_inc_map_counter( status.p_mysql_errors_map, status.p_dyn_counter_array[metric], metric_id, metric_labels ); pthread_mutex_unlock(&mysql_errors_mutex); } #endif // 0 template void Base_HostGroups_Manager::wrunlock() { #ifdef DEBUG is_locked = false; #endif pthread_mutex_unlock(&lock); } #if 0 void MySQL_HostGroups_Manager::wait_servers_table_version(unsigned v, unsigned w) { struct timespec ts; clock_gettime(CLOCK_REALTIME, &ts); //ts.tv_sec += w; unsigned int i = 0; int rc = 0; pthread_mutex_lock(&status.servers_table_version_lock); while ((rc == 0 || rc == ETIMEDOUT) && (i < w) && (__sync_fetch_and_add(&glovars.shutdown,0)==0) && (__sync_fetch_and_add(&status.servers_table_version,0) < v)) { i++; ts.tv_sec += 1; rc = pthread_cond_timedwait( &status.servers_table_version_cond, &status.servers_table_version_lock, &ts); } pthread_mutex_unlock(&status.servers_table_version_lock); } unsigned int MySQL_HostGroups_Manager::get_servers_table_version() { return __sync_fetch_and_add(&status.servers_table_version,0); } // we always assume that the calling thread has acquired a rdlock() int MySQL_HostGroups_Manager::servers_add(SQLite3_result *resultset) { if (resultset==NULL) { return 0; } int rc; mydb->execute("DELETE FROM mysql_servers_incoming"); sqlite3_stmt *statement1=NULL; sqlite3_stmt *statement32=NULL; //sqlite3 *mydb3=mydb->get_db(); char *query1=(char *)"INSERT INTO mysql_servers_incoming VALUES (?1, ?2, ?3, ?4, ?5, ?6, ?7, ?8, ?9, ?10, ?11, ?12)"; std::string query32s = "INSERT INTO mysql_servers_incoming VALUES " + generate_multi_rows_query(32,12); char *query32 = (char *)query32s.c_str(); //rc=(*proxy_sqlite3_prepare_v2)(mydb3, query1, -1, &statement1, 0); rc = mydb->prepare_v2(query1, &statement1); ASSERT_SQLITE_OK(rc, mydb); //rc=(*proxy_sqlite3_prepare_v2)(mydb3, query32, -1, &statement32, 0); rc = mydb->prepare_v2(query32, &statement32); ASSERT_SQLITE_OK(rc, mydb); MySerStatus status1=MYSQL_SERVER_STATUS_ONLINE; int row_idx=0; int max_bulk_row_idx=resultset->rows_count/32; max_bulk_row_idx=max_bulk_row_idx*32; for (std::vector::iterator it = resultset->rows.begin() ; it != resultset->rows.end(); ++it) { SQLite3_row *r1=*it; status1=MYSQL_SERVER_STATUS_ONLINE; if (strcasecmp(r1->fields[4],"ONLINE")) { if (!strcasecmp(r1->fields[4],"SHUNNED")) { status1=MYSQL_SERVER_STATUS_SHUNNED; } else { if (!strcasecmp(r1->fields[4],"OFFLINE_SOFT")) { status1=MYSQL_SERVER_STATUS_OFFLINE_SOFT; } else { if (!strcasecmp(r1->fields[4],"OFFLINE_HARD")) { status1=MYSQL_SERVER_STATUS_OFFLINE_HARD; } } } } int idx=row_idx%32; if (row_idxfields[0])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement32, (idx*12)+2, r1->fields[1], -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (idx*12)+3, atoi(r1->fields[2])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (idx*12)+4, atoi(r1->fields[3])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (idx*12)+5, atoi(r1->fields[5])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (idx*12)+6, status1); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (idx*12)+7, atoi(r1->fields[6])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (idx*12)+8, atoi(r1->fields[7])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (idx*12)+9, atoi(r1->fields[8])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (idx*12)+10, atoi(r1->fields[9])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (idx*12)+11, atoi(r1->fields[10])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement32, (idx*12)+12, r1->fields[11], -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); if (idx==31) { SAFE_SQLITE3_STEP2(statement32); rc=(*proxy_sqlite3_clear_bindings)(statement32); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_reset)(statement32); ASSERT_SQLITE_OK(rc, mydb); } } else { // single row rc=(*proxy_sqlite3_bind_int64)(statement1, 1, atoi(r1->fields[0])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement1, 2, r1->fields[1], -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 3, atoi(r1->fields[2])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 4, atoi(r1->fields[3])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 5, atoi(r1->fields[5])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 6, status1); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 7, atoi(r1->fields[6])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 8, atoi(r1->fields[7])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 9, atoi(r1->fields[8])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 10, atoi(r1->fields[9])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 11, atoi(r1->fields[10])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement1, 12, r1->fields[11], -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); SAFE_SQLITE3_STEP2(statement1); rc=(*proxy_sqlite3_clear_bindings)(statement1); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_reset)(statement1); ASSERT_SQLITE_OK(rc, mydb); } row_idx++; } (*proxy_sqlite3_finalize)(statement1); (*proxy_sqlite3_finalize)(statement32); return 0; } #endif // 0 /** * @brief Execute a SQL query and retrieve the resultset. * * This function executes a SQL query using the provided query string and returns the resultset obtained from the * database operation. It also provides an optional error parameter to capture any error messages encountered during * query execution. * * @param query A pointer to a null-terminated string containing the SQL query to be executed. * @param error A pointer to a char pointer where any error message encountered during query execution will be stored. * Pass nullptr if error handling is not required. * @return A pointer to a SQLite3_result object representing the resultset obtained from the query execution. This * pointer may be nullptr if the query execution fails or returns an empty result. */ template SQLite3_result * Base_HostGroups_Manager::execute_query(char *query, char **error) { int cols=0; int affected_rows=0; SQLite3_result *resultset=NULL; wrlock(); mydb->execute_statement(query, error , &cols , &affected_rows , &resultset); wrunlock(); return resultset; } #if 0 /** * @brief Calculate and update the checksum for a specified table in the database. * * This function calculates the checksum for a specified table in the database using the provided SpookyHash object. * The checksum is computed based on the table's contents, sorted by the specified column name. If the initialization * flag is false, the SpookyHash object is initialized with predefined parameters. The calculated checksum is stored * in the raw_checksum parameter. * * @param myhash A reference to the SpookyHash object used for calculating the checksum. * @param init A reference to a boolean flag indicating whether the SpookyHash object has been initialized. * @param TableName The name of the table for which the checksum is to be calculated. * @param ColumnName The name of the column to be used for sorting the table before calculating the checksum. * @param raw_checksum A reference to a uint64_t variable where the calculated checksum will be stored. */ void MySQL_HostGroups_Manager::CUCFT1( SpookyHash& myhash, bool& init, const string& TableName, const string& ColumnName, uint64_t& raw_checksum ) { char *error=NULL; int cols=0; int affected_rows=0; SQLite3_result *resultset=NULL; string query = "SELECT * FROM " + TableName + " ORDER BY " + ColumnName; mydb->execute_statement(query.c_str(), &error , &cols , &affected_rows , &resultset); if (resultset) { if (resultset->rows_count) { if (init == false) { init = true; myhash.Init(19,3); } uint64_t hash1_ = resultset->raw_checksum(); raw_checksum = hash1_; myhash.Update(&hash1_, sizeof(hash1_)); proxy_info("Checksum for table %s is 0x%lX\n", TableName.c_str(), hash1_); } delete resultset; } else { proxy_info("Checksum for table %s is 0x%lX\n", TableName.c_str(), (long unsigned int)0); } } /** * @brief Compute and update checksum values for specified tables. * * This function computes checksum values for specified tables by executing checksum calculation queries for each table. * It updates the checksum values in the `table_resultset_checksum` array. * * @param myhash A reference to a SpookyHash object used for computing the checksums. * @param init A reference to a boolean flag indicating whether the checksum computation has been initialized. * @note This function resets the current checksum values for all tables except MYSQL_SERVERS and MYSQL_SERVERS_V2 * before recomputing the checksums. * @note The computed checksum values are stored in the `table_resultset_checksum` array. */ void MySQL_HostGroups_Manager::commit_update_checksums_from_tables(SpookyHash& myhash, bool& init) { // Always reset the current table values before recomputing for (size_t i = 0; i < table_resultset_checksum.size(); i++) { if (i != HGM_TABLES::MYSQL_SERVERS && i != HGM_TABLES::MYSQL_SERVERS_V2) { table_resultset_checksum[i] = 0; } } CUCFT1(myhash,init,"mysql_replication_hostgroups","writer_hostgroup", table_resultset_checksum[HGM_TABLES::MYSQL_REPLICATION_HOSTGROUPS]); CUCFT1(myhash,init,"mysql_group_replication_hostgroups","writer_hostgroup", table_resultset_checksum[HGM_TABLES::MYSQL_GROUP_REPLICATION_HOSTGROUPS]); CUCFT1(myhash,init,"mysql_galera_hostgroups","writer_hostgroup", table_resultset_checksum[HGM_TABLES::MYSQL_GALERA_HOSTGROUPS]); CUCFT1(myhash,init,"mysql_aws_aurora_hostgroups","writer_hostgroup", table_resultset_checksum[HGM_TABLES::MYSQL_AWS_AURORA_HOSTGROUPS]); CUCFT1(myhash,init,"mysql_hostgroup_attributes","hostgroup_id", table_resultset_checksum[HGM_TABLES::MYSQL_HOSTGROUP_ATTRIBUTES]); CUCFT1(myhash,init,"mysql_servers_ssl_params","hostname,port,username", table_resultset_checksum[HGM_TABLES::MYSQL_SERVERS_SSL_PARAMS]); } /** * @brief This code updates the 'hostgroup_server_mapping' table with the most recent mysql_servers and mysql_replication_hostgroups * records while utilizing checksums to prevent unnecessary updates. * * IMPORTANT: Make sure wrlock() is called before calling this method. * */ void MySQL_HostGroups_Manager::update_hostgroup_manager_mappings() { if (hgsm_mysql_servers_checksum != table_resultset_checksum[HGM_TABLES::MYSQL_SERVERS] || hgsm_mysql_replication_hostgroups_checksum != table_resultset_checksum[HGM_TABLES::MYSQL_REPLICATION_HOSTGROUPS]) { proxy_info("Rebuilding 'Hostgroup_Manager_Mapping' due to checksums change - mysql_servers { old: 0x%lX, new: 0x%lX }, mysql_replication_hostgroups { old:0x%lX, new:0x%lX }\n", hgsm_mysql_servers_checksum, table_resultset_checksum[HGM_TABLES::MYSQL_SERVERS], hgsm_mysql_replication_hostgroups_checksum, table_resultset_checksum[HGM_TABLES::MYSQL_REPLICATION_HOSTGROUPS]); char* error = NULL; int cols = 0; int affected_rows = 0; SQLite3_result* resultset = NULL; hostgroup_server_mapping.clear(); const char* query = "SELECT DISTINCT hostname, port, '1' is_writer, status, reader_hostgroup, writer_hostgroup, mem_pointer FROM mysql_replication_hostgroups JOIN mysql_servers ON hostgroup_id=writer_hostgroup WHERE status<>3 \ UNION \ SELECT DISTINCT hostname, port, '0' is_writer, status, reader_hostgroup, writer_hostgroup, mem_pointer FROM mysql_replication_hostgroups JOIN mysql_servers ON hostgroup_id=reader_hostgroup WHERE status<>3 \ ORDER BY hostname, port"; mydb->execute_statement(query, &error, &cols, &affected_rows, &resultset); if (resultset && resultset->rows_count) { std::string fetched_server_id; HostGroup_Server_Mapping* fetched_server_mapping = NULL; for (std::vector::iterator it = resultset->rows.begin(); it != resultset->rows.end(); ++it) { SQLite3_row* r = *it; const std::string& server_id = std::string(r->fields[0]) + ":::" + r->fields[1]; if (fetched_server_mapping == NULL || server_id != fetched_server_id) { auto itr = hostgroup_server_mapping.find(server_id); if (itr == hostgroup_server_mapping.end()) { std::unique_ptr server_mapping(new HostGroup_Server_Mapping(this)); fetched_server_mapping = server_mapping.get(); hostgroup_server_mapping.insert( std::pair> { server_id, std::move(server_mapping) } ); } else { fetched_server_mapping = itr->second.get(); } fetched_server_id = server_id; } HostGroup_Server_Mapping::Node node; //node.server_status = static_cast(atoi(r->fields[3])); node.reader_hostgroup_id = atoi(r->fields[4]); node.writer_hostgroup_id = atoi(r->fields[5]); node.srv = reinterpret_cast(atoll(r->fields[6])); HostGroup_Server_Mapping::Type type = (r->fields[2] && r->fields[2][0] == '1') ? HostGroup_Server_Mapping::Type::WRITER : HostGroup_Server_Mapping::Type::READER; fetched_server_mapping->add(type, node); } } delete resultset; hgsm_mysql_servers_checksum = table_resultset_checksum[HGM_TABLES::MYSQL_SERVERS]; hgsm_mysql_replication_hostgroups_checksum = table_resultset_checksum[HGM_TABLES::MYSQL_REPLICATION_HOSTGROUPS]; } } /** * @brief Generates a resultset holding the current Admin 'runtime_mysql_servers' as reported by Admin. * @details Requires caller to hold the mutex 'MySQL_HostGroups_Manager::wrlock'. * @param mydb The db in which to perform the query, typically 'MySQL_HostGroups_Manager::mydb'. * @return An SQLite3 resultset for the query 'MYHGM_GEN_ADMIN_RUNTIME_SERVERS'. */ unique_ptr get_admin_runtime_mysql_servers(SQLite3DB* mydb) { char* error = nullptr; int cols = 0; int affected_rows = 0; SQLite3_result* resultset = nullptr; mydb->execute_statement(MYHGM_GEN_CLUSTER_ADMIN_RUNTIME_SERVERS, &error, &cols, &affected_rows, &resultset); if (error) { proxy_error("SQLite3 query generating 'runtime_mysql_servers' resultset failed with error '%s'\n", error); assert(0); } return unique_ptr(resultset); } /** * @brief Generates a resultset with holding the current 'mysql_servers_v2' table. * @details Requires caller to hold the mutex 'ProxySQL_Admin::mysql_servers_wrlock'. * @return A resulset holding 'mysql_servers_v2'. */ unique_ptr get_mysql_servers_v2() { char* error = nullptr; int cols = 0; int affected_rows = 0; SQLite3_result* resultset = nullptr; if (GloAdmin && GloAdmin->admindb) { GloAdmin->admindb->execute_statement( MYHGM_GEN_CLUSTER_ADMIN_MYSQL_SERVERS, &error, &cols, &affected_rows, &resultset ); } return unique_ptr(resultset); } static void update_glovars_checksum_with_peers( ProxySQL_Checksum_Value& module_checksum, const string& new_checksum, const string& peer_checksum_value, time_t new_epoch, time_t peer_checksum_epoch, bool update_version ) { module_checksum.set_checksum(const_cast(new_checksum.c_str())); if (update_version) module_checksum.version++; bool computed_checksum_matches = peer_checksum_value != "" && module_checksum.checksum == peer_checksum_value; if (peer_checksum_epoch != 0 && computed_checksum_matches) { module_checksum.epoch = peer_checksum_epoch; } else { module_checksum.epoch = new_epoch; } } /** * @brief Updates the global 'mysql_servers' module checksum. * @details If the new computed checksum matches the supplied 'cluster_checksum', the epoch used for the * checksum is the supplied epoch instead of current time. This way we ensure the preservation of the * checksum and epoch fetched from the ProxySQL cluster peer node. * * IMPORTANT: This function also generates a new 'global_checksum'. This is because everytime * 'runtime_mysql_servers' change, updating the global checksum is unconditional. * @param new_checksum The new computed checksum for 'runtime_mysql_servers'. * @param peer_checksum A checksum fetched from another ProxySQL cluster node, holds the checksum value * and its epoch. Should be empty if no remote checksum is being considered. * @param epoch The epoch to be preserved in case the supplied 'peer_checksum' matches the new computed * checksum. */ static void update_glovars_mysql_servers_checksum( const string& new_checksum, const runtime_mysql_servers_checksum_t& peer_checksum = {}, bool update_version = false ) { time_t new_epoch = time(NULL); update_glovars_checksum_with_peers( GloVars.checksums_values.mysql_servers, new_checksum, peer_checksum.value, new_epoch, peer_checksum.epoch, update_version ); GloVars.checksums_values.updates_cnt++; GloVars.generate_global_checksum(); GloVars.epoch_version = new_epoch; } /** * @brief Updates the global 'mysql_servers_v2' module checksum. * @details Unlike 'update_glovars_mysql_servers_checksum' this function doesn't generate a new * 'global_checksum'. It's caller responsibility to ensure that 'global_checksum' is updated. * @param new_checksum The new computed checksum for 'mysql_servers_v2'. * @param peer_checksum A checksum fetched from another ProxySQL cluster node, holds the checksum value * and its epoch. Should be empty if no remote checksum is being considered. * @param epoch The epoch to be preserved in case the supplied 'peer_checksum' matches the new computed * checksum. */ static void update_glovars_mysql_servers_v2_checksum( const string& new_checksum, const mysql_servers_v2_checksum_t& peer_checksum = {}, bool update_version = false ) { time_t new_epoch = time(NULL); update_glovars_checksum_with_peers( GloVars.checksums_values.mysql_servers_v2, new_checksum, peer_checksum.value, new_epoch, peer_checksum.epoch, update_version ); } /** * @brief Commit and update checksum from the MySQL servers. * * This function commits updates and calculates the checksum from the MySQL servers. It performs the following steps: * 1. Deletes existing data from the 'mysql_servers' table. * 2. Generates a new 'mysql_servers' table. * 3. Saves the runtime MySQL servers data obtained from the provided result set or from the database if the result set is null. * 4. Calculates the checksum of the runtime MySQL servers data and updates the checksum value in the 'table_resultset_checksum' array. * * @param runtime_mysql_servers A pointer to the result set containing runtime MySQL servers data. * @return The raw checksum value calculated from the runtime MySQL servers data. */ uint64_t MySQL_HostGroups_Manager::commit_update_checksum_from_mysql_servers(SQLite3_result* runtime_mysql_servers) { mydb->execute("DELETE FROM mysql_servers"); generate_mysql_servers_table(); if (runtime_mysql_servers == nullptr) { unique_ptr resultset { get_admin_runtime_mysql_servers(mydb) }; save_runtime_mysql_servers(resultset.release()); } else { save_runtime_mysql_servers(runtime_mysql_servers); } uint64_t raw_checksum = this->runtime_mysql_servers ? this->runtime_mysql_servers->raw_checksum() : 0; table_resultset_checksum[HGM_TABLES::MYSQL_SERVERS] = raw_checksum; return raw_checksum; } /** * @brief Commit and update checksum from the MySQL servers V2. * * This function commits updates and calculates the checksum from the MySQL servers V2 data. It performs the following steps: * 1. Saves the provided MySQL servers V2 data if not null, or retrieves and saves the data from the database. * 2. Calculates the checksum of the MySQL servers V2 data and updates the checksum value in the 'table_resultset_checksum' array. * * @param mysql_servers_v2 A pointer to the result set containing MySQL servers V2 data. * @return The raw checksum value calculated from the MySQL servers V2 data. */ uint64_t MySQL_HostGroups_Manager::commit_update_checksum_from_mysql_servers_v2(SQLite3_result* mysql_servers_v2) { if (mysql_servers_v2 == nullptr) { unique_ptr resultset { get_mysql_servers_v2() }; save_mysql_servers_v2(resultset.release()); } else { save_mysql_servers_v2(mysql_servers_v2); } uint64_t raw_checksum = this->incoming_mysql_servers_v2 ? this->incoming_mysql_servers_v2->raw_checksum() : 0; table_resultset_checksum[HGM_TABLES::MYSQL_SERVERS_V2] = raw_checksum; return raw_checksum; } std::string MySQL_HostGroups_Manager::gen_global_mysql_servers_v2_checksum(uint64_t servers_v2_hash) { bool init = false; SpookyHash global_hash {}; if (servers_v2_hash != 0) { if (init == false) { init = true; global_hash.Init(19, 3); } global_hash.Update(&servers_v2_hash, sizeof(servers_v2_hash)); } commit_update_checksums_from_tables(global_hash, init); uint64_t hash_1 = 0, hash_2 = 0; if (init) { global_hash.Final(&hash_1,&hash_2); } string mysrvs_checksum { get_checksum_from_hash(hash_1) }; return mysrvs_checksum; } bool MySQL_HostGroups_Manager::commit() { return commit({},{}); } bool MySQL_HostGroups_Manager::commit( const peer_runtime_mysql_servers_t& peer_runtime_mysql_servers, const peer_mysql_servers_v2_t& peer_mysql_servers_v2, bool only_commit_runtime_mysql_servers, bool update_version ) { // if only_commit_runtime_mysql_servers is true, mysql_servers_v2 resultset will not be entertained and will cause memory leak. if (only_commit_runtime_mysql_servers) { proxy_info("Generating runtime mysql servers records only.\n"); } else { proxy_info("Generating runtime mysql servers and mysql servers v2 records.\n"); } unsigned long long curtime1=monotonic_time(); wrlock(); // purge table purge_mysql_servers_table(); // if any server has gtid_port enabled, use_gtid is set to true // and then has_gtid_port is set too bool use_gtid = false; proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 4, "DELETE FROM mysql_servers\n"); mydb->execute("DELETE FROM mysql_servers"); generate_mysql_servers_table(); char *error=NULL; int cols=0; int affected_rows=0; SQLite3_result *resultset=NULL; if (GloMTH->variables.hostgroup_manager_verbose) { mydb->execute_statement((char *)"SELECT * FROM mysql_servers_incoming", &error , &cols , &affected_rows , &resultset); if (error) { proxy_error("Error on read from mysql_servers_incoming : %s\n", error); } else { if (resultset) { proxy_info("Dumping mysql_servers_incoming\n"); resultset->dump_to_stderr(); } } if (resultset) { delete resultset; resultset=NULL; } } char *query=NULL; query=(char *)"SELECT mem_pointer, t1.hostgroup_id, t1.hostname, t1.port FROM mysql_servers t1 LEFT OUTER JOIN mysql_servers_incoming t2 ON (t1.hostgroup_id=t2.hostgroup_id AND t1.hostname=t2.hostname AND t1.port=t2.port) WHERE t2.hostgroup_id IS NULL"; mydb->execute_statement(query, &error , &cols , &affected_rows , &resultset); if (error) { proxy_error("Error on %s : %s\n", query, error); } else { if (GloMTH->variables.hostgroup_manager_verbose) { proxy_info("Dumping mysql_servers LEFT JOIN mysql_servers_incoming\n"); resultset->dump_to_stderr(); } for (std::vector::iterator it = resultset->rows.begin() ; it != resultset->rows.end(); ++it) { SQLite3_row *r=*it; long long ptr=atoll(r->fields[0]); proxy_warning("Removed server at address %lld, hostgroup %s, address %s port %s. Setting status OFFLINE HARD and immediately dropping all free connections. Used connections will be dropped when trying to use them\n", ptr, r->fields[1], r->fields[2], r->fields[3]); MySrvC *mysrvc=(MySrvC *)ptr; mysrvc->set_status(MYSQL_SERVER_STATUS_OFFLINE_HARD); mysrvc->ConnectionsFree->drop_all_connections(); char *q1=(char *)"DELETE FROM mysql_servers WHERE mem_pointer=%lld"; char *q2=(char *)malloc(strlen(q1)+32); sprintf(q2,q1,ptr); mydb->execute(q2); free(q2); } } if (resultset) { delete resultset; resultset=NULL; } // This seems unnecessary. Removed as part of issue #829 //mydb->execute("DELETE FROM mysql_servers"); //generate_mysql_servers_table(); mydb->execute("INSERT OR IGNORE INTO mysql_servers(hostgroup_id, hostname, port, gtid_port, weight, status, compression, max_connections, max_replication_lag, use_ssl, max_latency_ms, comment) SELECT hostgroup_id, hostname, port, gtid_port, weight, status, compression, max_connections, max_replication_lag, use_ssl, max_latency_ms, comment FROM mysql_servers_incoming"); // SELECT FROM mysql_servers whatever is not identical in mysql_servers_incoming, or where mem_pointer=0 (where there is no pointer yet) query=(char *)"SELECT t1.*, t2.gtid_port, t2.weight, t2.status, t2.compression, t2.max_connections, t2.max_replication_lag, t2.use_ssl, t2.max_latency_ms, t2.comment FROM mysql_servers t1 JOIN mysql_servers_incoming t2 ON (t1.hostgroup_id=t2.hostgroup_id AND t1.hostname=t2.hostname AND t1.port=t2.port) WHERE mem_pointer=0 OR t1.gtid_port<>t2.gtid_port OR t1.weight<>t2.weight OR t1.status<>t2.status OR t1.compression<>t2.compression OR t1.max_connections<>t2.max_connections OR t1.max_replication_lag<>t2.max_replication_lag OR t1.use_ssl<>t2.use_ssl OR t1.max_latency_ms<>t2.max_latency_ms or t1.comment<>t2.comment"; proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 4, "%s\n", query); mydb->execute_statement(query, &error , &cols , &affected_rows , &resultset); if (error) { proxy_error("Error on %s : %s\n", query, error); } else { if (GloMTH->variables.hostgroup_manager_verbose) { proxy_info("Dumping mysql_servers JOIN mysql_servers_incoming\n"); resultset->dump_to_stderr(); } // optimization #829 int rc; sqlite3_stmt *statement1=NULL; sqlite3_stmt *statement2=NULL; //sqlite3 *mydb3=mydb->get_db(); char *query1=(char *)"UPDATE mysql_servers SET mem_pointer = ?1 WHERE hostgroup_id = ?2 AND hostname = ?3 AND port = ?4"; //rc=(*proxy_sqlite3_prepare_v2)(mydb3, query1, -1, &statement1, 0); rc = mydb->prepare_v2(query1, &statement1); ASSERT_SQLITE_OK(rc, mydb); char *query2=(char *)"UPDATE mysql_servers SET weight = ?1 , status = ?2 , compression = ?3 , max_connections = ?4 , max_replication_lag = ?5 , use_ssl = ?6 , max_latency_ms = ?7 , comment = ?8 , gtid_port = ?9 WHERE hostgroup_id = ?10 AND hostname = ?11 AND port = ?12"; //rc=(*proxy_sqlite3_prepare_v2)(mydb3, query2, -1, &statement2, 0); rc = mydb->prepare_v2(query2, &statement2); ASSERT_SQLITE_OK(rc, mydb); for (std::vector::iterator it = resultset->rows.begin() ; it != resultset->rows.end(); ++it) { SQLite3_row *r=*it; long long ptr=atoll(r->fields[12]); // increase this index every time a new column is added proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 5, "Server %s:%d , weight=%d, status=%d, mem_pointer=%llu, hostgroup=%d, compression=%d\n", r->fields[1], atoi(r->fields[2]), atoi(r->fields[4]), atoi(r->fields[5]), ptr, atoi(r->fields[0]), atoi(r->fields[6])); //fprintf(stderr,"%lld\n", ptr); if (ptr==0) { if (GloMTH->variables.hostgroup_manager_verbose) { proxy_info("Creating new server in HG %d : %s:%d , gtid_port=%d, weight=%d, status=%d\n", atoi(r->fields[0]), r->fields[1], atoi(r->fields[2]), atoi(r->fields[3]), atoi(r->fields[4]), atoi(r->fields[5])); } MySrvC *mysrvc=new MySrvC(r->fields[1], atoi(r->fields[2]), atoi(r->fields[3]), atoi(r->fields[4]), (MySerStatus)atoi(r->fields[5]), atoi(r->fields[6]), atoi(r->fields[7]), atoi(r->fields[8]), atoi(r->fields[9]), atoi(r->fields[10]), r->fields[11]); // add new fields here if adding more columns in mysql_servers proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 5, "Adding new server %s:%d , weight=%d, status=%d, mem_ptr=%p into hostgroup=%d\n", r->fields[1], atoi(r->fields[2]), atoi(r->fields[4]), atoi(r->fields[5]), mysrvc, atoi(r->fields[0])); add(mysrvc,atoi(r->fields[0])); ptr=(uintptr_t)mysrvc; rc=(*proxy_sqlite3_bind_int64)(statement1, 1, ptr); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 2, atoi(r->fields[0])); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement1, 3, r->fields[1], -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 4, atoi(r->fields[2])); ASSERT_SQLITE_OK(rc, mydb); SAFE_SQLITE3_STEP2(statement1); rc=(*proxy_sqlite3_clear_bindings)(statement1); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_reset)(statement1); ASSERT_SQLITE_OK(rc, mydb); if (mysrvc->gtid_port) { // this server has gtid_port configured, we set use_gtid proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 6, "Server %u:%s:%d has gtid_port enabled, setting use_gitd=true if not already set\n", mysrvc->myhgc->hid , mysrvc->address, mysrvc->port); use_gtid = true; } } else { bool run_update=false; MySrvC *mysrvc=(MySrvC *)ptr; // carefully increase the 2nd index by 1 for every new column added if (atoi(r->fields[3])!=atoi(r->fields[13])) { if (GloMTH->variables.hostgroup_manager_verbose) proxy_info("Changing gtid_port for server %u:%s:%d (%s:%d) from %d (%d) to %d\n" , mysrvc->myhgc->hid , mysrvc->address, mysrvc->port, r->fields[1], atoi(r->fields[2]), atoi(r->fields[3]) , mysrvc->gtid_port , atoi(r->fields[13])); mysrvc->gtid_port=atoi(r->fields[13]); } if (atoi(r->fields[4])!=atoi(r->fields[14])) { if (GloMTH->variables.hostgroup_manager_verbose) proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 5, "Changing weight for server %d:%s:%d (%s:%d) from %d (%ld) to %d\n" , mysrvc->myhgc->hid , mysrvc->address, mysrvc->port, r->fields[1], atoi(r->fields[2]), atoi(r->fields[4]) , mysrvc->weight , atoi(r->fields[14])); mysrvc->weight=atoi(r->fields[14]); } if (atoi(r->fields[5])!=atoi(r->fields[15])) { bool change_server_status = true; if (GloMTH->variables.evaluate_replication_lag_on_servers_load == 1) { if (mysrvc->get_status() == MYSQL_SERVER_STATUS_SHUNNED_REPLICATION_LAG && // currently server is shunned due to replication lag (MySerStatus)atoi(r->fields[15]) == MYSQL_SERVER_STATUS_ONLINE) { // new server status is online if (mysrvc->cur_replication_lag != -2) { // Master server? Seconds_Behind_Master column is not present const unsigned int new_max_repl_lag = atoi(r->fields[18]); if (mysrvc->cur_replication_lag < 0 || (new_max_repl_lag > 0 && ((unsigned int)mysrvc->cur_replication_lag > new_max_repl_lag))) { // we check if current replication lag is greater than new max_replication_lag change_server_status = false; } } } } if (change_server_status == true) { if (GloMTH->variables.hostgroup_manager_verbose) proxy_info("Changing status for server %d:%s:%d (%s:%d) from %d (%d) to %d\n", mysrvc->myhgc->hid, mysrvc->address, mysrvc->port, r->fields[1], atoi(r->fields[2]), atoi(r->fields[5]), (int)mysrvc->get_status(), atoi(r->fields[15])); mysrvc->set_status((MySerStatus)atoi(r->fields[15])); } if (mysrvc->get_status() == MYSQL_SERVER_STATUS_SHUNNED) { mysrvc->shunned_automatic=false; } } if (atoi(r->fields[6])!=atoi(r->fields[16])) { if (GloMTH->variables.hostgroup_manager_verbose) proxy_info("Changing compression for server %d:%s:%d (%s:%d) from %d (%d) to %d\n" , mysrvc->myhgc->hid , mysrvc->address, mysrvc->port, r->fields[1], atoi(r->fields[2]), atoi(r->fields[6]) , mysrvc->compression , atoi(r->fields[16])); mysrvc->compression=atoi(r->fields[16]); } if (atoi(r->fields[7])!=atoi(r->fields[17])) { if (GloMTH->variables.hostgroup_manager_verbose) proxy_info("Changing max_connections for server %d:%s:%d (%s:%d) from %d (%ld) to %d\n" , mysrvc->myhgc->hid , mysrvc->address, mysrvc->port, r->fields[1], atoi(r->fields[2]), atoi(r->fields[7]) , mysrvc->max_connections , atoi(r->fields[17])); mysrvc->max_connections=atoi(r->fields[17]); } if (atoi(r->fields[8])!=atoi(r->fields[18])) { if (GloMTH->variables.hostgroup_manager_verbose) proxy_info("Changing max_replication_lag for server %u:%s:%d (%s:%d) from %d (%d) to %d\n" , mysrvc->myhgc->hid , mysrvc->address, mysrvc->port, r->fields[1], atoi(r->fields[2]), atoi(r->fields[8]) , mysrvc->max_replication_lag , atoi(r->fields[18])); mysrvc->max_replication_lag=atoi(r->fields[18]); if (mysrvc->max_replication_lag == 0) { // we just changed it to 0 if (mysrvc->get_status() == MYSQL_SERVER_STATUS_SHUNNED_REPLICATION_LAG) { // the server is currently shunned due to replication lag // but we reset max_replication_lag to 0 // therefore we immediately reset the status too mysrvc->set_status(MYSQL_SERVER_STATUS_ONLINE); } } } if (atoi(r->fields[9])!=atoi(r->fields[19])) { if (GloMTH->variables.hostgroup_manager_verbose) proxy_info("Changing use_ssl for server %d:%s:%d (%s:%d) from %d (%d) to %d\n" , mysrvc->myhgc->hid , mysrvc->address, mysrvc->port, r->fields[1], atoi(r->fields[2]), atoi(r->fields[9]) , mysrvc->use_ssl , atoi(r->fields[19])); mysrvc->use_ssl=atoi(r->fields[19]); } if (atoi(r->fields[10])!=atoi(r->fields[20])) { if (GloMTH->variables.hostgroup_manager_verbose) proxy_info("Changing max_latency_ms for server %d:%s:%d (%s:%d) from %d (%d) to %d\n" , mysrvc->myhgc->hid , mysrvc->address, mysrvc->port, r->fields[1], atoi(r->fields[2]), atoi(r->fields[10]) , mysrvc->max_latency_us/1000 , atoi(r->fields[20])); mysrvc->max_latency_us=1000*atoi(r->fields[20]); } if (strcmp(r->fields[11],r->fields[21])) { if (GloMTH->variables.hostgroup_manager_verbose) proxy_info("Changing comment for server %d:%s:%d (%s:%d) from '%s' to '%s'\n" , mysrvc->myhgc->hid , mysrvc->address, mysrvc->port, r->fields[1], atoi(r->fields[2]), r->fields[11], r->fields[21]); free(mysrvc->comment); mysrvc->comment=strdup(r->fields[21]); } if (run_update) { rc=(*proxy_sqlite3_bind_int64)(statement2, 1, mysrvc->weight); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement2, 2, (int)mysrvc->get_status()); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement2, 3, mysrvc->compression); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement2, 4, mysrvc->max_connections); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement2, 5, mysrvc->max_replication_lag); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement2, 6, mysrvc->use_ssl); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement2, 7, mysrvc->max_latency_us/1000); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement2, 8, mysrvc->comment, -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement2, 9, mysrvc->gtid_port); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement2, 10, mysrvc->myhgc->hid); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement2, 11, mysrvc->address, -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement2, 12, mysrvc->port); ASSERT_SQLITE_OK(rc, mydb); SAFE_SQLITE3_STEP2(statement2); rc=(*proxy_sqlite3_clear_bindings)(statement2); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_reset)(statement2); ASSERT_SQLITE_OK(rc, mydb); } if (mysrvc->gtid_port) { // this server has gtid_port configured, we set use_gtid proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 6, "Server %u:%s:%d has gtid_port enabled, setting use_gitd=true if not already set\n", mysrvc->myhgc->hid , mysrvc->address, mysrvc->port); use_gtid = true; } } } (*proxy_sqlite3_finalize)(statement1); (*proxy_sqlite3_finalize)(statement2); } if (use_gtid) { has_gtid_port = true; } else { has_gtid_port = false; } if (resultset) { delete resultset; resultset=NULL; } proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 4, "DELETE FROM mysql_servers_incoming\n"); mydb->execute("DELETE FROM mysql_servers_incoming"); string global_checksum_v2 {}; if (only_commit_runtime_mysql_servers == false) { // replication if (incoming_replication_hostgroups) { // this IF is extremely important, otherwise replication hostgroups may disappear proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 4, "DELETE FROM mysql_replication_hostgroups\n"); mydb->execute("DELETE FROM mysql_replication_hostgroups"); generate_mysql_replication_hostgroups_table(); } // group replication if (incoming_group_replication_hostgroups) { proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 4, "DELETE FROM mysql_group_replication_hostgroups\n"); mydb->execute("DELETE FROM mysql_group_replication_hostgroups"); generate_mysql_group_replication_hostgroups_table(); } // galera if (incoming_galera_hostgroups) { proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 4, "DELETE FROM mysql_galera_hostgroups\n"); mydb->execute("DELETE FROM mysql_galera_hostgroups"); generate_mysql_galera_hostgroups_table(); } // AWS Aurora if (incoming_aws_aurora_hostgroups) { proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 4, "DELETE FROM mysql_aws_aurora_hostgroups\n"); mydb->execute("DELETE FROM mysql_aws_aurora_hostgroups"); generate_mysql_aws_aurora_hostgroups_table(); } // hostgroup attributes if (incoming_hostgroup_attributes) { proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 4, "DELETE FROM mysql_hostgroup_attributes\n"); mydb->execute("DELETE FROM mysql_hostgroup_attributes"); generate_mysql_hostgroup_attributes_table(); } // SSL params if (incoming_mysql_servers_ssl_params) { proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 4, "DELETE FROM mysql_servers_ssl_params\n"); mydb->execute("DELETE FROM mysql_servers_ssl_params"); generate_mysql_servers_ssl_params_table(); } uint64_t new_hash = commit_update_checksum_from_mysql_servers_v2(peer_mysql_servers_v2.resultset); { const string new_checksum { get_checksum_from_hash(new_hash) }; proxy_info("Checksum for table %s is %s\n", "mysql_servers_v2", new_checksum.c_str()); } global_checksum_v2 = gen_global_mysql_servers_v2_checksum(new_hash); proxy_info("New computed global checksum for 'mysql_servers_v2' is '%s'\n", global_checksum_v2.c_str()); } // Update 'mysql_servers' and global checksums { uint64_t new_hash = commit_update_checksum_from_mysql_servers(peer_runtime_mysql_servers.resultset); const string new_checksum { get_checksum_from_hash(new_hash) }; proxy_info("Checksum for table %s is %s\n", "mysql_servers", new_checksum.c_str()); pthread_mutex_lock(&GloVars.checksum_mutex); if (only_commit_runtime_mysql_servers == false) { update_glovars_mysql_servers_v2_checksum(global_checksum_v2, peer_mysql_servers_v2.checksum, true); } update_glovars_mysql_servers_checksum(new_checksum, peer_runtime_mysql_servers.checksum, update_version); pthread_mutex_unlock(&GloVars.checksum_mutex); } // fill Hostgroup_Manager_Mapping with latest records update_hostgroup_manager_mappings(); ev_async_send(gtid_ev_loop, gtid_ev_async); __sync_fetch_and_add(&status.servers_table_version,1); // We completely reset read_only_set1. It will generated (completely) again in read_only_action() // Note: read_only_set1 will be regenerated all at once read_only_set1.erase(read_only_set1.begin(), read_only_set1.end()); // We completely reset read_only_set2. It will be again written in read_only_action() // Note: read_only_set2 will be regenerated one server at the time read_only_set2.erase(read_only_set2.begin(), read_only_set2.end()); this->status.p_counter_array[p_hg_counter::servers_table_version]->Increment(); pthread_cond_broadcast(&status.servers_table_version_cond); pthread_mutex_unlock(&status.servers_table_version_lock); // NOTE: In order to guarantee the latest generated version, this should be kept after all the // calls to 'generate_mysql_servers'. update_table_mysql_servers_for_monitor(false); wrunlock(); unsigned long long curtime2=monotonic_time(); curtime1 = curtime1/1000; curtime2 = curtime2/1000; proxy_info("MySQL_HostGroups_Manager::commit() locked for %llums\n", curtime2-curtime1); if (GloMTH) { GloMTH->signal_all_threads(1); } return true; } /** * @brief Calculate the checksum for the runtime mysql_servers record, after excluding all the rows * with the status OFFLINE_HARD from the result set * * @details The runtime mysql_servers is now considered as a distinct module and have a separate checksum calculation. * This is because the records in the runtime module may differ from those in the admin mysql_servers module, which * can cause synchronization issues within the cluster. * * @param runtime_mysql_servers resultset of runtime mysql_servers or can be a nullptr. */ uint64_t MySQL_HostGroups_Manager::get_mysql_servers_checksum(SQLite3_result* runtime_mysql_servers) { //Note: GloVars.checksum_mutex needs to be locked SQLite3_result* resultset = nullptr; if (runtime_mysql_servers == nullptr) { char* error = NULL; int cols = 0; int affected_rows = 0; mydb->execute_statement(MYHGM_GEN_CLUSTER_ADMIN_RUNTIME_SERVERS, &error, &cols, &affected_rows, &resultset); if (resultset) { save_runtime_mysql_servers(resultset); } else { proxy_info("Checksum for table %s is 0x%lX\n", "mysql_servers", (long unsigned int)0); } } else { resultset = runtime_mysql_servers; save_runtime_mysql_servers(runtime_mysql_servers); } table_resultset_checksum[HGM_TABLES::MYSQL_SERVERS] = resultset != nullptr ? resultset->raw_checksum() : 0; proxy_info("Checksum for table %s is 0x%lX\n", "mysql_servers", table_resultset_checksum[HGM_TABLES::MYSQL_SERVERS]); return table_resultset_checksum[HGM_TABLES::MYSQL_SERVERS]; } /** * @brief Purge the MySQL servers table by removing offline hard servers with no active connections. * * This function iterates through each host group in the host groups manager and examines each server within the host group. * For each server that is marked as offline hard and has no active connections (both used and free), it removes the server from the host group. * After removing the server, it deletes the server object to free up memory. * This process ensures that offline hard servers with no connections are properly removed from the MySQL servers table. */ void MySQL_HostGroups_Manager::purge_mysql_servers_table() { for (unsigned int i=0; ilen; i++) { MyHGC *myhgc=(MyHGC *)MyHostGroups->index(i); MySrvC *mysrvc=NULL; for (unsigned int j=0; jmysrvs->servers->len; j++) { mysrvc=myhgc->mysrvs->idx(j); if (mysrvc->get_status() == MYSQL_SERVER_STATUS_OFFLINE_HARD) { if (mysrvc->ConnectionsUsed->conns_length()==0 && mysrvc->ConnectionsFree->conns_length()==0) { // no more connections for OFFLINE_HARD server, removing it mysrvc=(MySrvC *)myhgc->mysrvs->servers->remove_index_fast(j); // already being refreshed in MySrvC destructor //myhgc->refresh_online_server_count(); j--; delete mysrvc; } } } } } void MySQL_HostGroups_Manager::generate_mysql_servers_table(int *_onlyhg) { int rc; sqlite3_stmt *statement1=NULL; sqlite3_stmt *statement32=NULL; PtrArray *lst=new PtrArray(); //sqlite3 *mydb3=mydb->get_db(); char *query1=(char *)"INSERT INTO mysql_servers VALUES (?1, ?2, ?3, ?4, ?5, ?6, ?7, ?8, ?9, ?10, ?11, ?12, ?13)"; //rc=(*proxy_sqlite3_prepare_v2)(mydb3, query1, -1, &statement1, 0); rc = mydb->prepare_v2(query1, &statement1); ASSERT_SQLITE_OK(rc, mydb); std::string query32s = "INSERT INTO mysql_servers VALUES " + generate_multi_rows_query(32,13); char *query32 = (char *)query32s.c_str(); //rc=(*proxy_sqlite3_prepare_v2)(mydb3, query32, -1, &statement32, 0); rc = mydb->prepare_v2(query32, &statement32); ASSERT_SQLITE_OK(rc, mydb); if (mysql_thread___hostgroup_manager_verbose) { if (_onlyhg==NULL) { proxy_info("Dumping current MySQL Servers structures for hostgroup ALL\n"); } else { int hidonly=*_onlyhg; proxy_info("Dumping current MySQL Servers structures for hostgroup %d\n", hidonly); } } for (unsigned int i=0; ilen; i++) { MyHGC *myhgc=(MyHGC *)MyHostGroups->index(i); if (_onlyhg) { int hidonly=*_onlyhg; if (myhgc->hid!=(unsigned int)hidonly) { // skipping this HG continue; } } MySrvC *mysrvc=NULL; for (unsigned int j=0; jmysrvs->servers->len; j++) { mysrvc=myhgc->mysrvs->idx(j); if (mysql_thread___hostgroup_manager_verbose) { char *st; switch ((int)mysrvc->get_status()) { case 0: st=(char *)"ONLINE"; break; case 2: st=(char *)"OFFLINE_SOFT"; break; case 3: st=(char *)"OFFLINE_HARD"; break; default: case 1: case 4: st=(char *)"SHUNNED"; break; } fprintf(stderr,"HID: %d , address: %s , port: %d , gtid_port: %d , weight: %ld , status: %s , max_connections: %ld , max_replication_lag: %u , use_ssl: %u , max_latency_ms: %u , comment: %s\n", mysrvc->myhgc->hid, mysrvc->address, mysrvc->port, mysrvc->gtid_port, mysrvc->weight, st, mysrvc->max_connections, mysrvc->max_replication_lag, mysrvc->use_ssl, mysrvc->max_latency_us*1000, mysrvc->comment); } lst->add(mysrvc); if (lst->len==32) { while (lst->len) { int i=lst->len; i--; MySrvC *mysrvc=(MySrvC *)lst->remove_index_fast(0); uintptr_t ptr=(uintptr_t)mysrvc; rc=(*proxy_sqlite3_bind_int64)(statement32, (i*13)+1, mysrvc->myhgc->hid); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement32, (i*13)+2, mysrvc->address, -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (i*13)+3, mysrvc->port); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (i*13)+4, mysrvc->gtid_port); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (i*13)+5, mysrvc->weight); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (i*13)+6, (int)mysrvc->get_status()); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (i*13)+7, mysrvc->compression); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (i*13)+8, mysrvc->max_connections); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (i*13)+9, mysrvc->max_replication_lag); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (i*13)+10, mysrvc->use_ssl); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (i*13)+11, mysrvc->max_latency_us/1000); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement32, (i*13)+12, mysrvc->comment, -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement32, (i*13)+13, ptr); ASSERT_SQLITE_OK(rc, mydb); } SAFE_SQLITE3_STEP2(statement32); rc=(*proxy_sqlite3_clear_bindings)(statement32); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_reset)(statement32); ASSERT_SQLITE_OK(rc, mydb); } } } while (lst->len) { MySrvC *mysrvc=(MySrvC *)lst->remove_index_fast(0); uintptr_t ptr=(uintptr_t)mysrvc; rc=(*proxy_sqlite3_bind_int64)(statement1, 1, mysrvc->myhgc->hid); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement1, 2, mysrvc->address, -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 3, mysrvc->port); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 4, mysrvc->gtid_port); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 5, mysrvc->weight); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 6, (int)mysrvc->get_status()); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 7, mysrvc->compression); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 8, mysrvc->max_connections); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 9, mysrvc->max_replication_lag); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 10, mysrvc->use_ssl); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 11, mysrvc->max_latency_us/1000); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement1, 12, mysrvc->comment, -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement1, 13, ptr); ASSERT_SQLITE_OK(rc, mydb); SAFE_SQLITE3_STEP2(statement1); rc=(*proxy_sqlite3_clear_bindings)(statement1); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_reset)(statement1); ASSERT_SQLITE_OK(rc, mydb); } (*proxy_sqlite3_finalize)(statement1); (*proxy_sqlite3_finalize)(statement32); if (mysql_thread___hostgroup_manager_verbose) { char *error=NULL; int cols=0; int affected_rows=0; SQLite3_result *resultset=NULL; if (_onlyhg==NULL) { mydb->execute_statement((char *)"SELECT hostgroup_id hid, hostname, port, gtid_port gtid, weight, status, compression cmp, max_connections max_conns, max_replication_lag max_lag, use_ssl ssl, max_latency_ms max_lat, comment, mem_pointer FROM mysql_servers", &error , &cols , &affected_rows , &resultset); } else { int hidonly=*_onlyhg; char *q1 = (char *)malloc(256); sprintf(q1,"SELECT hostgroup_id hid, hostname, port, gtid_port gtid, weight, status, compression cmp, max_connections max_conns, max_replication_lag max_lag, use_ssl ssl, max_latency_ms max_lat, comment, mem_pointer FROM mysql_servers WHERE hostgroup_id=%d" , hidonly); mydb->execute_statement(q1, &error , &cols , &affected_rows , &resultset); free(q1); } if (error) { proxy_error("Error on read from mysql_servers : %s\n", error); } else { if (resultset) { if (_onlyhg==NULL) { proxy_info("Dumping mysql_servers: ALL\n"); } else { int hidonly=*_onlyhg; proxy_info("Dumping mysql_servers: HG %d\n", hidonly); } resultset->dump_to_stderr(); } } if (resultset) { delete resultset; resultset=NULL; } } delete lst; } /** * @brief Generate the mysql_replication_hostgroups table based on incoming data. * * This function populates the mysql_replication_hostgroups table in the host groups manager database * using the incoming replication hostgroups data. It iterates through each row of the incoming data, * constructs an SQL INSERT query to insert the data into the table, and executes the query. * If verbose mode is enabled, it logs information about each row being processed. * * @note This function assumes that the incoming_replication_hostgroups member variable is not NULL. * If it is NULL, the function returns without performing any action. */ void MySQL_HostGroups_Manager::generate_mysql_replication_hostgroups_table() { if (incoming_replication_hostgroups==NULL) return; if (mysql_thread___hostgroup_manager_verbose) { proxy_info("New mysql_replication_hostgroups table\n"); } for (std::vector::iterator it = incoming_replication_hostgroups->rows.begin() ; it != incoming_replication_hostgroups->rows.end(); ++it) { SQLite3_row *r=*it; char *o=NULL; int comment_length=0; // #issue #643 //if (r->fields[3]) { // comment is not null o=escape_string_single_quotes(r->fields[3],false); comment_length=strlen(o); //} char *query=(char *)malloc(256+comment_length); //if (r->fields[3]) { // comment is not null sprintf(query,"INSERT INTO mysql_replication_hostgroups VALUES(%s,%s,'%s','%s')",r->fields[0], r->fields[1], r->fields[2], o); if (o!=r->fields[3]) { // there was a copy free(o); } //} else { //sprintf(query,"INSERT INTO mysql_replication_hostgroups VALUES(%s,%s,NULL)",r->fields[0],r->fields[1]); //} mydb->execute(query); if (mysql_thread___hostgroup_manager_verbose) { fprintf(stderr,"writer_hostgroup: %s , reader_hostgroup: %s, check_type %s, comment: %s\n", r->fields[0],r->fields[1], r->fields[2], r->fields[3]); } free(query); } incoming_replication_hostgroups=NULL; } void MySQL_HostGroups_Manager::update_table_mysql_servers_for_monitor(bool lock) { if (lock) { wrlock(); } std::lock_guard mysql_servers_lock(this->mysql_servers_to_monitor_mutex); char* error = NULL; int cols = 0; int affected_rows = 0; SQLite3_result* resultset = NULL; const char* query = "SELECT hostname, port, status, use_ssl FROM mysql_servers WHERE status != 3 GROUP BY hostname, port"; proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 4, "%s\n", query); mydb->execute_statement(query, &error , &cols , &affected_rows , &resultset); if (error != nullptr) { proxy_error("Error on read from mysql_servers : %s\n", error); } else { if (resultset != nullptr) { delete this->mysql_servers_to_monitor; this->mysql_servers_to_monitor = resultset; } } if (lock) { wrunlock(); } MySQL_Monitor::trigger_dns_cache_update(); } /** * @brief Dump data from a specified MySQL table. * * This function retrieves data from the specified MySQL table and returns it as a result set. * The table name determines the SQL query to be executed to fetch the data. If the table is * one of the predefined tables with special handling (e.g., mysql_servers), additional actions * such as purging and generating the table may be performed before fetching the data. * * @param name The name of the MySQL table from which to dump data. * @return A SQLite3_result pointer representing the result set containing the dumped data. * The caller is responsible for managing the memory of the result set. * @note If the provided table name is not recognized, the function assertion fails. */ SQLite3_result * MySQL_HostGroups_Manager::dump_table_mysql(const string& name) { char * query = (char *)""; if (name == "mysql_aws_aurora_hostgroups") { query=(char *)"SELECT writer_hostgroup,reader_hostgroup,active,aurora_port,domain_name,max_lag_ms," "check_interval_ms,check_timeout_ms,writer_is_also_reader,new_reader_weight,add_lag_ms,min_lag_ms,lag_num_checks,comment FROM mysql_aws_aurora_hostgroups"; } else if (name == "mysql_galera_hostgroups") { query=(char *)"SELECT writer_hostgroup,backup_writer_hostgroup,reader_hostgroup,offline_hostgroup,active,max_writers,writer_is_also_reader,max_transactions_behind,comment FROM mysql_galera_hostgroups"; } else if (name == "mysql_group_replication_hostgroups") { query=(char *)"SELECT writer_hostgroup,backup_writer_hostgroup,reader_hostgroup,offline_hostgroup,active,max_writers,writer_is_also_reader,max_transactions_behind,comment FROM mysql_group_replication_hostgroups"; } else if (name == "mysql_replication_hostgroups") { query=(char *)"SELECT writer_hostgroup, reader_hostgroup, check_type, comment FROM mysql_replication_hostgroups"; } else if (name == "mysql_hostgroup_attributes") { query=(char *)"SELECT hostgroup_id, max_num_online_servers, autocommit, free_connections_pct, init_connect, multiplex, connection_warming, throttle_connections_per_sec, ignore_session_variables, hostgroup_settings, servers_defaults, comment FROM mysql_hostgroup_attributes ORDER BY hostgroup_id"; } else if (name == "mysql_servers_ssl_params") { query=(char *)"SELECT hostname, port, username, ssl_ca, ssl_cert, ssl_key, ssl_capath, ssl_crl, ssl_crlpath, ssl_cipher, tls_version, comment FROM mysql_servers_ssl_params ORDER BY hostname, port, username"; } else if (name == "mysql_servers") { query = (char *)MYHGM_GEN_ADMIN_RUNTIME_SERVERS; } else if (name == "cluster_mysql_servers") { query = (char *)MYHGM_GEN_CLUSTER_ADMIN_RUNTIME_SERVERS; } else { assert(0); } wrlock(); if (name == "mysql_servers") { purge_mysql_servers_table(); proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 4, "DELETE FROM mysql_servers\n"); mydb->execute("DELETE FROM mysql_servers"); generate_mysql_servers_table(); } char *error=NULL; int cols=0; int affected_rows=0; SQLite3_result *resultset=NULL; proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 4, "%s\n", query); mydb->execute_statement(query, &error , &cols , &affected_rows , &resultset); wrunlock(); return resultset; } #endif // 0 /** * @brief Create a new MySQL host group container. * * This function creates a new instance of the MySQL host group container (`MyHGC`) with * the specified host group ID and returns a pointer to it. * * @param _hid The host group ID for the new container. * @return A pointer to the newly created `MyHGC` instance. */ template HGC * Base_HostGroups_Manager::MyHGC_create(unsigned int _hid) { HGC *myhgc=new HGC(_hid); return myhgc; } /** * @brief Find a MySQL host group container by host group ID. * * This function searches for a MySQL host group container with the specified host group ID * in the list of host groups. If found, it returns a pointer to the container; otherwise, * it returns a null pointer. * * @param _hid The host group ID to search for. * @return A pointer to the found `MyHGC` instance if found; otherwise, a null pointer. */ template HGC * Base_HostGroups_Manager::MyHGC_find(unsigned int _hid) { if (MyHostGroups->len < 100) { // for few HGs, we use the legacy search for (unsigned int i=0; ilen; i++) { HGC *myhgc=(HGC *)MyHostGroups->index(i); if (myhgc->hid==_hid) { return myhgc; } } } else { // for a large number of HGs, we use the unordered_map // this search is slower for a small number of HGs, therefore we use // it only for large number of HGs typename std::unordered_map::const_iterator it = MyHostGroups_map.find(_hid); if (it != MyHostGroups_map.end()) { HGC *myhgc = it->second; return myhgc; } } return NULL; } /** * @brief Lookup or create a MySQL host group container by host group ID. * * This function looks up a MySQL host group container with the specified host group ID. If * found, it returns a pointer to the existing container; otherwise, it creates a new container * with the specified host group ID, adds it to the list of host groups, and returns a pointer * to it. * * @param _hid The host group ID to lookup or create. * @return A pointer to the found or newly created `MyHGC` instance. * @note The function assertion fails if a newly created container is not found. */ template HGC * Base_HostGroups_Manager::MyHGC_lookup(unsigned int _hid) { HGC *myhgc=NULL; myhgc=MyHGC_find(_hid); if (myhgc==NULL) { myhgc=MyHGC_create(_hid); } else { return myhgc; } assert(myhgc); MyHostGroups->add(myhgc); MyHostGroups_map.emplace(_hid,myhgc); return myhgc; } #if 0 void MySQL_HostGroups_Manager::increase_reset_counter() { wrlock(); status.myconnpoll_reset++; wrunlock(); } /** * @brief Pushes a MySQL_Connection back to the connection pool. * * This method is responsible for returning a MySQL_Connection object back to its associated connection pool * after it has been used. It performs various checks and optimizations before deciding whether to return * the connection to the pool or destroy it. * * @param c The MySQL_Connection object to be pushed back to the pool. * @param _lock Boolean flag indicating whether to acquire a lock before performing the operation. Default is true. * * @note The method assumes that the provided MySQL_Connection object has a valid parent server (MySrvC). * If the parent server is not valid, unexpected behavior may occur. * * @note The method also assumes that the global thread handler (GloMTH) is available and initialized properly. * If the global thread handler is not initialized, certain checks may fail, leading to unexpected behavior. */ void MySQL_HostGroups_Manager::push_MyConn_to_pool(MySQL_Connection *c, bool _lock) { // Ensure that the provided connection has a valid parent server assert(c->parent); MySrvC *mysrvc = nullptr; // Pointer to the parent server object // Acquire a lock if specified if (_lock) wrlock(); // Reset the auto-increment delay token associated with the connection c->auto_increment_delay_token = 0; // Increment the counter tracking the number of connections pushed back to the pool status.myconnpoll_push++; // Obtain a pointer to the parent server (MySrvC) mysrvc = static_cast(c->parent); // Log debug information about the connection being returned to the pool proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 7, "Returning MySQL_Connection %p, server %s:%d with status %d\n", c, mysrvc->address, mysrvc->port, (int)mysrvc->get_status()); // Remove the connection from the list of used connections for the parent server mysrvc->ConnectionsUsed->remove(c); // If the global thread handler (GloMTH) is not available, skip further processing if (GloMTH == nullptr) { goto __exit_push_MyConn_to_pool; } // If the largest query length exceeds the threshold, destroy the connection if (c->largest_query_length > (unsigned int)GloMTH->variables.threshold_query_length) { proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 7, "Destroying MySQL_Connection %p, server %s:%d with status %d . largest_query_length = %lu\n", c, mysrvc->address, mysrvc->port, (int)mysrvc->get_status(), c->largest_query_length); delete c; goto __exit_push_MyConn_to_pool; } // If the server is online and the connection is in the idle state if (mysrvc->get_status() == MYSQL_SERVER_STATUS_ONLINE) { if (c->async_state_machine==ASYNC_IDLE) { if (GloMTH == NULL) { goto __exit_push_MyConn_to_pool; } if (c->local_stmts->get_num_backend_stmts() > (unsigned int)GloMTH->variables.max_stmts_per_connection) { // Check if the connection has too many prepared statements // Log debug information about destroying the connection due to too many prepared statements proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 7, "Destroying MySQL_Connection %p, server %s:%d with status %d because has too many prepared statements\n", c, mysrvc->address, mysrvc->port, (int)mysrvc->get_status()); // delete c; mysrvc->ConnectionsUsed->add(c); // Add the connection back to the list of used connections destroy_MyConn_from_pool(c, false); // Destroy the connection from the pool } else { c->optimize(); // Optimize the connection mysrvc->ConnectionsFree->add(c); // Add the connection to the list of free connections } } else { // Log debug information about destroying the connection proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 7, "Destroying MySQL_Connection %p, server %s:%d with status %d\n", c, mysrvc->address, mysrvc->port, (int)mysrvc->get_status()); delete c; // Destroy the connection } } else { // Log debug information about destroying the connection proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 7, "Destroying MySQL_Connection %p, server %s:%d with status %d\n", c, mysrvc->address, mysrvc->port, (int)mysrvc->get_status()); delete c; // Destroy the connection } // Exit point for releasing the lock __exit_push_MyConn_to_pool: if (_lock) wrunlock(); // Release the lock if acquired } /** * @brief Pushes an array of MySQL_Connection objects back to the connection pool. * * This method is responsible for returning an array of MySQL_Connection objects back to their associated * connection pool after they have been used. It iterates through the array and calls the push_MyConn_to_pool * method for each connection without acquiring a lock for each individual push operation. * * @param ca An array of MySQL_Connection pointers representing the connections to be pushed back to the pool. * @param cnt The number of connections in the array. * * @note This method assumes that the array of connections is valid and does not contain any nullptr entries. * Unexpected behavior may occur if the array contains invalid pointers. */ void MySQL_HostGroups_Manager::push_MyConn_to_pool_array(MySQL_Connection **ca, unsigned int cnt) { unsigned int i=0; // Index variable for iterating through the array MySQL_Connection *c = nullptr; // Pointer to hold the current connection from the array c=ca[i]; // Acquire a write lock to perform the operations atomically wrlock(); // Iterate through the array of connections while (ivariables.hostgroup_manager_verbose >= 3) { char buf[64]; if (skip_hid == NULL) { sprintf(buf,"NULL"); } else { sprintf(buf,"%u", *skip_hid); } proxy_info("Calling unshun_server_all_hostgroups() for server %s:%d . Arguments: %lu , %d , %s\n" , address, port, t, max_wait_sec, buf); } int i, j; for (i=0; i<(int)MyHostGroups->len; i++) { MyHGC *myhgc=(MyHGC *)MyHostGroups->index(i); if (skip_hid != NULL && myhgc->hid == *skip_hid) { // if skip_hid is not NULL, we skip that specific hostgroup continue; } bool found = false; // was this server already found in this hostgroup? for (j=0; found==false && j<(int)myhgc->mysrvs->cnt(); j++) { MySrvC *mysrvc=(MySrvC *)myhgc->mysrvs->servers->index(j); if (mysrvc->get_status() == MYSQL_SERVER_STATUS_SHUNNED) { // we only care for SHUNNED nodes // Note that we check for address and port only for status==MYSQL_SERVER_STATUS_SHUNNED , // that means that potentially we will pass by the matching node and still looping . // This is potentially an optimization because we only check status and do not perform any strcmp() if (strcmp(mysrvc->address,address)==0 && mysrvc->port==port) { // we found the server in this hostgroup // no need to process more servers in the same hostgroup found = true; if (t > mysrvc->time_last_detected_error && (t - mysrvc->time_last_detected_error) > max_wait_sec) { if ( (mysrvc->shunned_and_kill_all_connections==false) // it is safe to bring it back online || (mysrvc->shunned_and_kill_all_connections==true && mysrvc->ConnectionsUsed->conns_length()==0 && mysrvc->ConnectionsFree->conns_length()==0) // if shunned_and_kill_all_connections is set, ensure all connections are already dropped ) { if (GloMTH->variables.hostgroup_manager_verbose >= 3) { proxy_info("Unshunning server %d:%s:%d . time_last_detected_error=%lu\n", mysrvc->myhgc->hid, address, port, mysrvc->time_last_detected_error); } mysrvc->set_status(MYSQL_SERVER_STATUS_ONLINE); mysrvc->shunned_automatic=false; mysrvc->shunned_and_kill_all_connections=false; mysrvc->connect_ERR_at_time_last_detected_error=0; mysrvc->time_last_detected_error=0; } } } } } } } /** * @brief Retrieves a MySQL_Connection from the connection pool for a given hostgroup. * * This method is responsible for retrieving a MySQL_Connection from the connection pool associated * with the specified hostgroup. It selects a random MySQL server within the hostgroup based on various * criteria such as GTID information, maximum lag, and session attributes. If a suitable connection is found, * it is marked as used and returned to the caller. * * @param _hid The ID of the hostgroup from which to retrieve the connection. * @param sess A pointer to the MySQL_Session object associated with the connection. * @param ff A boolean flag indicating whether to prioritize failover connections. * @param gtid_uuid The GTID UUID used for GTID-based routing. * @param gtid_trxid The GTID transaction ID used for GTID-based routing. * @param max_lag_ms The maximum allowed lag in milliseconds. * * @return A pointer to the retrieved MySQL_Connection object if successful, or nullptr if no suitable connection * is available in the pool. * * @note This method locks the connection pool to ensure thread safety during access. It releases the lock once * the operation is completed. */ MySQL_Connection * MySQL_HostGroups_Manager::get_MyConn_from_pool(unsigned int _hid, MySQL_Session *sess, bool ff, char * gtid_uuid, uint64_t gtid_trxid, int max_lag_ms) { MySQL_Connection * conn = nullptr; // Pointer to hold the retrieved MySQL_Connection // Acquire a write lock to access the connection pool wrlock(); // Increment the counter for connection pool retrieval attempts status.myconnpoll_get++; // Look up the hostgroup by ID and retrieve a random MySQL server from it based on specified criteria MyHGC *myhgc=MyHGC_lookup(_hid); MySrvC *mysrvc = NULL; #ifdef TEST_AURORA for (int i=0; i<10; i++) #endif // TEST_AURORA mysrvc = myhgc->get_random_MySrvC(gtid_uuid, gtid_trxid, max_lag_ms, sess); if (mysrvc) { // a MySrvC exists. If not, we return NULL = no targets // Attempt to get a random MySQL_Connection from the server's free connection pool conn=mysrvc->ConnectionsFree->get_random_MyConn(sess, ff); // If a connection is obtained, mark it as used and update connection pool statistics if (conn) { mysrvc->ConnectionsUsed->add(conn); status.myconnpoll_get_ok++; mysrvc->update_max_connections_used(); } } // Release the write lock after accessing the connection pool wrunlock(); // Debug message indicating the retrieved MySQL_Connection and its server details proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 7, "Returning MySQL Connection %p, server %s:%d\n", conn, (conn ? conn->parent->address : "") , (conn ? conn->parent->port : 0 )); // Return the retrieved MySQL_Connection (or nullptr if none available) return conn; } void MySQL_HostGroups_Manager::destroy_MyConn_from_pool(MySQL_Connection *c, bool _lock) { bool to_del=true; // the default, legacy behavior MySrvC *mysrvc=(MySrvC *)c->parent; if (mysrvc->get_status() == MYSQL_SERVER_STATUS_ONLINE && c->send_quit && queue.size() < __sync_fetch_and_add(&GloMTH->variables.connpoll_reset_queue_length, 0)) { if (c->async_state_machine==ASYNC_IDLE) { // overall, the backend seems healthy and so it is the connection. Try to reset it int myerr=mysql_errno(c->mysql); if (myerr >= 2000 && myerr < 3000) { // client library error . We must not try to save the connection proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 7, "Not trying to reset MySQL_Connection %p, server %s:%d . Error code %d\n", c, mysrvc->address, mysrvc->port, myerr); } else { proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 7, "Trying to reset MySQL_Connection %p, server %s:%d\n", c, mysrvc->address, mysrvc->port); to_del=false; queue.add(c); } } else { // the connection seems health, but we are trying to destroy it // probably because there is a long running query // therefore we will try to kill the connection if (mysql_thread___kill_backend_connection_when_disconnect) { int myerr=mysql_errno(c->mysql); switch (myerr) { case 1231: break; default: if (c->mysql->thread_id) { MySQL_Connection_userinfo *ui=c->userinfo; char *auth_password=NULL; if (ui->password) { if (ui->password[0]=='*') { // we don't have the real password, let's pass sha1 auth_password=ui->sha1_pass; } else { auth_password=ui->password; } } KillArgs *ka = new KillArgs(ui->username, auth_password, c->parent->address, c->parent->port, c->parent->myhgc->hid, c->mysql->thread_id, KILL_CONNECTION, c->parent->use_ssl, NULL, c->connected_host_details.ip); pthread_attr_t attr; pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); pthread_attr_setstacksize (&attr, 256*1024); pthread_t pt; if (pthread_create(&pt, &attr, &kill_query_thread, ka) != 0) { // LCOV_EXCL_START proxy_error("Thread creation\n"); assert(0); // LCOV_EXCL_STOP } } break; } } } } if (to_del) { // we lock only this part of the code because we need to remove the connection from ConnectionsUsed if (_lock) { wrlock(); } proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 7, "Destroying MySQL_Connection %p, server %s:%d\n", c, mysrvc->address, mysrvc->port); mysrvc->ConnectionsUsed->remove(c); status.myconnpoll_destroy++; if (_lock) { wrunlock(); } delete c; } } inline double get_prometheus_counter_val( std::map& counter_map, const std::string& endpoint_id ) { const auto& counter_entry = counter_map.find(endpoint_id); double current_val = 0; if (counter_entry != counter_map.end()) { current_val = counter_entry->second->Value(); } return current_val; } void reset_hg_attrs_server_defaults(MySrvC* mysrvc) { mysrvc->weight = -1; mysrvc->max_connections = -1; mysrvc->use_ssl = -1; } void update_hg_attrs_server_defaults(MySrvC* mysrvc, MyHGC* myhgc) { if (mysrvc->weight == -1) { if (myhgc->servers_defaults.weight != -1) { mysrvc->weight = myhgc->servers_defaults.weight; } else { // Same harcoded default as in 'CREATE TABLE mysql_servers ...' mysrvc->weight = 1; } } if (mysrvc->max_connections == -1) { if (myhgc->servers_defaults.max_connections != -1) { mysrvc->max_connections = myhgc->servers_defaults.max_connections; } else { // Same harcoded default as in 'CREATE TABLE mysql_servers ...' mysrvc->max_connections = 1000; } } if (mysrvc->use_ssl == -1) { if (myhgc->servers_defaults.use_ssl != -1) { mysrvc->use_ssl = myhgc->servers_defaults.use_ssl; } else { // Same harcoded default as in 'CREATE TABLE mysql_servers ...' mysrvc->use_ssl = 0; } } } /** * @brief Adds a MySQL server connection (MySrvC) to the specified hostgroup. * * This method adds a MySQL server connection (MySrvC) to the hostgroup identified by the given hostgroup ID (_hid). * It performs necessary updates to the server metrics and attributes associated with the hostgroup. Additionally, it * updates the endpoint metrics for the server based on its address and port. * * @param mysrvc A pointer to the MySQL server connection (MySrvC) to be added to the hostgroup. * @param _hid The ID of the hostgroup to which the server connection is being added. * * @note The method updates various metrics and attributes associated with the server and hostgroup. It also ensures * that endpoint metrics are updated to reflect the addition of the server to the hostgroup. */ void MySQL_HostGroups_Manager::add(MySrvC *mysrvc, unsigned int _hid) { // Debug message indicating the addition of the MySQL server connection to the hostgroup proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 7, "Adding MySrvC %p (%s:%d) for hostgroup %d\n", mysrvc, mysrvc->address, mysrvc->port, _hid); // Construct the endpoint ID using the hostgroup ID, server address, and port std::string endpoint_id { std::to_string(_hid) + ":" + string { mysrvc->address } + ":" + std::to_string(mysrvc->port) }; // Since metrics for servers are stored per-endpoint; the metrics for a particular endpoint can live longer than the // 'MySrvC' itself. For example, a failover or a server config change could remove the server from a particular // hostgroup, and a subsequent one bring it back to the original hostgroup. For this reason, everytime a 'mysrvc' is // created and added to a particular hostgroup, we update the endpoint metrics for it. // Update server metrics based on endpoint ID mysrvc->bytes_recv = get_prometheus_counter_val(this->status.p_conn_pool_bytes_data_recv_map, endpoint_id); mysrvc->bytes_sent = get_prometheus_counter_val(this->status.p_conn_pool_bytes_data_sent_map, endpoint_id); mysrvc->connect_ERR = get_prometheus_counter_val(this->status.p_connection_pool_conn_err_map, endpoint_id); mysrvc->connect_OK = get_prometheus_counter_val(this->status.p_connection_pool_conn_ok_map, endpoint_id); mysrvc->queries_sent = get_prometheus_counter_val(this->status.p_connection_pool_queries_map, endpoint_id); // Lookup the hostgroup by ID and add the server connection to it MyHGC *myhgc=MyHGC_lookup(_hid); // Update server defaults with hostgroup attributes update_hg_attrs_server_defaults(mysrvc, myhgc); // Add the server to the hostgroup's servers list myhgc->mysrvs->add(mysrvc); } void MySQL_HostGroups_Manager::replication_lag_action_inner(MyHGC *myhgc, const char *address, unsigned int port, int current_replication_lag, bool override_repl_lag) { if (current_replication_lag == -1 && override_repl_lag == true) { current_replication_lag = myhgc->get_monitor_slave_lag_when_null(); override_repl_lag = false; proxy_error("Replication lag on server %s:%d is NULL, using value %d\n", address, port, current_replication_lag); } for (int j=0; j<(int)myhgc->mysrvs->cnt(); j++) { MySrvC *mysrvc=(MySrvC *)myhgc->mysrvs->servers->index(j); if (strcmp(mysrvc->address,address)==0 && mysrvc->port==port) { mysrvc->cur_replication_lag = current_replication_lag; if (mysrvc->get_status() == MYSQL_SERVER_STATUS_ONLINE) { if ( // (current_replication_lag==-1 ) // || ( current_replication_lag >= 0 && mysrvc->max_replication_lag > 0 && // see issue #4018 (current_replication_lag > (int)mysrvc->max_replication_lag) ) ) { // always increase the counter mysrvc->cur_replication_lag_count += 1; if (mysrvc->cur_replication_lag_count >= (unsigned int)mysql_thread___monitor_replication_lag_count) { proxy_warning("Shunning server %s:%d from HG %u with replication lag of %d second, count number: '%d'\n", address, port, myhgc->hid, current_replication_lag, mysrvc->cur_replication_lag_count); mysrvc->set_status(MYSQL_SERVER_STATUS_SHUNNED_REPLICATION_LAG); } else { proxy_info( "Not shunning server %s:%d from HG %u with replication lag of %d second, count number: '%d' < replication_lag_count: '%d'\n", address, port, myhgc->hid, current_replication_lag, mysrvc->cur_replication_lag_count, mysql_thread___monitor_replication_lag_count ); } } else { mysrvc->cur_replication_lag_count = 0; } } else { if (mysrvc->get_status() == MYSQL_SERVER_STATUS_SHUNNED_REPLICATION_LAG) { if ( (/*current_replication_lag >= 0 &&*/override_repl_lag == false && (current_replication_lag <= (int)mysrvc->max_replication_lag)) || (current_replication_lag==-2 && override_repl_lag == true) // see issue 959 ) { mysrvc->set_status(MYSQL_SERVER_STATUS_ONLINE); proxy_warning("Re-enabling server %s:%d from HG %u with replication lag of %d second\n", address, port, myhgc->hid, current_replication_lag); mysrvc->cur_replication_lag_count = 0; } } } return; } } } void MySQL_HostGroups_Manager::replication_lag_action(const std::list& mysql_servers) { //this method does not use admin table, so this lock is not needed. //GloAdmin->mysql_servers_wrlock(); unsigned long long curtime1 = monotonic_time(); wrlock(); for (const auto& server : mysql_servers) { const int hid = std::get(server); const std::string& address = std::get(server); const unsigned int port = std::get(server); const int current_replication_lag = std::get(server); const bool override_repl_lag = std::get(server); if (mysql_thread___monitor_replication_lag_group_by_host == false) { // legacy check. 1 check per server per hostgroup MyHGC *myhgc = MyHGC_find(hid); replication_lag_action_inner(myhgc,address.c_str(),port,current_replication_lag,override_repl_lag); } else { // only 1 check per server, no matter the hostgroup // all hostgroups must be searched for (unsigned int i=0; ilen; i++) { MyHGC*myhgc=(MyHGC*)MyHostGroups->index(i); replication_lag_action_inner(myhgc,address.c_str(),port,current_replication_lag,override_repl_lag); } } } wrunlock(); //GloAdmin->mysql_servers_wrunlock(); unsigned long long curtime2 = monotonic_time(); curtime1 = curtime1 / 1000; curtime2 = curtime2 / 1000; proxy_debug(PROXY_DEBUG_MONITOR, 7, "MySQL_HostGroups_Manager::replication_lag_action() locked for %llums (server count:%ld)\n", curtime2 - curtime1, mysql_servers.size()); } void MySQL_HostGroups_Manager::drop_all_idle_connections() { // NOTE: the caller should hold wrlock int i, j; for (i=0; i<(int)MyHostGroups->len; i++) { MyHGC *myhgc=(MyHGC *)MyHostGroups->index(i); for (j=0; j<(int)myhgc->mysrvs->cnt(); j++) { MySrvC *mysrvc=(MySrvC *)myhgc->mysrvs->servers->index(j); if (mysrvc->get_status()!=MYSQL_SERVER_STATUS_ONLINE) { proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 5, "Server %s:%d is not online\n", mysrvc->address, mysrvc->port); //__sync_fetch_and_sub(&status.server_connections_connected, mysrvc->ConnectionsFree->conns->len); mysrvc->ConnectionsFree->drop_all_connections(); } // Drop idle connections if beyond max_connection while (mysrvc->ConnectionsFree->conns_length() && mysrvc->ConnectionsUsed->conns_length()+mysrvc->ConnectionsFree->conns_length() > mysrvc->max_connections) { MySQL_Connection *conn=mysrvc->ConnectionsFree->remove(0); delete conn; } //PtrArray *pa=mysrvc->ConnectionsFree->conns; MySrvConnList *mscl=mysrvc->ConnectionsFree; int free_connections_pct = mysql_thread___free_connections_pct; if (mysrvc->myhgc->attributes.configured == true) { // mysql_hostgroup_attributes takes priority free_connections_pct = mysrvc->myhgc->attributes.free_connections_pct; } while (mscl->conns_length() > free_connections_pct*mysrvc->max_connections/100) { MySQL_Connection *mc=mscl->remove(0); delete mc; } // drop all connections with life exceeding mysql-connection_max_age if (mysql_thread___connection_max_age_ms) { unsigned long long curtime=monotonic_time(); int i=0; for (i=0; i<(int)mscl->conns_length() ; i++) { MySQL_Connection *mc=mscl->index(i); unsigned long long intv = mysql_thread___connection_max_age_ms; intv *= 1000; if (curtime > mc->creation_time + intv) { mc=mscl->remove(0); delete mc; i--; } } } } } } /* * Prepares at most num_conn idle connections in the given hostgroup for * pinging. When -1 is passed as a hostgroup, all hostgroups are examined. * * The resulting idle connections are returned in conn_list. Note that not all * currently idle connections will be returned (some might be purged). * * Connections are purged according to 2 criteria: * - whenever the maximal number of connections for a server is hit, free * connections will be purged * - also, idle connections that cause the number of free connections to rise * above a certain percentage of the maximal number of connections will be * dropped as well */ int MySQL_HostGroups_Manager::get_multiple_idle_connections(int _hid, unsigned long long _max_last_time_used, MySQL_Connection **conn_list, int num_conn) { wrlock(); drop_all_idle_connections(); int num_conn_current=0; int j,k; MyHGC* myhgc = NULL; // Multimap holding the required info for accesing the oldest idle connections found. std::multimap> oldest_idle_connections {}; for (int i=0; i<(int)MyHostGroups->len; i++) { if (_hid == -1) { // all hostgroups must be examined // as of version 2.3.2 , this is always the case myhgc=(MyHGC *)MyHostGroups->index(i); } else { // only one hostgroup is examined // as of version 2.3.2 , this never happen // but the code support this functionality myhgc = MyHGC_find(_hid); i = (int)MyHostGroups->len; // to exit from this "for" loop if (myhgc == NULL) continue; // immediately exit } if (_hid >= 0 && _hid!=(int)myhgc->hid) continue; for (j=0; j<(int)myhgc->mysrvs->cnt(); j++) { MySrvC *mysrvc=(MySrvC *)myhgc->mysrvs->servers->index(j); //PtrArray *pa=mysrvc->ConnectionsFree->conns; MySrvConnList *mscl=mysrvc->ConnectionsFree; for (k=0; k<(int)mscl->conns_length(); k++) { MySQL_Connection *mc=mscl->index(k); // If the connection is idle ... if (mc->last_time_used && mc->last_time_used < _max_last_time_used) { if ((int)oldest_idle_connections.size() < num_conn) { oldest_idle_connections.insert({mc->last_time_used, { mysrvc, k }}); } else if (num_conn != 0) { auto last_elem_it = std::prev(oldest_idle_connections.end()); if (mc->last_time_used < last_elem_it->first) { oldest_idle_connections.erase(last_elem_it); oldest_idle_connections.insert({mc->last_time_used, { mysrvc, k }}); } } } } } } // In order to extract the found connections, the following actions must be performed: // // 1. Filter the found connections by 'MySrvC'. // 2. Order by indexes on 'ConnectionsFree' in desc order. // 3. Move the conns from 'ConnectionsFree' into 'ConnectionsUsed'. std::unordered_map> mysrvcs_conns_idxs {}; // 1. Filter the connections by 'MySrvC'. // // We extract this for being able to later iterate through the obtained 'MySrvC' using the conn indexes. for (const auto& conn_info : oldest_idle_connections) { MySrvC* mysrvc = conn_info.second.first; int32_t mc_idx = conn_info.second.second; auto mysrcv_it = mysrvcs_conns_idxs.find(mysrvc); if (mysrcv_it == mysrvcs_conns_idxs.end()) { mysrvcs_conns_idxs.insert({ mysrvc, { mc_idx }}); } else { mysrcv_it->second.push_back(mc_idx); } } // 2. Order by indexes on FreeConns in desc order. // // Since the conns are stored in 'ConnectionsFree', which holds the conns in a 'PtrArray', and we plan // to remove multiple connections using the pre-stored indexes. We need to reorder the indexes in 'desc' // order, otherwise we could be trashing the array while consuming it. See 'PtrArray::remove_index_fast'. for (auto& mysrvc_conns_idxs : mysrvcs_conns_idxs) { std::sort(std::begin(mysrvc_conns_idxs.second), std::end(mysrvc_conns_idxs.second), std::greater()); } // 3. Move the conns from 'ConnectionsFree' into 'ConnectionsUsed'. for (auto& conn_info : mysrvcs_conns_idxs) { MySrvC* mysrvc = conn_info.first; for (const int conn_idx : conn_info.second) { MySrvConnList* mscl = mysrvc->ConnectionsFree; MySQL_Connection* mc = mscl->remove(conn_idx); mysrvc->ConnectionsUsed->add(mc); conn_list[num_conn_current] = mc; num_conn_current++; // Left here as a safeguard if (num_conn_current >= num_conn) { goto __exit_get_multiple_idle_connections; } } } __exit_get_multiple_idle_connections: status.myconnpoll_get_ping+=num_conn_current; wrunlock(); proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 7, "Returning %d idle connections\n", num_conn_current); return num_conn_current; } void MySQL_HostGroups_Manager::save_incoming_mysql_table(SQLite3_result *s, const string& name) { SQLite3_result ** inc = NULL; if (name == "mysql_aws_aurora_hostgroups") { inc = &incoming_aws_aurora_hostgroups; } else if (name == "mysql_galera_hostgroups") { inc = &incoming_galera_hostgroups; } else if (name == "mysql_group_replication_hostgroups") { inc = &incoming_group_replication_hostgroups; } else if (name == "mysql_replication_hostgroups") { inc = &incoming_replication_hostgroups; } else if (name == "mysql_hostgroup_attributes") { inc = &incoming_hostgroup_attributes; } else if (name == "mysql_servers_ssl_params") { inc = &incoming_mysql_servers_ssl_params; } else { assert(0); } if (*inc != nullptr) { delete *inc; *inc = nullptr; } *inc = s; } void MySQL_HostGroups_Manager::save_runtime_mysql_servers(SQLite3_result *s) { if (runtime_mysql_servers) { delete runtime_mysql_servers; runtime_mysql_servers = nullptr; } runtime_mysql_servers=s; } void MySQL_HostGroups_Manager::save_mysql_servers_v2(SQLite3_result* s) { if (incoming_mysql_servers_v2) { delete incoming_mysql_servers_v2; incoming_mysql_servers_v2 = nullptr; } incoming_mysql_servers_v2 = s; } /** * @brief Retrieves the current SQLite3 result set associated with the specified MySQL table name. * * This method retrieves the current SQLite3 result set corresponding to the specified MySQL table name. * The method is used to obtain the result set for various MySQL tables, such as hostgroups, replication configurations, * SSL parameters, and runtime server information. * * @param name The name of the MySQL table for which the current SQLite3 result set is to be retrieved. * Supported table names include: * - "mysql_aws_aurora_hostgroups" * - "mysql_galera_hostgroups" * - "mysql_group_replication_hostgroups" * - "mysql_replication_hostgroups" * - "mysql_hostgroup_attributes" * - "mysql_servers_ssl_params" * - "cluster_mysql_servers" * - "mysql_servers_v2" * * @return A pointer to the current SQLite3 result set associated with the specified MySQL table name. * If the table name is not recognized or no result set is available for the specified table, NULL is returned. * * @note The method assumes that the result sets are stored in class member variables, and it returns the pointer to * the appropriate result set based on the provided table name. If the table name is not recognized, an assertion * failure occurs, indicating an invalid table name. */ SQLite3_result* MySQL_HostGroups_Manager::get_current_mysql_table(const string& name) { if (name == "mysql_aws_aurora_hostgroups") { return this->incoming_aws_aurora_hostgroups; } else if (name == "mysql_galera_hostgroups") { return this->incoming_galera_hostgroups; } else if (name == "mysql_group_replication_hostgroups") { return this->incoming_group_replication_hostgroups; } else if (name == "mysql_replication_hostgroups") { return this->incoming_replication_hostgroups; } else if (name == "mysql_hostgroup_attributes") { return this->incoming_hostgroup_attributes; } else if (name == "mysql_servers_ssl_params") { return this->incoming_mysql_servers_ssl_params; } else if (name == "cluster_mysql_servers") { return this->runtime_mysql_servers; } else if (name == "mysql_servers_v2") { return this->incoming_mysql_servers_v2; } else { assert(0); // Assertion failure for unrecognized table name } return NULL; } SQLite3_result * MySQL_HostGroups_Manager::SQL3_Free_Connections() { const int colnum=13; proxy_debug(PROXY_DEBUG_MYSQL_CONNECTION, 4, "Dumping Free Connections in Pool\n"); SQLite3_result *result=new SQLite3_result(colnum); result->add_column_definition(SQLITE_TEXT,"fd"); result->add_column_definition(SQLITE_TEXT,"hostgroup"); result->add_column_definition(SQLITE_TEXT,"srv_host"); result->add_column_definition(SQLITE_TEXT,"srv_port"); result->add_column_definition(SQLITE_TEXT,"user"); result->add_column_definition(SQLITE_TEXT,"schema"); result->add_column_definition(SQLITE_TEXT,"init_connect"); result->add_column_definition(SQLITE_TEXT,"time_zone"); result->add_column_definition(SQLITE_TEXT,"sql_mode"); result->add_column_definition(SQLITE_TEXT,"autocommit"); result->add_column_definition(SQLITE_TEXT,"idle_ms"); result->add_column_definition(SQLITE_TEXT,"statistics"); result->add_column_definition(SQLITE_TEXT,"mysql_info"); unsigned long long curtime = monotonic_time(); wrlock(); int i,j, k, l; for (i=0; i<(int)MyHostGroups->len; i++) { MyHGC *myhgc=(MyHGC *)MyHostGroups->index(i); for (j=0; j<(int)myhgc->mysrvs->cnt(); j++) { MySrvC *mysrvc=(MySrvC *)myhgc->mysrvs->servers->index(j); if (mysrvc->get_status()!=MYSQL_SERVER_STATUS_ONLINE) { proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 5, "Server %s:%d is not online\n", mysrvc->address, mysrvc->port); mysrvc->ConnectionsFree->drop_all_connections(); } // drop idle connections if beyond max_connection while (mysrvc->ConnectionsFree->conns_length() && mysrvc->ConnectionsUsed->conns_length()+mysrvc->ConnectionsFree->conns_length() > mysrvc->max_connections) { //MySQL_Connection *conn=(MySQL_Connection *)mysrvc->ConnectionsFree->conns->remove_index_fast(0); MySQL_Connection *conn=mysrvc->ConnectionsFree->remove(0); delete conn; } char buf[1024]; for (l=0; l < (int) mysrvc->ConnectionsFree->conns_length(); l++) { char **pta=(char **)malloc(sizeof(char *)*colnum); MySQL_Connection *conn = mysrvc->ConnectionsFree->index(l); sprintf(buf,"%d", conn->fd); pta[0]=strdup(buf); sprintf(buf,"%d", (int)myhgc->hid); pta[1]=strdup(buf); pta[2]=strdup(mysrvc->address); sprintf(buf,"%d", mysrvc->port); pta[3]=strdup(buf); pta[4] = strdup(conn->userinfo->username); pta[5] = strdup(conn->userinfo->schemaname); pta[6] = NULL; if (conn->options.init_connect) { pta[6] = strdup(conn->options.init_connect); } pta[7] = NULL; if (conn->variables[SQL_TIME_ZONE].value) { pta[7] = strdup(conn->variables[SQL_TIME_ZONE].value); } pta[8] = NULL; if (conn->variables[SQL_SQL_MODE].value) { pta[8] = strdup(conn->variables[SQL_SQL_MODE].value); } sprintf(buf,"%d", conn->options.autocommit); pta[9]=strdup(buf); sprintf(buf,"%llu", (curtime-conn->last_time_used)/1000); pta[10]=strdup(buf); { json j; char buff[32]; sprintf(buff,"%p",conn); j["address"] = buff; uint64_t age_ms = (curtime - conn->creation_time)/1000; j["age_ms"] = age_ms; j["bytes_recv"] = conn->bytes_info.bytes_recv; j["bytes_sent"] = conn->bytes_info.bytes_sent; j["myconnpoll_get"] = conn->statuses.myconnpoll_get; j["myconnpoll_put"] = conn->statuses.myconnpoll_put; j["questions"] = conn->statuses.questions; string s = j.dump(); pta[11] = strdup(s.c_str()); } { MYSQL *_my = conn->mysql; json j; char buff[32]; sprintf(buff,"%p",_my); j["address"] = buff; j["host"] = _my->host; j["host_info"] = _my->host_info; j["port"] = _my->port; j["server_version"] = _my->server_version; j["user"] = _my->user; j["unix_socket"] = (_my->unix_socket ? _my->unix_socket : ""); j["db"] = (_my->db ? _my->db : ""); j["affected_rows"] = _my->affected_rows; j["insert_id"] = _my->insert_id; j["thread_id"] = _my->thread_id; j["server_status"] = _my->server_status; j["charset"] = _my->charset->nr; j["charset_name"] = _my->charset->csname; j["options"]["charset_name"] = ( _my->options.charset_name ? _my->options.charset_name : "" ); j["options"]["use_ssl"] = _my->options.use_ssl; j["client_flag"]["client_found_rows"] = (_my->client_flag & CLIENT_FOUND_ROWS ? 1 : 0); j["client_flag"]["client_multi_statements"] = (_my->client_flag & CLIENT_MULTI_STATEMENTS ? 1 : 0); j["client_flag"]["client_multi_results"] = (_my->client_flag & CLIENT_MULTI_RESULTS ? 1 : 0); j["net"]["last_errno"] = _my->net.last_errno; j["net"]["fd"] = _my->net.fd; j["net"]["max_packet_size"] = _my->net.max_packet_size; j["net"]["sqlstate"] = _my->net.sqlstate; string s = j.dump(); pta[12] = strdup(s.c_str()); } result->add_row(pta); for (k=0; k& labels, std::map& m_map, unsigned long long value, p_hg_dyn_counter::metric idx ) { const auto& counter_id = m_map.find(endpoint_id); if (counter_id != m_map.end()) { const auto& cur_val = counter_id->second->Value(); counter_id->second->Increment(value - cur_val); } else { auto& new_counter = status.p_dyn_counter_array[idx]; m_map.insert( { endpoint_id, std::addressof(new_counter->Add(labels)) } ); } } void MySQL_HostGroups_Manager::p_update_connection_pool_update_gauge( const std::string& endpoint_id, const std::map& labels, std::map& m_map, unsigned long long value, p_hg_dyn_gauge::metric idx ) { const auto& counter_id = m_map.find(endpoint_id); if (counter_id != m_map.end()) { counter_id->second->Set(value); } else { auto& new_counter = status.p_dyn_gauge_array[idx]; m_map.insert( { endpoint_id, std::addressof(new_counter->Add(labels)) } ); } } void MySQL_HostGroups_Manager::p_update_connection_pool() { std::vector cur_servers_ids {}; wrlock(); for (int i = 0; i < static_cast(MyHostGroups->len); i++) { MyHGC *myhgc = static_cast(MyHostGroups->index(i)); for (int j = 0; j < static_cast(myhgc->mysrvs->cnt()); j++) { MySrvC *mysrvc = static_cast(myhgc->mysrvs->servers->index(j)); std::string endpoint_addr = mysrvc->address; std::string endpoint_port = std::to_string(mysrvc->port); std::string hostgroup_id = std::to_string(myhgc->hid); std::string endpoint_id = hostgroup_id + ":" + endpoint_addr + ":" + endpoint_port; const std::map common_labels { {"endpoint", endpoint_addr + ":" + endpoint_port}, {"hostgroup", hostgroup_id } }; cur_servers_ids.push_back(endpoint_id); // proxysql_connection_pool_bytes_data_recv metric std::map recv_pool_bytes_labels = common_labels; recv_pool_bytes_labels.insert({"traffic_flow", "recv"}); p_update_connection_pool_update_counter(endpoint_id, recv_pool_bytes_labels, status.p_conn_pool_bytes_data_recv_map, mysrvc->bytes_recv, p_hg_dyn_counter::conn_pool_bytes_data_recv); // proxysql_connection_pool_bytes_data_sent metric std::map sent_pool_bytes_labels = common_labels; sent_pool_bytes_labels.insert({"traffic_flow", "sent"}); p_update_connection_pool_update_counter(endpoint_id, sent_pool_bytes_labels, status.p_conn_pool_bytes_data_sent_map, mysrvc->bytes_sent, p_hg_dyn_counter::conn_pool_bytes_data_sent); // proxysql_connection_pool_conn_err metric std::map pool_conn_err_labels = common_labels; pool_conn_err_labels.insert({"status", "err"}); p_update_connection_pool_update_counter(endpoint_id, pool_conn_err_labels, status.p_connection_pool_conn_err_map, mysrvc->connect_ERR, p_hg_dyn_counter::connection_pool_conn_err); // proxysql_connection_pool_conn_ok metric std::map pool_conn_ok_labels = common_labels; pool_conn_ok_labels.insert({"status", "ok"}); p_update_connection_pool_update_counter(endpoint_id, pool_conn_ok_labels, status.p_connection_pool_conn_ok_map, mysrvc->connect_OK, p_hg_dyn_counter::connection_pool_conn_ok); // proxysql_connection_pool_conn_free metric std::map pool_conn_free_labels = common_labels; pool_conn_free_labels.insert({"status", "free"}); p_update_connection_pool_update_gauge(endpoint_id, pool_conn_free_labels, status.p_connection_pool_conn_free_map, mysrvc->ConnectionsFree->conns_length(), p_hg_dyn_gauge::connection_pool_conn_free); // proxysql_connection_pool_conn_used metric std::map pool_conn_used_labels = common_labels; pool_conn_used_labels.insert({"status", "used"}); p_update_connection_pool_update_gauge(endpoint_id, pool_conn_used_labels, status.p_connection_pool_conn_used_map, mysrvc->ConnectionsUsed->conns_length(), p_hg_dyn_gauge::connection_pool_conn_used); // proxysql_connection_pool_latency_us metric p_update_connection_pool_update_gauge(endpoint_id, common_labels, status.p_connection_pool_latency_us_map, mysrvc->current_latency_us, p_hg_dyn_gauge::connection_pool_latency_us); // proxysql_connection_pool_queries metric p_update_connection_pool_update_counter(endpoint_id, common_labels, status.p_connection_pool_queries_map, mysrvc->queries_sent, p_hg_dyn_counter::connection_pool_queries); // proxysql_connection_pool_status metric p_update_connection_pool_update_gauge(endpoint_id, common_labels, status.p_connection_pool_status_map, ((int)mysrvc->get_status()) + 1, p_hg_dyn_gauge::connection_pool_status); } } // Remove the non-present servers for the gauge metrics vector missing_server_keys {}; for (const auto& key : status.p_connection_pool_status_map) { if (std::find(cur_servers_ids.begin(), cur_servers_ids.end(), key.first) == cur_servers_ids.end()) { missing_server_keys.push_back(key.first); } } for (const auto& key : missing_server_keys) { auto gauge = status.p_connection_pool_status_map[key]; status.p_dyn_gauge_array[p_hg_dyn_gauge::connection_pool_status]->Remove(gauge); status.p_connection_pool_status_map.erase(key); gauge = status.p_connection_pool_conn_free_map[key]; status.p_dyn_gauge_array[p_hg_dyn_gauge::connection_pool_conn_free]->Remove(gauge); status.p_connection_pool_conn_free_map.erase(key); gauge = status.p_connection_pool_conn_used_map[key]; status.p_dyn_gauge_array[p_hg_dyn_gauge::connection_pool_conn_used]->Remove(gauge); status.p_connection_pool_conn_used_map.erase(key); gauge = status.p_connection_pool_latency_us_map[key]; status.p_dyn_gauge_array[p_hg_dyn_gauge::connection_pool_latency_us]->Remove(gauge); status.p_connection_pool_latency_us_map.erase(key); } wrunlock(); } SQLite3_result * MySQL_HostGroups_Manager::SQL3_Connection_Pool(bool _reset, int *hid) { const int colnum=14; proxy_debug(PROXY_DEBUG_MYSQL_CONNECTION, 4, "Dumping Connection Pool\n"); SQLite3_result *result=new SQLite3_result(colnum); result->add_column_definition(SQLITE_TEXT,"hostgroup"); result->add_column_definition(SQLITE_TEXT,"srv_host"); result->add_column_definition(SQLITE_TEXT,"srv_port"); result->add_column_definition(SQLITE_TEXT,"status"); result->add_column_definition(SQLITE_TEXT,"ConnUsed"); result->add_column_definition(SQLITE_TEXT,"ConnFree"); result->add_column_definition(SQLITE_TEXT,"ConnOK"); result->add_column_definition(SQLITE_TEXT,"ConnERR"); result->add_column_definition(SQLITE_TEXT,"MaxConnUsed"); result->add_column_definition(SQLITE_TEXT,"Queries"); result->add_column_definition(SQLITE_TEXT,"Queries_GTID_sync"); result->add_column_definition(SQLITE_TEXT,"Bytes_sent"); result->add_column_definition(SQLITE_TEXT,"Bytes_recv"); result->add_column_definition(SQLITE_TEXT,"Latency_us"); wrlock(); int i,j, k; for (i=0; i<(int)MyHostGroups->len; i++) { MyHGC *myhgc=(MyHGC *)MyHostGroups->index(i); for (j=0; j<(int)myhgc->mysrvs->cnt(); j++) { MySrvC *mysrvc=(MySrvC *)myhgc->mysrvs->servers->index(j); if (hid == NULL) { if (mysrvc->get_status()!=MYSQL_SERVER_STATUS_ONLINE) { proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 5, "Server %s:%d is not online\n", mysrvc->address, mysrvc->port); //__sync_fetch_and_sub(&status.server_connections_connected, mysrvc->ConnectionsFree->conns->len); mysrvc->ConnectionsFree->drop_all_connections(); } // drop idle connections if beyond max_connection while (mysrvc->ConnectionsFree->conns_length() && mysrvc->ConnectionsUsed->conns_length()+mysrvc->ConnectionsFree->conns_length() > mysrvc->max_connections) { //MySQL_Connection *conn=(MySQL_Connection *)mysrvc->ConnectionsFree->conns->remove_index_fast(0); MySQL_Connection *conn=mysrvc->ConnectionsFree->remove(0); delete conn; //__sync_fetch_and_sub(&status.server_connections_connected, 1); } } else { if (*hid != (int)myhgc->hid) { continue; } } char buf[1024]; char **pta=(char **)malloc(sizeof(char *)*colnum); sprintf(buf,"%d", (int)myhgc->hid); pta[0]=strdup(buf); pta[1]=strdup(mysrvc->address); sprintf(buf,"%d", mysrvc->port); pta[2]=strdup(buf); switch ((int)mysrvc->get_status()) { case 0: pta[3]=strdup("ONLINE"); break; case 1: pta[3]=strdup("SHUNNED"); break; case 2: pta[3]=strdup("OFFLINE_SOFT"); break; case 3: pta[3]=strdup("OFFLINE_HARD"); break; case 4: pta[3]=strdup("SHUNNED_REPLICATION_LAG"); break; default: // LCOV_EXCL_START assert(0); break; // LCOV_EXCL_STOP } sprintf(buf,"%u", mysrvc->ConnectionsUsed->conns_length()); pta[4]=strdup(buf); sprintf(buf,"%u", mysrvc->ConnectionsFree->conns_length()); pta[5]=strdup(buf); sprintf(buf,"%u", mysrvc->connect_OK); pta[6]=strdup(buf); if (_reset) { mysrvc->connect_OK=0; } sprintf(buf,"%u", mysrvc->connect_ERR); pta[7]=strdup(buf); if (_reset) { mysrvc->connect_ERR=0; } sprintf(buf,"%u", mysrvc->max_connections_used); pta[8]=strdup(buf); if (_reset) { mysrvc->max_connections_used=0; } sprintf(buf,"%llu", mysrvc->queries_sent); pta[9]=strdup(buf); if (_reset) { mysrvc->queries_sent=0; } sprintf(buf,"%llu", mysrvc->queries_gtid_sync); pta[10]=strdup(buf); if (_reset) { mysrvc->queries_gtid_sync=0; } sprintf(buf,"%llu", mysrvc->bytes_sent); pta[11]=strdup(buf); if (_reset) { mysrvc->bytes_sent=0; } sprintf(buf,"%llu", mysrvc->bytes_recv); pta[12]=strdup(buf); if (_reset) { mysrvc->bytes_recv=0; } sprintf(buf,"%u", mysrvc->current_latency_us); pta[13]=strdup(buf); result->add_row(pta); for (k=0; k3"; mydb->execute_statement((char *)q1, &error , &cols , &affected_rows , &res_set1); for (std::vector::iterator it = res_set1->rows.begin() ; it != res_set1->rows.end(); ++it) { SQLite3_row *r=*it; std::string s = r->fields[0]; s += ":::"; s += r->fields[1]; read_only_set1.insert(s); } proxy_info("Regenerating read_only_set1 with %lu servers\n", read_only_set1.size()); if (read_only_set1.empty()) { // to avoid regenerating this set always with 0 entries, we generate a fake entry read_only_set1.insert("----:::----"); } delete res_set1; } wrunlock(); std::string ser = hostname; ser += ":::"; ser += std::to_string(port); std::set::iterator it; it = read_only_set1.find(ser); if (it != read_only_set1.end()) { num_rows=1; } if (admindb==NULL) { // we initialize admindb only if needed admindb=new SQLite3DB(); admindb->open((char *)"file:mem_admindb?mode=memory&cache=shared", SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE | SQLITE_OPEN_FULLMUTEX); } switch (read_only) { case 0: if (num_rows==0) { // the server has read_only=0 , but we can't find any writer, so we perform a swap GloAdmin->mysql_servers_wrlock(); if (GloMTH->variables.hostgroup_manager_verbose) { char *error2=NULL; int cols2=0; int affected_rows2=0; SQLite3_result *resultset2=NULL; char * query2 = NULL; char *q = (char *)"SELECT * FROM mysql_servers WHERE hostname=\"%s\" AND port=%d"; query2 = (char *)malloc(strlen(q)+strlen(hostname)+32); sprintf(query2,q,hostname,port); admindb->execute_statement(query2, &error2 , &cols2 , &affected_rows2 , &resultset2); if (error2) { proxy_error("Error on read from mysql_servers : %s\n", error2); } else { if (resultset2) { proxy_info("read_only_action RO=0 phase 1 : Dumping mysql_servers for %s:%d\n", hostname, port); resultset2->dump_to_stderr(); } } if (resultset2) { delete resultset2; resultset2=NULL; } free(query2); } GloAdmin->save_mysql_servers_runtime_to_database(false); // SAVE MYSQL SERVERS FROM RUNTIME if (GloMTH->variables.hostgroup_manager_verbose) { char *error2=NULL; int cols2=0; int affected_rows2=0; SQLite3_result *resultset2=NULL; char * query2 = NULL; char *q = (char *)"SELECT * FROM mysql_servers WHERE hostname=\"%s\" AND port=%d"; query2 = (char *)malloc(strlen(q)+strlen(hostname)+32); sprintf(query2,q,hostname,port); admindb->execute_statement(query2, &error2 , &cols2 , &affected_rows2 , &resultset2); if (error2) { proxy_error("Error on read from mysql_servers : %s\n", error2); } else { if (resultset2) { proxy_info("read_only_action RO=0 phase 2 : Dumping mysql_servers for %s:%d\n", hostname, port); resultset2->dump_to_stderr(); } } if (resultset2) { delete resultset2; resultset2=NULL; } free(query2); } sprintf(query,Q2A,hostname,port); admindb->execute(query); sprintf(query,Q2B,hostname,port); admindb->execute(query); if (mysql_thread___monitor_writer_is_also_reader) { sprintf(query,Q3A,hostname,port); } else { sprintf(query,Q3B,hostname,port); } admindb->execute(query); if (GloMTH->variables.hostgroup_manager_verbose) { char *error2=NULL; int cols2=0; int affected_rows2=0; SQLite3_result *resultset2=NULL; char * query2 = NULL; char *q = (char *)"SELECT * FROM mysql_servers WHERE hostname=\"%s\" AND port=%d"; query2 = (char *)malloc(strlen(q)+strlen(hostname)+32); sprintf(query2,q,hostname,port); admindb->execute_statement(query2, &error2 , &cols2 , &affected_rows2 , &resultset2); if (error2) { proxy_error("Error on read from mysql_servers : %s\n", error2); } else { if (resultset2) { proxy_info("read_only_action RO=0 phase 3 : Dumping mysql_servers for %s:%d\n", hostname, port); resultset2->dump_to_stderr(); } } if (resultset2) { delete resultset2; resultset2=NULL; } free(query2); } GloAdmin->load_mysql_servers_to_runtime(); // LOAD MYSQL SERVERS TO RUNTIME GloAdmin->mysql_servers_wrunlock(); } else { // there is a server in writer hostgroup, let check the status of present and not present hosts bool act=false; wrlock(); std::set::iterator it; // read_only_set2 acts as a cache // if the server was RO=0 on the previous check and no action was needed, // it will be here it = read_only_set2.find(ser); if (it != read_only_set2.end()) { // the server was already detected as RO=0 // no action required } else { // it is the first time that we detect RO on this server sprintf(query,Q1B,hostname,port,hostname,port,hostname,port); mydb->execute_statement(query, &error , &cols , &affected_rows , &resultset); for (std::vector::iterator it = resultset->rows.begin() ; it != resultset->rows.end(); ++it) { SQLite3_row *r=*it; int status=MYSQL_SERVER_STATUS_OFFLINE_HARD; // default status, even for missing if (r->fields[1]) { // has status status=atoi(r->fields[1]); } if (status==MYSQL_SERVER_STATUS_OFFLINE_HARD) { act=true; } } if (act == false) { // no action required, therefore we write in read_only_set2 proxy_info("read_only_action() detected RO=0 on server %s:%d for the first time after commit(), but no need to reconfigure\n", hostname, port); read_only_set2.insert(ser); } } wrunlock(); if (act==true) { // there are servers either missing, or with stats=OFFLINE_HARD GloAdmin->mysql_servers_wrlock(); if (GloMTH->variables.hostgroup_manager_verbose) { char *error2=NULL; int cols2=0; int affected_rows2=0; SQLite3_result *resultset2=NULL; char * query2 = NULL; char *q = (char *)"SELECT * FROM mysql_servers WHERE hostname=\"%s\" AND port=%d"; query2 = (char *)malloc(strlen(q)+strlen(hostname)+32); sprintf(query2,q,hostname,port); admindb->execute_statement(query2, &error2 , &cols2 , &affected_rows2 , &resultset2); if (error2) { proxy_error("Error on read from mysql_servers : %s\n", error2); } else { if (resultset2) { proxy_info("read_only_action RO=0 , rows=%d , phase 1 : Dumping mysql_servers for %s:%d\n", num_rows, hostname, port); resultset2->dump_to_stderr(); } } if (resultset2) { delete resultset2; resultset2=NULL; } free(query2); } GloAdmin->save_mysql_servers_runtime_to_database(false); // SAVE MYSQL SERVERS FROM RUNTIME sprintf(query,Q2A,hostname,port); admindb->execute(query); sprintf(query,Q2B,hostname,port); admindb->execute(query); if (GloMTH->variables.hostgroup_manager_verbose) { char *error2=NULL; int cols2=0; int affected_rows2=0; SQLite3_result *resultset2=NULL; char * query2 = NULL; char *q = (char *)"SELECT * FROM mysql_servers WHERE hostname=\"%s\" AND port=%d"; query2 = (char *)malloc(strlen(q)+strlen(hostname)+32); sprintf(query2,q,hostname,port); admindb->execute_statement(query2, &error2 , &cols2 , &affected_rows2 , &resultset2); if (error2) { proxy_error("Error on read from mysql_servers : %s\n", error2); } else { if (resultset2) { proxy_info("read_only_action RO=0 , rows=%d , phase 2 : Dumping mysql_servers for %s:%d\n", num_rows, hostname, port); resultset2->dump_to_stderr(); } } if (resultset2) { delete resultset2; resultset2=NULL; } free(query2); } if (mysql_thread___monitor_writer_is_also_reader) { sprintf(query,Q3A,hostname,port); } else { sprintf(query,Q3B,hostname,port); } admindb->execute(query); if (GloMTH->variables.hostgroup_manager_verbose) { char *error2=NULL; int cols2=0; int affected_rows2=0; SQLite3_result *resultset2=NULL; char * query2 = NULL; char *q = (char *)"SELECT * FROM mysql_servers WHERE hostname=\"%s\" AND port=%d"; query2 = (char *)malloc(strlen(q)+strlen(hostname)+32); sprintf(query2,q,hostname,port); admindb->execute_statement(query2, &error2 , &cols2 , &affected_rows2 , &resultset2); if (error2) { proxy_error("Error on read from mysql_servers : %s\n", error2); } else { if (resultset2) { proxy_info("read_only_action RO=0 , rows=%d , phase 3 : Dumping mysql_servers for %s:%d\n", num_rows, hostname, port); resultset2->dump_to_stderr(); } } if (resultset2) { delete resultset2; resultset2=NULL; } free(query2); } GloAdmin->load_mysql_servers_to_runtime(); // LOAD MYSQL SERVERS TO RUNTIME GloAdmin->mysql_servers_wrunlock(); } } break; case 1: if (num_rows) { // the server has read_only=1 , but we find it as writer, so we perform a swap GloAdmin->mysql_servers_wrlock(); if (GloMTH->variables.hostgroup_manager_verbose) { char *error2=NULL; int cols2=0; int affected_rows2=0; SQLite3_result *resultset2=NULL; char * query2 = NULL; char *q = (char *)"SELECT * FROM mysql_servers WHERE hostname=\"%s\" AND port=%d"; query2 = (char *)malloc(strlen(q)+strlen(hostname)+32); sprintf(query2,q,hostname,port); admindb->execute_statement(query2, &error2 , &cols2 , &affected_rows2 , &resultset2); if (error2) { proxy_error("Error on read from mysql_servers : %s\n", error2); } else { if (resultset2) { proxy_info("read_only_action RO=1 phase 1 : Dumping mysql_servers for %s:%d\n", hostname, port); resultset2->dump_to_stderr(); } } if (resultset2) { delete resultset2; resultset2=NULL; } free(query2); } GloAdmin->save_mysql_servers_runtime_to_database(false); // SAVE MYSQL SERVERS FROM RUNTIME sprintf(query,Q4,hostname,port); admindb->execute(query); if (GloMTH->variables.hostgroup_manager_verbose) { char *error2=NULL; int cols2=0; int affected_rows2=0; SQLite3_result *resultset2=NULL; char * query2 = NULL; char *q = (char *)"SELECT * FROM mysql_servers WHERE hostname=\"%s\" AND port=%d"; query2 = (char *)malloc(strlen(q)+strlen(hostname)+32); sprintf(query2,q,hostname,port); admindb->execute_statement(query2, &error2 , &cols2 , &affected_rows2 , &resultset2); if (error2) { proxy_error("Error on read from mysql_servers : %s\n", error2); } else { if (resultset2) { proxy_info("read_only_action RO=1 phase 2 : Dumping mysql_servers for %s:%d\n", hostname, port); resultset2->dump_to_stderr(); } } if (resultset2) { delete resultset2; resultset2=NULL; } free(query2); } sprintf(query,Q5,hostname,port); admindb->execute(query); if (GloMTH->variables.hostgroup_manager_verbose) { char *error2=NULL; int cols2=0; int affected_rows2=0; SQLite3_result *resultset2=NULL; char * query2 = NULL; char *q = (char *)"SELECT * FROM mysql_servers WHERE hostname=\"%s\" AND port=%d"; query2 = (char *)malloc(strlen(q)+strlen(hostname)+32); sprintf(query2,q,hostname,port); admindb->execute_statement(query2, &error2 , &cols2 , &affected_rows2 , &resultset2); if (error2) { proxy_error("Error on read from mysql_servers : %s\n", error2); } else { if (resultset2) { proxy_info("read_only_action RO=1 phase 3 : Dumping mysql_servers for %s:%d\n", hostname, port); resultset2->dump_to_stderr(); } } if (resultset2) { delete resultset2; resultset2=NULL; } free(query2); } GloAdmin->load_mysql_servers_to_runtime(); // LOAD MYSQL SERVERS TO RUNTIME GloAdmin->mysql_servers_wrunlock(); } break; default: // LCOV_EXCL_START assert(0); break; // LCOV_EXCL_STOP } pthread_mutex_unlock(&readonly_mutex); if (resultset) { delete resultset; } free(query); } /** * @brief New implementation of the read_only_action method that does not depend on the admin table. * The method checks each server in the provided list and adjusts the servers according to their corresponding read_only value. * If any change has occured, checksum is calculated. * * @param mysql_servers List of servers having hostname, port and read only value. * */ void MySQL_HostGroups_Manager::read_only_action_v2(const std::list& mysql_servers) { bool update_mysql_servers_table = false; unsigned long long curtime1 = monotonic_time(); wrlock(); for (const auto& server : mysql_servers) { bool is_writer = false; const std::string& hostname = std::get(server); const int port = std::get(server); const int read_only = std::get(server); const std::string& srv_id = hostname + ":::" + std::to_string(port); auto itr = hostgroup_server_mapping.find(srv_id); if (itr == hostgroup_server_mapping.end()) { proxy_warning("Server %s:%d not found\n", hostname.c_str(), port); continue; } HostGroup_Server_Mapping* host_server_mapping = itr->second.get(); if (!host_server_mapping) assert(0); const std::vector& writer_map = host_server_mapping->get(HostGroup_Server_Mapping::Type::WRITER); is_writer = !writer_map.empty(); if (read_only == 0) { if (is_writer == false) { // the server has read_only=0 (writer), but we can't find any writer, // so we copy all reader nodes to writer proxy_info("Server '%s:%d' found with 'read_only=0', but not found as writer\n", hostname.c_str(), port); proxy_debug(PROXY_DEBUG_MONITOR, 5, "Server '%s:%d' found with 'read_only=0', but not found as writer\n", hostname.c_str(), port); host_server_mapping->copy_if_not_exists(HostGroup_Server_Mapping::Type::WRITER, HostGroup_Server_Mapping::Type::READER); if (mysql_thread___monitor_writer_is_also_reader == false) { // remove node from reader host_server_mapping->clear(HostGroup_Server_Mapping::Type::READER); } update_mysql_servers_table = true; proxy_info("Regenerating table 'mysql_servers' due to actions on server '%s:%d'\n", hostname.c_str(), port); } else { bool act = false; // if the server was RO=0 on the previous check then no action is needed if (host_server_mapping->get_readonly_flag() != 0) { // it is the first time that we detect RO on this server const std::vector& reader_map = host_server_mapping->get(HostGroup_Server_Mapping::Type::READER); for (const auto& reader_node : reader_map) { for (const auto& writer_node : writer_map) { if (reader_node.writer_hostgroup_id == writer_node.writer_hostgroup_id) { goto __writer_found; } } act = true; break; __writer_found: continue; } if (act == false) { // no action required, therefore we set readonly_flag to 0 proxy_info("read_only_action_v2() detected RO=0 on server %s:%d for the first time after commit(), but no need to reconfigure\n", hostname.c_str(), port); host_server_mapping->set_readonly_flag(0); } } else { // the server was already detected as RO=0 // no action required } if (act == true) { // there are servers either missing, or with stats=OFFLINE_HARD proxy_info("Server '%s:%d' with 'read_only=0' found missing at some 'writer_hostgroup'\n", hostname.c_str(), port); proxy_debug(PROXY_DEBUG_MONITOR, 5, "Server '%s:%d' with 'read_only=0' found missing at some 'writer_hostgroup'\n", hostname.c_str(), port); // copy all reader nodes to writer host_server_mapping->copy_if_not_exists(HostGroup_Server_Mapping::Type::WRITER, HostGroup_Server_Mapping::Type::READER); if (mysql_thread___monitor_writer_is_also_reader == false) { // remove node from reader host_server_mapping->clear(HostGroup_Server_Mapping::Type::READER); } update_mysql_servers_table = true; proxy_info("Regenerating table 'mysql_servers' due to actions on server '%s:%d'\n", hostname.c_str(), port); } } } else if (read_only == 1) { if (is_writer) { // the server has read_only=1 (reader), but we find it as writer, so we copy all writer nodes to reader (previous reader nodes will be reused) proxy_info("Server '%s:%d' found with 'read_only=1', but not found as reader\n", hostname.c_str(), port); proxy_debug(PROXY_DEBUG_MONITOR, 5, "Server '%s:%d' found with 'read_only=1', but not found as reader\n", hostname.c_str(), port); host_server_mapping->copy_if_not_exists(HostGroup_Server_Mapping::Type::READER, HostGroup_Server_Mapping::Type::WRITER); // clearing all writer nodes host_server_mapping->clear(HostGroup_Server_Mapping::Type::WRITER); update_mysql_servers_table = true; proxy_info("Regenerating table 'mysql_servers' due to actions on server '%s:%d'\n", hostname.c_str(), port); } } else { // LCOV_EXCL_START assert(0); break; // LCOV_EXCL_STOP } } if (update_mysql_servers_table) { purge_mysql_servers_table(); proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 4, "DELETE FROM mysql_servers\n"); mydb->execute("DELETE FROM mysql_servers"); generate_mysql_servers_table(); // Update the global checksums after 'mysql_servers' regeneration { unique_ptr resultset { get_admin_runtime_mysql_servers(mydb) }; uint64_t raw_checksum = resultset ? resultset->raw_checksum() : 0; // This is required to be updated to avoid extra rebuilding member 'hostgroup_server_mapping' // during 'commit'. For extra details see 'hgsm_mysql_servers_checksum' @details. hgsm_mysql_servers_checksum = raw_checksum; string mysrvs_checksum { get_checksum_from_hash(raw_checksum) }; save_runtime_mysql_servers(resultset.release()); proxy_info("Checksum for table %s is %s\n", "mysql_servers", mysrvs_checksum.c_str()); pthread_mutex_lock(&GloVars.checksum_mutex); update_glovars_mysql_servers_checksum(mysrvs_checksum); pthread_mutex_unlock(&GloVars.checksum_mutex); } } wrunlock(); unsigned long long curtime2 = monotonic_time(); curtime1 = curtime1 / 1000; curtime2 = curtime2 / 1000; proxy_debug(PROXY_DEBUG_MONITOR, 7, "MySQL_HostGroups_Manager::read_only_action_v2() locked for %llums (server count:%ld)\n", curtime2 - curtime1, mysql_servers.size()); } // shun_and_killall // this function is called only from MySQL_Monitor::monitor_ping() // it temporary disables a host that is not responding to pings, and mark the host in a way that when used the connection will be dropped // return true if the status was changed bool MySQL_HostGroups_Manager::shun_and_killall(char *hostname, int port) { time_t t = time(NULL); bool ret = false; wrlock(); MySrvC *mysrvc=NULL; for (unsigned int i=0; ilen; i++) { MyHGC *myhgc=(MyHGC *)MyHostGroups->index(i); unsigned int j; unsigned int l=myhgc->mysrvs->cnt(); if (l) { for (j=0; jmysrvs->idx(j); if (mysrvc->port==port && strcmp(mysrvc->address,hostname)==0) { switch ((MySerStatus)mysrvc->get_status()) { case MYSQL_SERVER_STATUS_SHUNNED: if (mysrvc->shunned_automatic==false) { break; } case MYSQL_SERVER_STATUS_ONLINE: if (mysrvc->get_status() == MYSQL_SERVER_STATUS_ONLINE) { ret = true; } mysrvc->set_status(MYSQL_SERVER_STATUS_SHUNNED); case MYSQL_SERVER_STATUS_OFFLINE_SOFT: mysrvc->shunned_automatic=true; mysrvc->shunned_and_kill_all_connections=true; mysrvc->ConnectionsFree->drop_all_connections(); break; default: break; } // if Monitor is enabled and mysql-monitor_ping_interval is // set too high, ProxySQL will unshun hosts that are not // available. For this reason time_last_detected_error will // be tuned in the future if (mysql_thread___monitor_enabled) { int a = mysql_thread___shun_recovery_time_sec; int b = mysql_thread___monitor_ping_interval; b = b/1000; if (b > a) { t = t + (b - a); } } mysrvc->time_last_detected_error = t; } } } } wrunlock(); return ret; } // set_server_current_latency_us // this function is called only from MySQL_Monitor::monitor_ping() // it set the average latency for a host in the last 3 pings // the connection pool will use this information to evaluate or exclude a specific hosts // note that this variable is in microsecond, while user defines it in millisecond void MySQL_HostGroups_Manager::set_server_current_latency_us(char *hostname, int port, unsigned int _current_latency_us) { wrlock(); MySrvC *mysrvc=NULL; for (unsigned int i=0; ilen; i++) { MyHGC *myhgc=(MyHGC *)MyHostGroups->index(i); unsigned int j; unsigned int l=myhgc->mysrvs->cnt(); if (l) { for (j=0; jmysrvs->idx(j); if (mysrvc->port==port && strcmp(mysrvc->address,hostname)==0) { mysrvc->current_latency_us=_current_latency_us; } } } } wrunlock(); } void MySQL_HostGroups_Manager::p_update_metrics() { p_update_counter(status.p_counter_array[p_hg_counter::servers_table_version], status.servers_table_version); // Update *server_connections* related metrics status.p_gauge_array[p_hg_gauge::server_connections_connected]->Set(status.server_connections_connected); p_update_counter(status.p_counter_array[p_hg_counter::server_connections_aborted], status.server_connections_aborted); p_update_counter(status.p_counter_array[p_hg_counter::server_connections_created], status.server_connections_created); p_update_counter(status.p_counter_array[p_hg_counter::server_connections_delayed], status.server_connections_delayed); // Update *client_connections* related metrics p_update_counter(status.p_counter_array[p_hg_counter::client_connections_created], status.client_connections_created); p_update_counter(status.p_counter_array[p_hg_counter::client_connections_aborted], status.client_connections_aborted); status.p_gauge_array[p_hg_gauge::client_connections_connected]->Set(status.client_connections); // Update *acess_denied* related metrics p_update_counter(status.p_counter_array[p_hg_counter::access_denied_wrong_password], status.access_denied_wrong_password); p_update_counter(status.p_counter_array[p_hg_counter::access_denied_max_connections], status.access_denied_max_connections); p_update_counter(status.p_counter_array[p_hg_counter::access_denied_max_user_connections], status.access_denied_max_user_connections); p_update_counter(status.p_counter_array[p_hg_counter::selects_for_update__autocommit0], status.select_for_update_or_equivalent); // Update *com_* related metrics p_update_counter(status.p_counter_array[p_hg_counter::com_autocommit], status.autocommit_cnt); p_update_counter(status.p_counter_array[p_hg_counter::com_autocommit_filtered], status.autocommit_cnt_filtered); p_update_counter(status.p_counter_array[p_hg_counter::com_commit_cnt], status.commit_cnt); p_update_counter(status.p_counter_array[p_hg_counter::com_commit_cnt_filtered], status.commit_cnt_filtered); p_update_counter(status.p_counter_array[p_hg_counter::com_rollback], status.rollback_cnt); p_update_counter(status.p_counter_array[p_hg_counter::com_rollback_filtered], status.rollback_cnt_filtered); p_update_counter(status.p_counter_array[p_hg_counter::com_backend_init_db], status.backend_init_db); p_update_counter(status.p_counter_array[p_hg_counter::com_backend_change_user], status.backend_change_user); p_update_counter(status.p_counter_array[p_hg_counter::com_backend_set_names], status.backend_set_names); p_update_counter(status.p_counter_array[p_hg_counter::com_frontend_init_db], status.frontend_init_db); p_update_counter(status.p_counter_array[p_hg_counter::com_frontend_set_names], status.frontend_set_names); p_update_counter(status.p_counter_array[p_hg_counter::com_frontend_use_db], status.frontend_use_db); // Update *myconnpoll* related metrics p_update_counter(status.p_counter_array[p_hg_counter::myhgm_myconnpool_get], status.myconnpoll_get); p_update_counter(status.p_counter_array[p_hg_counter::myhgm_myconnpool_get_ok], status.myconnpoll_get_ok); p_update_counter(status.p_counter_array[p_hg_counter::myhgm_myconnpool_get_ping], status.myconnpoll_get_ping); p_update_counter(status.p_counter_array[p_hg_counter::myhgm_myconnpool_push], status.myconnpoll_push); p_update_counter(status.p_counter_array[p_hg_counter::myhgm_myconnpool_reset], status.myconnpoll_reset); p_update_counter(status.p_counter_array[p_hg_counter::myhgm_myconnpool_destroy], status.myconnpoll_destroy); p_update_counter(status.p_counter_array[p_hg_counter::auto_increment_delay_multiplex], status.auto_increment_delay_multiplex); // Update the *connection_pool* metrics this->p_update_connection_pool(); // Update the *gtid_executed* metrics this->p_update_mysql_gtid_executed(); } SQLite3_result * MySQL_HostGroups_Manager::SQL3_Get_ConnPool_Stats() { const int colnum=2; char buf[256]; char **pta=(char **)malloc(sizeof(char *)*colnum); proxy_debug(PROXY_DEBUG_MYSQL_CONNECTION, 4, "Dumping MySQL Global Status\n"); SQLite3_result *result=new SQLite3_result(colnum); result->add_column_definition(SQLITE_TEXT,"Variable_Name"); result->add_column_definition(SQLITE_TEXT,"Variable_Value"); wrlock(); // NOTE: as there is no string copy, we do NOT free pta[0] and pta[1] { pta[0]=(char *)"MyHGM_myconnpoll_get"; sprintf(buf,"%lu",status.myconnpoll_get); pta[1]=buf; result->add_row(pta); } { pta[0]=(char *)"MyHGM_myconnpoll_get_ok"; sprintf(buf,"%lu",status.myconnpoll_get_ok); pta[1]=buf; result->add_row(pta); } { pta[0]=(char *)"MyHGM_myconnpoll_push"; sprintf(buf,"%lu",status.myconnpoll_push); pta[1]=buf; result->add_row(pta); } { pta[0]=(char *)"MyHGM_myconnpoll_destroy"; sprintf(buf,"%lu",status.myconnpoll_destroy); pta[1]=buf; result->add_row(pta); } { pta[0]=(char *)"MyHGM_myconnpoll_reset"; sprintf(buf,"%lu",status.myconnpoll_reset); pta[1]=buf; result->add_row(pta); } wrunlock(); free(pta); return result; } /** * @brief Retrieves memory usage statistics for the MySQL host groups manager. * * This method calculates the total memory usage of the MySQL host groups manager, including memory allocated for * host groups, server connections, and MySQL connections. It iterates over all host groups and their associated * server connections to compute the memory usage. * * @return The total memory usage of the MySQL host groups manager in bytes. */ unsigned long long MySQL_HostGroups_Manager::Get_Memory_Stats() { // Initialize the memory size counter unsigned long long intsize=0; // Acquire write lock to ensure thread safety during memory calculation wrlock(); MySrvC *mysrvc=NULL; // Pointer to a MySQL server connection // Iterate over all hostgroups for (unsigned int i=0; ilen; i++) { // Add memory size for the hostgroup object intsize+=sizeof(MyHGC); // Get the hostgroup object MyHGC *myhgc=(MyHGC *)MyHostGroups->index(i); unsigned int j,k; // Get the number of server connections in the hostgroup unsigned int l=myhgc->mysrvs->cnt(); // Iterate over all server connections in the hostgroup if (l) { for (j=0; jmysrvs->idx(j); // Calculate memory usage for each connection in the "ConnectionsFree" list intsize+=((mysrvc->ConnectionsUsed->conns_length())*sizeof(MySQL_Connection *)); for (k=0; kConnectionsFree->conns_length(); k++) { // Get a MySQL connection MySQL_Connection *myconn=mysrvc->ConnectionsFree->index(k); // Add memory size for MySQL connection object and MYSQL struct intsize+=sizeof(MySQL_Connection)+sizeof(MYSQL); // Add memory size for the MySQL packet buffer intsize+=myconn->mysql->net.max_packet; // Add memory size for the default stack size of the asynchronous context intsize+=(4096*15); // ASYNC_CONTEXT_DEFAULT_STACK_SIZE // Add memory size for result set object if present if (myconn->MyRS) { intsize+=myconn->MyRS->current_size(); } } intsize+=((mysrvc->ConnectionsUsed->conns_length())*sizeof(MySQL_Connection *)); } } } // Release the write lock wrunlock(); // Return the total memory usage return intsize; } Group_Replication_Info::Group_Replication_Info(int w, int b, int r, int o, int mw, int mtb, bool _a, int _w, char *c) { comment=NULL; if (c) { comment=strdup(c); } writer_hostgroup=w; backup_writer_hostgroup=b; reader_hostgroup=r; offline_hostgroup=o; max_writers=mw; max_transactions_behind=mtb; active=_a; writer_is_also_reader=_w; current_num_writers=0; current_num_backup_writers=0; current_num_readers=0; current_num_offline=0; __active=true; need_converge=true; } Group_Replication_Info::~Group_Replication_Info() { if (comment) { free(comment); comment=NULL; } } bool Group_Replication_Info::update(int b, int r, int o, int mw, int mtb, bool _a, int _w, char *c) { bool ret=false; __active=true; if (backup_writer_hostgroup!=b) { backup_writer_hostgroup=b; ret=true; } if (reader_hostgroup!=r) { reader_hostgroup=r; ret=true; } if (offline_hostgroup!=o) { offline_hostgroup=o; ret=true; } if (max_writers!=mw) { max_writers=mw; ret=true; } if (max_transactions_behind!=mtb) { max_transactions_behind=mtb; ret=true; } if (active!=_a) { active=_a; ret=true; } if (writer_is_also_reader!=_w) { writer_is_also_reader=_w; ret=true; } // for comment we don't change return value if (comment) { if (c) { if (strcmp(comment,c)) { free(comment); comment=strdup(c); } } else { free(comment); comment=NULL; } } else { if (c) { comment=strdup(c); } } return ret; } class MySQL_Errors_stats { public: int hostgroup; char *hostname; int port; char *username; char *client_address; char *schemaname; int err_no; char *last_error; time_t first_seen; time_t last_seen; unsigned long long count_star; MySQL_Errors_stats(int hostgroup_, char *hostname_, int port_, char *username_, char *address_, char *schemaname_, int err_no_, char *last_error_, time_t tn) { hostgroup = hostgroup_; if (hostname_) { hostname = strdup(hostname_); } else { hostname = strdup((char *)""); } port = port_; if (username_) { username = strdup(username_); } else { username = strdup((char *)""); } if (address_) { client_address = strdup(address_); } else { client_address = strdup((char *)""); } if (schemaname_) { schemaname = strdup(schemaname_); } else { schemaname = strdup((char *)""); } err_no = err_no_; if (last_error_) { last_error = strdup(last_error_); } else { last_error = strdup((char *)""); } last_seen = tn; first_seen = tn; count_star = 1; } ~MySQL_Errors_stats() { if (hostname) { free(hostname); hostname=NULL; } if (username) { free(username); username=NULL; } if (client_address) { free(client_address); client_address=NULL; } if (schemaname) { free(schemaname); schemaname=NULL; } if (last_error) { free(last_error); last_error=NULL; } } char **get_row() { char buf[128]; char **pta=(char **)malloc(sizeof(char *)*MYSQL_ERRORS_STATS_FIELD_NUM); sprintf(buf,"%d",hostgroup); pta[0]=strdup(buf); assert(hostname); pta[1]=strdup(hostname); sprintf(buf,"%d",port); pta[2]=strdup(buf); assert(username); pta[3]=strdup(username); assert(client_address); pta[4]=strdup(client_address); assert(schemaname); pta[5]=strdup(schemaname); sprintf(buf,"%d",err_no); pta[6]=strdup(buf); sprintf(buf,"%llu",count_star); pta[7]=strdup(buf); sprintf(buf,"%ld", first_seen); pta[8]=strdup(buf); sprintf(buf,"%ld", last_seen); pta[9]=strdup(buf); assert(last_error); pta[10]=strdup(last_error); return pta; } void add_time(unsigned long long n, char *le) { count_star++; if (first_seen==0) { first_seen=n; } last_seen=n; if (strcmp(last_error,le)){ free(last_error); last_error=strdup(le); } } void free_row(char **pta) { int i; for (i=0;i::iterator it; pthread_mutex_lock(&mysql_errors_mutex); it=mysql_errors_umap.find(hash1); if (it != mysql_errors_umap.end()) { // found mes=(MySQL_Errors_stats *)it->second; mes->add_time(tn, last_error); /* mes->last_seen = tn; if (strcmp(mes->last_error,last_error)) { free(mes->last_error); mes->last_error = strdup(last_error); mes->count_star++; } */ } else { mes = new MySQL_Errors_stats(hostgroup, hostname, port, username, address, schemaname, err_no, last_error, tn); mysql_errors_umap.insert(std::make_pair(hash1,(void *)mes)); } pthread_mutex_unlock(&mysql_errors_mutex); } SQLite3_result * MySQL_HostGroups_Manager::get_mysql_errors(bool reset) { SQLite3_result *result=new SQLite3_result(MYSQL_ERRORS_STATS_FIELD_NUM); pthread_mutex_lock(&mysql_errors_mutex); result->add_column_definition(SQLITE_TEXT,"hid"); result->add_column_definition(SQLITE_TEXT,"hostname"); result->add_column_definition(SQLITE_TEXT,"port"); result->add_column_definition(SQLITE_TEXT,"username"); result->add_column_definition(SQLITE_TEXT,"client_address"); result->add_column_definition(SQLITE_TEXT,"schemaname"); result->add_column_definition(SQLITE_TEXT,"err_no"); result->add_column_definition(SQLITE_TEXT,"count_star"); result->add_column_definition(SQLITE_TEXT,"first_seen"); result->add_column_definition(SQLITE_TEXT,"last_seen"); result->add_column_definition(SQLITE_TEXT,"last_error"); for (std::unordered_map::iterator it=mysql_errors_umap.begin(); it!=mysql_errors_umap.end(); ++it) { MySQL_Errors_stats *mes=(MySQL_Errors_stats *)it->second; char **pta=mes->get_row(); result->add_row(pta); mes->free_row(pta); if (reset) { delete mes; } } if (reset) { mysql_errors_umap.erase(mysql_errors_umap.begin(),mysql_errors_umap.end()); } pthread_mutex_unlock(&mysql_errors_mutex); return result; } /** * @brief Initializes the supplied 'MyHGC' with the specified 'hostgroup_settings'. * @details Input verification is performed in the supplied 'hostgroup_settings'. It's expected to be a valid * JSON that may contain the following fields: * - handle_warnings: Value must be >= 0. * * In case input verification fails for a field, supplied 'MyHGC' is NOT updated for that field. An error * message is logged specifying the source of the error. * * @param hostgroup_settings String containing a JSON defined in 'mysql_hostgroup_attributes'. * @param myhgc The 'MyHGC' of the target hostgroup of the supplied 'hostgroup_settings'. */ void init_myhgc_hostgroup_settings(const char* hostgroup_settings, MyHGC* myhgc) { const uint32_t hid = myhgc->hid; if (hostgroup_settings[0] != '\0') { try { nlohmann::json j = nlohmann::json::parse(hostgroup_settings); const auto handle_warnings_check = [](int8_t handle_warnings) -> bool { return handle_warnings == 0 || handle_warnings == 1; }; const int8_t handle_warnings = j_get_srv_default_int_val(j, hid, "handle_warnings", handle_warnings_check); myhgc->attributes.handle_warnings = handle_warnings; const auto monitor_slave_lag_when_null_check = [](int32_t monitor_slave_lag_when_null) -> bool { return (monitor_slave_lag_when_null >= 0 && monitor_slave_lag_when_null <= 604800); }; const int32_t monitor_slave_lag_when_null = j_get_srv_default_int_val(j, hid, "monitor_slave_lag_when_null", monitor_slave_lag_when_null_check); myhgc->attributes.monitor_slave_lag_when_null = monitor_slave_lag_when_null; } catch (const json::exception& e) { proxy_error( "JSON parsing for 'mysql_hostgroup_attributes.hostgroup_settings' for hostgroup %d failed with exception `%s`.\n", hid, e.what() ); } } } /** * @brief Initializes the supplied 'MyHGC' with the specified 'servers_defaults'. * @details Input verification is performed in the supplied 'server_defaults'. It's expected to be a valid * JSON that may contain the following fields: * - weight: Must be an unsigned integer >= 0. * - max_connections: Must be an unsigned integer >= 0. * - use_ssl: Must be a integer with either value 0 or 1. * * In case input verification fails for a field, supplied 'MyHGC' is NOT updated for that field. An error * message is logged specifying the source of the error. * * @param servers_defaults String containing a JSON defined in 'mysql_hostgroup_attributes'. * @param myhgc The 'MyHGC' of the target hostgroup of the supplied 'servers_defaults'. */ void init_myhgc_servers_defaults(char* servers_defaults, MyHGC* myhgc) { uint32_t hid = myhgc->hid; if (strcmp(servers_defaults, "") != 0) { try { nlohmann::json j = nlohmann::json::parse(servers_defaults); const auto weight_check = [] (int64_t weight) -> bool { return weight >= 0; }; int64_t weight = j_get_srv_default_int_val(j, hid, "weight", weight_check); myhgc->servers_defaults.weight = weight; const auto max_conns_check = [] (int64_t max_conns) -> bool { return max_conns >= 0; }; int64_t max_conns = j_get_srv_default_int_val(j, hid, "max_connections", max_conns_check); myhgc->servers_defaults.max_connections = max_conns; const auto use_ssl_check = [] (int32_t use_ssl) -> bool { return use_ssl == 0 || use_ssl == 1; }; int32_t use_ssl = j_get_srv_default_int_val(j, hid, "use_ssl", use_ssl_check); myhgc->servers_defaults.use_ssl = use_ssl; } catch (const json::exception& e) { proxy_error( "JSON parsing for 'mysql_hostgroup_attributes.servers_defaults' for hostgroup %d failed with exception `%s`.\n", hid, e.what() ); } } } void MySQL_HostGroups_Manager::generate_mysql_hostgroup_attributes_table() { if (incoming_hostgroup_attributes==NULL) { return; } int rc; sqlite3_stmt *statement=NULL; const char * query=(const char *)"INSERT INTO mysql_hostgroup_attributes ( " "hostgroup_id, max_num_online_servers, autocommit, free_connections_pct, " "init_connect, multiplex, connection_warming, throttle_connections_per_sec, " "ignore_session_variables, hostgroup_settings, servers_defaults, comment) VALUES " "(?1, ?2, ?3, ?4, ?5, ?6, ?7, ?8, ?9, ?10, ?11, ?12)"; //rc=(*proxy_sqlite3_prepare_v2)(mydb3, query, -1, &statement, 0); rc = mydb->prepare_v2(query, &statement); ASSERT_SQLITE_OK(rc, mydb); proxy_info("New mysql_hostgroup_attributes table\n"); bool current_configured[MyHostGroups->len]; // set configured = false to all // in this way later we can known which HG were updated for (unsigned int i=0; ilen; i++) { MyHGC *myhgc=(MyHGC *)MyHostGroups->index(i); current_configured[i] = myhgc->attributes.configured; myhgc->attributes.configured = false; } /** * @brief We iterate the whole resultset incoming_hostgroup_attributes and configure * both the hostgroup in memory, but also pupulate table mysql_hostgroup_attributes * connection errors. * @details for each row in incoming_hostgroup_attributes: * 1. it finds (or create) the hostgroup * 2. it writes the in mysql_hostgroup_attributes * 3. it finds (or create) the attributes of the hostgroup */ for (std::vector::iterator it = incoming_hostgroup_attributes->rows.begin() ; it != incoming_hostgroup_attributes->rows.end(); ++it) { SQLite3_row *r=*it; unsigned int hid = (unsigned int)atoi(r->fields[0]); MyHGC *myhgc = MyHGC_lookup(hid); // note: MyHGC_lookup() will create the HG if doesn't exist! int max_num_online_servers = atoi(r->fields[1]); int autocommit = atoi(r->fields[2]); int free_connections_pct = atoi(r->fields[3]); char * init_connect = r->fields[4]; int multiplex = atoi(r->fields[5]); int connection_warming = atoi(r->fields[6]); int throttle_connections_per_sec = atoi(r->fields[7]); char * ignore_session_variables = r->fields[8]; char * hostgroup_settings = r->fields[9]; char * servers_defaults = r->fields[10]; char * comment = r->fields[11]; proxy_info("Loading MySQL Hostgroup Attributes info for (%d,%d,%d,%d,\"%s\",%d,%d,%d,\"%s\",\"%s\",\"%s\",\"%s\")\n", hid, max_num_online_servers, autocommit, free_connections_pct, init_connect, multiplex, connection_warming, throttle_connections_per_sec, ignore_session_variables, hostgroup_settings, servers_defaults, comment ); rc=(*proxy_sqlite3_bind_int64)(statement, 1, hid); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement, 2, max_num_online_servers); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement, 3, autocommit); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement, 4, free_connections_pct); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement, 5, init_connect, -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement, 6, multiplex); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement, 7, connection_warming); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_int64)(statement, 8, throttle_connections_per_sec); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement, 9, ignore_session_variables, -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement, 10, hostgroup_settings, -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement, 11, servers_defaults, -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_bind_text)(statement, 12, comment, -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); SAFE_SQLITE3_STEP2(statement); rc=(*proxy_sqlite3_clear_bindings)(statement); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_reset)(statement); ASSERT_SQLITE_OK(rc, mydb); myhgc->attributes.configured = true; myhgc->attributes.max_num_online_servers = max_num_online_servers; myhgc->attributes.autocommit = autocommit; myhgc->attributes.free_connections_pct = free_connections_pct; myhgc->attributes.multiplex = multiplex; myhgc->attributes.connection_warming = connection_warming; myhgc->attributes.throttle_connections_per_sec = throttle_connections_per_sec; if (myhgc->attributes.init_connect != NULL) free(myhgc->attributes.init_connect); myhgc->attributes.init_connect = strdup(init_connect); if (myhgc->attributes.comment != NULL) free(myhgc->attributes.comment); myhgc->attributes.comment = strdup(comment); // for ignore_session_variables we store 2 versions: // 1. the text // 2. the JSON // Because calling JSON functions is expensive, we first verify if it changes if (myhgc->attributes.ignore_session_variables_text == NULL) { myhgc->attributes.ignore_session_variables_text = strdup(ignore_session_variables); if (strlen(ignore_session_variables) != 0) { // only if there is a valid JSON if (myhgc->attributes.ignore_session_variables_json != nullptr) { delete myhgc->attributes.ignore_session_variables_json; } myhgc->attributes.ignore_session_variables_json = new json(json::parse(ignore_session_variables)); } } else { if (strcmp(myhgc->attributes.ignore_session_variables_text, ignore_session_variables) != 0) { free(myhgc->attributes.ignore_session_variables_text); myhgc->attributes.ignore_session_variables_text = strdup(ignore_session_variables); if (strlen(ignore_session_variables) != 0) { // only if there is a valid JSON if (myhgc->attributes.ignore_session_variables_json != nullptr) { delete myhgc->attributes.ignore_session_variables_json; } myhgc->attributes.ignore_session_variables_json = new json(json::parse(ignore_session_variables)); } // TODO: assign the variables } } init_myhgc_hostgroup_settings(hostgroup_settings, myhgc); init_myhgc_servers_defaults(servers_defaults, myhgc); } for (unsigned int i=0; ilen; i++) { MyHGC *myhgc=(MyHGC *)MyHostGroups->index(i); if (myhgc->attributes.configured == false) { if (current_configured[i] == true) { // if configured == false and previously it was configured == true , reset to defaults proxy_info("Resetting hostgroup attributes for hostgroup %u\n", myhgc->hid); myhgc->reset_attributes(); } } } (*proxy_sqlite3_finalize)(statement); delete incoming_hostgroup_attributes; incoming_hostgroup_attributes=NULL; } void MySQL_HostGroups_Manager::generate_mysql_servers_ssl_params_table() { if (incoming_mysql_servers_ssl_params==NULL) { return; } int rc; sqlite3_stmt *statement=NULL; const char * query = (const char *)"INSERT INTO mysql_servers_ssl_params (" "hostname, port, username, ssl_ca, ssl_cert, ssl_key, ssl_capath, " "ssl_crl, ssl_crlpath, ssl_cipher, tls_version, comment) VALUES " "(?1, ?2, ?3, ?4, ?5, ?6, ?7, ?8, ?9, ?10, ?11, ?12)"; rc = mydb->prepare_v2(query, &statement); ASSERT_SQLITE_OK(rc, mydb); proxy_info("New mysql_servers_ssl_params table\n"); std::lock_guard lock(Servers_SSL_Params_map_mutex); Servers_SSL_Params_map.clear(); for (std::vector::iterator it = incoming_mysql_servers_ssl_params->rows.begin() ; it != incoming_mysql_servers_ssl_params->rows.end(); ++it) { SQLite3_row *r=*it; proxy_info("Loading MySQL Server SSL Params for (%s,%s,%s)\n", r->fields[0], r->fields[1], r->fields[2] ); rc=(*proxy_sqlite3_bind_text)(statement, 1, r->fields[0] , -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); // hostname rc=(*proxy_sqlite3_bind_int64)(statement, 2, atoi(r->fields[1])); ASSERT_SQLITE_OK(rc, mydb); // port rc=(*proxy_sqlite3_bind_text)(statement, 3, r->fields[2] , -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); // username rc=(*proxy_sqlite3_bind_text)(statement, 4, r->fields[3] , -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); // ssl_ca rc=(*proxy_sqlite3_bind_text)(statement, 5, r->fields[4] , -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); // ssl_cert rc=(*proxy_sqlite3_bind_text)(statement, 6, r->fields[5] , -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); // ssl_key rc=(*proxy_sqlite3_bind_text)(statement, 7, r->fields[6] , -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); // ssl_capath rc=(*proxy_sqlite3_bind_text)(statement, 8, r->fields[7] , -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); // ssl_crl rc=(*proxy_sqlite3_bind_text)(statement, 9, r->fields[8] , -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); // ssl_crlpath rc=(*proxy_sqlite3_bind_text)(statement, 10, r->fields[9] , -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); // ssl_cipher rc=(*proxy_sqlite3_bind_text)(statement, 11, r->fields[10] , -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); // tls_version rc=(*proxy_sqlite3_bind_text)(statement, 12, r->fields[11] , -1, SQLITE_TRANSIENT); ASSERT_SQLITE_OK(rc, mydb); // comment SAFE_SQLITE3_STEP2(statement); rc=(*proxy_sqlite3_clear_bindings)(statement); ASSERT_SQLITE_OK(rc, mydb); rc=(*proxy_sqlite3_reset)(statement); ASSERT_SQLITE_OK(rc, mydb); MySQLServers_SslParams MSSP( r->fields[0], atoi(r->fields[1]), r->fields[2], r->fields[3], r->fields[4], r->fields[5], r->fields[6], r->fields[7], r->fields[8], r->fields[9], r->fields[10], r->fields[11] ); string MapKey = MSSP.getMapKey(rand_del); Servers_SSL_Params_map.emplace(MapKey, MSSP); } (*proxy_sqlite3_finalize)(statement); delete incoming_mysql_servers_ssl_params; incoming_mysql_servers_ssl_params=NULL; } int MySQL_HostGroups_Manager::create_new_server_in_hg( uint32_t hid, const srv_info_t& srv_info, const srv_opts_t& srv_opts ) { int32_t res = -1; MySrvC* mysrvc = find_server_in_hg(hid, srv_info.addr, srv_info.port); if (mysrvc == nullptr) { char* c_hostname { const_cast(srv_info.addr.c_str()) }; MySrvC* mysrvc = new MySrvC( c_hostname, srv_info.port, 0, srv_opts.weigth, MYSQL_SERVER_STATUS_ONLINE, 0, srv_opts.max_conns, 0, srv_opts.use_ssl, 0, const_cast("") ); add(mysrvc,hid); proxy_info( "Adding new discovered %s node %s:%d with: hostgroup=%d, weight=%ld, max_connections=%ld, use_ssl=%d\n", srv_info.kind.c_str(), c_hostname, srv_info.port, hid, mysrvc->weight, mysrvc->max_connections, mysrvc->use_ssl ); res = 0; } else { // If the server is found as 'OFFLINE_HARD' we reset the 'MySrvC' values corresponding with the // 'servers_defaults' (as in a new 'MySrvC' creation). We then later update these values with the // 'servers_defaults' attributes from its corresponding 'MyHGC'. This way we ensure uniform behavior // of new servers, and 'OFFLINE_HARD' ones when a user update 'servers_defaults' values, and reloads // the servers to runtime. if (mysrvc && mysrvc->get_status() == MYSQL_SERVER_STATUS_OFFLINE_HARD) { reset_hg_attrs_server_defaults(mysrvc); update_hg_attrs_server_defaults(mysrvc, mysrvc->myhgc); mysrvc->set_status(MYSQL_SERVER_STATUS_ONLINE); proxy_info( "Found healthy previously discovered %s node %s:%d as 'OFFLINE_HARD', setting back as 'ONLINE' with:" " hostgroup=%d, weight=%ld, max_connections=%ld, use_ssl=%d\n", srv_info.kind.c_str(), srv_info.addr.c_str(), srv_info.port, hid, mysrvc->weight, mysrvc->max_connections, mysrvc->use_ssl ); res = 0; } } return res; } int MySQL_HostGroups_Manager::remove_server_in_hg(uint32_t hid, const string& addr, uint16_t port) { MySrvC* mysrvc = find_server_in_hg(hid, addr, port); if (mysrvc == nullptr) { return -1; } uint64_t mysrvc_addr = reinterpret_cast(mysrvc); proxy_warning( "Removed server at address %ld, hostgroup %d, address %s port %d." " Setting status OFFLINE HARD and immediately dropping all free connections." " Used connections will be dropped when trying to use them\n", mysrvc_addr, hid, mysrvc->address, mysrvc->port ); // Set the server status mysrvc->set_status(MYSQL_SERVER_STATUS_OFFLINE_HARD); mysrvc->ConnectionsFree->drop_all_connections(); // TODO-NOTE: This is only required in case the caller isn't going to perform: // - Full deletion of servers in the target 'hid'. // - Table regeneration for the servers in the target 'hid'. // This is a very common pattern when further operations have been performed over the // servers, e.g. a set of servers additions and deletions over the target hostgroups. // //////////////////////////////////////////////////////////////////////// // Remove the server from the table const string del_srv_query { "DELETE FROM mysql_servers WHERE mem_pointer=" + std::to_string(mysrvc_addr) }; mydb->execute(del_srv_query.c_str()); // //////////////////////////////////////////////////////////////////////// return 0; } void MySQL_HostGroups_Manager::HostGroup_Server_Mapping::copy_if_not_exists(Type dest_type, Type src_type) { assert(dest_type != src_type); const std::vector& src_nodes = mapping[src_type]; if (src_nodes.empty()) return; std::vector& dest_nodes = mapping[dest_type]; std::list append; for (const auto& src_node : src_nodes) { for (const auto& dest_node : dest_nodes) { if (src_node.reader_hostgroup_id == dest_node.reader_hostgroup_id && src_node.writer_hostgroup_id == dest_node.writer_hostgroup_id) { goto __skip; } } append.push_back(src_node); __skip: continue; } if (append.empty()) { return; } if (dest_nodes.capacity() < (dest_nodes.size() + append.size())) dest_nodes.reserve(dest_nodes.size() + append.size()); for (auto& node : append) { if (node.srv->get_status() == MYSQL_SERVER_STATUS_SHUNNED || node.srv->get_status() == MYSQL_SERVER_STATUS_SHUNNED_REPLICATION_LAG) { // Status updated from "*SHUNNED" to "ONLINE" as "read_only" value was successfully // retrieved from the backend server, indicating server is now online. node.srv->set_status(MYSQL_SERVER_STATUS_ONLINE); } MySrvC* new_srv = insert_HGM(get_hostgroup_id(dest_type, node), node.srv); if (!new_srv) assert(0); node.srv = new_srv; dest_nodes.push_back(node); } } void MySQL_HostGroups_Manager::HostGroup_Server_Mapping::remove(Type type, size_t index) { std::vector& nodes = mapping[type]; // ensure that we're not attempting to access out of the bounds of the container. assert(index < nodes.size()); remove_HGM(nodes[index].srv); //Swap the element with the back element, except in the case when we're the last element. if (index + 1 != nodes.size()) std::swap(nodes[index], nodes.back()); //Pop the back of the container, deleting our old element. nodes.pop_back(); } void MySQL_HostGroups_Manager::HostGroup_Server_Mapping::clear(Type type) { for (const auto& node : mapping[type]) { remove_HGM(node.srv); } mapping[type].clear(); } unsigned int MySQL_HostGroups_Manager::HostGroup_Server_Mapping::get_hostgroup_id(Type type, const Node& node) const { if (type == Type::WRITER) return node.writer_hostgroup_id; else if (type == Type::READER) return node.reader_hostgroup_id; else assert(0); } MySrvC* MySQL_HostGroups_Manager::HostGroup_Server_Mapping::insert_HGM(unsigned int hostgroup_id, const MySrvC* srv) { MyHGC* myhgc = myHGM->MyHGC_lookup(hostgroup_id); if (!myhgc) return NULL; MySrvC* ret_srv = NULL; for (uint32_t j = 0; j < myhgc->mysrvs->cnt(); j++) { MySrvC* mysrvc = static_cast(myhgc->mysrvs->servers->index(j)); if (strcmp(mysrvc->address, srv->address) == 0 && mysrvc->port == srv->port) { if (mysrvc->get_status() == MYSQL_SERVER_STATUS_OFFLINE_HARD) { mysrvc->gtid_port = srv->gtid_port; mysrvc->weight = srv->weight; mysrvc->compression = srv->compression; mysrvc->max_connections = srv->max_connections; mysrvc->max_replication_lag = srv->max_replication_lag; mysrvc->use_ssl = srv->use_ssl; mysrvc->max_latency_us = srv->max_latency_us; mysrvc->comment = strdup(srv->comment); mysrvc->set_status(MYSQL_SERVER_STATUS_ONLINE); if (GloMTH->variables.hostgroup_manager_verbose) { proxy_info( "Found server node in Host Group Container %s:%d as 'OFFLINE_HARD', setting back as 'ONLINE' with:" " hostgroup_id=%d, gtid_port=%d, weight=%ld, compression=%d, max_connections=%ld, use_ssl=%d," " max_replication_lag=%d, max_latency_ms=%d, comment=%s\n", mysrvc->address, mysrvc->port, hostgroup_id, mysrvc->gtid_port, mysrvc->weight, mysrvc->compression, mysrvc->max_connections, mysrvc->use_ssl, mysrvc->max_replication_lag, (mysrvc->max_latency_us / 1000), mysrvc->comment ); } ret_srv = mysrvc; break; } } } if (!ret_srv) { if (GloMTH->variables.hostgroup_manager_verbose) { proxy_info("Creating new server in HG %d : %s:%d , gtid_port=%d, weight=%ld, status=%d\n", hostgroup_id, srv->address, srv->port, srv->gtid_port, srv->weight, (int)srv->get_status()); } proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 5, "Adding new server %s:%d , weight=%ld, status=%d, mem_ptr=%p into hostgroup=%d\n", srv->address, srv->port, srv->weight, (int)srv->get_status(), srv, hostgroup_id); ret_srv = new MySrvC(srv->address, srv->port, srv->gtid_port, srv->weight, srv->get_status(), srv->compression, srv->max_connections, srv->max_replication_lag, srv->use_ssl, (srv->max_latency_us / 1000), srv->comment); myhgc->mysrvs->add(ret_srv); } return ret_srv; } void MySQL_HostGroups_Manager::HostGroup_Server_Mapping::remove_HGM(MySrvC* srv) { proxy_warning("Removed server at address %p, hostgroup %d, address %s port %d. Setting status OFFLINE HARD and immediately dropping all free connections. Used connections will be dropped when trying to use them\n", (void*)srv, srv->myhgc->hid, srv->address, srv->port); srv->set_status(MYSQL_SERVER_STATUS_OFFLINE_HARD); srv->ConnectionsFree->drop_all_connections(); } MySQLServers_SslParams * MySQL_HostGroups_Manager::get_Server_SSL_Params(char *hostname, int port, char *username) { string MapKey = string(hostname) + string(rand_del) + to_string(port) + string(rand_del) + string(username); std::lock_guard lock(Servers_SSL_Params_map_mutex); auto it = Servers_SSL_Params_map.find(MapKey); if (it != Servers_SSL_Params_map.end()) { MySQLServers_SslParams * MSSP = new MySQLServers_SslParams(it->second); return MSSP; } else { MapKey = string(hostname) + string(rand_del) + to_string(port) + string(rand_del) + ""; // search for empty username it = Servers_SSL_Params_map.find(MapKey); if (it != Servers_SSL_Params_map.end()) { MySQLServers_SslParams * MSSP = new MySQLServers_SslParams(it->second); return MSSP; } } return NULL; } /** * @brief Updates replication hostgroups by adding autodiscovered mysql servers. * @details Adds each server from 'new_servers' to the 'runtime_mysql_servers' table. * We then rebuild the 'mysql_servers' table as well as the internal 'hostname_hostgroup_mapping'. * @param new_servers A vector of tuples where each tuple contains the values needed to add each new server. */ void MySQL_HostGroups_Manager::add_discovered_servers_to_mysql_servers_and_replication_hostgroups( const vector>& new_servers ) { int added_new_server = -1; GloAdmin->mysql_servers_wrlock(); wrlock(); // Add the discovered server with default values for (const tuple& s : new_servers) { string host = std::get<0>(s); uint16_t port = std::get<1>(s); long int hostgroup_id = std::get<2>(s); srv_info_t srv_info { host.c_str(), port, "AWS RDS" }; srv_opts_t srv_opts { -1, -1, -1 }; added_new_server = create_new_server_in_hg(hostgroup_id, srv_info, srv_opts); } // If servers were added, perform necessary updates to internal structures if (added_new_server > -1) { purge_mysql_servers_table(); mydb->execute("DELETE FROM mysql_servers"); proxy_debug(PROXY_DEBUG_MYSQL_CONNPOOL, 4, "DELETE FROM mysql_servers\n"); generate_mysql_servers_table(); // Update the global checksums after 'mysql_servers' regeneration { unique_ptr resultset { get_admin_runtime_mysql_servers(mydb) }; string mysrvs_checksum { get_checksum_from_hash(resultset ? resultset->raw_checksum() : 0) }; save_runtime_mysql_servers(resultset.release()); // Update the runtime_mysql_servers checksum with the new checksum uint64_t raw_checksum = this->runtime_mysql_servers ? this->runtime_mysql_servers->raw_checksum() : 0; table_resultset_checksum[HGM_TABLES::MYSQL_SERVERS] = raw_checksum; // This is required for preserving coherence in the checksums, otherwise they would be inconsistent with `commit` generated checksums SpookyHash rep_hgs_hash {}; bool init = false; uint64_t servers_v2_hash = table_resultset_checksum[HGM_TABLES::MYSQL_SERVERS_V2]; if (servers_v2_hash) { if (init == false) { init = true; rep_hgs_hash.Init(19, 3); } rep_hgs_hash.Update(&servers_v2_hash, sizeof(servers_v2_hash)); } CUCFT1( rep_hgs_hash, init, "mysql_replication_hostgroups", "writer_hostgroup", table_resultset_checksum[HGM_TABLES::MYSQL_REPLICATION_HOSTGROUPS] ); proxy_info("Checksum for table %s is %s\n", "mysql_servers", mysrvs_checksum.c_str()); pthread_mutex_lock(&GloVars.checksum_mutex); update_glovars_mysql_servers_checksum(mysrvs_checksum); pthread_mutex_unlock(&GloVars.checksum_mutex); } update_table_mysql_servers_for_monitor(false); update_hostgroup_manager_mappings(); } wrunlock(); GloAdmin->mysql_servers_wrunlock(); } #endif // 0