/** * @file set_testing-t.cpp * @brief This file tests multiple settings combinations for MySQL variables, and checks that they are * actually being tracked correctly. * @details The test input is a 'csv' file with name 'set_testing-t.csv'. The file format consists in * two primary columns which specifies the variables to set (first) and the expected result of setting * those variables (second), and an optional third column which hold variables that shouldn't be checked * anymore after the 'SET STATEMENTS' from the same line are executed. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "json.hpp" #include "re2/re2.h" #include "re2/regexp.h" #include "tap.h" #include "utils.h" #include "command_line.h" int queries_per_connections=10; //unsigned int num_threads=1; //unsigned int num_threads=5; unsigned int num_threads=20; int count=20; char *username=NULL; char *password=NULL; char *host=(char *)"localhost"; int port=3306; int multiport=1; char *schema=(char *)"information_schema"; int silent = 0; int sysbench = 0; int local=0; int queries=3000; int uniquequeries=0; int histograms=-1; bool is_mariadb = false; unsigned int g_connect_OK=0; unsigned int g_connect_ERR=0; unsigned int g_select_OK=0; unsigned int g_select_ERR=0; unsigned int g_passed=0; unsigned int g_failed=0; unsigned int status_connections = 0; unsigned int connect_phase_completed = 0; unsigned int query_phase_completed = 0; __thread int g_seed; std::mutex mtx_; std::vector forgotten_vars {}; #include "set_testing-240.h" class var_counter { public: int count; int unknown; var_counter() { count=0; unknown=0; } }; //std::unordered_map unknown_var_counters; std::unordered_map vars_counters; /* TODO add support for variables with values out of range, for example setting auto_increment_increment to 100000 */ void * my_conn_thread(void *arg) { g_seed = time(NULL) ^ getpid() ^ pthread_self(); unsigned int select_OK=0; unsigned int select_ERR=0; int i, j; MYSQL **mysqlconns=(MYSQL **)malloc(sizeof(MYSQL *)*count); bool set_sql_mode[count]; std::vector varsperconn(count); if (mysqlconns==NULL) { exit(EXIT_FAILURE); } std::vector cs = {"latin1", "utf8", "utf8mb4", "latin2", "latin7"}; for (i=0; i lock(mtx_); skip(1, "connections mysql[%p] proxysql[%s], command [%s]", mysql, paddress.c_str(), testCases[r2].command.c_str()); continue; } if (strstr(testCases[r2].command.c_str(),"sql_log_bin")) { std::lock_guard lock(mtx_); skip(1, "connections: mysql[%p] proxysql[%s], command [%s]", mysql, paddress.c_str(), testCases[r2].command.c_str()); continue; } } diag("Thread_id: %lu, random number: %d . Query/ies: %s", mysql->thread_id, r2, testCases[r2].command.c_str()); std::vector commands = split(testCases[r2].command.c_str(), ';'); for (auto c : commands) { if (mysql_query(mysql, c.c_str())) { if (silent==0) { fprintf(stderr,"ERROR while running -- \"%s\" : (%d) %s\n", c.c_str(), mysql_errno(mysql), mysql_error(mysql)); } } else { MYSQL_RES *result = mysql_store_result(mysql); mysql_free_result(result); select_OK++; __sync_fetch_and_add(&g_select_OK,1); if (strcasestr(c.c_str(),"sql_mode") != NULL) { // diag("Line %d: Debug NO_BACKSLASH_ESCAPES , set_sql_mode=%s , connections mysql[%p] proxysql[%s], thread_id [%lu], command [%s]", __LINE__, (set_sql_mode[mysql_idx] == true ? "true" : "false") , mysql, paddress.c_str(), mysql->thread_id, testCases[r2].command.c_str()); if (set_sql_mode[mysql_idx] == false) { // first time we set sql_mode if (strcasestr(c.c_str(),"NO_BACKSLASH_ESCAPES") != NULL) { if (mysql->server_status & SERVER_STATUS_NO_BACKSLASH_ESCAPES) { } else { diag("Line %d: ERROR with NO_BACKSLASH_ESCAPES . connections mysql[%p] proxysql[%s], thread_id [%lu], command [%s]", __LINE__, mysql, paddress.c_str(), mysql->thread_id, testCases[r2].command.c_str()); exit(EXIT_FAILURE); } } else { if (mysql->server_status & SERVER_STATUS_NO_BACKSLASH_ESCAPES) { diag("Line %d: ERROR with NO_BACKSLASH_ESCAPES . connections mysql[%p] proxysql[%s], thread_id [%lu], command [%s]", __LINE__, mysql, paddress.c_str(), mysql->thread_id, testCases[r2].command.c_str()); exit(EXIT_FAILURE); } else { } } set_sql_mode[mysql_idx] = 1; // diag("Setting set_sql_mode=true . New value = %s . For: connections mysql[%p] proxysql[%s], thread_id [%lu], command [%s]" , (set_sql_mode[mysql_idx] == true ? "true" : "false") , mysql, paddress.c_str(), mysql->thread_id, testCases[r2].command.c_str()); } else { if (strcasestr(c.c_str(),"NO_BACKSLASH_ESCAPES") != NULL) { if (mysql->server_status & SERVER_STATUS_NO_BACKSLASH_ESCAPES) { } else { diag("Line %d: ERROR with NO_BACKSLASH_ESCAPES . connections mysql[%p] proxysql[%s], thread_id [%lu], command [%s]", __LINE__, mysql, paddress.c_str(), mysql->thread_id, testCases[r2].command.c_str()); exit(EXIT_FAILURE); } } } } } } for (auto& el : testCases[r2].expected_vars.items()) { if (el.key() == "transaction_isolation") { if (is_mariadb) { vars["tx_isolation"] = el.value(); } else { vars[el.key()] = el.value(); } } else if (el.key() == "session_track_gtids") { if (!is_mariadb) { vars[el.key()] = el.value(); } } else if (el.key() == "transaction_read_only") { if (is_mariadb) { vars["tx_read_only"] = el.value(); } else { vars[el.key()] = el.value(); } } else { vars[el.key()] = el.value(); } } int sleepDelay = fastrand()%100; usleep(sleepDelay * 1000); char query[128]; sprintf(query, "SELECT /* %p %s */ %d;", mysql, paddress.c_str(), sleepDelay); if (mysql_query(mysql,query)) { select_ERR++; __sync_fetch_and_add(&g_select_ERR,1); } else { MYSQL_RES *result = mysql_store_result(mysql); mysql_free_result(result); select_OK++; __sync_fetch_and_add(&g_select_OK,1); } json mysql_vars; queryVariables(mysql, mysql_vars, paddress); json proxysql_vars; queryInternalStatus(mysql, proxysql_vars, paddress); //diag("MySQL vars: %lu , ProxySQL vars: %lu" , mysql_vars.size(), proxysql_vars.size()); //diag("ProxySQL internals: %s" , proxysql_vars.dump(2).c_str()); { int lhg = proxysql_vars["locked_on_hostgroup"]; if (lhg != -1) { diag("ProxySQL locked_on_hostgroup %d", lhg); diag("FAILED FOR: connections mysql[%p] proxysql[%s], thread_id [%lu], command [%s]", mysql, paddress.c_str(), mysql->thread_id, testCases[r2].command.c_str()); exit(EXIT_FAILURE); } } if (!testCases[r2].reset_vars.empty()) { for (const auto& var : testCases[r2].reset_vars) { if (std::find(forgotten_vars.begin(), forgotten_vars.end(), var) == forgotten_vars.end()) { forgotten_vars.push_back(var); } } } bool testPassed = true; int variables_tested = 0; for (auto& el : vars.items()) { auto k = mysql_vars.find(el.key()); auto s = proxysql_vars["conn"].find(el.key()); if (std::find(forgotten_vars.begin(), forgotten_vars.end(), el.key()) != forgotten_vars.end()) { continue; } if (k == mysql_vars.end()) diag("Variable %s->%s in mysql resultset was not found.\nmysql data : %s\nproxysql data: %s\ncsv data %s\n", el.value().dump().c_str(), el.key().c_str(), mysql_vars.dump().c_str(), proxysql_vars.dump().c_str(), vars.dump().c_str()); if (s == proxysql_vars["conn"].end()) diag("Variable %s->%s in proxysql resultset was not found.\nmysql data : %s\nproxysql data: %s\ncsv data %s\n", el.value().dump().c_str(), el.key().c_str(), mysql_vars.dump().c_str(), proxysql_vars.dump().c_str(), vars.dump().c_str()); bool verified_special_sqlmode = false; bool special_sqlmode = false; bool parsing_optimizer_switch = false; bool optimizer_switch_matches = false; if (el.key() == "long_query_time") { // we remove the decimals std::string tsnd = mysql_vars["long_query_time"]; if (tsnd.find(".") != std::string::npos) { tsnd = tsnd.substr(0, tsnd.find(".")); mysql_vars["long_query_time"]=tsnd; } } if (el.key() == "timestamp") { // we remove the decimals std::string tsnd = mysql_vars["timestamp"]; if (tsnd.find(".") != std::string::npos) { tsnd = tsnd.substr(0, tsnd.find(".")); mysql_vars["timestamp"]=tsnd; } } if (el.key() == "max_join_size") { if (el.value() == "DEFAULT") { if (mysql_vars["max_join_size"] == "18446744073709551615") { mysql_vars["max_join_size"] = "DEFAULT"; } } } if (el.key() == "optimizer_switch") { parsing_optimizer_switch = true; std::string e_val { el.value() }; std::string k_val { k.value() }; std::string s_val { s.value() }; if (e_val == s_val) { // it matches in proxysql if (strstr(k_val.c_str(), e_val.c_str()) != NULL) { optimizer_switch_matches = true; } } } if (el.key() == "sql_mode") { if (!el.value().is_string()) { diag("Invalid value for 'sql_mode' found. Provided value should be of 'string' type"); exit(EXIT_FAILURE); } if (k.value() != el.value()) { // different in mysql std::string e_val { el.value() }; std::string k_val { k.value() }; std::string s_val { s.value() }; if (el.value() == s.value()) { // but same in proxysql std::string str_val { el.value() }; if (strcasecmp(str_val.c_str(), "TRADITIONAL")==0) { if (k.value() == "STRICT_TRANS_TABLES,STRICT_ALL_TABLES,NO_ZERO_IN_DATE,NO_ZERO_DATE,ERROR_FOR_DIVISION_BY_ZERO,TRADITIONAL,NO_AUTO_CREATE_USER,NO_ENGINE_SUBSTITUTION") { special_sqlmode = true; verified_special_sqlmode = true; } } else { if (strcasestr(e_val.c_str(), "sql_mode") != NULL) { // simplified special_sqlmode = true; verified_special_sqlmode = true; } /* re2::RE2::Options options(RE2::Quiet); options.set_case_sensitive(false); options.set_longest_match(false); re2::RE2 concat_re("^CONCAT\\((|@@|@@session\\.)SQL_MODE,\"(.*)\"\\)", options); re2::StringPiece sp_input(str_val); std::string f_match {}; std::string s_match {}; re2::RE2::Consume(&sp_input, concat_re, &f_match, &s_match); if (!s_match.empty()) { special_sqlmode = true; // remove the initial 'comma' if exists if (s_match[0] == ',') { s_match = s_match.substr(1, std::string::npos); } std::string k_str_val { k.value() }; verified_special_sqlmode = strcasestr(k_str_val.c_str(), s_match.c_str()) != NULL; } */ } } } } if (std::find(possible_unknown_variables.begin(), possible_unknown_variables.end(), el.key()) != possible_unknown_variables.end()) { vars_counters[el.key()].count++; } if ( (special_sqlmode == true && verified_special_sqlmode == false) || (k == mysql_vars.end()) || (s == proxysql_vars["conn"].end()) || ( (parsing_optimizer_switch == true) && (optimizer_switch_matches == false) ) || (special_sqlmode == false && parsing_optimizer_switch == false && (el.key() != "session_track_gtids" && (k.value() != el.value() || s.value() != el.value())) || (el.key() == "session_track_gtids" && !check_session_track_gtids(el.value(), s.value(), k.value())) ) ) { if ( k != mysql_vars.end() && s != proxysql_vars["conn"].end()) { if (k.value() == UNKNOWNVAR) { // mysql doesn't recognize the variable if (s.value() == el.value()) { // but proxysql and CSV are the same variables_tested++; vars_counters[el.key()].unknown++; } } } else if (el.key() == "wsrep_sync_wait" && k == mysql_vars.end() && (s.value() == el.value())) { variables_tested++; } else { __sync_fetch_and_add(&g_failed, 1); testPassed = false; diag("Test failed for this case %s->%s.\n\nmysql data [%lu]: %s\n\n proxysql data [%lu]: %s\n\n csv data %s\n\n\n", el.value().dump(2).c_str(), el.key().c_str(), mysql_vars.size(), mysql_vars.dump(2).c_str(), proxysql_vars["conn"].size(), proxysql_vars["conn"].dump(2).c_str(), vars.dump(2).c_str()); diag("FAILED FOR: connections mysql[%p] proxysql[%s], thread_id [%lu], command [%s]", mysql, paddress.c_str(), mysql->thread_id, testCases[r2].command.c_str()); //ok(testPassed, "connections mysql[%p] proxysql[%s], thread_id [%lu], command [%s]", mysql, paddress.c_str(), mysql->thread_id, testCases[r2].command.c_str()); // In case of failing test, exit completely. //exit(EXIT_FAILURE); } } else { variables_tested++; } } { std::lock_guard lock(mtx_); ok(testPassed, "connections mysql[%p] proxysql[%s], thread_id [%lu], variables_tested [%d], command [%s]", mysql, paddress.c_str(), mysql->thread_id, variables_tested, testCases[r2].command.c_str()); } } __sync_fetch_and_add(&query_phase_completed,1); return NULL; } int main(int argc, char *argv[]) { CommandLine cl; if(cl.getEnv()) { diag("Failed to get the required environmental variables."); return exit_status(); } std::string fileName2(std::string(cl.workdir) + "/set_testing-240.csv"); if (detect_version(cl, is_mariadb) != 0) { diag("Cannot detect MySQL version"); return exit_status(); } /* num_threads = 10; queries_per_connections = 10; count = 10; */ username = cl.username; password = cl.password; host = cl.host; port = cl.port; diag("Loading test cases from file. This will take some time..."); if (!readTestCasesJSON(fileName2)) { fprintf(stderr, "Cannot read %s\n", fileName2.c_str()); return exit_status(); } MYSQL* proxysql_admin = mysql_init(NULL); if (!mysql_real_connect(proxysql_admin, cl.host, cl.admin_username, cl.admin_password, NULL, cl.admin_port, NULL, 0)) { fprintf(stderr, "File %s, line %d, Error: %s\n", __FILE__, __LINE__, mysql_error(proxysql_admin)); return EXIT_FAILURE; } diag("Disabling admin-hash_passwords to be able to run test on MySQL 8"); MYSQL_QUERY(proxysql_admin, "SET admin-hash_passwords='false'"); MYSQL_QUERY(proxysql_admin, "LOAD ADMIN VARIABLES TO RUNTIME"); MYSQL_QUERY(proxysql_admin, "LOAD MYSQL USERS TO RUNTIME"); diag("Creating new hostgroup 101: DELETE FROM mysql_servers WHERE hostgroup_id = 101"); MYSQL_QUERY(proxysql_admin, "DELETE FROM mysql_servers WHERE hostgroup_id = 101"); diag("Creating new hostgroup 101: INSERT INTO mysql_servers (hostgroup_id, hostname, port, max_connections, max_replication_lag, comment) SELECT DISTINCT 101, hostname, port, 100, 0, comment FROM mysql_servers WHERE hostgroup_id IN (1,11,21,31)"); MYSQL_QUERY(proxysql_admin, "INSERT INTO mysql_servers (hostgroup_id, hostname, port, max_connections, max_replication_lag, comment) SELECT DISTINCT 101, hostname, port, 100, 0, comment FROM mysql_servers WHERE hostgroup_id IN (1,11,21,31)"); MYSQL_QUERY(proxysql_admin, "LOAD MYSQL SERVERS TO RUNTIME"); diag("Changing read traffic to hostgroup 101: UPDATE mysql_query_rules SET destination_hostgroup=101 WHERE destination_hostgroup=1"); MYSQL_QUERY(proxysql_admin, "UPDATE mysql_query_rules SET destination_hostgroup=101 WHERE destination_hostgroup=1"); MYSQL_QUERY(proxysql_admin, "LOAD MYSQL QUERY RULES TO RUNTIME"); //queries = 3000; //queries = testCases.size(); plan(queries * num_threads); if (strcmp(host,"localhost")==0) { local = 1; } if (uniquequeries == 0) { if (queries) uniquequeries=queries; } if (uniquequeries) { uniquequeries=(int)sqrt(uniquequeries); } pthread_t *thi=(pthread_t *)malloc(sizeof(pthread_t)*num_threads); if (thi==NULL) return exit_status(); for (unsigned int i=0; i::iterator it = vars_counters.begin(); it!=vars_counters.end(); it++) { diag("Unknown variable %s:\t Count: %d , unknown: %d", it->first.c_str(), it->second.count, it->second.unknown); } return exit_status(); }