/* Copyright (C) 2003 MySQL AB This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "atrt.hpp" #include #include #include #include #include #include #include #define PATH_SEPARATOR "/" /** Global variables */ static const char progname[] = "ndb_atrt"; static const char * g_gather_progname = "atrt-gather-result.sh"; static const char * g_analyze_progname = "atrt-analyze-result.sh"; static const char * g_clear_progname = "atrt-clear-result.sh"; static const char * g_setup_progname = "atrt-setup.sh"; static const char * g_log_filename = 0; static const char * g_test_case_filename = 0; static const char * g_report_filename = 0; static int g_do_setup = 0; static int g_do_deploy = 0; static int g_do_sshx = 0; static int g_do_start = 0; static int g_do_quit = 0; static int g_help = 0; static int g_verbosity = 1; static FILE * g_report_file = 0; static FILE * g_test_case_file = stdin; static int g_mode = 0; Logger g_logger; atrt_config g_config; const char * g_user = 0; int g_baseport = 10000; int g_fqpn = 0; int g_default_ports = 0; const char * g_cwd = 0; const char * g_basedir = 0; const char * g_my_cnf = 0; const char * g_prefix = 0; const char * g_clusters = 0; BaseString g_replicate; const char *save_file = 0; char *save_extra_file = 0; const char *save_group_suffix = 0; const char * g_dummy; char * g_env_path = 0; /** Dummy, extern declared in ndb_opts.h */ int g_print_full_config = 0, opt_ndb_shm; my_bool opt_core; static struct my_option g_options[] = { { "help", '?', "Display this help and exit.", (uchar **) &g_help, (uchar **) &g_help, 0, GET_BOOL, NO_ARG, 0, 0, 0, 0, 0, 0 }, { "version", 'V', "Output version information and exit.", 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0 }, { "clusters", 256, "Cluster", (uchar **) &g_clusters, (uchar **) &g_clusters, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, { "replicate", 1024, "replicate", (uchar **) &g_dummy, (uchar **) &g_dummy, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, { "log-file", 256, "log-file", (uchar **) &g_log_filename, (uchar **) &g_log_filename, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, { "testcase-file", 'f', "testcase-file", (uchar **) &g_test_case_filename, (uchar **) &g_test_case_filename, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, { "report-file", 'r', "report-file", (uchar **) &g_report_filename, (uchar **) &g_report_filename, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, { "basedir", 256, "Base path", (uchar **) &g_basedir, (uchar **) &g_basedir, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, { "baseport", 256, "Base port", (uchar **) &g_baseport, (uchar **) &g_baseport, 0, GET_INT, REQUIRED_ARG, g_baseport, 0, 0, 0, 0, 0}, { "prefix", 256, "mysql install dir", (uchar **) &g_prefix, (uchar **) &g_prefix, 0, GET_STR, REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, { "verbose", 'v', "Verbosity", (uchar **) &g_verbosity, (uchar **) &g_verbosity, 0, GET_INT, REQUIRED_ARG, g_verbosity, 0, 0, 0, 0, 0}, { "configure", 256, "configure", (uchar **) &g_do_setup, (uchar **) &g_do_setup, 0, GET_INT, REQUIRED_ARG, g_do_setup, 0, 0, 0, 0, 0 }, { "deploy", 256, "deploy", (uchar **) &g_do_deploy, (uchar **) &g_do_deploy, 0, GET_INT, REQUIRED_ARG, g_do_deploy, 0, 0, 0, 0, 0 }, { "sshx", 256, "sshx", (uchar **) &g_do_sshx, (uchar **) &g_do_sshx, 0, GET_INT, REQUIRED_ARG, g_do_sshx, 0, 0, 0, 0, 0 }, { "start", 256, "start", (uchar **) &g_do_start, (uchar **) &g_do_start, 0, GET_INT, REQUIRED_ARG, g_do_start, 0, 0, 0, 0, 0 }, { "fqpn", 256, "Fully qualified path-names ", (uchar **) &g_fqpn, (uchar **) &g_fqpn, 0, GET_INT, REQUIRED_ARG, g_fqpn, 0, 0, 0, 0, 0 }, { "default-ports", 256, "Use default ports when possible", (uchar **) &g_default_ports, (uchar **) &g_default_ports, 0, GET_INT, REQUIRED_ARG, g_default_ports, 0, 0, 0, 0, 0 }, { "mode", 256, "Mode 0=interactive 1=regression 2=bench", (uchar **) &g_mode, (uchar **) &g_mode, 0, GET_INT, REQUIRED_ARG, g_mode, 0, 0, 0, 0, 0 }, { "quit", 256, "Quit before starting tests", (uchar **) &g_mode, (uchar **) &g_do_quit, 0, GET_BOOL, NO_ARG, g_do_quit, 0, 0, 0, 0, 0 }, { 0, 0, 0, 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0} }; const int p_ndb = atrt_process::AP_NDB_MGMD | atrt_process::AP_NDBD; const int p_servers = atrt_process::AP_MYSQLD; const int p_clients = atrt_process::AP_CLIENT | atrt_process::AP_NDB_API; int main(int argc, char ** argv) { ndb_init(); bool restart = true; int lineno = 1; int test_no = 1; int return_code = 1; g_logger.setCategory(progname); g_logger.enable(Logger::LL_ALL); g_logger.createConsoleHandler(); if(!parse_args(argc, argv)) goto end; g_logger.info("Starting..."); g_config.m_generated = false; g_config.m_replication = g_replicate; if (!setup_config(g_config)) goto end; if (!configure(g_config, g_do_setup)) goto end; g_logger.info("Setting up directories"); if (!setup_directories(g_config, g_do_setup)) goto end; if (g_do_setup) { g_logger.info("Setting up files"); if (!setup_files(g_config, g_do_setup, g_do_sshx)) goto end; } if (g_do_deploy) { if (!deploy(g_config)) goto end; } if (g_do_quit) { return_code = 0; goto end; } if(!setup_hosts(g_config)) goto end; if (g_do_sshx) { g_logger.info("Starting xterm-ssh"); if (!sshx(g_config, g_do_sshx)) goto end; g_logger.info("Done...sleeping"); while(true) { NdbSleep_SecSleep(1); } return_code = 0; goto end; } g_logger.info("Connecting to hosts"); if(!connect_hosts(g_config)) goto end; if (g_do_start && !g_test_case_filename) { g_logger.info("Starting server processes: %x", g_do_start); if (!start(g_config, g_do_start)) goto end; g_logger.info("Done...sleeping"); while(true) { NdbSleep_SecSleep(1); } return_code = 0; goto end; } return_code = 0; /** * Main loop */ while(!feof(g_test_case_file)){ /** * Do we need to restart ndb */ if(restart){ g_logger.info("(Re)starting server processes processes"); if(!stop_processes(g_config, ~0)) goto end; if (!setup_directories(g_config, 2)) goto end; if (!setup_files(g_config, 2, 1)) goto end; if(!setup_hosts(g_config)) goto end; if (!start(g_config, p_ndb | p_servers)) goto end; g_logger.info("All servers start completed"); } // const int start_line = lineno; atrt_testcase test_case; if(!read_test_case(g_test_case_file, test_case, lineno)) goto end; g_logger.info("#%d - %s %s", test_no, test_case.m_command.c_str(), test_case.m_args.c_str()); // Assign processes to programs if(!setup_test_case(g_config, test_case)) goto end; if(!start_processes(g_config, p_clients)) goto end; int result = 0; const time_t start = time(0); time_t now = start; do { if(!update_status(g_config, atrt_process::AP_ALL)) goto end; int count = 0; if((count = is_running(g_config, p_ndb)) != 2){ result = ERR_NDB_FAILED; break; } if((count = is_running(g_config, p_servers)) != 2){ result = ERR_SERVERS_FAILED; break; } if((count = is_running(g_config, p_clients)) == 0){ break; } now = time(0); if(now > (start + test_case.m_max_time)){ result = ERR_MAX_TIME_ELAPSED; break; } NdbSleep_SecSleep(1); } while(true); const time_t elapsed = time(0) - start; if(!stop_processes(g_config, p_clients)) goto end; int tmp, *rp = result ? &tmp : &result; if(!gather_result(g_config, rp)) goto end; g_logger.info("#%d %s(%d)", test_no, (result == 0 ? "OK" : "FAILED"), result); if(g_report_file != 0){ fprintf(g_report_file, "%s ; %d ; %d ; %ld\n", test_case.m_name.c_str(), test_no, result, elapsed); fflush(g_report_file); } if(g_mode == 0 && result){ g_logger.info ("Encountered failed test in interactive mode - terminating"); break; } BaseString resdir; resdir.assfmt("result.%d", test_no); remove_dir(resdir.c_str(), true); if(test_case.m_report || g_mode == 2 || (g_mode && result)) { if(rename("result", resdir.c_str()) != 0) { g_logger.critical("Failed to rename %s as %s", "result", resdir.c_str()); goto end; } } else { remove_dir("result", true); } if(result != 0){ restart = true; } else { restart = false; } test_no++; } end: if(g_report_file != 0){ fclose(g_report_file); g_report_file = 0; } if(g_test_case_file != 0 && g_test_case_file != stdin){ fclose(g_test_case_file); g_test_case_file = 0; } stop_processes(g_config, atrt_process::AP_ALL); return return_code; } static my_bool get_one_option(int arg, const struct my_option * opt, char * value) { if (arg == 1024) { if (g_replicate.length()) g_replicate.append(";"); g_replicate.append(value); return 1; } return 0; } bool parse_args(int argc, char** argv) { char buf[2048]; if (getcwd(buf, sizeof(buf)) == 0) { g_logger.error("Unable to get current working directory"); return false; } g_cwd = strdup(buf); struct stat sbuf; BaseString mycnf; if (argc > 1 && lstat(argv[argc-1], &sbuf) == 0) { mycnf.append(g_cwd); mycnf.append(PATH_SEPARATOR); mycnf.append(argv[argc-1]); } else { mycnf.append(g_cwd); mycnf.append(PATH_SEPARATOR); mycnf.append("my.cnf"); if (lstat(mycnf.c_str(), &sbuf) != 0) { g_logger.error("Unable to stat %s", mycnf.c_str()); return false; } } g_logger.info("Bootstrapping using %s", mycnf.c_str()); const char *groups[] = { "atrt", 0 }; int ret = load_defaults(mycnf.c_str(), groups, &argc, &argv); save_file = my_defaults_file; save_extra_file = my_defaults_extra_file; save_group_suffix = my_defaults_group_suffix; if (save_extra_file) { g_logger.error("--defaults-extra-file(%s) is not supported...", save_extra_file); return false; } if (ret || handle_options(&argc, &argv, g_options, get_one_option)) { g_logger.error("Failed to load defaults/handle_options"); return false; } if (argc >= 2) { const char * arg = argv[argc-2]; while(* arg) { switch(* arg){ case 'c': g_do_setup = (g_do_setup == 0) ? 1 : g_do_setup; break; case 'C': g_do_setup = 2; break; case 'd': g_do_deploy = 1; break; case 'x': g_do_sshx = atrt_process::AP_CLIENT | atrt_process::AP_NDB_API; break; case 'X': g_do_sshx = atrt_process::AP_ALL; break; case 's': g_do_start = p_ndb; break; case 'S': g_do_start = p_ndb | p_servers; break; case 'f': g_fqpn = 1; break; case 'q': g_do_quit = 1; break; default: g_logger.error("Unknown switch '%c'", *arg); return false; } arg++; } } if(g_log_filename != 0) { g_logger.removeConsoleHandler(); g_logger.addHandler(new FileLogHandler(g_log_filename)); } { int tmp = Logger::LL_WARNING - g_verbosity; tmp = (tmp < Logger::LL_DEBUG ? Logger::LL_DEBUG : tmp); g_logger.disable(Logger::LL_ALL); g_logger.enable(Logger::LL_ON); g_logger.enable((Logger::LoggerLevel)tmp, Logger::LL_ALERT); } if(!g_basedir) { g_basedir = g_cwd; g_logger.info("basedir not specified, using %s", g_basedir); } if (!g_prefix) { g_prefix = DEFAULT_PREFIX; } /** * Add path to atrt-*.sh */ { BaseString tmp; const char* env = getenv("PATH"); if (env && strlen(env)) { tmp.assfmt("PATH=%s:%s/mysql-test/ndb", env, g_prefix); } else { tmp.assfmt("PATH=%s/mysql-test/ndb", g_prefix); } g_env_path = strdup(tmp.c_str()); putenv(g_env_path); } if (g_help) { my_print_help(g_options); my_print_variables(g_options); return 0; } if(g_test_case_filename) { g_test_case_file = fopen(g_test_case_filename, "r"); if(g_test_case_file == 0) { g_logger.critical("Unable to open file: %s", g_test_case_filename); return false; } if (g_do_setup == 0) g_do_setup = 2; if (g_do_start == 0) g_do_start = p_ndb | p_servers; if (g_mode == 0) g_mode = 1; if (g_do_sshx) { g_logger.critical("ssx specified...not possible with testfile"); return false; } } if (g_do_setup == 0) { BaseString tmp; tmp.append(g_basedir); tmp.append(PATH_SEPARATOR); tmp.append("my.cnf"); if (lstat(tmp.c_str(), &sbuf) != 0) { g_logger.error("Unable to stat %s", tmp.c_str()); return false; } if (!S_ISREG(sbuf.st_mode)) { g_logger.error("%s is not a regular file", tmp.c_str()); return false; } g_my_cnf = strdup(tmp.c_str()); g_logger.info("Using %s", tmp.c_str()); } else { g_my_cnf = strdup(mycnf.c_str()); } g_logger.info("Using --prefix=\"%s\"", g_prefix); if(g_report_filename) { g_report_file = fopen(g_report_filename, "w"); if(g_report_file == 0) { g_logger.critical("Unable to create report file: %s", g_report_filename); return false; } } if (g_clusters == 0) { g_logger.critical("No clusters specified"); return false; } g_user = strdup(getenv("LOGNAME")); return true; } bool connect_hosts(atrt_config& config){ for(size_t i = 0; im_cpcd->connect() != 0){ g_logger.error("Unable to connect to cpc %s:%d", config.m_hosts[i]->m_cpcd->getHost(), config.m_hosts[i]->m_cpcd->getPort()); return false; } g_logger.debug("Connected to %s:%d", config.m_hosts[i]->m_cpcd->getHost(), config.m_hosts[i]->m_cpcd->getPort()); } return true; } bool connect_ndb_mgm(atrt_process & proc){ NdbMgmHandle handle = ndb_mgm_create_handle(); if(handle == 0){ g_logger.critical("Unable to create mgm handle"); return false; } BaseString tmp = proc.m_host->m_hostname; const char * val; proc.m_options.m_loaded.get("--PortNumber=", &val); tmp.appfmt(":%s", val); if (ndb_mgm_set_connectstring(handle,tmp.c_str())) { g_logger.critical("Unable to create parse connectstring"); return false; } if(ndb_mgm_connect(handle, 30, 1, 0) != -1) { proc.m_ndb_mgm_handle = handle; return true; } g_logger.critical("Unable to connect to ndb mgm %s", tmp.c_str()); return false; } bool connect_ndb_mgm(atrt_config& config){ for(size_t i = 0; im_processes.size(); j++){ atrt_process & proc = *cluster->m_processes[j]; if((proc.m_type & atrt_process::AP_NDB_MGMD) != 0){ handle = proc.m_ndb_mgm_handle; break; } } if(handle == 0){ g_logger.critical("Unable to find mgm handle"); return false; } if(goal == NDB_MGM_NODE_STATUS_STARTED){ /** * 1) wait NOT_STARTED * 2) send start * 3) wait STARTED */ if(!wait_ndb(config, NDB_MGM_NODE_STATUS_NOT_STARTED)) return false; ndb_mgm_start(handle, 0, 0); } struct ndb_mgm_cluster_state * state; time_t now = time(0); time_t end = now + 360; int min = remap(NDB_MGM_NODE_STATUS_NO_CONTACT); int min2 = goal; while(now < end){ /** * 1) retreive current state */ state = 0; do { state = ndb_mgm_get_status(handle); if(state == 0){ const int err = ndb_mgm_get_latest_error(handle); g_logger.error("Unable to poll db state: %d %s %s", ndb_mgm_get_latest_error(handle), ndb_mgm_get_latest_error_msg(handle), ndb_mgm_get_latest_error_desc(handle)); if(err == NDB_MGM_SERVER_NOT_CONNECTED && connect_ndb_mgm(config)){ g_logger.error("Reconnected..."); continue; } return false; } } while(state == 0); NdbAutoPtr tmp(state); min2 = goal; for(int j = 0; jno_of_nodes; j++){ if(state->node_states[j].node_type == NDB_MGM_NODE_TYPE_NDB){ const int s = remap(state->node_states[j].node_status); min2 = (min2 < s ? min2 : s ); if(s < remap(NDB_MGM_NODE_STATUS_NO_CONTACT) || s > NDB_MGM_NODE_STATUS_STARTED){ g_logger.critical("Strange DB status during start: %d %d", j, min2); return false; } if(min2 < min){ g_logger.critical("wait ndb failed node: %d %d %d %d", state->node_states[j].node_id, min, min2, goal); } } } if(min2 < min){ g_logger.critical("wait ndb failed %d %d %d", min, min2, goal); return false; } if(min2 == goal){ cnt++; goto next; } min = min2; now = time(0); } g_logger.critical("wait ndb timed out %d %d %d", min, min2, goal); break; next: ; } return cnt == config.m_clusters.size(); } bool start_process(atrt_process & proc){ if(proc.m_proc.m_id != -1){ g_logger.critical("starting already started process: %d", proc.m_index); return false; } BaseString tmp = g_setup_progname; tmp.appfmt(" %s %s/ %s", proc.m_host->m_hostname.c_str(), proc.m_proc.m_cwd.c_str(), proc.m_proc.m_cwd.c_str()); g_logger.debug("system(%s)", tmp.c_str()); const int r1 = system(tmp.c_str()); if(r1 != 0){ g_logger.critical("Failed to setup process"); return false; } { Properties reply; if(proc.m_host->m_cpcd->define_process(proc.m_proc, reply) != 0){ BaseString msg; reply.get("errormessage", msg); g_logger.error("Unable to define process: %s", msg.c_str()); return false; } } { Properties reply; if(proc.m_host->m_cpcd->start_process(proc.m_proc.m_id, reply) != 0){ BaseString msg; reply.get("errormessage", msg); g_logger.error("Unable to start process: %s", msg.c_str()); return false; } } return true; } bool start_processes(atrt_config& config, int types){ for(size_t i = 0; im_cpcd->stop_process(proc.m_proc.m_id, reply) != 0){ Uint32 status; reply.get("status", &status); if(status != 4){ BaseString msg; reply.get("errormessage", msg); g_logger.error("Unable to stop process: %s(%d)", msg.c_str(), status); return false; } } } { Properties reply; if(proc.m_host->m_cpcd->undefine_process(proc.m_proc.m_id, reply) != 0){ BaseString msg; reply.get("errormessage", msg); g_logger.error("Unable to undefine process: %s", msg.c_str()); return false; } proc.m_proc.m_id = -1; } return true; } bool stop_processes(atrt_config& config, int types){ for(size_t i = 0; i > m_procs; Vector dummy; m_procs.fill(config.m_hosts.size(), dummy); for(size_t i = 0; im_cpcd->list_processes(m_procs[i], p); } for(size_t i = 0; i &h_procs= m_procs[proc.m_host->m_index]; bool found = false; for(size_t j = 0; jm_hostname.c_str(), proc.m_proc.m_path.c_str()); for(size_t j = 0; j split; tmp.split(split, ":=", 2); if(split.size() != 2) return -1; p.put(split[0].trim().c_str(), split[1].trim().c_str()); return 0; } bool read_test_case(FILE * file, atrt_testcase& tc, int& line){ Properties p; int elements = 0; char buf[1024]; while(!feof(file)){ if(!fgets(buf, 1024, file)) break; line++; BaseString tmp = buf; if(tmp.length() > 0 && tmp.c_str()[0] == '#') continue; if(insert(tmp.c_str(), p) != 0) break; elements++; } if(elements == 0){ if(file == stdin){ BaseString tmp(buf); tmp.trim(" \t\n\r"); Vector split; tmp.split(split, " ", 2); tc.m_command = split[0]; if(split.size() == 2) tc.m_args = split[1]; else tc.m_args = ""; tc.m_max_time = 60000; return true; } return false; } if(!p.get("cmd", tc.m_command)){ g_logger.critical("Invalid test file: cmd is missing near line: %d", line); return false; } if(!p.get("args", tc.m_args)) tc.m_args = ""; const char * mt = 0; if(!p.get("max-time", &mt)) tc.m_max_time = 60000; else tc.m_max_time = atoi(mt); if(p.get("type", &mt) && strcmp(mt, "bench") == 0) tc.m_report= true; else tc.m_report= false; if(p.get("run-all", &mt) && strcmp(mt, "yes") == 0) tc.m_run_all= true; else tc.m_run_all= false; if (!p.get("name", &mt)) { tc.m_name.assfmt("%s %s", tc.m_command.c_str(), tc.m_args.c_str()); } else { tc.m_name.assign(mt); } return true; } bool setup_test_case(atrt_config& config, const atrt_testcase& tc){ g_logger.debug("system(%s)", g_clear_progname); const int r1 = system(g_clear_progname); if(r1 != 0){ g_logger.critical("Failed to clear result"); return false; } size_t i = 0; for(; im_hostname.c_str(), config.m_hosts[i]->m_basedir.c_str()); } g_logger.debug("system(%s)", tmp.c_str()); const int r1 = system(tmp.c_str()); if(r1 != 0) { g_logger.critical("Failed to gather result!"); return false; } g_logger.debug("system(%s)", g_analyze_progname); const int r2 = system(g_analyze_progname); if(r2 == -1 || r2 == (127 << 8)) { g_logger.critical("Failed to analyze results"); return false; } * result = r2 ; return true; } bool setup_hosts(atrt_config& config){ g_logger.debug("system(%s)", g_clear_progname); const int r1 = system(g_clear_progname); if(r1 != 0){ g_logger.critical("Failed to clear result"); return false; } for(size_t i = 0; im_hostname.c_str(), g_basedir, config.m_hosts[i]->m_basedir.c_str()); g_logger.debug("system(%s)", tmp.c_str()); const int r1 = system(tmp.c_str()); if(r1 != 0){ g_logger.critical("Failed to setup %s", config.m_hosts[i]->m_hostname.c_str()); return false; } } return true; } bool deploy(atrt_config & config) { for (size_t i = 0; im_hostname.c_str(), g_prefix, g_prefix); g_logger.info("rsyncing %s to %s", g_prefix, config.m_hosts[i]->m_hostname.c_str()); g_logger.debug("system(%s)", tmp.c_str()); const int r1 = system(tmp.c_str()); if(r1 != 0) { g_logger.critical("Failed to rsync %s to %s", g_prefix, config.m_hosts[i]->m_hostname.c_str()); return false; } } return true; } bool sshx(atrt_config & config, unsigned mask) { for (size_t i = 0; im_name.c_str(), proc.m_host->m_hostname.c_str(), proc.m_host->m_hostname.c_str(), proc.m_proc.m_cwd.c_str()); g_logger.debug("system(%s)", tmp.c_str()); const int r1 = system(tmp.c_str()); if(r1 != 0) { g_logger.critical("Failed sshx (%s)", tmp.c_str()); return false; } NdbSleep_MilliSleep(300); // To prevent xlock problem } return true; } bool start(atrt_config & config, unsigned proc_mask) { if (proc_mask & atrt_process::AP_NDB_MGMD) if(!start_processes(g_config, atrt_process::AP_NDB_MGMD)) return false; if (proc_mask & atrt_process::AP_NDBD) { if(!connect_ndb_mgm(g_config)){ return false; } if(!start_processes(g_config, atrt_process::AP_NDBD)) return false; if(!wait_ndb(g_config, NDB_MGM_NODE_STATUS_NOT_STARTED)) return false; for(Uint32 i = 0; i<3; i++) if(wait_ndb(g_config, NDB_MGM_NODE_STATUS_STARTED)) goto started; return false; } started: if(!start_processes(g_config, p_servers & proc_mask)) return false; return true; } void require(bool x) { if (!x) abort(); } template class Vector >; template class Vector; template class Vector; template class Vector;