static int rte_init(void) { int ret; char *error = NULL; char *contact_path, *jobfam_dir; orte_job_t *jdata; orte_node_t *node; orte_proc_t *proc; orte_app_context_t *app; char **aliases, *aptr; /* run the prolog */ if (ORTE_SUCCESS != (ret = orte_ess_base_std_prolog())) { error = "orte_ess_base_std_prolog"; goto error; } /* setup callback for SIGPIPE */ setup_sighandler(SIGPIPE, &epipe_handler, epipe_signal_callback); /** setup callbacks for abort signals - from this point * forward, we need to abort in a manner that allows us * to cleanup. However, we cannot directly use libevent * to trap these signals as otherwise we cannot respond * to them if we are stuck in an event! So instead use * the basic POSIX trap functions to handle the signal, * and then let that signal handler do some magic to * avoid the hang * * NOTE: posix traps don't allow us to do anything major * in them, so use a pipe tied to a libevent event to * reach a "safe" place where the termination event can * be created */ pipe(term_pipe); /* setup an event to attempt normal termination on signal */ opal_event_set(orte_event_base, &term_handler, term_pipe[0], OPAL_EV_READ, clean_abort, NULL); opal_event_set_priority(&term_handler, ORTE_ERROR_PRI); opal_event_add(&term_handler, NULL); /* Set both ends of this pipe to be close-on-exec so that no children inherit it */ if (opal_fd_set_cloexec(term_pipe[0]) != OPAL_SUCCESS || opal_fd_set_cloexec(term_pipe[1]) != OPAL_SUCCESS) { error = "unable to set the pipe to CLOEXEC"; goto error; } /* point the signal trap to a function that will activate that event */ signal(SIGTERM, abort_signal_callback); signal(SIGINT, abort_signal_callback); signal(SIGHUP, abort_signal_callback); /** setup callbacks for signals we should foward */ setup_sighandler(SIGUSR1, &sigusr1_handler, signal_forward_callback); setup_sighandler(SIGUSR2, &sigusr2_handler, signal_forward_callback); setup_sighandler(SIGTSTP, &sigtstp_handler, signal_forward_callback); setup_sighandler(SIGCONT, &sigcont_handler, signal_forward_callback); signals_set = true; #if OPAL_HAVE_HWLOC { hwloc_obj_t obj; unsigned i, j; /* get the local topology */ if (NULL == opal_hwloc_topology) { if (OPAL_SUCCESS != opal_hwloc_base_get_topology()) { error = "topology discovery"; goto error; } } /* remove the hostname from the topology. Unfortunately, hwloc * decided to add the source hostname to the "topology", thus * rendering it unusable as a pure topological description. So * we remove that information here. */ obj = hwloc_get_root_obj(opal_hwloc_topology); for (i=0; i < obj->infos_count; i++) { if (NULL == obj->infos[i].name || NULL == obj->infos[i].value) { continue; } if (0 == strncmp(obj->infos[i].name, "HostName", strlen("HostName"))) { free(obj->infos[i].name); free(obj->infos[i].value); /* left justify the array */ for (j=i; j < obj->infos_count-1; j++) { obj->infos[j] = obj->infos[j+1]; } obj->infos[obj->infos_count-1].name = NULL; obj->infos[obj->infos_count-1].value = NULL; obj->infos_count--; break; } } if (4 < opal_output_get_verbosity(orte_ess_base_framework.framework_output)) { opal_output(0, "%s Topology Info:", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME)); opal_dss.dump(0, opal_hwloc_topology, OPAL_HWLOC_TOPO); } } #endif /* if we are using xml for output, put an mpirun start tag */ if (orte_xml_output) { fprintf(orte_xml_fp, "<mpirun>\n"); fflush(orte_xml_fp); } /* open and setup the opal_pstat framework so we can provide * process stats if requested */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&opal_pstat_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "opal_pstat_base_open"; goto error; } if (ORTE_SUCCESS != (ret = opal_pstat_base_select())) { ORTE_ERROR_LOG(ret); error = "opal_pstat_base_select"; goto error; } /* open and setup the state machine */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_state_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_state_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_state_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_state_base_select"; goto error; } /* open the errmgr */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_errmgr_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_errmgr_base_open"; goto error; } /* Since we are the HNP, then responsibility for * defining the name falls to the PLM component for our * respective environment - hence, we have to open the PLM * first and select that component. */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_plm_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_plm_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_plm_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_plm_base_select"; goto error; } /* if we were spawned by a singleton, our jobid was given to us */ if (NULL != orte_ess_base_jobid) { if (ORTE_SUCCESS != (ret = orte_util_convert_string_to_jobid(&ORTE_PROC_MY_NAME->jobid, orte_ess_base_jobid))) { ORTE_ERROR_LOG(ret); error = "convert_string_to_jobid"; goto error; } ORTE_PROC_MY_NAME->vpid = 0; } else { if (ORTE_SUCCESS != (ret = orte_plm.set_hnp_name())) { ORTE_ERROR_LOG(ret); error = "orte_plm_set_hnp_name"; goto error; } } /* Setup the communication infrastructure */ /* * OOB Layer */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_oob_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_oob_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_oob_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_oob_base_select"; goto error; } /* * Runtime Messaging Layer */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_rml_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_rml_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_rml_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_rml_base_select"; goto error; } if (ORTE_SUCCESS != (ret = orte_errmgr_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_errmgr_base_select"; goto error; } /* setup the global job and node arrays */ orte_job_data = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_job_data, 1, ORTE_GLOBAL_ARRAY_MAX_SIZE, 1))) { ORTE_ERROR_LOG(ret); error = "setup job array"; goto error; } orte_node_pool = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_node_pool, ORTE_GLOBAL_ARRAY_BLOCK_SIZE, ORTE_GLOBAL_ARRAY_MAX_SIZE, ORTE_GLOBAL_ARRAY_BLOCK_SIZE))) { ORTE_ERROR_LOG(ret); error = "setup node array"; goto error; } orte_node_topologies = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_node_topologies, ORTE_GLOBAL_ARRAY_BLOCK_SIZE, ORTE_GLOBAL_ARRAY_MAX_SIZE, ORTE_GLOBAL_ARRAY_BLOCK_SIZE))) { ORTE_ERROR_LOG(ret); error = "setup node topologies array"; goto error; } /* init the nidmap - just so we register that verbosity */ orte_util_nidmap_init(NULL); /* Setup the job data object for the daemons */ /* create and store the job data object */ jdata = OBJ_NEW(orte_job_t); jdata->jobid = ORTE_PROC_MY_NAME->jobid; opal_pointer_array_set_item(orte_job_data, 0, jdata); /* mark that the daemons have reported as we are the * only ones in the system right now, and we definitely * are running! */ jdata->state = ORTE_JOB_STATE_DAEMONS_REPORTED; /* every job requires at least one app */ app = OBJ_NEW(orte_app_context_t); opal_pointer_array_set_item(jdata->apps, 0, app); jdata->num_apps++; /* create and store a node object where we are */ node = OBJ_NEW(orte_node_t); node->name = strdup(orte_process_info.nodename); node->index = opal_pointer_array_set_item(orte_node_pool, 0, node); #if OPAL_HAVE_HWLOC /* add it to the array of known topologies */ opal_pointer_array_add(orte_node_topologies, opal_hwloc_topology); #endif /* create and store a proc object for us */ proc = OBJ_NEW(orte_proc_t); proc->name.jobid = ORTE_PROC_MY_NAME->jobid; proc->name.vpid = ORTE_PROC_MY_NAME->vpid; proc->pid = orte_process_info.pid; proc->rml_uri = orte_rml.get_contact_info(); proc->state = ORTE_PROC_STATE_RUNNING; OBJ_RETAIN(node); /* keep accounting straight */ proc->node = node; opal_pointer_array_set_item(jdata->procs, proc->name.vpid, proc); /* record that the daemon (i.e., us) is on this node * NOTE: we do not add the proc object to the node's * proc array because we are not an application proc. * Instead, we record it in the daemon field of the * node object */ OBJ_RETAIN(proc); /* keep accounting straight */ node->daemon = proc; ORTE_FLAG_SET(node, ORTE_NODE_FLAG_DAEMON_LAUNCHED); node->state = ORTE_NODE_STATE_UP; /* if we are to retain aliases, get ours */ if (orte_retain_aliases) { aliases = NULL; opal_ifgetaliases(&aliases); /* add our own local name to it */ opal_argv_append_nosize(&aliases, orte_process_info.nodename); aptr = opal_argv_join(aliases, ','); opal_argv_free(aliases); orte_set_attribute(&node->attributes, ORTE_NODE_ALIAS, ORTE_ATTR_LOCAL, aptr, OPAL_STRING); free(aptr); } /* record that the daemon job is running */ jdata->num_procs = 1; jdata->state = ORTE_JOB_STATE_RUNNING; /* obviously, we have "reported" */ jdata->num_reported = 1; /* * Routed system */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_routed_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_rml_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_routed_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_routed_base_select"; goto error; } /* datastore - ensure we don't pickup the pmi component, but * don't override anything set by user */ if (NULL == getenv("OMPI_MCA_dstore")) { putenv("OMPI_MCA_dstore=^pmi"); } if (ORTE_SUCCESS != (ret = mca_base_framework_open(&opal_dstore_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "opal_dstore_base_open"; goto error; } if (ORTE_SUCCESS != (ret = opal_dstore_base_select())) { ORTE_ERROR_LOG(ret); error = "opal_dstore_base_select"; goto error; } /* create the handles */ if (0 > (opal_dstore_peer = opal_dstore.open("PEER"))) { error = "opal dstore global"; ret = ORTE_ERR_FATAL; goto error; } if (0 > (opal_dstore_internal = opal_dstore.open("INTERNAL"))) { error = "opal dstore internal"; ret = ORTE_ERR_FATAL; goto error; } if (0 > (opal_dstore_nonpeer = opal_dstore.open("NONPEER"))) { error = "opal dstore nonpeer"; ret = ORTE_ERR_FATAL; goto error; } /* * Group communications */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_grpcomm_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_grpcomm_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_grpcomm_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_grpcomm_base_select"; goto error; } /* Now provide a chance for the PLM * to perform any module-specific init functions. This * needs to occur AFTER the communications are setup * as it may involve starting a non-blocking recv */ if (ORTE_SUCCESS != (ret = orte_plm.init())) { ORTE_ERROR_LOG(ret); error = "orte_plm_init"; goto error; } /* * Setup the remaining resource * management and errmgr frameworks - application procs * and daemons do not open these frameworks as they only use * the hnp proxy support in the PLM framework. */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_ras_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_ras_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_ras_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_ras_base_find_available"; goto error; } if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_rmaps_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_rmaps_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_rmaps_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_rmaps_base_find_available"; goto error; } #if OPAL_HAVE_HWLOC { char *coprocessors, **sns; uint32_t h; int idx; /* if a topology file was given, then the rmaps framework open * will have reset our topology. Ensure we always get the right * one by setting our node topology afterwards */ node->topology = opal_hwloc_topology; /* init the hash table, if necessary */ if (NULL == orte_coprocessors) { orte_coprocessors = OBJ_NEW(opal_hash_table_t); opal_hash_table_init(orte_coprocessors, orte_process_info.num_procs); } /* detect and add any coprocessors */ coprocessors = opal_hwloc_base_find_coprocessors(opal_hwloc_topology); if (NULL != coprocessors) { /* separate the serial numbers of the coprocessors * on this host */ sns = opal_argv_split(coprocessors, ','); for (idx=0; NULL != sns[idx]; idx++) { /* compute the hash */ OPAL_HASH_STR(sns[idx], h); /* mark that this coprocessor is hosted by this node */ opal_hash_table_set_value_uint32(orte_coprocessors, h, (void*)&(ORTE_PROC_MY_NAME->vpid)); } opal_argv_free(sns); free(coprocessors); orte_coprocessors_detected = true; } /* see if I am on a coprocessor */ coprocessors = opal_hwloc_base_check_on_coprocessor(); if (NULL != coprocessors) { orte_set_attribute(&node->attributes, ORTE_NODE_SERIAL_NUMBER, ORTE_ATTR_LOCAL, coprocessors, OPAL_STRING); free(coprocessors); orte_coprocessors_detected = true; } } #endif /* Open/select the odls */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_odls_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_odls_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_odls_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_odls_base_select"; goto error; } /* Open/select the rtc */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_rtc_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_rtc_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_rtc_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_rtc_base_select"; goto error; } /* enable communication with the rml */ if (ORTE_SUCCESS != (ret = orte_rml.enable_comm())) { ORTE_ERROR_LOG(ret); error = "orte_rml.enable_comm"; goto error; } /* we are an hnp, so update the contact info field for later use */ orte_process_info.my_hnp_uri = orte_rml.get_contact_info(); proc->rml_uri = strdup(orte_process_info.my_hnp_uri); /* we are also officially a daemon, so better update that field too */ orte_process_info.my_daemon_uri = strdup(orte_process_info.my_hnp_uri); /* setup the orte_show_help system to recv remote output */ orte_rml.recv_buffer_nb(ORTE_NAME_WILDCARD, ORTE_RML_TAG_SHOW_HELP, ORTE_RML_PERSISTENT, orte_show_help_recv, NULL); /* setup my session directory */ if (orte_create_session_dirs) { OPAL_OUTPUT_VERBOSE((2, orte_debug_output, "%s setting up session dir with\n\ttmpdir: %s\n\thost %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), (NULL == orte_process_info.tmpdir_base) ? "UNDEF" : orte_process_info.tmpdir_base, orte_process_info.nodename)); /* take a pass thru the session directory code to fillin the * tmpdir names - don't create anything yet */ if (ORTE_SUCCESS != (ret = orte_session_dir(false, orte_process_info.tmpdir_base, orte_process_info.nodename, NULL, ORTE_PROC_MY_NAME))) { ORTE_ERROR_LOG(ret); error = "orte_session_dir define"; goto error; } /* clear the session directory just in case there are * stale directories laying around */ orte_session_dir_cleanup(ORTE_JOBID_WILDCARD); /* now actually create the directory tree */ if (ORTE_SUCCESS != (ret = orte_session_dir(true, orte_process_info.tmpdir_base, orte_process_info.nodename, NULL, ORTE_PROC_MY_NAME))) { ORTE_ERROR_LOG(ret); error = "orte_session_dir"; goto error; } /* Once the session directory location has been established, set the opal_output hnp file location to be in the proc-specific session directory. */ opal_output_set_output_file_info(orte_process_info.proc_session_dir, "output-", NULL, NULL); /* save my contact info in a file for others to find */ jobfam_dir = opal_dirname(orte_process_info.job_session_dir); contact_path = opal_os_path(false, jobfam_dir, "contact.txt", NULL); free(jobfam_dir); OPAL_OUTPUT_VERBOSE((2, orte_debug_output, "%s writing contact file %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), contact_path)); if (ORTE_SUCCESS != (ret = orte_write_hnp_contact_file(contact_path))) { OPAL_OUTPUT_VERBOSE((2, orte_debug_output, "%s writing contact file failed with error %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), ORTE_ERROR_NAME(ret))); } else { OPAL_OUTPUT_VERBOSE((2, orte_debug_output, "%s wrote contact file", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME))); } free(contact_path); } /* setup the routed info - the selected routed component * will know what to do. */ if (ORTE_SUCCESS != (ret = orte_routed.init_routes(ORTE_PROC_MY_NAME->jobid, NULL))) { ORTE_ERROR_LOG(ret); error = "orte_routed.init_routes"; goto error; } /* setup I/O forwarding system - must come after we init routes */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_iof_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_iof_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_iof_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_iof_base_select"; goto error; } /* setup the FileM */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_filem_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_filem_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_filem_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_filem_base_select"; goto error; } #if OPAL_ENABLE_FT_CR == 1 /* * Setup the SnapC */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_snapc_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_snapc_base_open"; goto error; } if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_sstore_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_sstore_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_snapc_base_select(ORTE_PROC_IS_HNP, ORTE_PROC_IS_APP))) { ORTE_ERROR_LOG(ret); error = "orte_snapc_base_select"; goto error; } if (ORTE_SUCCESS != (ret = orte_sstore_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_sstore_base_select"; goto error; } /* For HNP, ORTE doesn't need the OPAL CR stuff */ opal_cr_set_enabled(false); #else opal_cr_set_enabled(false); #endif /* * Initalize the CR setup * Note: Always do this, even in non-FT builds. * If we don't some user level tools may hang. */ if (ORTE_SUCCESS != (ret = orte_cr_init())) { ORTE_ERROR_LOG(ret); error = "orte_cr_init"; goto error; } /* setup the dfs framework */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_dfs_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_dfs_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_dfs_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_dfs_select"; goto error; } /* if a tool has launched us and is requesting event reports, * then set its contact info into the comm system */ if (orte_report_events) { if (ORTE_SUCCESS != (ret = orte_util_comm_connect_tool(orte_report_events_uri))) { error = "could not connect to tool"; goto error; } } /* We actually do *not* want an HNP to voluntarily yield() the processor more than necessary. Orterun already blocks when it is doing nothing, so it doesn't use any more CPU cycles than it should; but when it *is* doing something, we do not want it to be unnecessarily delayed because it voluntarily yielded the processor in the middle of its work. For example: when a message arrives at orterun, we want the OS to wake us up in a timely fashion (which most OS's seem good about doing) and then we want orterun to process the message as fast as possible. If orterun yields and lets aggressive MPI applications get the processor back, it may be a long time before the OS schedules orterun to run again (particularly if there is no IO event to wake it up). Hence, routed OOB messages (for example) may be significantly delayed before being delivered to MPI processes, which can be problematic in some scenarios (e.g., COMM_SPAWN, BTL's that require OOB messages for wireup, etc.). */ opal_progress_set_yield_when_idle(false); return ORTE_SUCCESS; error: if (ORTE_ERR_SILENT != ret && !orte_report_silent_errors) { orte_show_help("help-orte-runtime.txt", "orte_init:startup:internal-failure", true, error, ORTE_ERROR_NAME(ret), ret); } return ORTE_ERR_SILENT; }
static int local_setup(void) { int ret; char *error = NULL; int value; orte_proc_t *proc; orte_node_t *node; orte_app_context_t *app; /* initialize the global list of local children and job data */ OBJ_CONSTRUCT(&orte_local_children, opal_list_t); OBJ_CONSTRUCT(&orte_local_jobdata, opal_list_t); /* determine the topology info */ if (0 == orte_default_num_sockets_per_board) { /* we weren't given a number, so try to determine it */ if (OPAL_SUCCESS != opal_paffinity_base_get_socket_info(&value)) { /* can't get any info - default to 1 */ value = 1; } orte_default_num_sockets_per_board = (uint8_t)value; } if (0 == orte_default_num_cores_per_socket) { /* we weren't given a number, so try to determine it */ if (OPAL_SUCCESS != opal_paffinity_base_get_core_info(0, &value)) { /* don't have topo info - can we at least get #processors? */ if (OPAL_SUCCESS != opal_paffinity_base_get_processor_info(&value)) { /* can't get any info - default to 1 */ value = 1; } } orte_default_num_cores_per_socket = (uint8_t)value; } /* setup the global job and node arrays */ orte_job_data = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_job_data, 1, ORTE_GLOBAL_ARRAY_MAX_SIZE, 1))) { ORTE_ERROR_LOG(ret); error = "setup job array"; goto error; } orte_node_pool = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_node_pool, ORTE_GLOBAL_ARRAY_BLOCK_SIZE, ORTE_GLOBAL_ARRAY_MAX_SIZE, ORTE_GLOBAL_ARRAY_BLOCK_SIZE))) { ORTE_ERROR_LOG(ret); error = "setup node array"; goto error; } /* Setup the job data object for the daemons */ /* create and store the job data object */ daemons = OBJ_NEW(orte_job_t); daemons->jobid = ORTE_PROC_MY_NAME->jobid; daemons->name = strdup("ORCM DVM"); daemons->instance = strdup(ORTE_JOBID_PRINT(ORTE_PROC_MY_NAME->jobid)); /* create an app */ app = OBJ_NEW(orte_app_context_t); app->app = strdup("orcmd"); opal_argv_append_nosize(&app->argv, "orcmd"); /* add to the daemon job - always must be an app for a job */ opal_pointer_array_add(daemons->apps, app); /* setup the daemon map so it knows how to map them */ daemons->map = OBJ_NEW(orte_job_map_t); daemons->map->policy = ORTE_MAPPING_BYNODE; /* save it */ opal_pointer_array_set_item(orte_job_data, 0, daemons); /* ensure our mapping policy will utilize any VM */ ORTE_ADD_MAPPING_POLICY(ORTE_MAPPING_USE_VM); /* use bynode mapping by default */ ORTE_ADD_MAPPING_POLICY(ORTE_MAPPING_BYNODE); /* create and store a node object where we are */ node = OBJ_NEW(orte_node_t); node->name = strdup(orte_process_info.nodename); node->slots = 1; /* min number */ node->slots_alloc = node->slots; node->index = ORTE_PROC_MY_NAME->vpid; opal_pointer_array_set_item(orte_node_pool, ORTE_PROC_MY_NAME->vpid, node); /* create and store a proc object for us */ proc = OBJ_NEW(orte_proc_t); proc->name.jobid = ORTE_PROC_MY_NAME->jobid; proc->name.vpid = ORTE_PROC_MY_NAME->vpid; proc->pid = orte_process_info.pid; proc->state = ORTE_PROC_STATE_RUNNING; OBJ_RETAIN(node); /* keep accounting straight */ proc->node = node; proc->nodename = node->name; opal_pointer_array_set_item(daemons->procs, proc->name.vpid, proc); /* record that the daemon (i.e., us) is on this node * NOTE: we do not add the proc object to the node's * proc array because we are not an application proc. * Instead, we record it in the daemon field of the * node object */ OBJ_RETAIN(proc); /* keep accounting straight */ node->daemon = proc; node->daemon_launched = true; node->state = ORTE_NODE_STATE_UP; /* record that the daemon job is running */ daemons->num_procs = 1; daemons->state = ORTE_JOB_STATE_RUNNING; /* open and setup the opal_pstat framework so we can provide * process stats if requested */ if (ORTE_SUCCESS != (ret = opal_pstat_base_open())) { ORTE_ERROR_LOG(ret); error = "opal_pstat_base_open"; goto error; } if (ORTE_SUCCESS != (ret = opal_pstat_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_pstat_base_select"; goto error; } /* open and setup the local resource discovery framework */ if (ORTE_SUCCESS != (ret = opal_sysinfo_base_open())) { ORTE_ERROR_LOG(ret); error = "opal_sysinfo_base_open"; goto error; } if (ORTE_SUCCESS != (ret = opal_sysinfo_base_select())) { ORTE_ERROR_LOG(ret); error = "opal_sysinfo_base_select"; goto error; } /* Setup the communication infrastructure */ /* Runtime Messaging Layer - this opens/selects the OOB as well */ if (ORTE_SUCCESS != (ret = orte_rml_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_rml_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_rml_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_rml_base_select"; goto error; } /* Routed system */ if (ORTE_SUCCESS != (ret = orte_routed_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_routed_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_routed_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_routed_base_select"; goto error; } /* multicast */ if (ORTE_SUCCESS != (ret = orte_rmcast_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_rmcast_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_rmcast_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_rmcast_base_select"; goto error; } /* Open/select the odls */ if (ORTE_SUCCESS != (ret = orte_odls_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_odls_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_odls_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_odls_base_select"; goto error; } /* enable communication with the rml */ if (ORTE_SUCCESS != (ret = orte_rml.enable_comm())) { ORTE_ERROR_LOG(ret); error = "orte_rml.enable_comm"; goto error; } /* insert our contact info into our process_info struct so we * have it for later use and set the local daemon field to our name */ orte_process_info.my_daemon_uri = orte_rml.get_contact_info(); ORTE_PROC_MY_DAEMON->jobid = ORTE_PROC_MY_NAME->jobid; ORTE_PROC_MY_DAEMON->vpid = ORTE_PROC_MY_NAME->vpid; proc->rml_uri = orte_rml.get_contact_info(); /* setup the pnp framework */ if (ORCM_SUCCESS != (ret = orcm_pnp_base_open())) { error = "pnp_open"; goto error; } if (ORCM_SUCCESS != (ret = orcm_pnp_base_select())) { error = "pnp_select"; goto error; } /* setup the leader framework */ if (ORCM_SUCCESS != (ret = orcm_leader_base_open())) { error = "leader_open"; goto error; } if (ORCM_SUCCESS != (ret = orcm_leader_base_select())) { error = "leader_select"; goto error; } /* set the communication function */ orte_comm = orte_global_comm; /* update the routing tree */ if (ORTE_SUCCESS != (ret = orte_routed.update_routing_tree())) { ORTE_ERROR_LOG(ret); error = "failed to update routing tree"; goto error; } /* setup the routed info - the selected routed component * will know what to do. */ if (ORTE_SUCCESS != (ret = orte_routed.init_routes(ORTE_PROC_MY_NAME->jobid, NULL))) { ORTE_ERROR_LOG(ret); error = "orte_routed.init_routes"; goto error; } /* open/select the errmgr - do this after the daemon job * has been defined so that the errmgr can get that * job object */ if (ORTE_SUCCESS != (ret = orte_errmgr_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_errmgr_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_errmgr_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_errmgr_base_select"; goto error; } /* We actually do *not* want an orcm to voluntarily yield() the processor more than necessary. orcm already blocks when it is doing nothing, so it doesn't use any more CPU cycles than it should; but when it *is* doing something, we do not want it to be unnecessarily delayed because it voluntarily yielded the processor in the middle of its work. For example: when a message arrives at orcm, we want the OS to wake us up in a timely fashion (which most OS's seem good about doing) and then we want orcm to process the message as fast as possible. If orcm yields and lets aggressive applications get the processor back, it may be a long time before the OS schedules orcm to run again (particularly if there is no IO event to wake it up). Hence, routed OOB messages (for example) may be significantly delayed before being delivered to processes, which can be problematic in some scenarios */ opal_progress_set_yield_when_idle(false); /* Change the default behavior of libevent such that we want to continually block rather than blocking for the default timeout and then looping around the progress engine again. There should be nothing in the orcmd that cannot block in libevent until "something" happens (i.e., there's no need to keep cycling through progress because the only things that should happen will happen in libevent). This is a minor optimization, but what the heck... :-) */ opal_progress_set_event_flag(OPAL_EVLOOP_ONCE); /* setup the primary daemon command receive function */ ret = orte_rml.recv_buffer_nb(ORTE_NAME_WILDCARD, ORTE_RML_TAG_DAEMON, ORTE_RML_NON_PERSISTENT, orte_daemon_recv, NULL); if (ret != ORTE_SUCCESS && ret != ORTE_ERR_NOT_IMPLEMENTED) { ORTE_ERROR_LOG(ret); error = "daemon_recv"; goto error; } /* output a message indicating we are alive, our name, and our pid * for debugging purposes */ if (orte_debug_daemons_flag) { fprintf(stderr, "%s checking in as pid %ld on host %s\n", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), (long)orte_process_info.pid, orte_process_info.nodename); } /* listen for termination cmds */ if (ORCM_SUCCESS != (ret = orcm_pnp.register_receive("orcm", "0.1", "alpha", ORCM_PNP_SYS_CHANNEL, ORCM_PNP_TAG_TERMINATE, vm_term, NULL))) { error = "orcm recv"; goto error; } if (ORCM_SUCCESS != (ret = orcm_pnp.register_receive("orcm-stop", "0.1", "alpha", ORCM_PNP_SYS_CHANNEL, ORCM_PNP_TAG_TERMINATE, vm_term, NULL))) { error = "orcm-stop recv"; goto error; } /* register to catch vm commands requests */ if (ORCM_SUCCESS != (ret = orcm_pnp.register_receive("orcm-sched", "0.1", "alpha", ORCM_PNP_SYS_CHANNEL, ORCM_PNP_TAG_COMMAND, vm_cmd, NULL))) { error = "orcm-sched recv"; goto error; } /* listen for state data requests */ if (ORCM_SUCCESS != (ret = orcm_pnp.register_receive("orcm-sched", "0.1", "alpha", ORCM_PNP_SYS_CHANNEL, ORCM_PNP_TAG_BOOTSTRAP, recv_contact, NULL))) { error = "contact recv"; goto error; } /* setup the SENSOR framework */ if (ORTE_SUCCESS != (ret = orte_sensor_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_sensor_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_sensor_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_sensor_select"; goto error; } /* announce our existence - this carries with it our rml uri and * our local node system info */ if (ORCM_SUCCESS != (ret = orcm_pnp.announce("ORCMD", "0.1", "alpha", vm_tracker))) { ORTE_ERROR_LOG(ret); error = "announce"; goto error; } return ORTE_SUCCESS; error: orte_show_help("help-orte-runtime.txt", "orte_init:startup:internal-failure", true, error, ORTE_ERROR_NAME(ret), ret); return ret; }
int orte_ess_base_orted_setup(char **hosts) { int ret = ORTE_ERROR; int fd; char log_file[PATH_MAX]; char *jobidstring; char *error = NULL; orte_job_t *jdata; orte_proc_t *proc; orte_app_context_t *app; orte_node_t *node; char *param; plm_in_use = false; /* setup callback for SIGPIPE */ setup_sighandler(SIGPIPE, &epipe_handler, epipe_signal_callback); /* Set signal handlers to catch kill signals so we can properly clean up * after ourselves. */ setup_sighandler(SIGTERM, &term_handler, shutdown_signal); setup_sighandler(SIGINT, &int_handler, shutdown_signal); /** setup callbacks for signals we should ignore */ setup_sighandler(SIGUSR1, &sigusr1_handler, signal_callback); setup_sighandler(SIGUSR2, &sigusr2_handler, signal_callback); signals_set = true; #if OPAL_HAVE_HWLOC { hwloc_obj_t obj; unsigned i, j; /* get the local topology */ if (NULL == opal_hwloc_topology) { if (OPAL_SUCCESS != opal_hwloc_base_get_topology()) { error = "topology discovery"; goto error; } } /* remove the hostname from the topology. Unfortunately, hwloc * decided to add the source hostname to the "topology", thus * rendering it unusable as a pure topological description. So * we remove that information here. */ obj = hwloc_get_root_obj(opal_hwloc_topology); for (i=0; i < obj->infos_count; i++) { if (NULL == obj->infos[i].name || NULL == obj->infos[i].value) { continue; } if (0 == strncmp(obj->infos[i].name, "HostName", strlen("HostName"))) { free(obj->infos[i].name); free(obj->infos[i].value); /* left justify the array */ for (j=i; j < obj->infos_count-1; j++) { obj->infos[j] = obj->infos[j+1]; } obj->infos[obj->infos_count-1].name = NULL; obj->infos[obj->infos_count-1].value = NULL; obj->infos_count--; break; } } if (4 < opal_output_get_verbosity(orte_ess_base_framework.framework_output)) { opal_output(0, "%s Topology Info:", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME)); opal_dss.dump(0, opal_hwloc_topology, OPAL_HWLOC_TOPO); } } #endif /* setup the global nidmap/pidmap object */ orte_nidmap.bytes = NULL; orte_nidmap.size = 0; orte_pidmap.bytes = NULL; orte_pidmap.size = 0; /* open and setup the opal_pstat framework so we can provide * process stats if requested */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&opal_pstat_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "opal_pstat_base_open"; goto error; } if (ORTE_SUCCESS != (ret = opal_pstat_base_select())) { ORTE_ERROR_LOG(ret); error = "opal_pstat_base_select"; goto error; } /* open and setup the state machine */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_state_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_state_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_state_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_state_base_select"; goto error; } /* open the errmgr */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_errmgr_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_errmgr_base_open"; goto error; } /* some environments allow remote launches - e.g., ssh - so * open and select something -only- if we are given * a specific module to use */ (void) mca_base_var_env_name("plm", ¶m); plm_in_use = !!(getenv(param)); free (param); if (plm_in_use) { if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_plm_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_plm_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_plm_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_plm_base_select"; goto error; } } /* Setup the communication infrastructure */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_oob_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_oob_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_oob_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_oob_base_select"; goto error; } if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_rml_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_rml_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_rml_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_rml_base_select"; goto error; } /* select the errmgr */ if (ORTE_SUCCESS != (ret = orte_errmgr_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_errmgr_base_select"; goto error; } /* Routed system */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_routed_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_rml_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_routed_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_routed_base_select"; goto error; } /* database */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&opal_db_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_db_base_open"; goto error; } /* always restrict daemons to local database components */ if (ORTE_SUCCESS != (ret = opal_db_base_select(true))) { ORTE_ERROR_LOG(ret); error = "orte_db_base_select"; goto error; } /* set our id */ opal_db.set_id((opal_identifier_t*)ORTE_PROC_MY_NAME); /* * Group communications */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_grpcomm_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_grpcomm_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_grpcomm_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_grpcomm_base_select"; goto error; } /* Open/select the odls */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_odls_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_odls_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_odls_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_odls_base_select"; goto error; } /* enable communication with the rml */ if (ORTE_SUCCESS != (ret = orte_rml.enable_comm())) { ORTE_ERROR_LOG(ret); error = "orte_rml.enable_comm"; goto error; } /* initialize the nidmaps */ if (ORTE_SUCCESS != (ret = orte_util_nidmap_init(NULL))) { ORTE_ERROR_LOG(ret); error = "orte_util_nidmap_init"; goto error; } #if ORTE_ENABLE_STATIC_PORTS /* if we are using static ports, then we need to setup * the daemon info so the RML can function properly * without requiring a wireup stage. This must be done * after we enable_comm as that function determines our * own port, which we need in order to construct the nidmap */ if (orte_static_ports) { /* define the routing tree so we know the pattern * if we are trying to setup common or static ports */ orte_routed.update_routing_plan(); /* extract the node info from the environment and * build a nidmap from it */ if (ORTE_SUCCESS != (ret = orte_util_build_daemon_nidmap(hosts))) { ORTE_ERROR_LOG(ret); error = "construct daemon map from static ports"; goto error; } } #endif /* be sure to update the routing tree so the initial "phone home" * to mpirun goes through the tree if static ports were enabled - still * need to do it anyway just to initialize things */ orte_routed.update_routing_plan(); /* Now provide a chance for the PLM * to perform any module-specific init functions. This * needs to occur AFTER the communications are setup * as it may involve starting a non-blocking recv * Do this only if a specific PLM was given to us - the * orted has no need of the proxy PLM at all */ if (plm_in_use) { if (ORTE_SUCCESS != (ret = orte_plm.init())) { ORTE_ERROR_LOG(ret); error = "orte_plm_init"; goto error; } } /* setup my session directory */ if (orte_create_session_dirs) { OPAL_OUTPUT_VERBOSE((2, orte_ess_base_framework.framework_output, "%s setting up session dir with\n\ttmpdir: %s\n\thost %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), (NULL == orte_process_info.tmpdir_base) ? "UNDEF" : orte_process_info.tmpdir_base, orte_process_info.nodename)); /* take a pass thru the session directory code to fillin the * tmpdir names - don't create anything yet */ if (ORTE_SUCCESS != (ret = orte_session_dir(false, orte_process_info.tmpdir_base, orte_process_info.nodename, NULL, ORTE_PROC_MY_NAME))) { ORTE_ERROR_LOG(ret); error = "orte_session_dir define"; goto error; } /* clear the session directory just in case there are * stale directories laying around */ orte_session_dir_cleanup(ORTE_JOBID_WILDCARD); /* now actually create the directory tree */ if (ORTE_SUCCESS != (ret = orte_session_dir(true, orte_process_info.tmpdir_base, orte_process_info.nodename, NULL, ORTE_PROC_MY_NAME))) { ORTE_ERROR_LOG(ret); error = "orte_session_dir"; goto error; } /* Once the session directory location has been established, set the opal_output env file location to be in the proc-specific session directory. */ opal_output_set_output_file_info(orte_process_info.proc_session_dir, "output-", NULL, NULL); /* setup stdout/stderr */ if (orte_debug_daemons_file_flag) { /* if we are debugging to a file, then send stdout/stderr to * the orted log file */ /* get my jobid */ if (ORTE_SUCCESS != (ret = orte_util_convert_jobid_to_string(&jobidstring, ORTE_PROC_MY_NAME->jobid))) { ORTE_ERROR_LOG(ret); error = "convert_jobid"; goto error; } /* define a log file name in the session directory */ snprintf(log_file, PATH_MAX, "output-orted-%s-%s.log", jobidstring, orte_process_info.nodename); log_path = opal_os_path(false, orte_process_info.tmpdir_base, orte_process_info.top_session_dir, log_file, NULL); fd = open(log_path, O_RDWR|O_CREAT|O_TRUNC, 0640); if (fd < 0) { /* couldn't open the file for some reason, so * just connect everything to /dev/null */ fd = open("/dev/null", O_RDWR|O_CREAT|O_TRUNC, 0666); } else { dup2(fd, STDOUT_FILENO); dup2(fd, STDERR_FILENO); if(fd != STDOUT_FILENO && fd != STDERR_FILENO) { close(fd); } } } } /* setup the global job and node arrays */ orte_job_data = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_job_data, 1, ORTE_GLOBAL_ARRAY_MAX_SIZE, 1))) { ORTE_ERROR_LOG(ret); error = "setup job array"; goto error; } orte_node_pool = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_node_pool, ORTE_GLOBAL_ARRAY_BLOCK_SIZE, ORTE_GLOBAL_ARRAY_MAX_SIZE, ORTE_GLOBAL_ARRAY_BLOCK_SIZE))) { ORTE_ERROR_LOG(ret); error = "setup node array"; goto error; } orte_node_topologies = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_node_topologies, ORTE_GLOBAL_ARRAY_BLOCK_SIZE, ORTE_GLOBAL_ARRAY_MAX_SIZE, ORTE_GLOBAL_ARRAY_BLOCK_SIZE))) { ORTE_ERROR_LOG(ret); error = "setup node topologies array"; goto error; } /* Setup the job data object for the daemons */ /* create and store the job data object */ jdata = OBJ_NEW(orte_job_t); jdata->jobid = ORTE_PROC_MY_NAME->jobid; opal_pointer_array_set_item(orte_job_data, 0, jdata); /* every job requires at least one app */ app = OBJ_NEW(orte_app_context_t); opal_pointer_array_set_item(jdata->apps, 0, app); jdata->num_apps++; /* create and store a node object where we are */ node = OBJ_NEW(orte_node_t); node->name = strdup(orte_process_info.nodename); node->index = opal_pointer_array_set_item(orte_node_pool, ORTE_PROC_MY_NAME->vpid, node); #if OPAL_HAVE_HWLOC /* point our topology to the one detected locally */ node->topology = opal_hwloc_topology; #endif /* create and store a proc object for us */ proc = OBJ_NEW(orte_proc_t); proc->name.jobid = ORTE_PROC_MY_NAME->jobid; proc->name.vpid = ORTE_PROC_MY_NAME->vpid; proc->pid = orte_process_info.pid; proc->rml_uri = orte_rml.get_contact_info(); proc->state = ORTE_PROC_STATE_RUNNING; opal_pointer_array_set_item(jdata->procs, proc->name.vpid, proc); /* record that the daemon (i.e., us) is on this node * NOTE: we do not add the proc object to the node's * proc array because we are not an application proc. * Instead, we record it in the daemon field of the * node object */ OBJ_RETAIN(proc); /* keep accounting straight */ node->daemon = proc; node->daemon_launched = true; node->state = ORTE_NODE_STATE_UP; /* now point our proc node field to the node */ OBJ_RETAIN(node); /* keep accounting straight */ proc->node = node; /* record that the daemon job is running */ jdata->num_procs = 1; jdata->state = ORTE_JOB_STATE_RUNNING; /* obviously, we have "reported" */ jdata->num_reported = 1; /* setup the routed info - the selected routed component * will know what to do. */ if (ORTE_SUCCESS != (ret = orte_routed.init_routes(ORTE_PROC_MY_NAME->jobid, NULL))) { ORTE_ERROR_LOG(ret); error = "orte_routed.init_routes"; goto error; } /* setup I/O forwarding system - must come after we init routes */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_iof_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_iof_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_iof_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_iof_base_select"; goto error; } /* setup the FileM */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_filem_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_filem_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_filem_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_filem_base_select"; goto error; } #if OPAL_ENABLE_FT_CR == 1 /* * Setup the SnapC */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_snapc_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_snapc_base_open"; goto error; } if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_sstore_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_sstore_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_snapc_base_select(!ORTE_PROC_IS_HNP, ORTE_PROC_IS_DAEMON))) { ORTE_ERROR_LOG(ret); error = "orte_snapc_base_select"; goto error; } if (ORTE_SUCCESS != (ret = orte_sstore_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_sstore_base_select"; goto error; } /* For daemons, ORTE doesn't need the OPAL CR stuff */ opal_cr_set_enabled(false); #else opal_cr_set_enabled(false); #endif /* * Initalize the CR setup * Note: Always do this, even in non-FT builds. * If we don't some user level tools may hang. */ if (ORTE_SUCCESS != (ret = orte_cr_init())) { ORTE_ERROR_LOG(ret); error = "orte_cr_init"; goto error; } /* setup the DFS framework */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_dfs_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_dfs_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_dfs_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_dfs_select"; goto error; } return ORTE_SUCCESS; error: orte_show_help("help-orte-runtime.txt", "orte_init:startup:internal-failure", true, error, ORTE_ERROR_NAME(ret), ret); return ORTE_ERR_SILENT; }
static int orcmd_init(void) { int ret = ORTE_ERROR; char *error = NULL; opal_buffer_t buf, *clusterbuf, *uribuf; orte_job_t *jdata; orte_node_t *node; orte_proc_t *proc; opal_list_t config; orcm_scheduler_t *scheduler; orcm_node_t *mynode=NULL; int32_t n; if (initialized) { return ORCM_SUCCESS; } initialized = true; /* Initialize the ORTE data type support */ if (ORTE_SUCCESS != (ret = orte_ess_base_std_prolog())) { error = "orte_std_prolog"; goto error; } /* setup the global job and node arrays */ orte_job_data = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_job_data, 1, ORTE_GLOBAL_ARRAY_MAX_SIZE, 1))) { ORTE_ERROR_LOG(ret); error = "setup job array"; goto error; } orte_node_pool = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_node_pool, ORTE_GLOBAL_ARRAY_BLOCK_SIZE, ORTE_GLOBAL_ARRAY_MAX_SIZE, ORTE_GLOBAL_ARRAY_BLOCK_SIZE))) { ORTE_ERROR_LOG(ret); error = "setup node array"; goto error; } orte_node_topologies = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_node_topologies, ORTE_GLOBAL_ARRAY_BLOCK_SIZE, ORTE_GLOBAL_ARRAY_MAX_SIZE, ORTE_GLOBAL_ARRAY_BLOCK_SIZE))) { ORTE_ERROR_LOG(ret); error = "setup node topologies array"; goto error; } /* create a job tracker for the daemons */ jdata = OBJ_NEW(orte_job_t); jdata->jobid = 0; ORTE_PROC_MY_NAME->jobid = 0; opal_pointer_array_set_item(orte_job_data, 0, jdata); /* read the site configuration */ OBJ_CONSTRUCT(&config, opal_list_t); if (ORCM_SUCCESS != (ret = orcm_cfgi.read_config(&config))) { error = "getting config"; goto error; } /* define the cluster and collect contact info for all * aggregators - we'll need to know how to talk to any * of them in case of failures */ OBJ_CONSTRUCT(&buf, opal_buffer_t); if (ORCM_SUCCESS != (ret = orcm_cfgi.define_system(&config, &mynode, &orte_process_info.num_procs, &buf))) { OBJ_DESTRUCT(&buf); error = "define system"; goto error; } /* if my name didn't get set, then we didn't find our node * in the config - report it and die */ if (NULL == mynode) { orte_show_help("help-ess-orcm.txt", "node-not-found", true, orcm_cfgi_base.config_file, orte_process_info.nodename); OBJ_DESTRUCT(&buf); return ORTE_ERR_SILENT; } /* define a node and proc object for ourselves as some parts * of ORTE and ORCM require it */ if (NULL == (node = OBJ_NEW(orte_node_t))) { ret = ORTE_ERR_OUT_OF_RESOURCE; error = "out of memory"; goto error; } node->name = strdup(orte_process_info.nodename); opal_pointer_array_set_item(orte_node_pool, ORTE_PROC_MY_NAME->vpid, node); if (NULL == (proc = OBJ_NEW(orte_proc_t))) { ret = ORTE_ERR_OUT_OF_RESOURCE; error = "out of memory"; goto error; } proc->name.jobid = ORTE_PROC_MY_NAME->jobid; proc->name.vpid = ORTE_PROC_MY_NAME->vpid; OBJ_RETAIN(proc); node->daemon = proc; OBJ_RETAIN(node); proc->node = node; opal_pointer_array_set_item(jdata->procs, ORTE_PROC_MY_NAME->vpid, proc); /* For now, we only support a single scheduler daemon in the system. * This *may* change someday in the future */ scheduler = (orcm_scheduler_t*)opal_list_get_first(orcm_schedulers); /* If we are in test mode, then we don't *require* that a scheduler * be defined in the system - otherwise, we do */ if (NULL == scheduler) { if (mca_sst_orcmd_component.scheduler_reqd) { error = "no scheduler found"; ret = ORTE_ERR_NOT_FOUND; goto error; } } else { ORTE_PROC_MY_SCHEDULER->jobid = scheduler->controller.daemon.jobid; ORTE_PROC_MY_SCHEDULER->vpid = scheduler->controller.daemon.vpid; } /* register the ORTE-level params at this time now that the * config has had a chance to push things into the environ */ if (ORTE_SUCCESS != (ret = orte_register_params())) { OBJ_DESTRUCT(&buf); error = "orte_register_params"; goto error; } /* setup callback for SIGPIPE */ setup_sighandler(SIGPIPE, &epipe_handler, epipe_signal_callback); /* Set signal handlers to catch kill signals so we can properly clean up * after ourselves. */ setup_sighandler(SIGTERM, &term_handler, shutdown_signal); setup_sighandler(SIGINT, &int_handler, shutdown_signal); /** setup callbacks for signals we should ignore */ setup_sighandler(SIGUSR1, &sigusr1_handler, signal_callback); setup_sighandler(SIGUSR2, &sigusr2_handler, signal_callback); signals_set = true; #if OPAL_HAVE_HWLOC { hwloc_obj_t obj; unsigned i, j; /* get the local topology */ if (NULL == opal_hwloc_topology) { if (OPAL_SUCCESS != opal_hwloc_base_get_topology()) { OBJ_DESTRUCT(&buf); error = "topology discovery"; goto error; } } /* remove the hostname from the topology. Unfortunately, hwloc * decided to add the source hostname to the "topology", thus * rendering it unusable as a pure topological description. So * we remove that information here. */ obj = hwloc_get_root_obj(opal_hwloc_topology); for (i=0; i < obj->infos_count; i++) { if (NULL == obj->infos[i].name || NULL == obj->infos[i].value) { continue; } if (0 == strncmp(obj->infos[i].name, "HostName", strlen("HostName"))) { free(obj->infos[i].name); free(obj->infos[i].value); /* left justify the array */ for (j=i; j < obj->infos_count-1; j++) { obj->infos[j] = obj->infos[j+1]; } obj->infos[obj->infos_count-1].name = NULL; obj->infos[obj->infos_count-1].value = NULL; obj->infos_count--; break; } } if (15 < opal_output_get_verbosity(orcm_sst_base_framework.framework_output)) { opal_output(0, "%s Topology Info:", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME)); opal_dss.dump(0, opal_hwloc_topology, OPAL_HWLOC_TOPO); } /* if we were asked to bind to specific core(s), do so now */ if (NULL != orte_daemon_cores) { char **cores=NULL, tmp[128]; hwloc_obj_t pu; hwloc_cpuset_t ours, pucpus, res; int core; /* could be a collection of comma-delimited ranges, so * use our handy utility to parse it */ orte_util_parse_range_options(orte_daemon_cores, &cores); if (NULL != cores) { ours = hwloc_bitmap_alloc(); hwloc_bitmap_zero(ours); pucpus = hwloc_bitmap_alloc(); res = hwloc_bitmap_alloc(); for (i=0; NULL != cores[i]; i++) { core = strtoul(cores[i], NULL, 10); if (NULL == (pu = opal_hwloc_base_get_pu(opal_hwloc_topology, core, OPAL_HWLOC_LOGICAL))) { orte_show_help("help-orted.txt", "orted:cannot-bind", true, orte_process_info.nodename, orte_daemon_cores); ret = ORTE_ERR_NOT_SUPPORTED; OBJ_DESTRUCT(&buf); error = "cannot bind"; goto error; } hwloc_bitmap_and(pucpus, pu->online_cpuset, pu->allowed_cpuset); hwloc_bitmap_or(res, ours, pucpus); hwloc_bitmap_copy(ours, res); } /* if the result is all zeros, then don't bind */ if (!hwloc_bitmap_iszero(ours)) { (void)hwloc_set_cpubind(opal_hwloc_topology, ours, 0); if (opal_hwloc_report_bindings) { opal_hwloc_base_cset2mapstr(tmp, sizeof(tmp), opal_hwloc_topology, ours); opal_output(0, "Daemon %s is bound to cores %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), tmp); } } /* cleanup */ hwloc_bitmap_free(ours); hwloc_bitmap_free(pucpus); hwloc_bitmap_free(res); opal_argv_free(cores); } } } #endif /* open and select the pstat framework */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&opal_pstat_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "opal_pstat_base_open"; goto error; } if (ORTE_SUCCESS != (ret = opal_pstat_base_select())) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "opal_pstat_base_select"; goto error; } /* open and setup the state machine */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_state_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_state_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_state_base_select())) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_state_base_select"; goto error; } /* open the notifier */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_notifier_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_notifier_base_open"; goto error; } /* open the errmgr */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_errmgr_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_errmgr_base_open"; goto error; } /* Setup the communication infrastructure */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_oob_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_oob_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_oob_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_oob_base_select"; goto error; } if (!opal_list_get_size(&orte_oob_base.actives)) { ret = ORTE_ERROR; error = "orte_oob: Found 0 active transports"; goto error; } /* Runtime Messaging Layer */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_rml_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_rml_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_rml_base_select())) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_rml_base_select"; goto error; } /* select the notifier*/ if (ORTE_SUCCESS != (ret = orte_notifier_base_select())) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_notifier_base_select"; goto error; } /* select the errmgr */ if (ORTE_SUCCESS != (ret = orte_errmgr_base_select())) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_errmgr_base_select"; goto error; } /* Routed system */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_routed_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_rml_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_routed_base_select())) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_routed_base_select"; goto error; } /* database */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orcm_db_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orcm_db_base_open"; goto error; } /* always restrict daemons to local database components */ if (ORTE_SUCCESS != (ret = orcm_db_base_select())) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orcm_db_base_select"; goto error; } /* datastore - ensure we don't pickup the pmi component, but * don't override anything set by user */ if (NULL == getenv(OPAL_MCA_PREFIX"dstore")) { putenv(OPAL_MCA_PREFIX"dstore=^pmi"); } if (ORTE_SUCCESS != (ret = mca_base_framework_open(&opal_dstore_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "opal_dstore_base_open"; goto error; } if (ORTE_SUCCESS != (ret = opal_dstore_base_select())) { ORTE_ERROR_LOG(ret); error = "opal_dstore_base_select"; goto error; } /* create the handle */ if (0 > (opal_dstore_internal = opal_dstore.open("INTERNAL", NULL, NULL))) { error = "opal dstore internal"; ret = ORTE_ERR_FATAL; goto error; } /* extract the cluster description and setup the routed info - the orcm routed component * will know what to do. */ n = 1; if (OPAL_SUCCESS != (ret = opal_dss.unpack(&buf, &clusterbuf, &n, OPAL_BUFFER))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "extract cluster buf"; goto error; } if (ORTE_SUCCESS != (ret = orte_routed.init_routes(ORTE_PROC_MY_NAME->jobid, clusterbuf))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); OBJ_RELEASE(clusterbuf); error = "orte_routed.init_routes"; goto error; } OBJ_RELEASE(clusterbuf); /* extract the uri buffer and load the hash tables */ n = 1; if (OPAL_SUCCESS != (ret = opal_dss.unpack(&buf, &uribuf, &n, OPAL_BUFFER))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "extract uri buffer"; goto error; } if (ORTE_SUCCESS != (ret = orte_rml_base_update_contact_info(uribuf))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); OBJ_RELEASE(uribuf); error = "load hash tables"; goto error; } OBJ_DESTRUCT(&buf); OBJ_RELEASE(uribuf); /* * Group communications */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_grpcomm_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_grpcomm_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_grpcomm_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_grpcomm_base_select"; goto error; } /* Open/select the odls */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_odls_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_odls_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_odls_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_odls_base_select"; goto error; } /* enable communication with the rml */ if (ORTE_SUCCESS != (ret = orte_rml.enable_comm())) { ORTE_ERROR_LOG(ret); error = "orte_rml.enable_comm"; goto error; } /* setup the FileM */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_filem_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_filem_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_filem_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_filem_base_select"; goto error; } /* * Initalize the CR setup * Note: Always do this, even in non-FT builds. * If we don't some user level tools may hang. */ opal_cr_set_enabled(false); if (ORTE_SUCCESS != (ret = orte_cr_init())) { ORTE_ERROR_LOG(ret); error = "orte_cr_init"; goto error; } /* setup the ANALYTICS framework */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orcm_analytics_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orcm_analytics_base_open"; goto error; } /* setup the EVGEN framework */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orcm_evgen_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orcm_evgen_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orcm_evgen_base_select())) { ORTE_ERROR_LOG(ret); error = "orcm_evgen_select"; goto error; } /* setup the SENSOR framework */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orcm_sensor_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orcm_sensor_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orcm_sensor_base_select())) { ORTE_ERROR_LOG(ret); error = "orcm_sensor_select"; goto error; } /* start the local sensors */ orcm_sensor.start(ORTE_PROC_MY_NAME->jobid); /* setup the PWRMGMT framework */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orcm_pwrmgmt_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orcm_pwrmgmt_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orcm_pwrmgmt_base_select())) { ORTE_ERROR_LOG(ret); error = "orcm_pwrmgmt_select"; goto error; } /* setup the DFS framework */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_dfs_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_dfs_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_dfs_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_dfs_select"; goto error; } /* open and setup the DIAG framework */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orcm_diag_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orcm_diag_base_open"; goto error; } if (ORCM_SUCCESS != (ret = orcm_diag_base_select())) { ORTE_ERROR_LOG(ret); error = "orcm_diag_select"; goto error; } return ORTE_SUCCESS; error: orte_show_help("help-orcm-runtime.txt", "orcm_init:startup:internal-failure", true, error, ORTE_ERROR_NAME(ret), ret); return ORTE_ERR_SILENT; }
static int tool_init(void) { int ret = ORTE_ERROR; char *error = NULL; opal_buffer_t buf, *clusterbuf, *uribuf; orte_job_t *jdata; orte_node_t *node; orte_proc_t *proc; opal_list_t config; orcm_scheduler_t *scheduler; orcm_node_t *mynode=NULL; int32_t n; if (initialized) { return ORCM_SUCCESS; } initialized = true; /* Initialize the ORTE data type support */ if (ORTE_SUCCESS != (ret = orte_ess_base_std_prolog())) { error = "orte_std_prolog"; goto error; } /* setup the global job and node arrays */ orte_job_data = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_job_data, 1, ORTE_GLOBAL_ARRAY_MAX_SIZE, 1))) { ORTE_ERROR_LOG(ret); error = "setup job array"; goto error; } orte_node_pool = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_node_pool, ORTE_GLOBAL_ARRAY_BLOCK_SIZE, ORTE_GLOBAL_ARRAY_MAX_SIZE, ORTE_GLOBAL_ARRAY_BLOCK_SIZE))) { ORTE_ERROR_LOG(ret); error = "setup node array"; goto error; } orte_node_topologies = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_node_topologies, ORTE_GLOBAL_ARRAY_BLOCK_SIZE, ORTE_GLOBAL_ARRAY_MAX_SIZE, ORTE_GLOBAL_ARRAY_BLOCK_SIZE))) { ORTE_ERROR_LOG(ret); error = "setup node topologies array"; goto error; } /* create a job tracker for the daemons */ jdata = OBJ_NEW(orte_job_t); jdata->jobid = 0; ORTE_PROC_MY_NAME->jobid = 0; opal_pointer_array_set_item(orte_job_data, 0, jdata); /* read the site configuration */ OBJ_CONSTRUCT(&config, opal_list_t); if (ORCM_SUCCESS != (ret = orcm_cfgi.read_config(&config))) { error = "getting config"; goto error; } /* define the cluster and collect contact info for all * aggregators - we'll need to know how to talk to any * of them in case of failures */ OBJ_CONSTRUCT(&buf, opal_buffer_t); if (ORCM_SUCCESS != (ret = orcm_cfgi.define_system(&config, &mynode, &orte_process_info.num_procs, &buf))) { OBJ_DESTRUCT(&buf); error = "define system"; goto error; } /* define a name for myself */ if (ORTE_SUCCESS != (ret = orte_plm_base_set_hnp_name())) { ORTE_ERROR_LOG(ret); error = "orte_plm_base_set_hnp_name"; goto error; } /* define a node and proc object for ourselves as some parts * of ORTE and ORCM require it */ if (NULL == (node = OBJ_NEW(orte_node_t))) { ret = ORTE_ERR_OUT_OF_RESOURCE; error = "out of memory"; goto error; } node->name = strdup(orte_process_info.nodename); opal_pointer_array_set_item(orte_node_pool, ORTE_PROC_MY_NAME->vpid, node); if (NULL == (proc = OBJ_NEW(orte_proc_t))) { ret = ORTE_ERR_OUT_OF_RESOURCE; error = "out of memory"; goto error; } proc->name.jobid = ORTE_PROC_MY_NAME->jobid; proc->name.vpid = ORTE_PROC_MY_NAME->vpid; OBJ_RETAIN(proc); node->daemon = proc; OBJ_RETAIN(node); proc->node = node; opal_pointer_array_set_item(jdata->procs, ORTE_PROC_MY_NAME->vpid, proc); /* For now, we only support a single scheduler daemon in the system. * This *may* change someday in the future */ scheduler = (orcm_scheduler_t*)opal_list_get_first(orcm_schedulers); ORTE_PROC_MY_SCHEDULER->jobid = scheduler->controller.daemon.jobid; ORTE_PROC_MY_SCHEDULER->vpid = scheduler->controller.daemon.vpid; /* register the ORTE-level params at this time now that the * config has had a chance to push things into the environ */ if (ORTE_SUCCESS != (ret = orte_register_params())) { OBJ_DESTRUCT(&buf); error = "orte_register_params"; goto error; } /* setup callback for SIGPIPE */ setup_sighandler(SIGPIPE, &epipe_handler, epipe_signal_callback); /* Set signal handlers to catch kill signals so we can properly clean up * after ourselves. */ setup_sighandler(SIGTERM, &term_handler, shutdown_signal); setup_sighandler(SIGINT, &int_handler, shutdown_signal); /** setup callbacks for signals we should ignore */ setup_sighandler(SIGUSR1, &sigusr1_handler, signal_callback); setup_sighandler(SIGUSR2, &sigusr2_handler, signal_callback); signals_set = true; /* open and select the pstat framework */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&opal_pstat_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "opal_pstat_base_open"; goto error; } if (ORTE_SUCCESS != (ret = opal_pstat_base_select())) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "opal_pstat_base_select"; goto error; } /* open and setup the state machine */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_state_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_state_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_state_base_select())) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_state_base_select"; goto error; } /* open the errmgr */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_errmgr_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_errmgr_base_open"; goto error; } /* Setup the communication infrastructure */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_oob_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_oob_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_oob_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_oob_base_select"; goto error; } /* Runtime Messaging Layer */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_rml_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_rml_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_rml_base_select())) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_rml_base_select"; goto error; } /* select the errmgr */ if (ORTE_SUCCESS != (ret = orte_errmgr_base_select())) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_errmgr_base_select"; goto error; } /* Routed system */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_routed_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_rml_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_routed_base_select())) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_routed_base_select"; goto error; } /* database */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orcm_db_base_framework, 0))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orcm_db_base_open"; goto error; } /* always restrict daemons to local database components */ if (ORTE_SUCCESS != (ret = orcm_db_base_select())) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orcm_db_base_select"; goto error; } /* datastore - ensure we don't pickup the pmi component, but * don't override anything set by user */ if (NULL == getenv("OMPI_MCA_dstore")) { putenv("OMPI_MCA_dstore=^pmi"); } if (ORTE_SUCCESS != (ret = mca_base_framework_open(&opal_dstore_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "opal_dstore_base_open"; goto error; } if (ORTE_SUCCESS != (ret = opal_dstore_base_select())) { ORTE_ERROR_LOG(ret); error = "opal_dstore_base_select"; goto error; } /* create the handles */ if (0 > (opal_dstore_peer = opal_dstore.open("PEER"))) { error = "opal dstore global"; ret = ORTE_ERR_FATAL; goto error; } if (0 > (opal_dstore_internal = opal_dstore.open("INTERNAL"))) { error = "opal dstore internal"; ret = ORTE_ERR_FATAL; goto error; } if (0 > (opal_dstore_nonpeer = opal_dstore.open("NONPEER"))) { error = "opal dstore nonpeer"; ret = ORTE_ERR_FATAL; goto error; } /* initialize the nidmaps */ if (ORTE_SUCCESS != (ret = orte_util_nidmap_init(NULL))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "orte_util_nidmap_init"; goto error; } /* extract the cluster description and setup the routed info - the orcm routed component * will know what to do. */ n = 1; if (OPAL_SUCCESS != (ret = opal_dss.unpack(&buf, &clusterbuf, &n, OPAL_BUFFER))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "extract cluster buf"; goto error; } if (ORTE_SUCCESS != (ret = orte_routed.init_routes(ORTE_PROC_MY_NAME->jobid, clusterbuf))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); OBJ_RELEASE(clusterbuf); error = "orte_routed.init_routes"; goto error; } OBJ_RELEASE(clusterbuf); /* extract the uri buffer and load the hash tables */ n = 1; if (OPAL_SUCCESS != (ret = opal_dss.unpack(&buf, &uribuf, &n, OPAL_BUFFER))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); error = "extract uri buffer"; goto error; } if (ORTE_SUCCESS != (ret = orte_rml_base_update_contact_info(uribuf))) { ORTE_ERROR_LOG(ret); OBJ_DESTRUCT(&buf); OBJ_RELEASE(uribuf); error = "load hash tables"; goto error; } OBJ_DESTRUCT(&buf); OBJ_RELEASE(uribuf); /* construct the thread object */ OBJ_CONSTRUCT(&progress_thread, opal_thread_t); /* fork off a thread to progress it */ progress_thread.t_run = progress_thread_engine; progress_thread_running = true; if (OPAL_SUCCESS != (ret = opal_thread_start(&progress_thread))) { error = "progress thread start"; progress_thread_running = false; goto error; } /* * Group communications */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_grpcomm_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_grpcomm_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_grpcomm_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_grpcomm_base_select"; goto error; } /* Open/select the odls */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_odls_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_odls_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_odls_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_odls_base_select"; goto error; } /* enable communication with the rml */ if (ORTE_SUCCESS != (ret = orte_rml.enable_comm())) { ORTE_ERROR_LOG(ret); error = "orte_rml.enable_comm"; goto error; } /* setup the FileM */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_filem_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_filem_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_filem_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_filem_base_select"; goto error; } /* * Initalize the CR setup * Note: Always do this, even in non-FT builds. * If we don't some user level tools may hang. */ opal_cr_set_enabled(false); if (ORTE_SUCCESS != (ret = orte_cr_init())) { ORTE_ERROR_LOG(ret); error = "orte_cr_init"; goto error; } /* setup the DFS framework */ if (ORTE_SUCCESS != (ret = mca_base_framework_open(&orte_dfs_base_framework, 0))) { ORTE_ERROR_LOG(ret); error = "orte_dfs_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_dfs_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_dfs_select"; goto error; } return ORTE_SUCCESS; error: orte_show_help("help-orte-runtime.txt", "orte_init:startup:internal-failure", true, error, ORTE_ERROR_NAME(ret), ret); return ORTE_ERR_SILENT; }
static int rte_init(void) { int ret; char *error = NULL; char *contact_path, *jobfam_dir; orte_job_t *jdata; orte_node_t *node; orte_proc_t *proc; int value; /* initialize the global list of local children and job data */ OBJ_CONSTRUCT(&orte_local_children, opal_list_t); OBJ_CONSTRUCT(&orte_local_jobdata, opal_list_t); /* run the prolog */ if (ORTE_SUCCESS != (ret = orte_ess_base_std_prolog())) { error = "orte_ess_base_std_prolog"; goto error; } /* determine the topology info */ if (0 == orte_default_num_sockets_per_board) { /* we weren't given a number, so try to determine it */ if (OPAL_SUCCESS != opal_paffinity_base_get_socket_info(&value)) { /* can't get any info - default to 1 */ value = 1; } orte_default_num_sockets_per_board = (uint8_t)value; } if (0 == orte_default_num_cores_per_socket) { /* we weren't given a number, so try to determine it */ if (OPAL_SUCCESS != (ret = opal_paffinity_base_get_core_info(0, &value))) { /* don't have topo info - can we at least get #processors? */ if (OPAL_SUCCESS != opal_paffinity_base_get_processor_info(&value)) { /* can't get any info - default to 1 */ value = 1; } } orte_default_num_cores_per_socket = (uint8_t)value; } /* if we are using xml for output, put an mpirun start tag */ if (orte_xml_output) { fprintf(orte_xml_fp, "<mpirun>\n"); fflush(orte_xml_fp); } /* open and setup the opal_pstat framework so we can provide * process stats if requested */ if (ORTE_SUCCESS != (ret = opal_pstat_base_open())) { ORTE_ERROR_LOG(ret); error = "opal_pstat_base_open"; goto error; } if (ORTE_SUCCESS != (ret = opal_pstat_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_pstat_base_select"; goto error; } /* open and setup the local resource discovery framework */ if (ORTE_SUCCESS != (ret = opal_sysinfo_base_open())) { ORTE_ERROR_LOG(ret); error = "opal_sysinfo_base_open"; goto error; } if (ORTE_SUCCESS != (ret = opal_sysinfo_base_select())) { ORTE_ERROR_LOG(ret); error = "opal_sysinfo_base_select"; goto error; } /* Since we are the HNP, then responsibility for * defining the name falls to the PLM component for our * respective environment - hence, we have to open the PLM * first and select that component. */ if (ORTE_SUCCESS != (ret = orte_plm_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_plm_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_plm_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_plm_base_select"; goto error; } if (ORTE_SUCCESS != (ret = orte_plm.set_hnp_name())) { ORTE_ERROR_LOG(ret); error = "orte_plm_set_hnp_name"; goto error; } /* Setup the communication infrastructure */ /* * Runtime Messaging Layer */ if (ORTE_SUCCESS != (ret = orte_rml_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_rml_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_rml_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_rml_base_select"; goto error; } /* * Routed system */ if (ORTE_SUCCESS != (ret = orte_routed_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_routed_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_routed_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_routed_base_select"; goto error; } /* * Group communications */ if (ORTE_SUCCESS != (ret = orte_grpcomm_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_grpcomm_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_grpcomm_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_grpcomm_base_select"; goto error; } /* multicast */ #if ORTE_ENABLE_MULTICAST if (ORTE_SUCCESS != (ret = orte_rmcast_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_rmcast_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_rmcast_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_rmcast_base_select"; goto error; } #endif /* Now provide a chance for the PLM * to perform any module-specific init functions. This * needs to occur AFTER the communications are setup * as it may involve starting a non-blocking recv */ if (ORTE_SUCCESS != (ret = orte_plm.init())) { ORTE_ERROR_LOG(ret); error = "orte_plm_init"; goto error; } /* * Setup the remaining resource * management and errmgr frameworks - application procs * and daemons do not open these frameworks as they only use * the hnp proxy support in the PLM framework. */ if (ORTE_SUCCESS != (ret = orte_ras_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_ras_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_ras_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_ras_base_find_available"; goto error; } if (ORTE_SUCCESS != (ret = orte_rmaps_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_rmaps_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_rmaps_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_rmaps_base_find_available"; goto error; } if (ORTE_SUCCESS != (ret = orte_errmgr_base_open())) { error = "orte_errmgr_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_errmgr_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_errmgr_base_select"; goto error; } /* Open/select the odls */ if (ORTE_SUCCESS != (ret = orte_odls_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_odls_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_odls_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_odls_base_select"; goto error; } /* enable communication with the rml */ if (ORTE_SUCCESS != (ret = orte_rml.enable_comm())) { ORTE_ERROR_LOG(ret); error = "orte_rml.enable_comm"; goto error; } /* we are an hnp, so update the contact info field for later use */ orte_process_info.my_hnp_uri = orte_rml.get_contact_info(); /* we are also officially a daemon, so better update that field too */ orte_process_info.my_daemon_uri = orte_rml.get_contact_info(); #if !ORTE_DISABLE_FULL_SUPPORT /* setup the orte_show_help system to recv remote output */ ret = orte_rml.recv_buffer_nb(ORTE_NAME_WILDCARD, ORTE_RML_TAG_SHOW_HELP, ORTE_RML_NON_PERSISTENT, orte_show_help_recv, NULL); if (ret != ORTE_SUCCESS && ret != ORTE_ERR_NOT_IMPLEMENTED) { ORTE_ERROR_LOG(ret); error = "setup receive for orte_show_help"; goto error; } #endif /* setup my session directory */ OPAL_OUTPUT_VERBOSE((2, orte_debug_output, "%s setting up session dir with\n\ttmpdir: %s\n\thost %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), (NULL == orte_process_info.tmpdir_base) ? "UNDEF" : orte_process_info.tmpdir_base, orte_process_info.nodename)); if (ORTE_SUCCESS != (ret = orte_session_dir(true, orte_process_info.tmpdir_base, orte_process_info.nodename, NULL, ORTE_PROC_MY_NAME))) { ORTE_ERROR_LOG(ret); error = "orte_session_dir"; goto error; } /* Once the session directory location has been established, set the opal_output hnp file location to be in the proc-specific session directory. */ opal_output_set_output_file_info(orte_process_info.proc_session_dir, "output-", NULL, NULL); /* save my contact info in a file for others to find */ jobfam_dir = opal_dirname(orte_process_info.job_session_dir); contact_path = opal_os_path(false, jobfam_dir, "contact.txt", NULL); free(jobfam_dir); OPAL_OUTPUT_VERBOSE((2, orte_debug_output, "%s writing contact file %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), contact_path)); if (ORTE_SUCCESS != (ret = orte_write_hnp_contact_file(contact_path))) { OPAL_OUTPUT_VERBOSE((2, orte_debug_output, "%s writing contact file failed with error %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), ORTE_ERROR_NAME(ret))); } else { OPAL_OUTPUT_VERBOSE((2, orte_debug_output, "%s wrote contact file", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME))); } free(contact_path); /* setup the global job and node arrays */ orte_job_data = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_job_data, 1, ORTE_GLOBAL_ARRAY_MAX_SIZE, 1))) { ORTE_ERROR_LOG(ret); error = "setup job array"; goto error; } orte_node_pool = OBJ_NEW(opal_pointer_array_t); if (ORTE_SUCCESS != (ret = opal_pointer_array_init(orte_node_pool, ORTE_GLOBAL_ARRAY_BLOCK_SIZE, ORTE_GLOBAL_ARRAY_MAX_SIZE, ORTE_GLOBAL_ARRAY_BLOCK_SIZE))) { ORTE_ERROR_LOG(ret); error = "setup node array"; goto error; } /* Setup the job data object for the daemons */ /* create and store the job data object */ jdata = OBJ_NEW(orte_job_t); jdata->jobid = ORTE_PROC_MY_NAME->jobid; opal_pointer_array_set_item(orte_job_data, 0, jdata); /* create and store a node object where we are */ node = OBJ_NEW(orte_node_t); node->name = strdup(orte_process_info.nodename); node->index = opal_pointer_array_add(orte_node_pool, node); /* create and store a proc object for us */ proc = OBJ_NEW(orte_proc_t); proc->name.jobid = ORTE_PROC_MY_NAME->jobid; proc->name.vpid = ORTE_PROC_MY_NAME->vpid; proc->pid = orte_process_info.pid; proc->rml_uri = orte_rml.get_contact_info(); proc->state = ORTE_PROC_STATE_RUNNING; OBJ_RETAIN(node); /* keep accounting straight */ proc->node = node; proc->nodename = node->name; opal_pointer_array_add(jdata->procs, proc); /* record that the daemon (i.e., us) is on this node * NOTE: we do not add the proc object to the node's * proc array because we are not an application proc. * Instead, we record it in the daemon field of the * node object */ OBJ_RETAIN(proc); /* keep accounting straight */ node->daemon = proc; node->daemon_launched = true; node->state = ORTE_NODE_STATE_UP; /* record that the daemon job is running */ jdata->num_procs = 1; jdata->state = ORTE_JOB_STATE_RUNNING; /* setup the routed info - the selected routed component * will know what to do. */ if (ORTE_SUCCESS != (ret = orte_routed.init_routes(ORTE_PROC_MY_NAME->jobid, NULL))) { ORTE_ERROR_LOG(ret); error = "orte_routed.init_routes"; goto error; } /* setup I/O forwarding system - must come after we init routes */ if (ORTE_SUCCESS != (ret = orte_iof_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_iof_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_iof_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_iof_base_select"; goto error; } /* setup the FileM */ if (ORTE_SUCCESS != (ret = orte_filem_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_filem_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_filem_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_filem_base_select"; goto error; } #if OPAL_ENABLE_FT_CR == 1 /* * Setup the SnapC */ if (ORTE_SUCCESS != (ret = orte_snapc_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_snapc_base_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_snapc_base_select(ORTE_PROC_IS_HNP, !ORTE_PROC_IS_DAEMON))) { ORTE_ERROR_LOG(ret); error = "orte_snapc_base_select"; goto error; } /* For HNP, ORTE doesn't need the OPAL CR stuff */ opal_cr_set_enabled(false); #else opal_cr_set_enabled(false); #endif /* * Initalize the CR setup * Note: Always do this, even in non-FT builds. * If we don't some user level tools may hang. */ if (ORTE_SUCCESS != (ret = orte_cr_init())) { ORTE_ERROR_LOG(ret); error = "orte_cr_init"; goto error; } /* setup the notifier system */ if (ORTE_SUCCESS != (ret = orte_notifier_base_open())) { ORTE_ERROR_LOG(ret); error = "orte_notifer_open"; goto error; } if (ORTE_SUCCESS != (ret = orte_notifier_base_select())) { ORTE_ERROR_LOG(ret); error = "orte_notifer_select"; goto error; } /* if a tool has launched us and is requesting event reports, * then set its contact info into the comm system */ if (orte_report_events) { if (ORTE_SUCCESS != (ret = orte_util_comm_connect_tool(orte_report_events_uri))) { error = "could not connect to tool"; goto error; } } /* We actually do *not* want an HNP to voluntarily yield() the processor more than necessary. Orterun already blocks when it is doing nothing, so it doesn't use any more CPU cycles than it should; but when it *is* doing something, we do not want it to be unnecessarily delayed because it voluntarily yielded the processor in the middle of its work. For example: when a message arrives at orterun, we want the OS to wake us up in a timely fashion (which most OS's seem good about doing) and then we want orterun to process the message as fast as possible. If orterun yields and lets aggressive MPI applications get the processor back, it may be a long time before the OS schedules orterun to run again (particularly if there is no IO event to wake it up). Hence, routed OOB messages (for example) may be significantly delayed before being delivered to MPI processes, which can be problematic in some scenarios (e.g., COMM_SPAWN, BTL's that require OOB messages for wireup, etc.). */ opal_progress_set_yield_when_idle(false); return ORTE_SUCCESS; error: if (ORTE_ERR_SILENT != ret) { orte_show_help("help-orte-runtime.txt", "orte_init:startup:internal-failure", true, error, ORTE_ERROR_NAME(ret), ret); } /* cleanup the global list of local children and job data */ OBJ_DESTRUCT(&orte_local_children); OBJ_DESTRUCT(&orte_local_jobdata); return ret; }