/* * Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2006 The University of Tennessee and The University * of Tennessee Research Foundation. All rights * reserved. * Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, * University of Stuttgart. All rights reserved. * Copyright (c) 2004-2005 The Regents of the University of California. * All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "orte_config.h" #include "orte/types.h" #include "orte/constants.h" #include #include #include #include #include #ifdef HAVE_UNISTD_H #include #endif #ifdef HAVE_SYS_SOCKET_H #include #endif #ifdef HAVE_NETINET_IN_H #include #endif #ifdef HAVE_ARPA_INET_H #include #endif #ifdef HAVE_NETDB_H #include #endif #ifdef HAVE_IFADDRS_H #include #endif #include "opal/dss/dss.h" #include "opal/runtime/opal.h" #include "opal/class/opal_pointer_array.h" #include "opal/util/output.h" #include "opal/util/opal_sos.h" #include "opal/util/argv.h" #include "opal/mca/sysinfo/sysinfo_types.h" #include "orte/mca/errmgr/errmgr.h" #include "orte/mca/odls/base/odls_private.h" #include "orte/util/show_help.h" #include "orte/util/proc_info.h" #include "orte/util/name_fns.h" #include "orte/util/regex.h" #include "orte/runtime/orte_globals.h" #include "orte/mca/rml/base/rml_contact.h" #include "orte/util/nidmap.h" static bool initialized = false; int orte_util_nidmap_init(opal_buffer_t *buffer) { int32_t cnt; int rc; opal_byte_object_t *bo; int8_t flag; char *regexp; if (!initialized) { /* need to construct the global arrays */ /* setup the nidmap array */ OBJ_CONSTRUCT(&orte_nidmap, opal_pointer_array_t); opal_pointer_array_init(&orte_nidmap, 8, INT32_MAX, 8); /* setup array of jmaps */ OBJ_CONSTRUCT(&orte_jobmap, opal_pointer_array_t); opal_pointer_array_init(&orte_jobmap, 1, INT32_MAX, 1); /* make sure we don't do this twice */ initialized = true; } /* it is okay if the buffer is empty */ if (NULL == buffer || 0 == buffer->bytes_used) { return ORTE_SUCCESS; } /* extract the flag indicating the type of info in the buffer */ cnt=1; if (ORTE_SUCCESS != (rc = opal_dss.unpack(buffer, &flag, &cnt, OPAL_INT8))) { ORTE_ERROR_LOG(rc); return rc; } if (0 < flag) { /* the data is a regular expression - extract and parse it * to get the daemonmap and process map */ cnt=1; if (ORTE_SUCCESS != (rc = opal_dss.unpack(buffer, ®exp, &cnt, OPAL_STRING))) { ORTE_ERROR_LOG(rc); return rc; } if (ORTE_SUCCESS != (rc = orte_regex_decode_maps(regexp, NULL))) { ORTE_ERROR_LOG(rc); } free(regexp); return rc; } /* extract the byte object holding the daemonmap */ cnt=1; if (ORTE_SUCCESS != (rc = opal_dss.unpack(buffer, &bo, &cnt, OPAL_BYTE_OBJECT))) { ORTE_ERROR_LOG(rc); return rc; } /* unpack the node map */ if (ORTE_SUCCESS != (rc = orte_util_decode_nodemap(bo))) { ORTE_ERROR_LOG(rc); return rc; } /* the bytes in the object were free'd by the decode */ /* extract the byte object holding the process map */ cnt=1; if (ORTE_SUCCESS != (rc = opal_dss.unpack(buffer, &bo, &cnt, OPAL_BYTE_OBJECT))) { ORTE_ERROR_LOG(rc); return rc; } /* unpack the process map */ if (ORTE_SUCCESS != (rc = orte_util_decode_pidmap(bo))) { ORTE_ERROR_LOG(rc); return rc; } /* the bytes in the object were free'd by the decode */ /* unpack the system info */ orte_util_decode_sysinfo(buffer); return ORTE_SUCCESS; } void orte_util_nidmap_finalize(void) { orte_nid_t **nids; orte_jmap_t **jmaps; int32_t i; if (!initialized) { /* nothing to do */ return; } /* deconstruct the global nidmap and jobmap arrays */ nids = (orte_nid_t**)orte_nidmap.addr; for (i=0; i < orte_nidmap.size && NULL != nids[i]; i++) { OBJ_RELEASE(nids[i]); } OBJ_DESTRUCT(&orte_nidmap); jmaps = (orte_jmap_t**)orte_jobmap.addr; for (i=0; i < orte_jobmap.size && NULL != jmaps[i]; i++) { OBJ_RELEASE(jmaps[i]); } OBJ_DESTRUCT(&orte_jobmap); /* flag that these are no longer initialized */ initialized = false; } int orte_util_setup_local_nidmap_entries(void) { orte_nid_t *node; orte_jmap_t *jmap; orte_pmap_t *pmap; /* add a jmap entry for myself */ jmap = OBJ_NEW(orte_jmap_t); jmap->job = ORTE_PROC_MY_NAME->jobid; opal_pointer_array_add(&orte_jobmap, jmap); jmap->num_procs = 1; /* create a nidmap entry for this node */ node = OBJ_NEW(orte_nid_t); node->name = strdup(orte_process_info.nodename); node->daemon = ORTE_PROC_MY_DAEMON->vpid; pmap = OBJ_NEW(orte_pmap_t); pmap->local_rank = 0; pmap->node_rank = 0; node->index = opal_pointer_array_add(&orte_nidmap, node); /* value array copies values, so everything must be set before * calling the set_item function */ pmap->node = node->index; opal_pointer_array_set_item(&jmap->pmap, ORTE_PROC_MY_NAME->vpid, pmap); /* all done */ return ORTE_SUCCESS; } int orte_util_build_daemon_nidmap(char **nodes) { orte_nid_t *node; int i, num_nodes; int rc; struct hostent *h; opal_buffer_t buf; orte_process_name_t proc; char *uri, *addr; char *proc_name; num_nodes = opal_argv_count(nodes); OPAL_OUTPUT_VERBOSE((2, orte_debug_output, "orte:util:build:daemon:nidmap found %d nodes", num_nodes)); if (0 == num_nodes) { /* nothing to do */ return ORTE_SUCCESS; } /* set the size of the nidmap storage so we minimize realloc's */ if (ORTE_SUCCESS != (rc = opal_pointer_array_set_size(&orte_nidmap, num_nodes+1))) { ORTE_ERROR_LOG(rc); return rc; } /* install the entry for the HNP */ node = OBJ_NEW(orte_nid_t); node->name = strdup("HNP"); node->daemon = 0; /* the arch defaults to our arch so that non-hetero * case will yield correct behavior */ opal_pointer_array_set_item(&orte_nidmap, 0, node); /* the daemon vpids will be assigned in order, * starting with vpid=1 for the first node in * the list */ OBJ_CONSTRUCT(&buf, opal_buffer_t); proc.jobid = ORTE_PROC_MY_NAME->jobid; for (i=0; i < num_nodes; i++) { node = OBJ_NEW(orte_nid_t); node->name = strdup(nodes[i]); node->daemon = i+1; /* the arch defaults to our arch so that non-hetero * case will yield correct behavior */ opal_pointer_array_set_item(&orte_nidmap, node->daemon, node); /* lookup the address of this node */ if (NULL == (h = gethostbyname(node->name))) { ORTE_ERROR_LOG(ORTE_ERR_NOT_FOUND); return ORTE_ERR_NOT_FOUND; } addr = inet_ntoa(*(struct in_addr*)h->h_addr_list[0]); OPAL_OUTPUT_VERBOSE((3, orte_debug_output, "%s orte:util:build:daemon:nidmap node %s daemon %d addr %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), node->name, (int)node->daemon, addr)); /* since we are using static ports, all my fellow daemons will be on my * port. Setup the contact info for each daemon in my hash tables. Note * that this will -not- open a port to those daemons, but will only * define the info necessary for opening such a port if/when I communicate * to them */ /* construct the URI */ proc.vpid = node->daemon; orte_util_convert_process_name_to_string(&proc_name, &proc); asprintf(&uri, "%s;tcp://%s:%d", proc_name, addr, (int)orte_process_info.my_port); opal_dss.pack(&buf, &uri, 1, OPAL_STRING); free(proc_name); free(uri); } /* load the hash tables */ if (ORTE_SUCCESS != (rc = orte_rml_base_update_contact_info(&buf))) { ORTE_ERROR_LOG(rc); } OBJ_DESTRUCT(&buf); return rc; } int orte_util_encode_nodemap(opal_byte_object_t *boptr) { orte_vpid_t *vpids; orte_node_t *node, *hnp; int32_t i, num_nodes; int rc; char *nodename; opal_buffer_t buf; char *ptr; /* setup a buffer for tmp use */ OBJ_CONSTRUCT(&buf, opal_buffer_t); /* determine the number of nodes in the global node array */ num_nodes = 0; for (i=0; i < orte_node_pool->size; i++) { if (NULL == opal_pointer_array_get_item(orte_node_pool, i)) { continue; } ++num_nodes; } /* pack number of nodes */ if (ORTE_SUCCESS != (rc = opal_dss.pack(&buf, &num_nodes, 1, OPAL_INT32))) { ORTE_ERROR_LOG(rc); return rc; } /* the HNP always has an entry at posn 0 - get its pointer as * we will need it later */ hnp = (orte_node_t*)opal_pointer_array_get_item(orte_node_pool, 0); /* pack every nodename individually */ for (i=0; i < orte_node_pool->size; i++) { if (NULL == (node = (orte_node_t*)opal_pointer_array_get_item(orte_node_pool, i))) { continue; } if (!orte_keep_fqdn_hostnames) { nodename = strdup(node->name); if (NULL != (ptr = strchr(nodename, '.'))) { *ptr = '\0'; } if (ORTE_SUCCESS != (rc = opal_dss.pack(&buf, &nodename, 1, OPAL_STRING))) { ORTE_ERROR_LOG(rc); return rc; } free(nodename); } else { if (ORTE_SUCCESS != (rc = opal_dss.pack(&buf, &node->name, 1, OPAL_STRING))) { ORTE_ERROR_LOG(rc); return rc; } } } /* since the daemon vpids may not correspond to the node * index, we need to also pack the vpid array for all * daemons. This scenario can happen when the user is * employing a mapping algo that doesn't use all allocated * nodes, and sprinkles procs across them in some non-contig * manner. For example, use of the seq mapper where only * some nodes are used, and where the usage leaves "holes" * in the node array, will cause the daemon vpids to not * match their node array index */ /* allocate space for the daemon vpids */ vpids = (orte_vpid_t*)malloc(num_nodes * sizeof(orte_vpid_t)); for (i=0; i < orte_node_pool->size; i++) { if (NULL == (node = (orte_node_t*)opal_pointer_array_get_item(orte_node_pool, i))) { continue; } if (NULL == node->daemon) { /* some nodes may not have daemons on them */ vpids[i] = ORTE_VPID_INVALID; continue; } vpids[i] = node->daemon->name.vpid; } if (ORTE_SUCCESS != (rc = opal_dss.pack(&buf, vpids, num_nodes, ORTE_VPID))) { ORTE_ERROR_LOG(rc); return rc; } free(vpids); /* check if we are to send the profile file data */ if (orte_send_profile) { int fd; opal_byte_object_t bo, *bptr; /* there must be a file specified */ if (NULL == opal_profile_file) { /* print an error message */ return ORTE_ERR_BAD_PARAM; } fd = open(opal_profile_file, O_RDONLY); if (fd < 0) { orte_show_help("help-orte-runtime.txt", "orte_nidmap:file-cant-open", true, opal_profile_file); return ORTE_ERR_FILE_OPEN_FAILURE; } /* loop through file until end */ bptr = &bo; while (0 < read(fd, &bo.size, sizeof(bo.size))) { /* this is the number of bytes in the byte object */ bo.bytes = (uint8_t *) malloc(bo.size); if (0 > read(fd, bo.bytes, bo.size)) { orte_show_help("help-orte-runtime.txt", "orte_nidmap:unable-read-file", true, opal_profile_file); close(fd); return ORTE_ERR_FILE_READ_FAILURE; } if (ORTE_SUCCESS != (rc = opal_dss.pack(&buf, &bptr, 1, OPAL_BYTE_OBJECT))) { ORTE_ERROR_LOG(rc); return rc; } free(bo.bytes); } } /* transfer the payload to the byte object */ opal_dss.unload(&buf, (void**)&boptr->bytes, &boptr->size); OBJ_DESTRUCT(&buf); return ORTE_SUCCESS; } int orte_util_decode_nodemap(opal_byte_object_t *bo) { int n; int32_t num_nodes, i, num_daemons; orte_nid_t *node; orte_vpid_t *vpids; orte_nid_t *nd, *ndptr; opal_buffer_t buf; opal_byte_object_t *boptr; int rc; OPAL_OUTPUT_VERBOSE((2, orte_debug_output, "%s decode:nidmap decoding nodemap", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME))); /* if there are any entries already in the node array, clear it out */ if (0 < orte_nidmap.size) { /* unfortunately, the opal function "remove_all" doesn't release * the memory pointed to by the elements in the array, so we need * to release those first */ for (i=0; i < orte_nidmap.size; i++) { if (NULL != (ndptr = (orte_nid_t*)opal_pointer_array_get_item(&orte_nidmap, i))) { OBJ_RELEASE(ndptr); } } /* now use the opal function to reset the internal pointers */ opal_pointer_array_remove_all(&orte_nidmap); } /* xfer the byte object to a buffer for unpacking */ OBJ_CONSTRUCT(&buf, opal_buffer_t); opal_dss.load(&buf, bo->bytes, bo->size); /* unpack number of nodes */ n=1; if (ORTE_SUCCESS != (rc = opal_dss.unpack(&buf, &num_nodes, &n, OPAL_INT32))) { ORTE_ERROR_LOG(rc); return rc; } OPAL_OUTPUT_VERBOSE((2, orte_debug_output, "%s decode:nidmap decoding %d nodes", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), num_nodes)); /* set the size of the nidmap storage so we minimize realloc's */ if (ORTE_SUCCESS != (rc = opal_pointer_array_set_size(&orte_nidmap, num_nodes))) { ORTE_ERROR_LOG(rc); return rc; } /* loop over nodes and unpack the raw nodename */ for (i=0; i < num_nodes; i++) { node = OBJ_NEW(orte_nid_t); /* the arch defaults to our arch so that non-hetero * case will yield correct behavior */ opal_pointer_array_set_item(&orte_nidmap, i, node); /* unpack the node's name */ n=1; if (ORTE_SUCCESS != (rc = opal_dss.unpack(&buf, &(node->name), &n, OPAL_STRING))) { ORTE_ERROR_LOG(rc); return rc; } } /* unpack the daemon vpids */ vpids = (orte_vpid_t*)malloc(num_nodes * sizeof(orte_vpid_t)); n=num_nodes; if (ORTE_SUCCESS != (rc = opal_dss.unpack(&buf, vpids, &n, ORTE_VPID))) { ORTE_ERROR_LOG(rc); return rc; } /* transfer the data to the nidmap, counting the number of * daemons in the system */ num_daemons = 0; for (i=0; i < num_nodes; i++) { if (NULL != (ndptr = (orte_nid_t*)opal_pointer_array_get_item(&orte_nidmap, i))) { ndptr->daemon = vpids[i]; if (ORTE_VPID_INVALID != vpids[i]) { ++num_daemons; } } } free(vpids); /* if we are a daemon or the HNP, update our num_procs */ if (ORTE_PROC_IS_HNP || ORTE_PROC_IS_DAEMON) { orte_process_info.num_procs = num_daemons; } /* update num_daemons */ orte_process_info.num_daemons = num_daemons; /* unpack any attributes that may have been included */ n = 1; while (ORTE_SUCCESS == opal_dss.unpack(&buf, &boptr, &n, OPAL_BYTE_OBJECT)) { char *nodename, *attr, *tptr; opal_buffer_t bobuf; orte_attr_t *attrdata; /* setup to unpack the object */ OBJ_CONSTRUCT(&bobuf, opal_buffer_t); opal_dss.load(&bobuf, boptr->bytes, boptr->size); /* unpack the nodename */ n = 1; if (ORTE_SUCCESS != (rc = opal_dss.unpack(&bobuf, &nodename, &n, OPAL_STRING))) { ORTE_ERROR_LOG(rc); return rc; } /* find this node in nidmap */ for (i=0, ndptr=NULL; i < orte_nidmap.size; i++) { if (NULL == (nd = (orte_nid_t*)opal_pointer_array_get_item(&orte_nidmap, i))) { continue; } /* since we may not have kept fqdn hostnames, we can only check * for equality to the length of the name in the first field * of an fqdn name */ tptr = strchr(nodename, '.'); if (NULL != tptr) { *tptr = '\0'; } if (0 == strncmp(nd->name, nodename, strlen(nodename))) { ndptr = nd; break; } } free(nodename); /* done with this */ if (NULL == ndptr) { /* didn't find it! */ ORTE_ERROR_LOG(ORTE_ERR_NOT_FOUND); return ORTE_ERR_NOT_FOUND; } /* loop through the rest of the object to unpack the attr's themselves */ n = 1; while (ORTE_SUCCESS == opal_dss.unpack(&bobuf, &attr, &n, OPAL_STRING)) { attrdata = OBJ_NEW(orte_attr_t); attrdata->name = strdup(attr); /* read the number of bytes in the blob */ n = 1; if (ORTE_SUCCESS != (rc = opal_dss.unpack(&bobuf, &attrdata->size, &n, OPAL_INT32))) { ORTE_ERROR_LOG(rc); return rc; } /* unpack the bytes */ attrdata->bytes = (uint8_t *) malloc(attrdata->size); if (ORTE_SUCCESS != (rc = opal_dss.unpack(&bobuf, attrdata->bytes, &attrdata->size, OPAL_BYTE))) { ORTE_ERROR_LOG(rc); return rc; } /* add to our list for this node */ opal_list_append(&ndptr->attrs, &attrdata->super); } OBJ_DESTRUCT(&bobuf); n = 1; } if (0 < opal_output_get_verbosity(orte_debug_output)) { for (i=0; i < num_nodes; i++) { opal_list_item_t *item; orte_attr_t *attr; if (NULL == (nd = (orte_nid_t*)opal_pointer_array_get_item(&orte_nidmap, i))) { continue; } opal_output(0, "%s node[%d].name %s daemon %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), i, (NULL == nd->name) ? "NULL" : nd->name, ORTE_VPID_PRINT(nd->daemon)); for (item = opal_list_get_first(&nd->attrs); item != opal_list_get_end(&nd->attrs); item = opal_list_get_next(item)) { attr = (orte_attr_t*)item; opal_output(0, "\tAttribute: %s #bytes: %d", attr->name, attr->size); } } } OBJ_DESTRUCT(&buf); return ORTE_SUCCESS; } int orte_util_encode_pidmap(opal_byte_object_t *boptr) { orte_proc_t *proc; opal_buffer_t buf; orte_local_rank_t *lrank = NULL; orte_node_rank_t *nrank = NULL; orte_job_t *jdata = NULL; int32_t *nodes = NULL; int i, j, k, rc = ORTE_SUCCESS; /* setup the working buffer */ OBJ_CONSTRUCT(&buf, opal_buffer_t); for (j=1; j < orte_job_data->size; j++) { /* the job array is no longer left-justified and may * have holes in it as we recover resources at job * completion */ if (NULL == (jdata = (orte_job_t*)opal_pointer_array_get_item(orte_job_data, j))) { continue; } /* if this job doesn't have a map, then it is a tool * and doesn't need to be included */ if (NULL == jdata->map) { continue; } /* pack the jobid */ if (ORTE_SUCCESS != (rc = opal_dss.pack(&buf, &jdata->jobid, 1, ORTE_JOBID))) { ORTE_ERROR_LOG(rc); goto cleanup_and_return; } /* pack the number of procs */ if (ORTE_SUCCESS != (rc = opal_dss.pack(&buf, &jdata->num_procs, 1, ORTE_VPID))) { ORTE_ERROR_LOG(rc); goto cleanup_and_return; } /* allocate memory for the nodes, local ranks and node ranks */ nodes = (int32_t*)malloc(jdata->num_procs * sizeof(int32_t)); lrank = (orte_local_rank_t*)malloc(jdata->num_procs*sizeof(orte_local_rank_t)); nrank = (orte_node_rank_t*)malloc(jdata->num_procs*sizeof(orte_node_rank_t)); /* transfer and pack the node info in one pack */ for (i=0, k=0; i < jdata->procs->size; i++) { if (NULL == (proc = (orte_proc_t *) opal_pointer_array_get_item(jdata->procs, i))) { continue; } if( k >= (int)jdata->num_procs ) { orte_show_help("help-orte-runtime.txt", "orte_nidmap:too_many_nodes", true, jdata->num_procs); break; } nodes[k] = proc->node->index; lrank[k] = proc->local_rank; nrank[k] = proc->node_rank; ++k; } if (ORTE_SUCCESS != (rc = opal_dss.pack(&buf, nodes, jdata->num_procs, OPAL_INT32))) { ORTE_ERROR_LOG(rc); goto cleanup_and_return; } /* transfer and pack the local_ranks in one pack */ if (ORTE_SUCCESS != (rc = opal_dss.pack(&buf, lrank, jdata->num_procs, ORTE_LOCAL_RANK))) { ORTE_ERROR_LOG(rc); goto cleanup_and_return; } /* transfer and pack the node ranks in one pack */ if (ORTE_SUCCESS != (rc = opal_dss.pack(&buf, nrank, jdata->num_procs, ORTE_NODE_RANK))) { ORTE_ERROR_LOG(rc); goto cleanup_and_return; } } /* transfer the payload to the byte object */ opal_dss.unload(&buf, (void**)&boptr->bytes, &boptr->size); cleanup_and_return: if( NULL != lrank ) { free(lrank); } if( NULL != nrank ) { free(nrank); } if( NULL != nodes ) { free(nodes); } OBJ_DESTRUCT(&buf); return rc; } int orte_util_decode_pidmap(opal_byte_object_t *bo) { orte_jobid_t jobid; orte_vpid_t i, num_procs; orte_pmap_t *pmap; int32_t *nodes; orte_local_rank_t *local_rank; orte_node_rank_t *node_rank; orte_std_cntr_t n; opal_buffer_t buf; orte_jmap_t *jmap; bool already_present; int j; int rc; /* xfer the byte object to a buffer for unpacking */ OBJ_CONSTRUCT(&buf, opal_buffer_t); if (ORTE_SUCCESS != (rc = opal_dss.load(&buf, bo->bytes, bo->size))) { ORTE_ERROR_LOG(rc); goto cleanup; } n = 1; /* cycle through the buffer */ while (ORTE_SUCCESS == (rc = opal_dss.unpack(&buf, &jobid, &n, ORTE_JOBID))) { /* unfortunately, job objects cannot be stored * by index number as the jobid is a constructed * value. So we have no choice but to cycle through * the jobmap pointer array and look for this entry. Since * jobs are cleaned up as they complete, check the * entire array */ jmap = NULL; already_present = false; for (j=0; j < orte_jobmap.size; j++) { if (NULL == (jmap = (orte_jmap_t*)opal_pointer_array_get_item(&orte_jobmap, j))) { continue; } if (jobid == jmap->job) { already_present = true; break; } } /* unpack the number of procs */ n=1; if (ORTE_SUCCESS != (rc = opal_dss.unpack(&buf, &num_procs, &n, ORTE_VPID))) { ORTE_ERROR_LOG(rc); goto cleanup; } /* allocate memory for the node info */ nodes = (int32_t*)malloc(num_procs * 4); /* unpack it in one shot */ n=num_procs; if (ORTE_SUCCESS != (rc = opal_dss.unpack(&buf, nodes, &n, OPAL_INT32))) { ORTE_ERROR_LOG(rc); goto cleanup; } /* allocate memory for local ranks */ local_rank = (orte_local_rank_t*)malloc(num_procs*sizeof(orte_local_rank_t)); /* unpack them in one shot */ n=num_procs; if (ORTE_SUCCESS != (rc = opal_dss.unpack(&buf, local_rank, &n, ORTE_LOCAL_RANK))) { ORTE_ERROR_LOG(rc); goto cleanup; } /* allocate memory for node ranks */ node_rank = (orte_node_rank_t*)malloc(num_procs*sizeof(orte_node_rank_t)); /* unpack node ranks in one shot */ n=num_procs; if (ORTE_SUCCESS != (rc = opal_dss.unpack(&buf, node_rank, &n, ORTE_NODE_RANK))) { ORTE_ERROR_LOG(rc); goto cleanup; } /* if we already know about this job, we need to check the data to see * if something has changed - e.g., a proc that is being restarted somewhere * other than where it previously was */ if (already_present) { /* we already have the jmap object, so let's refresh its pidmap * using the new data - start by cleaning out the old array */ for (j=0; j < jmap->pmap.size; j++) { if (NULL == (pmap = (orte_pmap_t*)opal_pointer_array_get_item(&jmap->pmap, j))) { continue; } OBJ_RELEASE(pmap); } /* now use the opal function to reset the internal pointers */ opal_pointer_array_remove_all(&jmap->pmap); /* set the size of the storage so we minimize realloc's */ if (ORTE_SUCCESS != (rc = opal_pointer_array_set_size(&jmap->pmap, num_procs))) { ORTE_ERROR_LOG(rc); return rc; } /* add in the updated array */ for (i=0; i < num_procs; i++) { pmap = OBJ_NEW(orte_pmap_t); /* add the pidmap entry at the specific site corresponding * to the proc's vpid */ if (ORTE_SUCCESS != (rc = opal_pointer_array_set_item(&jmap->pmap, i, pmap))) { ORTE_ERROR_LOG(rc); goto cleanup; } /* add/update the data */ pmap->node = nodes[i]; pmap->local_rank = local_rank[i]; pmap->node_rank = node_rank[i]; } /* update the #procs */ jmap->num_procs = num_procs; } else { /* if we don't already have this data, store it * unfortunately, job objects cannot be stored * by index number as the jobid is a constructed * value. So we have to just add it to the end * of the array */ jmap = OBJ_NEW(orte_jmap_t); jmap->job = jobid; jmap->num_procs = num_procs; if (0 > (j = opal_pointer_array_add(&orte_jobmap, jmap))) { ORTE_ERROR_LOG(j); rc = j; goto cleanup; } /* allocate memory for the procs array */ opal_pointer_array_set_size(&jmap->pmap, num_procs); /* xfer the data */ for (i=0; i < num_procs; i++) { pmap = OBJ_NEW(orte_pmap_t); pmap->node = nodes[i]; pmap->local_rank = local_rank[i]; pmap->node_rank = node_rank[i]; /* add the pidmap entry at the specific site corresponding * to the proc's vpid */ if (ORTE_SUCCESS != (rc = opal_pointer_array_set_item(&jmap->pmap, i, pmap))) { ORTE_ERROR_LOG(rc); goto cleanup; } } } /* release data */ free(nodes); free(local_rank); free(node_rank); /* setup for next cycle */ n = 1; } if (ORTE_ERR_UNPACK_READ_PAST_END_OF_BUFFER == OPAL_SOS_GET_ERROR_CODE(rc)) { rc = ORTE_SUCCESS; } cleanup: OBJ_DESTRUCT(&buf); return rc; } /*** NIDMAP UTILITIES ***/ orte_jmap_t* orte_util_lookup_jmap(orte_jobid_t job) { int i; orte_jmap_t *jmap; /* unfortunately, job objects cannot be stored * by index number as the jobid is a constructed * value. So we have no choice but to cycle through * the jobmap pointer array and look for the entry * we want. We also cannot trust that the array is * left-justified as cleanup is done - and array * entries set to NULL - upon job completion. */ for (i=0; i < orte_jobmap.size; i++) { if (NULL == (jmap = (orte_jmap_t*)opal_pointer_array_get_item(&orte_jobmap, i))) { continue; } OPAL_OUTPUT_VERBOSE((10, orte_debug_output, "%s lookup:pmap: checking job %s for job %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), ORTE_JOBID_PRINT(jmap->job), ORTE_JOBID_PRINT(job))); if (job == jmap->job) { return jmap; } } /* if we didn't find it, return NULL */ return NULL; } orte_pmap_t* orte_util_lookup_pmap(orte_process_name_t *proc) { orte_jmap_t *jmap; if (NULL == (jmap = orte_util_lookup_jmap(proc->jobid))) { return NULL; } /* the get_item function will check the array index range, * so we can just access it here */ return (orte_pmap_t *) opal_pointer_array_get_item(&jmap->pmap, proc->vpid); } /* the daemon's vpid does not necessarily correlate * to the node's index in the node array since * some nodes may not have a daemon on them. Thus, * we have to search for the daemon in the array. * Fortunately, this is rarely done */ static orte_nid_t* find_daemon_node(orte_process_name_t *proc) { int32_t i; orte_nid_t *nid; for (i=0; i < orte_nidmap.size; i++) { if (NULL == (nid = (orte_nid_t*)opal_pointer_array_get_item(&orte_nidmap, i))) { continue; } OPAL_OUTPUT_VERBOSE((10, orte_debug_output, "%s find:daemon:node: checking daemon %s for %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), ORTE_VPID_PRINT(nid->daemon), ORTE_VPID_PRINT(proc->vpid))); if (nid->daemon == proc->vpid) { return nid; } } /* if we didn't find it, return NULL */ return NULL; } orte_nid_t* orte_util_lookup_nid(orte_process_name_t *proc) { orte_pmap_t *pmap; OPAL_OUTPUT_VERBOSE((5, orte_debug_output, "%s lookup:nid: looking for proc %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), ORTE_NAME_PRINT(proc))); if (ORTE_JOBID_IS_DAEMON(proc->jobid)) { /* looking for a daemon */ return find_daemon_node(proc); } /* looking for an application proc */ if (NULL == (pmap = orte_util_lookup_pmap(proc))) { return NULL; } /* the get_item function will check the array index range, * so we can just access it here */ return (orte_nid_t *) opal_pointer_array_get_item(&orte_nidmap, pmap->node); } void orte_nidmap_dump(void) { int i; orte_nid_t *nid; opal_list_item_t *item; orte_attr_t *attr; opal_output(orte_clean_output, "*** DUMP OF NIDMAP ***"); for (i=0; i < orte_nidmap.size; i++) { if (NULL == (nid = (orte_nid_t*)opal_pointer_array_get_item(&orte_nidmap, i))) { continue; } opal_output(orte_clean_output, "%s node[%d].name %s daemon %s", ORTE_NAME_PRINT(ORTE_PROC_MY_NAME), i, (NULL == nid->name) ? "NULL" : nid->name, ORTE_VPID_PRINT(nid->daemon)); for (item = opal_list_get_first(&nid->attrs); item != opal_list_get_end(&nid->attrs); item = opal_list_get_next(item)) { attr = (orte_attr_t*)item; opal_output(orte_clean_output, "\tAttribute: %s #bytes: %d", attr->name, attr->size); } } opal_output(orte_clean_output, "\n\n"); } void orte_jmap_dump(orte_jmap_t *jmap) { int i; orte_pmap_t *pmap; opal_output(orte_clean_output, "**** DUMP OF JOB %s (%s procs) ***", ORTE_JOBID_PRINT(jmap->job), ORTE_VPID_PRINT(jmap->num_procs)); for (i=0; i < jmap->pmap.size; i++) { if (NULL == (pmap = (orte_pmap_t*)opal_pointer_array_get_item(&jmap->pmap, i))) { continue; } opal_output(orte_clean_output, "\tnode %d local_rank %d node_rank %d", pmap->node, (int)pmap->local_rank, (int)pmap->node_rank); } opal_output(orte_clean_output, "\n"); } void orte_jobmap_dump(void) { int i; orte_jmap_t *jmap; opal_output(orte_clean_output, "*** DUMP OF JOBMAP ***"); for (i=0; i < orte_jobmap.size; i++) { if (NULL == (jmap = (orte_jmap_t*)opal_pointer_array_get_item(&orte_jobmap, i))) { continue; } orte_jmap_dump(jmap); } opal_output(orte_clean_output, "\n\n"); } void orte_util_encode_sysinfo(opal_buffer_t *buf, opal_list_t *info) { opal_sysinfo_value_t *sys; opal_list_item_t *item; uint8_t flag; for (item = opal_list_get_first(info); item != opal_list_get_end(info); item = opal_list_get_next(item)) { sys = (opal_sysinfo_value_t*)item; /* pack the key */ opal_dss.pack(buf, &sys->key, 1, OPAL_STRING); /* pack the value */ if (OPAL_STRING == sys->type) { flag = 0; opal_dss.pack(buf, &flag, 1, OPAL_UINT8); opal_dss.pack(buf, &sys->data.str, 1, OPAL_STRING); } else { flag = 1; opal_dss.pack(buf, &flag, 1, OPAL_UINT8); opal_dss.pack(buf, &sys->data.i64, 1, OPAL_INT64); } } } void orte_util_decode_sysinfo(opal_buffer_t *buf) { orte_nid_t *nid; int32_t n; char *key; opal_sysinfo_value_t *sys; uint8_t flag; /* get the nid of our local node */ if (NULL == (nid = orte_util_lookup_nid(ORTE_PROC_MY_NAME))) { /* can't get it */ return ; } /* if it already has sysinfo, then we are receiving * a repeat copy - so discard it */ if (0 < opal_list_get_size(&nid->sysinfo)) { return; } n=1; while (ORTE_SUCCESS == opal_dss.unpack(buf, &key, &n, OPAL_STRING)) { sys = OBJ_NEW(opal_sysinfo_value_t); sys->key = key; opal_dss.unpack(buf, &flag, &n, OPAL_UINT8); if (0 == flag) { sys->type = OPAL_STRING; opal_dss.unpack(buf, &sys->data.str, &n, OPAL_STRING); } else { sys->type = OPAL_INT64; opal_dss.unpack(buf, &sys->data.i64, &n, OPAL_INT64); } opal_list_append(&nid->sysinfo, &sys->super); } }