/* * Copyright (c) 2004-2010 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2011 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 (c) 2006-2013 Los Alamos National Security, LLC. * All rights reserved. * Copyright (c) 2009-2012 Cisco Systems, Inc. All rights reserved. * Copyright (c) 2011 Oak Ridge National Labs. All rights reserved. * Copyright (c) 2013-2020 Intel, Inc. All rights reserved. * Copyright (c) 2015 Mellanox Technologies, Inc. All rights reserved. * Copyright (c) 2021-2022 Nanook Consulting All rights reserved. * Copyright (c) 2024 Triad National Security, LLC. All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ * */ /****** FUNCTIONS TESTED ****/ /* * PMIx_Init * PMIx_Get * PMIx_Register_event_handler * PMIx_Store_internal * PMIx_Put * PMIx_Commit * PMIx_Fence * PMIx_Finalize */ #include "src/include/pmix_config.h" #include "include/pmix.h" #include #include #include #include #include "src/class/pmix_object.h" #include "src/include/pmix_globals.h" #include "src/util/pmix_argv.h" #include "src/util/pmix_output.h" #include "src/util/pmix_printf.h" #define MAXCNT 1 static volatile bool completed = false; static pmix_proc_t myproc; static void notification_fn(size_t evhdlr_registration_id, pmix_status_t status, const pmix_proc_t *source, pmix_info_t info[], size_t ninfo, pmix_info_t results[], size_t nresults, pmix_event_notification_cbfunc_fn_t cbfunc, void *cbdata) { PMIX_HIDE_UNUSED_PARAMS(evhdlr_registration_id, status, source, info, ninfo, results, nresults); if (NULL != cbfunc) { cbfunc(PMIX_SUCCESS, NULL, 0, NULL, NULL, cbdata); } completed = true; } static void errhandler_reg_callbk(pmix_status_t status, size_t errhandler_ref, void *cbdata) { volatile bool *active = (volatile bool *) cbdata; PMIX_HIDE_UNUSED_PARAMS(status, errhandler_ref); *active = false; } /* this is an event notification function that we explicitly request * be called when the PMIX_MODEL_DECLARED notification is issued. * We could catch it in the general event notification function and test * the status to see if the status matched, but it often is simpler * to declare a use-specific notification callback point. In this case, * we are asking to know whenever a model is declared as a means * of testing server self-notification */ static void model_callback(size_t evhdlr_registration_id, pmix_status_t status, const pmix_proc_t *source, pmix_info_t info[], size_t ninfo, pmix_info_t results[], size_t nresults, pmix_event_notification_cbfunc_fn_t cbfunc, void *cbdata) { PMIX_HIDE_UNUSED_PARAMS(evhdlr_registration_id, status, source, info, ninfo, results, nresults); /* we must NOT tell the event handler state machine that we * are the last step as that will prevent it from notifying * anyone else that might be listening for declarations */ if (NULL != cbfunc) { cbfunc(PMIX_SUCCESS, NULL, 0, NULL, NULL, cbdata); } } /* event handler registration is done asynchronously */ static void model_registration_callback(pmix_status_t status, size_t evhandler_ref, void *cbdata) { volatile int *active = (volatile int *) cbdata; PMIX_HIDE_UNUSED_PARAMS(status, evhandler_ref); *active = false; } int main(int argc, char **argv) { int rc; pmix_value_t value; pmix_value_t *val = &value; char *tmp; pmix_proc_t proc; uint32_t nprocs, n, k, nlocal; int cnt, j; volatile bool active; pmix_info_t *iptr; size_t ninfo; pmix_status_t code; char **peers; bool all_local, local; pmix_rank_t *locals = NULL; PMIX_HIDE_UNUSED_PARAMS(argc, argv); /* init us and declare we are a test programming model */ PMIX_INFO_CREATE(iptr, 2); PMIX_INFO_LOAD(&iptr[0], PMIX_PROGRAMMING_MODEL, "TEST", PMIX_STRING); PMIX_INFO_LOAD(&iptr[1], PMIX_MODEL_LIBRARY_NAME, "PMIX", PMIX_STRING); if (PMIX_SUCCESS != (rc = PMIx_Init(&myproc, iptr, 2))) { pmix_output(0, "Client ns %s rank %d: PMIx_Init failed: %s", myproc.nspace, myproc.rank, PMIx_Error_string(rc)); exit(rc); } PMIX_INFO_FREE(iptr, 2); /* test something */ pmix_strncpy(proc.nspace, myproc.nspace, PMIX_MAX_NSLEN); proc.rank = PMIX_RANK_WILDCARD; if (PMIX_SUCCESS != (rc = PMIx_Get(&proc, PMIX_JOB_SIZE, NULL, 0, &val))) { pmix_output(0, "Client ns %s rank %d: PMIx_Get failed: %s", myproc.nspace, myproc.rank, PMIx_Error_string(rc)); exit(rc); } PMIX_VALUE_RELEASE(val); /* register a handler specifically for when models declare */ active = true; ninfo = 1; PMIX_INFO_CREATE(iptr, ninfo); PMIX_INFO_LOAD(&iptr[0], PMIX_EVENT_HDLR_NAME, "SIMPCLIENT-MODEL", PMIX_STRING); code = PMIX_MODEL_DECLARED; PMIx_Register_event_handler(&code, 1, iptr, ninfo, model_callback, model_registration_callback, (void *) &active); while (active) { usleep(10); } PMIX_INFO_FREE(iptr, ninfo); /* register our errhandler */ active = true; PMIx_Register_event_handler(NULL, 0, NULL, 0, notification_fn, errhandler_reg_callbk, (void *) &active); while (active) { usleep(10); } /* get our job size */ pmix_strncpy(proc.nspace, myproc.nspace, PMIX_MAX_NSLEN); proc.rank = PMIX_RANK_WILDCARD; if (PMIX_SUCCESS != (rc = PMIx_Get(&proc, PMIX_JOB_SIZE, NULL, 0, &val))) { pmix_output(0, "Client ns %s rank %d: PMIx_Get job size failed: %s", myproc.nspace, myproc.rank, PMIx_Error_string(rc)); goto done; } nprocs = val->data.uint32; PMIX_VALUE_RELEASE(val); /* put a few values */ if (0 > asprintf(&tmp, "%s-%d-internal", myproc.nspace, myproc.rank)) { errno = ENOMEM; abort(); } value.type = PMIX_UINT32; value.data.uint32 = 1234; if (PMIX_SUCCESS != (rc = PMIx_Store_internal(&myproc, tmp, &value))) { pmix_output(0, "Client ns %s rank %d: PMIx_Store_internal failed: %s", myproc.nspace, myproc.rank, PMIx_Error_string(rc)); goto done; } /* get a list of our local peers */ if (PMIX_SUCCESS != (rc = PMIx_Get(&proc, PMIX_LOCAL_PEERS, NULL, 0, &val))) { pmix_output(0, "Client ns %s rank %d: PMIx_Get local peers failed: %s", myproc.nspace, myproc.rank, PMIx_Error_string(rc)); goto done; } /* split the returned string to get the rank of each local peer */ peers = PMIx_Argv_split(val->data.string, ','); PMIX_VALUE_RELEASE(val); nlocal = PMIx_Argv_count(peers); if (nprocs == nlocal) { all_local = true; } else { all_local = false; locals = (pmix_rank_t *) malloc(PMIx_Argv_count(peers) * sizeof(pmix_rank_t)); for (cnt = 0; NULL != peers[cnt]; cnt++) { locals[cnt] = strtoul(peers[cnt], NULL, 10); } } PMIx_Argv_free(peers); for (cnt = 0; cnt < MAXCNT; cnt++) { if (0 > asprintf(&tmp, "%s-%d-local-%d", myproc.nspace, myproc.rank, cnt)) { errno = ENOMEM; abort(); } value.type = PMIX_UINT64; value.data.uint64 = 1234; if (PMIX_SUCCESS != (rc = PMIx_Put(PMIX_LOCAL, tmp, &value))) { pmix_output(0, "Client ns %s rank %d: PMIx_Put internal failed: %s", myproc.nspace, myproc.rank, PMIx_Error_string(rc)); goto done; } if (0 > asprintf(&tmp, "%s-%d-remote-%d", myproc.nspace, myproc.rank, cnt)) { errno = ENOMEM; abort(); } value.type = PMIX_STRING; value.data.string = "1234"; if (PMIX_SUCCESS != (rc = PMIx_Put(PMIX_REMOTE, tmp, &value))) { pmix_output(0, "Client ns %s rank %d: PMIx_Put internal failed: %s", myproc.nspace, myproc.rank, PMIx_Error_string(rc)); goto done; } if (PMIX_SUCCESS != (rc = PMIx_Commit())) { pmix_output(0, "Client ns %s rank %d cnt %d: PMIx_Commit failed: %s", myproc.nspace, myproc.rank, cnt, PMIx_Error_string(rc)); goto done; } /* call fence to ensure the data is received */ PMIX_PROC_CONSTRUCT(&proc); pmix_strncpy(proc.nspace, myproc.nspace, PMIX_MAX_NSLEN); proc.rank = PMIX_RANK_WILDCARD; if (PMIX_SUCCESS != (rc = PMIx_Fence(&proc, 1, NULL, 0))) { pmix_output(0, "Client ns %s rank %d cnt %d: PMIx_Fence failed: %s", myproc.nspace, myproc.rank, cnt, PMIx_Error_string(rc)); goto done; } /* check the returned data */ pmix_strncpy(proc.nspace, myproc.nspace, PMIX_MAX_NSLEN); for (j = 0; j <= cnt; j++) { for (n = 0; n < nprocs; n++) { proc.rank = n; if (all_local) { local = true; } else { local = false; /* see if this proc is local to us */ for (k = 0; k < nlocal; k++) { if (proc.rank == locals[k]) { local = true; break; } } } if (local) { if (0 > asprintf(&tmp, "%s-%d-local-%d", myproc.nspace, n, j)) { errno = ENOMEM; abort(); } if (PMIX_SUCCESS != (rc = PMIx_Get(&proc, tmp, NULL, 0, &val))) { pmix_output(0, "Client ns %s rank %d cnt %d: PMIx_Get %s failed: %s", myproc.nspace, myproc.rank, j, tmp, PMIx_Error_string(rc)); continue; } if (NULL == val) { pmix_output(0, "Client ns %s rank %d: NULL value returned", myproc.nspace, myproc.rank); break; } if (PMIX_UINT64 != val->type) { pmix_output( 0, "Client ns %s rank %d cnt %d: PMIx_Get %s returned wrong type: %d", myproc.nspace, myproc.rank, j, tmp, val->type); PMIX_VALUE_RELEASE(val); free(tmp); continue; } if (1234 != val->data.uint64) { pmix_output( 0, "Client ns %s rank %d cnt %d: PMIx_Get %s returned wrong value: %d", myproc.nspace, myproc.rank, j, tmp, (int) val->data.uint64); PMIX_VALUE_RELEASE(val); free(tmp); continue; } PMIX_VALUE_RELEASE(val); free(tmp); /* now check that we don't get data for a remote proc - note that we * always can get our own remote data as we published it */ if (proc.rank != myproc.rank) { if (0 > asprintf(&tmp, "%s-%d-remote-%d", proc.nspace, n, j)) { errno = ENOMEM; abort(); } if (PMIX_SUCCESS == (rc = PMIx_Get(&proc, tmp, NULL, 0, &val))) { /* this data should _not_ be found as we are on the same node * and the data was "put" with a PMIX_REMOTE scope */ pmix_output(0, "ERROR: Client ns %s rank %d cnt %d: PMIx_Get %s returned " "remote data for a local proc", myproc.nspace, myproc.rank, j, tmp); } PMIX_VALUE_RELEASE(val); free(tmp); } } else { if (0 > asprintf(&tmp, "%s-%d-remote-%d", proc.nspace, n, j)) { errno = ENOMEM; abort(); } if (PMIX_SUCCESS != (rc = PMIx_Get(&proc, tmp, NULL, 0, &val))) { pmix_output( 0, "Client ns %s rank %d cnt %d: PMIx_Get %s failed for remote proc", myproc.nspace, myproc.rank, j, tmp); } if (NULL != val) { PMIX_VALUE_RELEASE(val); } free(tmp); } } } } /* now get the data blob for myself */ if (PMIX_SUCCESS == (rc = PMIx_Get(&myproc, NULL, NULL, 0, &val))) { if (PMIX_DATA_ARRAY != val->type) { pmix_output(0, "Client ns %s rank %d did not return an array for its internal modex blob", myproc.nspace, myproc.rank); PMIX_VALUE_RELEASE(val); } else if (PMIX_INFO != val->data.darray->type) { pmix_output(0, "Client ns %s rank %d returned an internal modex array of type %s instead " "of PMIX_INFO", myproc.nspace, myproc.rank, PMIx_Data_type_string(val->data.darray->type)); PMIX_VALUE_RELEASE(val); } else if (0 == val->data.darray->size) { pmix_output(0, "Client ns %s rank %d returned an internal modex array of zero length", myproc.nspace, myproc.rank); PMIX_VALUE_RELEASE(val); } else { PMIX_VALUE_RELEASE(val); } } else { pmix_output(0, "Client ns %s rank %d internal modex blob FAILED with error %s(%d)", myproc.nspace, myproc.rank, PMIx_Error_string(rc), rc); } done: /* finalize us */ if (PMIX_SUCCESS != (rc = PMIx_Finalize(NULL, 0))) { fprintf(stderr, "Client ns %s rank %d:PMIx_Finalize failed: %s\n", myproc.nspace, myproc.rank, PMIx_Error_string(rc)); } fflush(stderr); return (rc); }