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/*
* 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) 2013-2019 Intel, Inc. All rights reserved.
* Copyright (c) 2015 Mellanox Technologies, Inc. All rights reserved.
* Copyright (c) 2021-2025 Nanook Consulting All rights reserved.
* $COPYRIGHT$
*
* Additional copyrights may follow
*
* $HEADER$
*
*/
#define _GNU_SOURCE
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include <unistd.h>
#include "examples.h"
#include <pmix.h>
static pmix_proc_t myproc;
/* this is the event notification function we pass down below
* when registering for general events - i.e.,, the default
* handler. We don't technically need to register one, but it
* is usually good practice to catch any events that occur */
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)
{
if (NULL != cbfunc) {
cbfunc(PMIX_EVENT_ACTION_COMPLETE, NULL, 0, NULL, NULL, cbdata);
}
}
/* event handler registration is done asynchronously because it
* may involve the PMIx server registering with the host RM for
* external events. So we provide a callback function that returns
* the status of the request (success or an error), plus a numerical index
* to the registered event. The index is used later on to deregister
* an event handler - if we don't explicitly deregister it, then the
* PMIx server will do so when it see us exit */
static void evhandler_reg_callbk(pmix_status_t status, size_t evhandler_ref, void *cbdata)
{
mylock_t *lock = (mylock_t *) cbdata;
if (PMIX_SUCCESS != status) {
fprintf(stderr, "Client %s:%d EVENT HANDLER REGISTRATION FAILED WITH STATUS %d, ref=%lu\n",
myproc.nspace, myproc.rank, status, (unsigned long) evhandler_ref);
}
lock->status = status;
lock->evhandler_ref = evhandler_ref;
DEBUG_WAKEUP_THREAD(lock);
}
int main(int argc, char **argv)
{
pmix_status_t rc;
pmix_value_t value;
pmix_value_t *val, *vptr;
pmix_proc_t proc;
uint32_t nprocs, n, k;
pmix_info_t *info;
bool flag;
mylock_t mylock;
pmix_data_array_t da, *dptr;
size_t q;
pmix_device_distance_t *dist;
/* init us - note that the call to "init" includes the return of
* any job-related info provided by the RM. This includes any
* debugger flag instructing us to stop-in-init. If such a directive
* is included, then the process will be stopped in this call until
* the "debugger release" notification arrives */
if (PMIX_SUCCESS != (rc = PMIx_Init(&myproc, NULL, 0))) {
fprintf(stderr, "Client ns %s rank %d: PMIx_Init failed: %d\n", myproc.nspace, myproc.rank,
rc);
exit(0);
}
fprintf(stderr, "Client ns %s rank %d: Running\n", myproc.nspace, myproc.rank);
/* register our default event handler - again, this isn't strictly
* required, but is generally good practice */
DEBUG_CONSTRUCT_LOCK(&mylock);
PMIx_Register_event_handler(NULL, 0, NULL, 0, notification_fn, evhandler_reg_callbk,
(void *) &mylock);
DEBUG_WAIT_THREAD(&mylock);
rc = mylock.status;
DEBUG_DESTRUCT_LOCK(&mylock);
if (PMIX_SUCCESS != rc) {
fprintf(stderr, "[%s:%d] Default handler registration failed\n", myproc.nspace,
myproc.rank);
goto done;
}
/* job-related info is found in our nspace, assigned to the
* wildcard rank as it doesn't relate to a specific rank. Setup
* a name to retrieve such values */
PMIX_PROC_CONSTRUCT(&proc);
(void) strncpy(proc.nspace, myproc.nspace, PMIX_MAX_NSLEN);
proc.rank = PMIX_RANK_WILDCARD;
/* get our job size */
if (PMIX_SUCCESS != (rc = PMIx_Get(&proc, PMIX_JOB_SIZE, NULL, 0, &val))) {
fprintf(stderr, "Client ns %s rank %d: PMIx_Get universe size failed: %d\n", myproc.nspace,
myproc.rank, rc);
goto done;
}
nprocs = val->data.uint32;
PMIX_VALUE_RELEASE(val);
fprintf(stderr, "Client %s:%d job size %d\n", myproc.nspace, myproc.rank, nprocs);
#ifdef PMIX_GPU_SUPPORT
/* see if we were given a GPU directive */
rc = PMIx_Get(&proc, PMIX_GPU_SUPPORT, NULL, 0, &val);
if (PMIX_SUCCESS == rc) {
fprintf(stderr, "%s:%d GPU support: %s\n", myproc.nspace, myproc.rank, val->data.flag ? "ENABLED" : "DISABLED");
} else {
fprintf(stderr, "%s:%d GPU support: NOT GIVEN\n", myproc.nspace, myproc.rank);
}
#endif
/* put a data array of pmix_value's */
val = (pmix_value_t *) malloc(32 * sizeof(pmix_value_t));
for (n = 0; n < 32; n++) {
val[n].type = PMIX_UINT64;
val[n].data.uint64 = 2 * n;
}
da.type = PMIX_VALUE;
da.size = 32;
da.array = val;
value.type = PMIX_DATA_ARRAY;
value.data.darray = &da;
rc = PMIx_Put(PMIX_GLOBAL, "test-key", &value);
if (PMIX_SUCCESS != rc) {
fprintf(stderr, "Client ns %s rank %d: PMIx_Put failed: %d\n", myproc.nspace, myproc.rank,
rc);
goto done;
}
free(val);
/* push the data to our PMIx server */
if (PMIX_SUCCESS != (rc = PMIx_Commit())) {
fprintf(stderr, "Client ns %s rank %d: PMIx_Commit failed: %d\n", myproc.nspace,
myproc.rank, rc);
goto done;
}
/* call fence to synchronize with our peers - instruct
* the fence operation to collect and return all "put"
* data from our peers */
PMIX_INFO_CREATE(info, 1);
flag = true;
PMIX_INFO_LOAD(info, PMIX_COLLECT_DATA, &flag, PMIX_BOOL);
if (PMIX_SUCCESS != (rc = PMIx_Fence(&proc, 1, info, 1))) {
fprintf(stderr, "Client ns %s rank %d: PMIx_Fence failed: %d\n", myproc.nspace, myproc.rank,
rc);
goto done;
}
PMIX_INFO_FREE(info, 1);
PMIX_INFO_CREATE(info, 1);
PMIX_INFO_LOAD(info, PMIX_IMMEDIATE, NULL, PMIX_BOOL);
/* check the returned data */
for (n = 0; n < nprocs; n++) {
proc.rank = n;
if (PMIX_SUCCESS != (rc = PMIx_Get(&proc, "test-key", info, 1, &val))) {
fprintf(stderr, "Client ns %s rank %d: PMIx_Get on rank %u failed: %d\n", myproc.nspace,
myproc.rank, proc.rank, rc);
goto done;
}
if (PMIX_DATA_ARRAY != val->type) {
fprintf(stderr, "Client ns %s rank %d: PMIx_Get on rank %u returned wrong type: %d\n",
myproc.nspace, myproc.rank, proc.rank, val->type);
PMIX_VALUE_RELEASE(val);
goto done;
}
dptr = val->data.darray;
if (NULL == dptr) {
fprintf(stderr, "Client ns %s rank %d: PMIx_Get %d returned NULL array\n",
myproc.nspace, myproc.rank, proc.rank);
PMIX_VALUE_RELEASE(val);
goto done;
}
if (PMIX_VALUE != dptr->type) {
fprintf(stderr,
"Client ns %s rank %d: PMIx_Get %d returned wrong array value type %d\n",
myproc.nspace, myproc.rank, proc.rank, dptr->type);
PMIX_VALUE_RELEASE(val);
goto done;
}
if (32 != dptr->size) {
fprintf(stderr,
"Client ns %s rank %d: PMIx_Get %d returned wrong array value size %d\n",
myproc.nspace, myproc.rank, proc.rank, (int) dptr->size);
PMIX_VALUE_RELEASE(val);
goto done;
}
vptr = (pmix_value_t *) dptr->array;
for (k = 0; k < 32; k++) {
if (PMIX_UINT64 != vptr[k].type) {
fprintf(stderr, "Client ns %s rank %d: PMIx_Get %d returned wrong type: %d\n",
myproc.nspace, myproc.rank, proc.rank, vptr[k].type);
PMIX_VALUE_RELEASE(val);
goto done;
}
if (2 * k != vptr[k].data.uint64) {
fprintf(stderr, "Client ns %s rank %d: PMIx_Get %d returned wrong value: %lu\n",
myproc.nspace, myproc.rank, proc.rank, (unsigned long) vptr[k].data.uint64);
PMIX_VALUE_RELEASE(val);
goto done;
}
}
PMIX_VALUE_RELEASE(val);
}
/* get our device distances, if available */
rc = PMIx_Get(&myproc, PMIX_DEVICE_DISTANCES, NULL, 0, &val);
if (PMIX_SUCCESS != rc) {
fprintf(stderr, "Client ns %s rank %d: PMIx_Get for device distances failed: %s\n", myproc.nspace,
myproc.rank, PMIx_Error_string(rc));
goto done;
}
if (PMIX_DATA_ARRAY != val->type) {
fprintf(stderr, "Client ns %s rank %d: PMIx_Get device distances returned wrong type: %s\n",
myproc.nspace, myproc.rank, PMIx_Data_type_string(val->type));
PMIX_VALUE_RELEASE(val);
goto done;
}
dptr = val->data.darray;
if (NULL == dptr) {
fprintf(stderr, "Client ns %s rank %d: PMIx_Get device distances returned NULL array\n",
myproc.nspace, myproc.rank);
PMIX_VALUE_RELEASE(val);
goto done;
}
if (PMIX_DEVICE_DIST != dptr->type) {
fprintf(stderr,
"Client ns %s rank %d: PMIx_Get device distances returned wrong array value type %s\n",
myproc.nspace, myproc.rank, PMIx_Data_type_string(dptr->type));
PMIX_VALUE_RELEASE(val);
goto done;
}
fprintf(stderr,
"Client ns %s rank %d: PMIx_Get device distances succeeded\n",
myproc.nspace, myproc.rank);
dist = (pmix_device_distance_t*)dptr->array;
for (q=0; q < dptr->size; q++) {
fprintf(stderr, "UUID: %s OSNAME: %s TYPE: %s MIND: %u MAXD: %u\n",
dist[q].uuid, dist[q].osname,
PMIx_Device_type_string(dist[q].type),
dist[q].mindist, dist[q].maxdist);
}
done:
/* finalize us */
fprintf(stderr, "Client ns %s rank %d: Finalizing\n", myproc.nspace, myproc.rank);
if (PMIX_SUCCESS != (rc = PMIx_Finalize(NULL, 0))) {
fprintf(stderr, "Client ns %s rank %d:PMIx_Finalize failed: %d\n", myproc.nspace,
myproc.rank, rc);
} else {
fprintf(stderr, "Client ns %s rank %d:PMIx_Finalize successfully completed\n",
myproc.nspace, myproc.rank);
}
fflush(stderr);
return (0);
}
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