/* -*- Mode: C; c-basic-offset:4 ; indent-tabs-mode:nil -*- */ /* * Copyright (c) 2014-2018 Intel, Inc. All rights reserved. * Copyright (c) 2014-2016 Research Organization for Information Science * and Technology (RIST). All rights reserved. * Copyright (c) 2016 Cisco Systems, Inc. All rights reserved. * Copyright (c) 2017 Los Alamos National Security, LLC. All * rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "opal_config.h" #include "opal/constants.h" #include "opal/types.h" #include "opal_stdint.h" #include "opal/mca/hwloc/base/base.h" #include "opal/util/argv.h" #include "opal/util/opal_environ.h" #include "opal/util/output.h" #include "opal/util/proc.h" #include "opal/util/show_help.h" #include #include #include "opal/mca/pmix/base/base.h" #include "opal/mca/pmix/base/pmix_base_fns.h" #include "opal/mca/pmix/base/pmix_base_hash.h" #include "pmix_s1.h" static int s1_init(opal_list_t *ilist); static int s1_fini(void); static int s1_initialized(void); static int s1_abort(int flag, const char msg[], opal_list_t *procs); static int s1_commit(void); static int s1_fencenb(opal_list_t *procs, int collect_data, opal_pmix_op_cbfunc_t cbfunc, void *cbdata); static int s1_fence(opal_list_t *procs, int collect_data); static int s1_put(opal_pmix_scope_t scope, opal_value_t *kv); static int s1_get(const opal_process_name_t *id, const char *key, opal_list_t *info, opal_value_t **kv); static int s1_publish(opal_list_t *info); static int s1_lookup(opal_list_t *data, opal_list_t *info); static int s1_unpublish(char **keys, opal_list_t *info); static int s1_spawn(opal_list_t *jobinfo, opal_list_t *apps, opal_jobid_t *jobid); static int s1_job_connect(opal_list_t *procs); static int s1_job_disconnect(opal_list_t *procs); static int s1_store_local(const opal_process_name_t *proc, opal_value_t *val); static const char *s1_get_nspace(opal_jobid_t jobid); static void s1_register_jobid(opal_jobid_t jobid, const char *nspace); const opal_pmix_base_module_t opal_pmix_s1_module = { .init = s1_init, .finalize = s1_fini, .initialized = s1_initialized, .abort = s1_abort, .commit = s1_commit, .fence_nb = s1_fencenb, .fence = s1_fence, .put = s1_put, .get = s1_get, .publish = s1_publish, .lookup = s1_lookup, .unpublish = s1_unpublish, .spawn = s1_spawn, .connect = s1_job_connect, .disconnect = s1_job_disconnect, .register_evhandler = opal_pmix_base_register_handler, .deregister_evhandler = opal_pmix_base_deregister_handler, .store_local = s1_store_local, .get_nspace = s1_get_nspace, .register_jobid = s1_register_jobid }; // usage accounting static int pmix_init_count = 0; // local object typedef struct { opal_object_t super; opal_event_t ev; opal_pmix_op_cbfunc_t opcbfunc; void *cbdata; } pmi_opcaddy_t; static OBJ_CLASS_INSTANCE(pmi_opcaddy_t, opal_object_t, NULL, NULL); // PMI constant values: static int pmix_kvslen_max = 0; static int pmix_keylen_max = 0; static int pmix_vallen_max = 0; static int pmix_vallen_threshold = INT_MAX; // Job environment description static char *pmix_kvs_name = NULL; static bool s1_committed = false; static char* pmix_packed_data = NULL; static int pmix_packed_data_offset = 0; static char* pmix_packed_encoded_data = NULL; static int pmix_packed_encoded_data_offset = 0; static int pmix_pack_key = 0; static opal_process_name_t s1_pname; static int *lranks = NULL, nlranks; static bool got_modex_data = false; static char* pmix_error(int pmix_err); #define OPAL_PMI_ERROR(pmi_err, pmi_func) \ do { \ opal_output(0, "%s [%s:%d:%s]: %s\n", \ pmi_func, __FILE__, __LINE__, __func__, \ pmix_error(pmi_err)); \ } while(0); static int kvs_get(const char key[], char value [], int maxvalue) { int rc; rc = PMI_KVS_Get(pmix_kvs_name, key, value, maxvalue); if( PMI_SUCCESS != rc ){ /* silently return an error - might be okay */ return OPAL_ERROR; } return OPAL_SUCCESS; } static int kvs_put(const char key[], const char value[]) { int rc; rc = PMI_KVS_Put(pmix_kvs_name, key, value); if( PMI_SUCCESS != rc ){ OPAL_PMI_ERROR(rc, "PMI_KVS_Put"); return OPAL_ERROR; } return rc; } static int s1_init(opal_list_t *ilist) { PMI_BOOL initialized; int spawned; int rc, ret = OPAL_ERROR; int i, rank, lrank, nrank; char *pmix_id, tmp[64]; opal_value_t kv; char *str; uint32_t ui32; opal_process_name_t ldr; char **localranks=NULL; opal_process_name_t wildcard_rank; if (0 < pmix_init_count) { ++pmix_init_count; return OPAL_SUCCESS; } if (PMI_SUCCESS != (rc = PMI_Initialized(&initialized))) { OPAL_PMI_ERROR(rc, "PMI_Initialized"); return OPAL_ERROR; } if (PMI_TRUE != initialized && PMI_SUCCESS != (rc = PMI_Init(&spawned))) { OPAL_PMI_ERROR(rc, "PMI_Init"); return OPAL_ERROR; } // setup hash table opal_pmix_base_hash_init(); // Initialize space demands rc = PMI_KVS_Get_value_length_max(&pmix_vallen_max); if (PMI_SUCCESS != rc) { OPAL_PMI_ERROR(rc, "PMI_KVS_Get_value_length_max"); goto err_exit; } pmix_vallen_threshold = pmix_vallen_max * 3; pmix_vallen_threshold >>= 2; rc = PMI_KVS_Get_name_length_max(&pmix_kvslen_max); if (PMI_SUCCESS != rc) { OPAL_PMI_ERROR(rc, "PMI_KVS_Get_name_length_max"); goto err_exit; } rc = PMI_KVS_Get_key_length_max(&pmix_keylen_max); if (PMI_SUCCESS != rc) { OPAL_PMI_ERROR(rc, "PMI_KVS_Get_key_length_max"); goto err_exit; } // Initialize job environment information pmix_id = (char*)malloc(pmix_vallen_max); if (pmix_id == NULL) { ret = OPAL_ERR_OUT_OF_RESOURCE; goto err_exit; } /* Get domain id */ if (PMI_SUCCESS != (rc = PMI_Get_kvs_domain_id(pmix_id, pmix_vallen_max))) { free(pmix_id); goto err_exit; } /* get our rank */ ret = PMI_Get_rank(&rank); if( PMI_SUCCESS != ret ) { OPAL_PMI_ERROR(ret, "PMI_Get_rank"); free(pmix_id); goto err_exit; } /* Slurm PMI provides the job id as an integer followed * by a '.', followed by essentially a stepid. The first integer * defines an overall job number. The second integer is the number of * individual jobs we have run within that allocation. */ s1_pname.jobid = strtoul(pmix_id, &str, 10); s1_pname.jobid = (s1_pname.jobid << 16) & 0xffff0000; if (NULL != str) { ui32 = strtoul(str+1, NULL, 10); s1_pname.jobid |= (ui32 & 0x0000ffff); } ldr.jobid = s1_pname.jobid; s1_pname.vpid = rank; /* store our name in the opal_proc_t so that * debug messages will make sense - an upper * layer will eventually overwrite it, but that * won't do any harm */ opal_proc_set_name(&s1_pname); opal_output_verbose(2, opal_pmix_base_framework.framework_output, "%s pmix:s1: assigned tmp name", OPAL_NAME_PRINT(s1_pname)); /* setup wildcard rank*/ wildcard_rank = OPAL_PROC_MY_NAME; wildcard_rank.vpid = OPAL_VPID_WILDCARD; OBJ_CONSTRUCT(&kv, opal_value_t); kv.key = strdup(OPAL_PMIX_JOBID); kv.type = OPAL_UINT32; kv.data.uint32 = s1_pname.jobid; if (OPAL_SUCCESS != (ret = opal_pmix_base_store(&wildcard_rank, &kv))) { OPAL_ERROR_LOG(ret); OBJ_DESTRUCT(&kv); goto err_exit; } OBJ_DESTRUCT(&kv); /* save it */ OBJ_CONSTRUCT(&kv, opal_value_t); kv.key = strdup(OPAL_PMIX_RANK); kv.type = OPAL_UINT32; kv.data.uint32 = rank; if (OPAL_SUCCESS != (ret = opal_pmix_base_store(&OPAL_PROC_MY_NAME, &kv))) { OPAL_ERROR_LOG(ret); OBJ_DESTRUCT(&kv); goto err_exit; } OBJ_DESTRUCT(&kv); pmix_kvs_name = (char*)malloc(pmix_kvslen_max); if (pmix_kvs_name == NULL) { ret = OPAL_ERR_OUT_OF_RESOURCE; goto err_exit; } rc = PMI_KVS_Get_my_name(pmix_kvs_name, pmix_kvslen_max); if (PMI_SUCCESS != rc) { OPAL_PMI_ERROR(rc, "PMI_KVS_Get_my_name"); goto err_exit; } /* get our local proc info to find our local rank */ if (PMI_SUCCESS != (rc = PMI_Get_clique_size(&nlranks))) { OPAL_PMI_ERROR(rc, "PMI_Get_clique_size"); return rc; } /* save the local size */ OBJ_CONSTRUCT(&kv, opal_value_t); kv.key = strdup(OPAL_PMIX_LOCAL_SIZE); kv.type = OPAL_UINT32; kv.data.uint32 = nlranks; if (OPAL_SUCCESS != (ret = opal_pmix_base_store(&wildcard_rank, &kv))) { OPAL_ERROR_LOG(ret); OBJ_DESTRUCT(&kv); goto err_exit; } OBJ_DESTRUCT(&kv); lrank = 0; nrank = 0; ldr.vpid = rank; if (0 < nlranks) { /* now get the specific ranks */ lranks = (int*)calloc(nlranks, sizeof(int)); if (NULL == lranks) { rc = OPAL_ERR_OUT_OF_RESOURCE; OPAL_ERROR_LOG(rc); return rc; } if (PMI_SUCCESS != (rc = PMI_Get_clique_ranks(lranks, nlranks))) { OPAL_PMI_ERROR(rc, "PMI_Get_clique_ranks"); free(lranks); return rc; } /* note the local ldr */ ldr.vpid = lranks[0]; /* save this */ memset(tmp, 0, 64); for (i=0; i < nlranks; i++) { (void)snprintf(tmp, 64, "%d", lranks[i]); opal_argv_append_nosize(&localranks, tmp); if (rank == lranks[i]) { lrank = i; nrank = i; } } str = opal_argv_join(localranks, ','); opal_argv_free(localranks); OBJ_CONSTRUCT(&kv, opal_value_t); kv.key = strdup(OPAL_PMIX_LOCAL_PEERS); kv.type = OPAL_STRING; kv.data.string = str; if (OPAL_SUCCESS != (ret = opal_pmix_base_store(&wildcard_rank, &kv))) { OPAL_ERROR_LOG(ret); OBJ_DESTRUCT(&kv); goto err_exit; } OBJ_DESTRUCT(&kv); } /* save the local leader */ OBJ_CONSTRUCT(&kv, opal_value_t); kv.key = strdup(OPAL_PMIX_LOCALLDR); kv.type = OPAL_UINT64; kv.data.uint64 = *(uint64_t*)&ldr; if (OPAL_SUCCESS != (ret = opal_pmix_base_store(&wildcard_rank, &kv))) { OPAL_ERROR_LOG(ret); OBJ_DESTRUCT(&kv); goto err_exit; } OBJ_DESTRUCT(&kv); /* save our local rank */ OBJ_CONSTRUCT(&kv, opal_value_t); kv.key = strdup(OPAL_PMIX_LOCAL_RANK); kv.type = OPAL_UINT16; kv.data.uint16 = lrank; if (OPAL_SUCCESS != (ret = opal_pmix_base_store(&OPAL_PROC_MY_NAME, &kv))) { OPAL_ERROR_LOG(ret); OBJ_DESTRUCT(&kv); goto err_exit; } OBJ_DESTRUCT(&kv); /* and our node rank */ OBJ_CONSTRUCT(&kv, opal_value_t); kv.key = strdup(OPAL_PMIX_NODE_RANK); kv.type = OPAL_UINT16; kv.data.uint16 = nrank; if (OPAL_SUCCESS != (ret = opal_pmix_base_store(&OPAL_PROC_MY_NAME, &kv))) { OPAL_ERROR_LOG(ret); OBJ_DESTRUCT(&kv); goto err_exit; } OBJ_DESTRUCT(&kv); /* get universe size */ ret = PMI_Get_universe_size(&i); if (PMI_SUCCESS != ret) { OPAL_PMI_ERROR(ret, "PMI_Get_universe_size"); goto err_exit; } /* push this into the dstore for subsequent fetches */ OBJ_CONSTRUCT(&kv, opal_value_t); kv.key = strdup(OPAL_PMIX_UNIV_SIZE); kv.type = OPAL_UINT32; kv.data.uint32 = i; if (OPAL_SUCCESS != (ret = opal_pmix_base_store(&wildcard_rank, &kv))) { OPAL_ERROR_LOG(ret); OBJ_DESTRUCT(&kv); goto err_exit; } OBJ_DESTRUCT(&kv); /* push this into the dstore for subsequent fetches */ OBJ_CONSTRUCT(&kv, opal_value_t); kv.key = strdup(OPAL_PMIX_MAX_PROCS); kv.type = OPAL_UINT32; kv.data.uint32 = i; if (OPAL_SUCCESS != (ret = opal_pmix_base_store(&wildcard_rank, &kv))) { OPAL_ERROR_LOG(ret); OBJ_DESTRUCT(&kv); goto err_exit; } OBJ_DESTRUCT(&kv); /* get job size */ ret = PMI_Get_size(&i); if (PMI_SUCCESS != ret) { OPAL_PMI_ERROR(ret, "PMI_Get_size"); goto err_exit; } OBJ_CONSTRUCT(&kv, opal_value_t); kv.key = strdup(OPAL_PMIX_JOB_SIZE); kv.type = OPAL_UINT32; kv.data.uint32 = i; if (OPAL_SUCCESS != (ret = opal_pmix_base_store(&wildcard_rank, &kv))) { OPAL_ERROR_LOG(ret); OBJ_DESTRUCT(&kv); goto err_exit; } OBJ_DESTRUCT(&kv); /* get appnum */ ret = PMI_Get_appnum(&i); if (PMI_SUCCESS != ret) { OPAL_PMI_ERROR(ret, "PMI_Get_appnum"); goto err_exit; } OBJ_CONSTRUCT(&kv, opal_value_t); kv.key = strdup(OPAL_PMIX_APPNUM); kv.type = OPAL_UINT32; kv.data.uint32 = i; if (OPAL_SUCCESS != (ret = opal_pmix_base_store(&OPAL_PROC_MY_NAME, &kv))) { OPAL_ERROR_LOG(ret); OBJ_DESTRUCT(&kv); goto err_exit; } OBJ_DESTRUCT(&kv); /* increment the init count */ ++pmix_init_count; return OPAL_SUCCESS; err_exit: PMI_Finalize(); return ret; } static int s1_fini(void) { if (0 == pmix_init_count) { return OPAL_SUCCESS; } if (0 == --pmix_init_count) { PMI_Finalize (); // teardown hash table opal_pmix_base_hash_finalize(); } return OPAL_SUCCESS; } static int s1_initialized(void) { if (0 < pmix_init_count) { return 1; } return 0; } static int s1_abort(int flag, const char msg[], opal_list_t *procs) { PMI_Abort(flag, msg); return OPAL_SUCCESS; } static int s1_spawn(opal_list_t *jobinfo, opal_list_t *apps, opal_jobid_t *jobid) { /* int rc; size_t preput_vector_size; const int info_keyval_sizes[1]; info_keyval_sizes[0] = (int)opal_list_get_size(info_keyval_vector); //FIXME what's the size of array of lists? preput_vector_size = opal_list_get_size(preput_keyval_vector); rc = PMI_Spawn_multiple(count, cmds, argcs, argvs, maxprocs, info_keyval_sizes, info_keyval_vector, (int)preput_vector_size, preput_keyval_vector); if( PMI_SUCCESS != rc ) { OPAL_PMI_ERROR(rc, "PMI_Spawn_multiple"); return OPAL_ERROR; }*/ return OPAL_ERR_NOT_IMPLEMENTED; } static int s1_put(opal_pmix_scope_t scope, opal_value_t *kv) { int rc; opal_output_verbose(2, opal_pmix_base_framework.framework_output, "%s pmix:s1 put for key %s", OPAL_NAME_PRINT(OPAL_PROC_MY_NAME), kv->key); if (OPAL_SUCCESS != (rc = opal_pmix_base_store_encoded (kv->key, (void*)&kv->data, kv->type, &pmix_packed_data, &pmix_packed_data_offset))) { OPAL_ERROR_LOG(rc); return rc; } if (pmix_packed_data_offset == 0) { /* nothing to write */ return OPAL_SUCCESS; } if (((pmix_packed_data_offset/3)*4) + pmix_packed_encoded_data_offset < pmix_vallen_max) { /* this meta-key is still being filled, * nothing to put yet */ return OPAL_SUCCESS; } rc = opal_pmix_base_partial_commit_packed (&pmix_packed_data, &pmix_packed_data_offset, &pmix_packed_encoded_data, &pmix_packed_encoded_data_offset, pmix_vallen_max, &pmix_pack_key, kvs_put); s1_committed = false; return rc; } static int s1_commit(void) { int rc; /* check if there is partially filled meta key and put them */ opal_pmix_base_commit_packed (&pmix_packed_data, &pmix_packed_data_offset, &pmix_packed_encoded_data, &pmix_packed_encoded_data_offset, pmix_vallen_max, &pmix_pack_key, kvs_put); if (PMI_SUCCESS != (rc = PMI_KVS_Commit(pmix_kvs_name))) { OPAL_PMI_ERROR(rc, "PMI_KVS_Commit"); return OPAL_ERROR; } return OPAL_SUCCESS; } static void fencenb(int sd, short args, void *cbdata) { pmi_opcaddy_t *op = (pmi_opcaddy_t*)cbdata; int rc = OPAL_SUCCESS; int32_t i; opal_value_t *kp, kvn; opal_hwloc_locality_t locality; opal_process_name_t s1_pname; opal_output_verbose(2, opal_pmix_base_framework.framework_output, "%s pmix:s1 called fence", OPAL_NAME_PRINT(OPAL_PROC_MY_NAME)); /* use the PMI barrier function */ if (PMI_SUCCESS != (rc = PMI_Barrier())) { OPAL_PMI_ERROR(rc, "PMI_Barrier"); rc = OPAL_ERROR; goto cleanup; } opal_output_verbose(2, opal_pmix_base_framework.framework_output, "%s pmix:s1 barrier complete", OPAL_NAME_PRINT(OPAL_PROC_MY_NAME)); /* get the modex data from each local process and set the * localities to avoid having the MPI layer fetch data * for every process in the job */ s1_pname.jobid = OPAL_PROC_MY_NAME.jobid; if (!got_modex_data) { got_modex_data = true; /* we only need to set locality for each local rank as "not found" * equates to "non-local" */ for (i=0; i < nlranks; i++) { s1_pname.vpid = lranks[i]; rc = opal_pmix_base_cache_keys_locally(&s1_pname, OPAL_PMIX_CPUSET, &kp, pmix_kvs_name, pmix_vallen_max, kvs_get); if (OPAL_SUCCESS != rc) { OPAL_ERROR_LOG(rc); goto cleanup; } if (NULL == kp || NULL == kp->data.string) { /* if we share a node, but we don't know anything more, then * mark us as on the node as this is all we know */ locality = OPAL_PROC_ON_CLUSTER | OPAL_PROC_ON_CU | OPAL_PROC_ON_NODE; } else { /* determine relative location on our node */ locality = opal_hwloc_base_get_relative_locality(opal_hwloc_topology, opal_process_info.cpuset, kp->data.string); } if (NULL != kp) { OBJ_RELEASE(kp); } OPAL_OUTPUT_VERBOSE((1, opal_pmix_base_framework.framework_output, "%s pmix:s1 proc %s locality %s", OPAL_NAME_PRINT(OPAL_PROC_MY_NAME), OPAL_NAME_PRINT(s1_pname), opal_hwloc_base_print_locality(locality))); OBJ_CONSTRUCT(&kvn, opal_value_t); kvn.key = strdup(OPAL_PMIX_LOCALITY); kvn.type = OPAL_UINT16; kvn.data.uint16 = locality; opal_pmix_base_store(&s1_pname, &kvn); OBJ_DESTRUCT(&kvn); } } cleanup: if (NULL != op->opcbfunc) { op->opcbfunc(rc, op->cbdata); } OBJ_RELEASE(op); return; } static int s1_fencenb(opal_list_t *procs, int collect_data, opal_pmix_op_cbfunc_t cbfunc, void *cbdata) { pmi_opcaddy_t *op; /* thread-shift this so we don't block in SLURM's barrier */ op = OBJ_NEW(pmi_opcaddy_t); op->opcbfunc = cbfunc; op->cbdata = cbdata; event_assign(&op->ev, opal_pmix_base.evbase, -1, EV_WRITE, fencenb, op); event_active(&op->ev, EV_WRITE, 1); return OPAL_SUCCESS; } #define S1_WAIT_FOR_COMPLETION(a) \ do { \ while ((a)) { \ usleep(10); \ } \ } while (0) struct fence_result { volatile int flag; int status; }; static void fence_release(int status, void *cbdata) { struct fence_result *res = (struct fence_result*)cbdata; res->status = status; opal_atomic_wmb(); res->flag = 0; } static int s1_fence(opal_list_t *procs, int collect_data) { struct fence_result result = { 1, OPAL_SUCCESS }; s1_fencenb(procs, collect_data, fence_release, (void*)&result); S1_WAIT_FOR_COMPLETION(result.flag); return result.status; } static int s1_get(const opal_process_name_t *id, const char *key, opal_list_t *info, opal_value_t **kv) { int rc; opal_output_verbose(2, opal_pmix_base_framework.framework_output, "%s pmix:s1 called get for key %s", OPAL_NAME_PRINT(OPAL_PROC_MY_NAME), key); rc = opal_pmix_base_cache_keys_locally(id, key, kv, pmix_kvs_name, pmix_vallen_max, kvs_get); opal_output_verbose(2, opal_pmix_base_framework.framework_output, "%s pmix:s1 got key %s", OPAL_NAME_PRINT(OPAL_PROC_MY_NAME), key); return rc; } static int s1_publish(opal_list_t *info) { // SLURM PMIv1 doesn't implement this function return OPAL_ERR_NOT_SUPPORTED; } static int s1_lookup(opal_list_t *data, opal_list_t *info) { // Allocate mem for port here? Otherwise we won't get success! // SLURM PMIv1 doesn't implement this function return OPAL_ERR_NOT_SUPPORTED; } static int s1_unpublish(char **keys, opal_list_t *info) { // SLURM PMIv1 doesn't implement this function return OPAL_ERR_NOT_SUPPORTED; } static int s1_job_connect(opal_list_t *procs) { return OPAL_ERR_NOT_SUPPORTED; } static int s1_job_disconnect(opal_list_t *procs) { return OPAL_ERR_NOT_SUPPORTED; } static int s1_store_local(const opal_process_name_t *proc, opal_value_t *val) { opal_pmix_base_store(proc, val); return OPAL_SUCCESS; } static const char *s1_get_nspace(opal_jobid_t jobid) { return "N/A"; } static void s1_register_jobid(opal_jobid_t jobid, const char *nspace) { return; } static char* pmix_error(int pmix_err) { char * err_msg; switch(pmix_err) { case PMI_FAIL: err_msg = "Operation failed"; break; case PMI_ERR_INIT: err_msg = "PMI is not initialized"; break; case PMI_ERR_NOMEM: err_msg = "Input buffer not large enough"; break; case PMI_ERR_INVALID_ARG: err_msg = "Invalid argument"; break; case PMI_ERR_INVALID_KEY: err_msg = "Invalid key argument"; break; case PMI_ERR_INVALID_KEY_LENGTH: err_msg = "Invalid key length argument"; break; case PMI_ERR_INVALID_VAL: err_msg = "Invalid value argument"; break; case PMI_ERR_INVALID_VAL_LENGTH: err_msg = "Invalid value length argument"; break; case PMI_ERR_INVALID_LENGTH: err_msg = "Invalid length argument"; break; case PMI_ERR_INVALID_NUM_ARGS: err_msg = "Invalid number of arguments"; break; case PMI_ERR_INVALID_ARGS: err_msg = "Invalid args argument"; break; case PMI_ERR_INVALID_NUM_PARSED: err_msg = "Invalid num_parsed length argument"; break; case PMI_ERR_INVALID_KEYVALP: err_msg = "Invalid keyvalp argument"; break; case PMI_ERR_INVALID_SIZE: err_msg = "Invalid size argument"; break; #if defined(PMI_ERR_INVALID_KVS) /* pmix.h calls this a valid return code but mpich doesn't define it (slurm does). */ case PMI_ERR_INVALID_KVS: err_msg = "Invalid kvs argument"; break; #endif case PMI_SUCCESS: err_msg = "Success"; break; default: err_msg = "Unkown error"; } return err_msg; }