/* * Copyright (c) 2004-2006 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) 2004-2006 High Performance Computing Center Stuttgart, * University of Stuttgart. All rights reserved. * Copyright (c) 2004-2006 The Regents of the University of California. * All rights reserved. * Copyright (c) 2006-2007 Cisco Systems, Inc. All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "ompi_config.h" #include #include "opal/threads/mutex.h" #include "orte/util/show_help.h" #include "opal/util/arch.h" #include "opal/dss/dss.h" #include "orte/mca/errmgr/errmgr.h" #include "orte/mca/ess/ess.h" #include "orte/util/proc_info.h" #include "orte/util/name_fns.h" #include "orte/runtime/orte_globals.h" #include "ompi/proc/proc.h" #include "ompi/mca/pml/pml.h" #include "ompi/datatype/convertor.h" #include "ompi/runtime/params.h" #include "ompi/runtime/mpiruntime.h" #include "ompi/runtime/ompi_module_exchange.h" static opal_list_t ompi_proc_list; static opal_mutex_t ompi_proc_lock; ompi_proc_t* ompi_proc_local_proc = NULL; static void ompi_proc_construct(ompi_proc_t* proc); static void ompi_proc_destruct(ompi_proc_t* proc); OBJ_CLASS_INSTANCE( ompi_proc_t, opal_list_item_t, ompi_proc_construct, ompi_proc_destruct ); void ompi_proc_construct(ompi_proc_t* proc) { proc->proc_bml = NULL; proc->proc_pml = NULL; OBJ_CONSTRUCT(&proc->proc_lock, opal_mutex_t); /* By default all processors are supposedly having the same architecture as me. Thus, * by default we run in a homogeneous environment. Later, when the RTE can tell us * the arch of the remote nodes, we will have to set the convertors to the correct * architecture. */ proc->proc_arch = orte_process_info.arch; proc->proc_convertor = ompi_mpi_local_convertor; OBJ_RETAIN( ompi_mpi_local_convertor ); proc->proc_flags = 0; /* initialize this pointer to NULL */ proc->proc_hostname = NULL; } void ompi_proc_destruct(ompi_proc_t* proc) { /* As all the convertors are created with OBJ_NEW we can just call OBJ_RELEASE. All, except * the local convertor, will get destroyed at some point here. If the reference count is correct * the local convertor (who has the reference count increased in the datatype) will not get * destroyed here. It will be destroyed later when the ompi_ddt_finalize is called. */ OBJ_RELEASE( proc->proc_convertor ); /* DO NOT FREE THE HOSTNAME FIELD AS THIS POINTS * TO AN AREA ALLOCATED/FREE'D ELSEWHERE */ OPAL_THREAD_LOCK(&ompi_proc_lock); opal_list_remove_item(&ompi_proc_list, (opal_list_item_t*)proc); OPAL_THREAD_UNLOCK(&ompi_proc_lock); OBJ_DESTRUCT(&proc->proc_lock); } int ompi_proc_init(void) { orte_vpid_t i; OBJ_CONSTRUCT(&ompi_proc_list, opal_list_t); OBJ_CONSTRUCT(&ompi_proc_lock, opal_mutex_t); /* create proc structures and find self */ for( i = 0; i < orte_process_info.num_procs; i++ ) { ompi_proc_t *proc = OBJ_NEW(ompi_proc_t); opal_list_append(&ompi_proc_list, (opal_list_item_t*)proc); proc->proc_name.jobid = ORTE_PROC_MY_NAME->jobid; proc->proc_name.vpid = i; if (i == ORTE_PROC_MY_NAME->vpid) { ompi_proc_local_proc = proc; proc->proc_flags |= OMPI_PROC_FLAG_LOCAL; proc->proc_hostname = orte_process_info.nodename; proc->proc_arch = orte_process_info.arch; } else { if (orte_ess.proc_is_local(&proc->proc_name)) { /* flag all local procs */ proc->proc_flags |= OMPI_PROC_FLAG_LOCAL; } proc->proc_hostname = orte_ess.proc_get_hostname(&proc->proc_name); } } return OMPI_SUCCESS; } /* in some cases, all MPI procs are required to do a modex so they * can (at the least) exchange their architecture. Since we cannot * know in advance if this was required, we provide a separate function * to set the arch (instead of doing it inside of ompi_proc_init) that * can be called after the modex completes in ompi_mpi_init. Thus, we * know that - regardless of how the arch is known, whether via modex * or dropped in from a local daemon - the arch can be set correctly * at this time */ int ompi_proc_set_arch(void) { ompi_proc_t *proc = NULL; opal_list_item_t *item = NULL; OPAL_THREAD_LOCK(&ompi_proc_lock); for( item = opal_list_get_first(&ompi_proc_list); item != opal_list_get_end(&ompi_proc_list); item = opal_list_get_next(item)) { proc = (ompi_proc_t*)item; if (proc->proc_name.vpid != ORTE_PROC_MY_NAME->vpid) { proc->proc_arch = orte_ess.proc_get_arch(&proc->proc_name); /* if arch is different than mine, create a new convertor for this proc */ if (proc->proc_arch != orte_process_info.arch) { #if OMPI_ENABLE_HETEROGENEOUS_SUPPORT OBJ_RELEASE(proc->proc_convertor); proc->proc_convertor = ompi_convertor_create(proc->proc_arch, 0); #else orte_show_help("help-mpi-runtime", "heterogeneous-support-unavailable", true, orte_process_info.nodename, proc->proc_hostname == NULL ? "" : proc->proc_hostname); OPAL_THREAD_UNLOCK(&ompi_proc_lock); return OMPI_ERR_NOT_SUPPORTED; #endif } } } OPAL_THREAD_UNLOCK(&ompi_proc_lock); return OMPI_SUCCESS; } int ompi_proc_finalize (void) { opal_list_item_t *item; /* remove all items from list and destroy them. Since we cannot know * the reference count of the procs for certain, it is possible that * a single OBJ_RELEASE won't drive the count to zero, and hence will * not release the memory. Accordingly, we cycle through the list here, * calling release on each item. * * This will cycle until it forces the reference count of each item * to zero, thus causing the destructor to run - which will remove * the item from the list! * * We cannot do this under the thread lock as the destructor will * call it when removing the item from the list. However, this function * is ONLY called from MPI_Finalize, and all threads are prohibited from * calling an MPI function once ANY thread has called MPI_Finalize. Of * course, multiple threads are allowed to call MPI_Finalize, so this * function may get called multiple times by various threads. We believe * it is thread safe to do so...though it may not -appear- to be so * without walking through the entire list/destructor sequence. */ while (opal_list_get_end(&ompi_proc_list) != (item = opal_list_get_first(&ompi_proc_list))) { OBJ_RELEASE(item); } /* now destruct the list and thread lock */ OBJ_DESTRUCT(&ompi_proc_list); OBJ_DESTRUCT(&ompi_proc_lock); return OMPI_SUCCESS; } ompi_proc_t** ompi_proc_world(size_t *size) { ompi_proc_t **procs; ompi_proc_t *proc; size_t count = 0; orte_ns_cmp_bitmask_t mask; orte_process_name_t my_name; /* check bozo case */ if (NULL == ompi_proc_local_proc) { return NULL; } mask = ORTE_NS_CMP_JOBID; my_name = ompi_proc_local_proc->proc_name; /* First count how many match this jobid */ OPAL_THREAD_LOCK(&ompi_proc_lock); for (proc = (ompi_proc_t*)opal_list_get_first(&ompi_proc_list); proc != (ompi_proc_t*)opal_list_get_end(&ompi_proc_list); proc = (ompi_proc_t*)opal_list_get_next(proc)) { if (OPAL_EQUAL == orte_util_compare_name_fields(mask, &proc->proc_name, &my_name)) { ++count; } } /* allocate an array */ procs = (ompi_proc_t**) malloc(count * sizeof(ompi_proc_t*)); if (NULL == procs) { OPAL_THREAD_UNLOCK(&ompi_proc_lock); return NULL; } /* now save only the procs that match this jobid */ count = 0; for (proc = (ompi_proc_t*)opal_list_get_first(&ompi_proc_list); proc != (ompi_proc_t*)opal_list_get_end(&ompi_proc_list); proc = (ompi_proc_t*)opal_list_get_next(proc)) { if (OPAL_EQUAL == orte_util_compare_name_fields(mask, &proc->proc_name, &my_name)) { /* DO NOT RETAIN THIS OBJECT - the reference count on this * object will be adjusted by external callers. The intent * here is to allow the reference count to drop to zero if * the app no longer desires to communicate with this proc. * For example, the proc may call comm_disconnect on all * communicators involving this proc. In such cases, we want * the proc object to be removed from the list. By not incrementing * the reference count here, we allow this to occur. * * We don't implement that yet, but we are still safe for now as * the OBJ_NEW in ompi_proc_init owns the initial reference * count which cannot be released until ompi_proc_finalize is * called. */ procs[count++] = proc; } } OPAL_THREAD_UNLOCK(&ompi_proc_lock); *size = count; return procs; } ompi_proc_t** ompi_proc_all(size_t* size) { ompi_proc_t **procs = (ompi_proc_t**) malloc(opal_list_get_size(&ompi_proc_list) * sizeof(ompi_proc_t*)); ompi_proc_t *proc; size_t count = 0; if (NULL == procs) { return NULL; } OPAL_THREAD_LOCK(&ompi_proc_lock); for(proc = (ompi_proc_t*)opal_list_get_first(&ompi_proc_list); proc != (ompi_proc_t*)opal_list_get_end(&ompi_proc_list); proc = (ompi_proc_t*)opal_list_get_next(proc)) { /* We know this isn't consistent with the behavior in ompi_proc_world, * but we are leaving the RETAIN for now because the code using this function * assumes that the results need to be released when done. It will * be cleaned up later as the "fix" will impact other places in * the code */ OBJ_RETAIN(proc); procs[count++] = proc; } OPAL_THREAD_UNLOCK(&ompi_proc_lock); *size = count; return procs; } ompi_proc_t** ompi_proc_self(size_t* size) { ompi_proc_t **procs = (ompi_proc_t**) malloc(sizeof(ompi_proc_t*)); if (NULL == procs) { return NULL; } /* We know this isn't consistent with the behavior in ompi_proc_world, * but we are leaving the RETAIN for now because the code using this function * assumes that the results need to be released when done. It will * be cleaned up later as the "fix" will impact other places in * the code */ OBJ_RETAIN(ompi_proc_local_proc); *procs = ompi_proc_local_proc; *size = 1; return procs; } ompi_proc_t * ompi_proc_find ( const orte_process_name_t * name ) { ompi_proc_t *proc, *rproc=NULL; orte_ns_cmp_bitmask_t mask; /* return the proc-struct which matches this jobid+process id */ mask = ORTE_NS_CMP_JOBID | ORTE_NS_CMP_VPID; OPAL_THREAD_LOCK(&ompi_proc_lock); for(proc = (ompi_proc_t*)opal_list_get_first(&ompi_proc_list); proc != (ompi_proc_t*)opal_list_get_end(&ompi_proc_list); proc = (ompi_proc_t*)opal_list_get_next(proc)) { if (OPAL_EQUAL == orte_util_compare_name_fields(mask, &proc->proc_name, name)) { rproc = proc; break; } } OPAL_THREAD_UNLOCK(&ompi_proc_lock); return rproc; } int ompi_proc_refresh(void) { ompi_proc_t *proc = NULL; opal_list_item_t *item = NULL; orte_vpid_t i = 0; OPAL_THREAD_LOCK(&ompi_proc_lock); for( item = opal_list_get_first(&ompi_proc_list), i = 0; item != opal_list_get_end(&ompi_proc_list); item = opal_list_get_next(item), ++i ) { proc = (ompi_proc_t*)item; /* Does not change: proc->proc_name.vpid */ proc->proc_name.jobid = ORTE_PROC_MY_NAME->jobid; /* Make sure to clear the local flag before we set it below */ proc->proc_flags = 0; if (i == ORTE_PROC_MY_NAME->vpid) { ompi_proc_local_proc = proc; proc->proc_flags |= OMPI_PROC_FLAG_LOCAL; proc->proc_hostname = orte_process_info.nodename; proc->proc_arch = orte_process_info.arch; } else { if (orte_ess.proc_is_local(&proc->proc_name)) { proc->proc_flags |= OMPI_PROC_FLAG_LOCAL; } proc->proc_hostname = orte_ess.proc_get_hostname(&proc->proc_name); proc->proc_arch = orte_ess.proc_get_arch(&proc->proc_name); /* if arch is different than mine, create a new convertor for this proc */ if (proc->proc_arch != orte_process_info.arch) { #if OMPI_ENABLE_HETEROGENEOUS_SUPPORT OBJ_RELEASE(proc->proc_convertor); proc->proc_convertor = ompi_convertor_create(proc->proc_arch, 0); #else orte_show_help("help-mpi-runtime", "heterogeneous-support-unavailable", true, orte_process_info.nodename, proc->proc_hostname == NULL ? "" : proc->proc_hostname); OPAL_THREAD_UNLOCK(&ompi_proc_lock); return OMPI_ERR_NOT_SUPPORTED; #endif } } } OPAL_THREAD_UNLOCK(&ompi_proc_lock); return OMPI_SUCCESS; } int ompi_proc_pack(ompi_proc_t **proclist, int proclistsize, opal_buffer_t* buf) { int i, rc; OPAL_THREAD_LOCK(&ompi_proc_lock); /* cycle through the provided array, packing the OMPI level * data for each proc. This data may or may not be included * in any subsequent modex operation, so we include it here * to ensure completion of a connect/accept handshake. See * the ompi/mca/dpm framework for an example of where and how * this info is used. * * Eventually, we will review the procedures that call this * function to see if duplication of communication can be * reduced. For now, just go ahead and pack the info so it * can be sent. */ for (i=0; iproc_name), 1, ORTE_NAME); if(rc != ORTE_SUCCESS) { ORTE_ERROR_LOG(rc); OPAL_THREAD_UNLOCK(&ompi_proc_lock); return rc; } rc = opal_dss.pack(buf, &(proclist[i]->proc_arch), 1, OPAL_UINT32); if(rc != ORTE_SUCCESS) { ORTE_ERROR_LOG(rc); OPAL_THREAD_UNLOCK(&ompi_proc_lock); return rc; } rc = opal_dss.pack(buf, &(proclist[i]->proc_hostname), 1, OPAL_STRING); if(rc != ORTE_SUCCESS) { ORTE_ERROR_LOG(rc); OPAL_THREAD_UNLOCK(&ompi_proc_lock); return rc; } } OPAL_THREAD_UNLOCK(&ompi_proc_lock); return OMPI_SUCCESS; } static ompi_proc_t * ompi_proc_find_and_add(const orte_process_name_t * name, bool* isnew) { ompi_proc_t *proc, *rproc = NULL; orte_ns_cmp_bitmask_t mask; /* return the proc-struct which matches this jobid+process id */ mask = ORTE_NS_CMP_JOBID | ORTE_NS_CMP_VPID; OPAL_THREAD_LOCK(&ompi_proc_lock); for(proc = (ompi_proc_t*)opal_list_get_first(&ompi_proc_list); proc != (ompi_proc_t*)opal_list_get_end(&ompi_proc_list); proc = (ompi_proc_t*)opal_list_get_next(proc)) { if (OPAL_EQUAL == orte_util_compare_name_fields(mask, &proc->proc_name, name)) { rproc = proc; *isnew = false; break; } } /* if we didn't find this proc in the list, create a new * proc_t and append it to the list */ if (NULL == rproc) { *isnew = true; rproc = OBJ_NEW(ompi_proc_t); if (NULL != rproc) { opal_list_append(&ompi_proc_list, (opal_list_item_t*)proc); rproc->proc_name = *name; } /* caller had better fill in the rest of the proc, or there's going to be pain later... */ } OPAL_THREAD_UNLOCK(&ompi_proc_lock); return rproc; } int ompi_proc_unpack(opal_buffer_t* buf, int proclistsize, ompi_proc_t ***proclist, int *newproclistsize, ompi_proc_t ***newproclist) { int i; size_t newprocs_len = 0; ompi_proc_t **plist=NULL, **newprocs = NULL; /* do not free plist *ever*, since it is used in the remote group structure of a communicator */ plist = (ompi_proc_t **) calloc (proclistsize, sizeof (ompi_proc_t *)); if ( NULL == plist ) { return OMPI_ERR_OUT_OF_RESOURCE; } /* free this on the way out */ newprocs = (ompi_proc_t **) calloc (proclistsize, sizeof (ompi_proc_t *)); if (NULL == newprocs) { return OMPI_ERR_OUT_OF_RESOURCE; } /* cycle through the array of provided procs and unpack * their info - as packed by ompi_proc_pack */ for ( i=0; iproc_arch = new_arch; /* if arch is different than mine, create a new convertor for this proc */ if (plist[i]->proc_arch != ompi_mpi_local_arch) { #if OMPI_ENABLE_HETEROGENEOUS_SUPPORT OBJ_RELEASE(plist[i]->proc_convertor); plist[i]->proc_convertor = ompi_convertor_create(plist[i]->proc_arch, 0); #else orte_show_help("help-mpi-runtime", "heterogeneous-support-unavailable", true, orte_process_info.nodename, new_hostname == NULL ? "" : new_hostname); return OMPI_ERR_NOT_SUPPORTED; #endif } if (0 == strcmp(ompi_proc_local_proc->proc_hostname,new_hostname)) { plist[i]->proc_flags |= OMPI_PROC_FLAG_LOCAL; } /* Save the hostname */ plist[i]->proc_hostname = new_hostname; /* eventually, we will update the orte/mca/ess framework's data * to contain the info for the new proc. For now, we ignore * this step since the MPI layer already has all the info * it requires */ } } if (NULL != newproclistsize) *newproclistsize = newprocs_len; if (NULL != newproclist) { *newproclist = newprocs; } else if (newprocs != NULL) { free(newprocs); } *proclist = plist; return OMPI_SUCCESS; }