ports/openmpi
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openmpi/ompi/proc/proc.c
Jeff Squyres 51c5516815 Add a new MCA parameter: mpi_keep_peer_hostnames. If this is nonzero, 
(which is currently the default, although we may argue over this later
:-) ), a new field in the ompi_proc_t named proc_hostname will have
the string hostname of that peer.  If 0, this field will be NULL.

This allows for printing nicer error messages in environments where
peer hostnames are not otherwise easily obtainable, such as the mvapi
BTL (requested by Sandia, who has both a *huge* number of nodes and
6GB of RAM per node, so they don't care about the extra memory usage
;-) ).

This commit was SVN r9902.
2006-05-11 19:46:21 +00:00

566 строки
18 KiB
C
Исходник Ответственный История

/*
* 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 Cisco Systems, Inc. All rights reserved.
* $COPYRIGHT$
*
* Additional copyrights may follow
*
* $HEADER$
*/
#include "ompi_config.h"
#include <string.h>
#include "opal/threads/mutex.h"
#include "opal/util/output.h"
#include "orte/util/sys_info.h"
#include "orte/dss/dss.h"
#include "orte/mca/oob/oob.h"
#include "orte/mca/ns/ns.h"
#include "orte/mca/gpr/gpr.h"
#include "orte/mca/errmgr/errmgr.h"
#include "orte/util/proc_info.h"
#include "ompi/proc/proc.h"
#include "ompi/mca/pml/pml.h"
#include "ompi/datatype/dt_arch.h"
#include "ompi/datatype/convertor.h"
#include "ompi/runtime/params.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);
static int setup_registry_callback(void);
static void callback(orte_gpr_notify_data_t *data, void *cbdata);
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_pml = NULL;
proc->proc_modex = NULL;
OBJ_CONSTRUCT(&proc->proc_lock, opal_mutex_t);
/* By default all processors are supposelly having the same architecture as me. Thus,
* by default we run in a homogeneous environment. Later when the registry callback
* get fired we will have to set the convertors to the correct architecture.
*/
proc->proc_convertor = ompi_mpi_local_convertor;
OBJ_RETAIN( ompi_mpi_local_convertor );
proc->proc_arch = ompi_mpi_local_arch;
proc->proc_flags = 0;
/* By default, put NULL in the hostname. It may or may not get
filled in later -- consumer of this field beware! */
proc->proc_hostname = NULL;
OPAL_THREAD_LOCK(&ompi_proc_lock);
opal_list_append(&ompi_proc_list, (opal_list_item_t*)proc);
OPAL_THREAD_UNLOCK(&ompi_proc_lock);
}
void ompi_proc_destruct(ompi_proc_t* proc)
{
if (proc->proc_modex != NULL) {
OBJ_RELEASE(proc->proc_modex);
}
/* 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 );
if (NULL != proc->proc_hostname) {
free(proc->proc_hostname);
}
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_process_name_t *peers;
size_t i, npeers, self, num_tokens;
orte_jobid_t jobid;
char *segment, **tokens;
orte_data_value_t value = { {OBJ_CLASS(orte_data_value_t),0}, ORTE_NULL, NULL};
uint32_t ui32;
int rc;
OBJ_CONSTRUCT(&ompi_proc_list, opal_list_t);
OBJ_CONSTRUCT(&ompi_proc_lock, opal_mutex_t);
/* get all peers in this job */
if(ORTE_SUCCESS != (rc = orte_ns.get_peers(&peers, &npeers, &self))) {
opal_output(0, "ompi_proc_init: get_peers failed with errno=%d", rc);
return rc;
}
/* find self */
for( i = 0; i < npeers; i++ ) {
ompi_proc_t *proc = OBJ_NEW(ompi_proc_t);
proc->proc_name = peers[i];
if( i == self ) {
ompi_proc_local_proc = proc;
proc->proc_flags |= OMPI_PROC_FLAG_LOCAL;
}
}
free(peers);
/* setup registry callback to find everyone on my local node.
Can't do a GPR get because we're in the middle of MPI_INIT,
and we're setup for the GPR compound command -- so create a
subscription which will be serviced later, at the end of the
compound command. */
if (ORTE_SUCCESS != (rc = setup_registry_callback())) {
return rc;
}
/* Here we have to add to the GPR the information about the current architecture.
*/
if (OMPI_SUCCESS != (rc = ompi_arch_compute_local_id(&ui32))) {
return rc;
}
if (ORTE_SUCCESS != (rc = orte_dss.set(&value, &ui32, ORTE_UINT32))) {
ORTE_ERROR_LOG(rc);
return rc;
}
if (ORTE_SUCCESS != (rc = orte_ns.get_jobid(&jobid, orte_process_info.my_name))) {
ORTE_ERROR_LOG(rc);
return rc;
}
/* find the job segment on the registry */
if (ORTE_SUCCESS != (rc = orte_schema.get_job_segment_name(&segment, jobid))) {
return rc;
}
/* get the registry tokens for this node */
if (ORTE_SUCCESS != (rc = orte_schema.get_proc_tokens(&tokens, &num_tokens,
orte_process_info.my_name))) {
ORTE_ERROR_LOG(rc);
free(segment);
return rc;
}
/* put the arch info on the registry */
if (ORTE_SUCCESS != (rc = orte_gpr.put_1(ORTE_GPR_TOKENS_OR | ORTE_GPR_KEYS_OR,
segment, tokens,
OMPI_PROC_ARCH, &value))) {
ORTE_ERROR_LOG(rc);
}
free(segment);
for (i=0; i < num_tokens; i++) {
free(tokens[i]);
tokens[i] = NULL;
}
if (NULL != tokens) free(tokens);
return OMPI_SUCCESS;
}
int ompi_proc_finalize (void)
{
ompi_proc_t *proc, *nextproc, *endproc;
proc = (ompi_proc_t*)opal_list_get_first(&ompi_proc_list);
nextproc = (ompi_proc_t*)opal_list_get_next(proc);
endproc = (ompi_proc_t*)opal_list_get_end(&ompi_proc_list);
OBJ_RELEASE(proc);
while ( nextproc != endproc ) {
proc = nextproc;
nextproc = (ompi_proc_t *)opal_list_get_next(proc);
OBJ_RELEASE(proc);
}
OBJ_DESTRUCT(&ompi_proc_list);
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 (0 == orte_ns.compare(mask, &proc->proc_name, &my_name)) {
++count;
}
}
/* allocate an array */
procs = (ompi_proc_t**) malloc(count * sizeof(ompi_proc_t*));
if (NULL == procs) {
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 (0 == orte_ns.compare(mask, &proc->proc_name, &my_name)) {
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)) {
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;
}
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_CELLID | 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 (0 == orte_ns.compare(mask, &proc->proc_name, name)) {
rproc = proc;
break;
}
}
OPAL_THREAD_UNLOCK(&ompi_proc_lock);
return rproc;
}
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_CELLID | 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 (0 == orte_ns.compare(mask, &proc->proc_name, name)) {
*isnew = false;
rproc = proc;
break;
}
}
OPAL_THREAD_UNLOCK(&ompi_proc_lock);
if ( NULL == rproc ) {
ompi_proc_t *tproc = OBJ_NEW(ompi_proc_t);
rproc = tproc;
rproc->proc_name = *name;
*isnew = true;
}
return rproc;
}
int ompi_proc_get_namebuf ( ompi_proc_t **proclist, int proclistsize, orte_buffer_t* buf)
{
int i;
OPAL_THREAD_LOCK(&ompi_proc_lock);
for (i=0; i<proclistsize; i++) {
int rc = orte_dss.pack(buf, &(proclist[i]->proc_name), 1, ORTE_NAME);
if(rc != ORTE_SUCCESS) {
OPAL_THREAD_UNLOCK(&ompi_proc_lock);
return rc;
}
}
OPAL_THREAD_UNLOCK(&ompi_proc_lock);
return OMPI_SUCCESS;
}
int ompi_proc_get_proclist (orte_buffer_t* buf, int proclistsize, ompi_proc_t ***proclist)
{
int i;
ompi_proc_t **plist=NULL;
orte_process_name_t name;
bool isnew = false;
/* 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;
}
for ( i=0; i<proclistsize; i++ ){
size_t count=1;
int rc = orte_dss.unpack(buf, &name, &count, ORTE_NAME);
if(rc != ORTE_SUCCESS) {
return rc;
}
plist[i] = ompi_proc_find_and_add ( &name, &isnew );
if(isnew) {
MCA_PML_CALL(add_procs(&plist[i], 1));
}
}
*proclist = plist;
return OMPI_SUCCESS;
}
/*
* As described above, we cannot do a simple GPR get because we're in
* the middle of the GPR compound command in MPI_INIT. So setup a
* subscription that will be fullfilled later in MPI_INIT.
*/
static int setup_registry_callback(void)
{
int rc;
char *segment, *sub_name, *trig_name, *keys[3];
ompi_proc_t *local = ompi_proc_local();
orte_gpr_subscription_id_t id;
orte_jobid_t jobid;
if (ORTE_SUCCESS != (rc = orte_ns.get_jobid(&jobid, &local->proc_name))) {
ORTE_ERROR_LOG(rc);
return rc;
}
/* find the job segment on the registry */
if (ORTE_SUCCESS !=
(rc = orte_schema.get_job_segment_name(&segment, jobid))) {
ORTE_ERROR_LOG(rc);
return rc;
}
/* indicate that this is a standard subscription. This indicates
that the subscription will be common to all processes. Thus,
the resulting data can be consolidated into a
process-independent message and broadcast to all processes */
if (ORTE_SUCCESS !=
(rc = orte_schema.get_std_subscription_name(&sub_name,
OMPI_PROC_SUBSCRIPTION, jobid))) {
ORTE_ERROR_LOG(rc);
free(segment);
return rc;
}
/* define the keys to be returned */
keys[0] = strdup(ORTE_PROC_NAME_KEY);
keys[1] = strdup(ORTE_NODE_NAME_KEY);
keys[2] = strdup(OMPI_PROC_ARCH);
/* Here we have to add another key to the registry to be able to get the information
* about the remote architectures.
* TODO: George.
*/
/* attach ourselves to the standard stage-1 trigger */
if (ORTE_SUCCESS !=
(rc = orte_schema.get_std_trigger_name(&trig_name,
ORTE_STG1_TRIGGER, jobid))) {
ORTE_ERROR_LOG(rc);
goto CLEANUP;
}
if (ORTE_SUCCESS != (rc = orte_gpr.subscribe_N(&id, trig_name, sub_name,
ORTE_GPR_NOTIFY_DELETE_AFTER_TRIG,
ORTE_GPR_TOKENS_OR | ORTE_GPR_KEYS_OR,
segment,
NULL, /* wildcard - look at all containers */
3, keys,
callback, NULL))) {
ORTE_ERROR_LOG(rc);
}
free(trig_name);
CLEANUP:
free(segment);
free(sub_name);
free(keys[0]);
free(keys[1]);
free(keys[2]);
return rc;
}
/*
* This callback is invoked by a subscription during MPI_INIT to let
* us know what procs are on what hosts. We look at the results and
* figure out which procs are on the same host as the local proc. For
* each proc that is on the same host as the local proc, we set that
* proc's OMPI_PROC_FLAG_LOCAL flag.
*/
static void callback(orte_gpr_notify_data_t *data, void *cbdata)
{
size_t i, j, k;
char *str = NULL;
uint32_t arch = 0, *ui32;
bool found_name, found_arch;
orte_ns_cmp_bitmask_t mask;
orte_process_name_t name, *nptr;
orte_gpr_value_t **value;
orte_gpr_keyval_t **keyval;
ompi_proc_t *proc;
int rc;
/* check bozo case */
if (0 == data->cnt) {
return;
}
/* locks are probably not necessary here, but just be safe anyway */
OPAL_THREAD_LOCK(&ompi_proc_lock);
/* loop over the data returned in the subscription */
mask = ORTE_NS_CMP_CELLID | ORTE_NS_CMP_JOBID | ORTE_NS_CMP_VPID;
value = (orte_gpr_value_t**)(data->values)->addr;
for (i = 0, k=0; k < data->cnt &&
i < (data->values)->size; ++i) {
if (NULL != value[i]) {
k++;
str = NULL;
found_name = false;
found_arch = false;
keyval = value[i]->keyvals;
/* find the 2 keys that we're looking for */
for (j = 0; j < value[i]->cnt; ++j) {
if (strcmp(keyval[j]->key, ORTE_PROC_NAME_KEY) == 0) {
if (ORTE_SUCCESS != (rc = orte_dss.get((void**)&nptr, keyval[j]->value, ORTE_NAME))) {
ORTE_ERROR_LOG(rc);
return;
}
orte_ns.get_proc_name_string(&str, nptr);
name = *nptr;
found_name = true;
} else if (strcmp(keyval[j]->key, ORTE_NODE_NAME_KEY) == 0) {
if (NULL != str) {
free(str);
}
str = strdup(keyval[j]->value->data);
} else if (strcmp(keyval[j]->key, OMPI_PROC_ARCH) == 0) {
if (ORTE_SUCCESS != (rc = orte_dss.get((void**)&ui32, keyval[j]->value, ORTE_UINT32))) {
ORTE_ERROR_LOG(rc);
return;
}
arch = *ui32;
found_arch = true;
}
}
/* if we found all keys and the proc is on my local host,
find it in the master proc list and set the "local" flag */
if (NULL != str && found_name && found_arch) {
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)) {
/* find the associated proc entry and update its
arch flag. If the nodename of this info is
my local host, also set the LOCAL flag. */
if (0 == orte_ns.compare(mask, &name, &proc->proc_name)) {
proc->proc_arch = arch;
if (0 == strcmp(str, orte_system_info.nodename)) {
proc->proc_flags |= OMPI_PROC_FLAG_LOCAL;
}
/* if arch is different than mine, create a new convertor for this proc */
if (proc->proc_arch != ompi_mpi_local_arch) {
OBJ_RELEASE(proc->proc_convertor);
proc->proc_convertor = ompi_convertor_create(proc->proc_arch, 0);
}
/* Save the hostname */
if (ompi_mpi_keep_peer_hostnames) {
proc->proc_hostname = str;
str = NULL;
}
}
}
}
}
}
if (NULL != str) {
free(str);
}
/* unlock */
OPAL_THREAD_UNLOCK(&ompi_proc_lock);
}
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