openmpi/orte/mca/oob/base/oob_base_xcast.c

/*
 * Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana
 *                         University Research and Technology
 *                         Corporation.  All rights reserved.
 * Copyright (c) 2004-2005 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) 2007      Sun Microsystems, Inc.  All rights reserved.
 * $COPYRIGHT$
 *
 * Additional copyrights may follow
 *
 * $HEADER$
 */

#include "orte_config.h"
#include "orte/orte_constants.h"

#include <string.h>
#ifdef HAVE_SYS_TIME_H
#include <sys/time.h>
#endif  /* HAVE_SYS_TIME_H */

#include "opal/threads/condition.h"
#include "opal/util/output.h"
#include "opal/util/bit_ops.h"

#include "orte/util/proc_info.h"
#include "orte/dss/dss.h"
#include "orte/mca/gpr/gpr.h"
#include "orte/mca/errmgr/errmgr.h"
#include "orte/mca/ns/ns.h"
#include "orte/mca/rmgr/rmgr.h"
#include "orte/mca/smr/smr.h"
#include "orte/mca/odls/odls_types.h"
#include "orte/mca/rml/rml.h"
#include "orte/runtime/params.h"

#include "orte/mca/oob/oob.h"
#include "orte/mca/oob/base/base.h"


/* Local functions */
static int mca_oob_xcast_binomial_tree(orte_jobid_t job,
                                       orte_buffer_t *buffer,
                                       orte_rml_tag_t tag);

static int mca_oob_xcast_linear(orte_jobid_t job,
                                orte_buffer_t *buffer,
                                orte_rml_tag_t tag);

static int mca_oob_xcast_direct(orte_jobid_t job,
                                orte_buffer_t *buffer,
                                orte_rml_tag_t tag);

/* define a callback function for use by the blocking version
 * of xcast so we can "hold" the caller here until all non-blocking
 * sends have completed
 */
static void mca_oob_xcast_send_cb(int status,
                                  orte_process_name_t* peer,
                                  orte_buffer_t* buffer,
                                  int tag,
                                  void* cbdata)
{
    OPAL_THREAD_LOCK(&orte_oob_xcast_mutex);
    
    orte_oob_xcast_num_active--;
    if (orte_oob_xcast_num_active == 0) {
        opal_condition_signal(&orte_oob_xcast_cond);
    }
    OPAL_THREAD_UNLOCK(&orte_oob_xcast_mutex);
    return;
}

/**
 *  A "broadcast-like" function to a job's processes.
 *  @param  jobid   The job whose processes are to receive the message
 *  @param  buffer  The data to broadcast
 */

/* Non-blocking version */
int mca_oob_xcast_nb(orte_jobid_t job,
                     orte_buffer_t *buffer,
                     orte_rml_tag_t tag)
{
    int rc = ORTE_SUCCESS;
    struct timeval start, stop;
    orte_vpid_t num_daemons;
    
    /* if there is no message to send, then just return ok */
    if (NULL == buffer) {
        return ORTE_SUCCESS;
    }
    
    if (orte_timing) {
        gettimeofday(&start, NULL);
    }
    
    /* get the number of daemons currently in the system so we can
     * select the "optimal" algorithm
     */
    if (ORTE_SUCCESS != (rc = orte_ns.get_vpid_range(0, &num_daemons))) {
        ORTE_ERROR_LOG(rc);
        return rc;
    }
    
    opal_output(mca_oob_base_output, "oob_xcast_nb: num_daemons %ld linear xover: %ld binomial xover: %ld",
                (long)num_daemons, (long)orte_oob_xcast_linear_xover, (long)orte_oob_xcast_binomial_xover);
    
    if (num_daemons < 2) {
        /* if there is only one daemon in the system, then we must
         * use the direct mode - there is no other option. Note that
         * since the HNP is the one that typically does xcast sends,
         * only one daemon means that the HNP itself is sending to
         * itself. This is required in singletons - where the
         * singleton acts as the HNP - and as an HNP starts
         * itself up
         *
         * NOTE: although we allow users to alter crossover points
         * for selecting specific xcast modes, this required
         * use-case behavior MUST always be retained or else
         * singletons and HNP startup will fail!
         */
        rc = mca_oob_xcast_direct(job, buffer, tag);
        goto DONE;
    }
    
    /* now use the crossover points to select the proper transmission
     * mode. We have built-in default crossover points for this
     * decision tree, but the user is free to alter them as
     * they wish via MCA params
     */
    
    if (num_daemons < orte_oob_xcast_linear_xover) {
        rc = mca_oob_xcast_direct(job, buffer, tag);
    } else if (num_daemons < orte_oob_xcast_binomial_xover) {
        rc = mca_oob_xcast_linear(job, buffer, tag);
    } else {
        rc = mca_oob_xcast_binomial_tree(job, buffer, tag);
    }
    
DONE:
    if (orte_timing) {
        gettimeofday(&stop, NULL);
        opal_output(0, "xcast_nb [%ld,%ld,%ld]: time %ld usec", ORTE_NAME_ARGS(ORTE_PROC_MY_NAME),
                                        (long int)((stop.tv_sec - start.tv_sec)*1000000 +
                               (stop.tv_usec - start.tv_usec)));
    }
    
    return rc;
}

/* Blocking version */
int mca_oob_xcast(orte_jobid_t job,
                  orte_buffer_t *buffer,
                  orte_rml_tag_t tag)
{
    int rc = ORTE_SUCCESS;
    struct timeval start, stop;
    orte_vpid_t num_daemons;
    
    /* if there is no message to send, then just return ok */
    if (NULL == buffer) {
        return ORTE_SUCCESS;
    }

    if (orte_timing) {
        gettimeofday(&start, NULL);
    }
    
    /* get the number of daemons currently in the system so we can
     * select the "optimal" algorithm
     */
    if (ORTE_SUCCESS != (rc = orte_ns.get_vpid_range(0, &num_daemons))) {
        ORTE_ERROR_LOG(rc);
        return rc;
    }
    
    opal_output(mca_oob_base_output, "oob_xcast: num_daemons %ld linear xover: %ld binomial xover: %ld",
                (long)num_daemons, (long)orte_oob_xcast_linear_xover, (long)orte_oob_xcast_binomial_xover);

    if (num_daemons < 2) {
        /* if there is only one daemon in the system, then we must
         * use the direct mode - there is no other option. Note that
         * since the HNP is the one that typically does xcast sends,
         * only one daemon means that the HNP itself is sending to
         * itself. This is required in singletons - where the
         * singleton acts as the HNP - and as an HNP starts
         * itself up
         *
         * NOTE: although we allow users to alter crossover points
         * for selecting specific xcast modes, this required
         * use-case behavior MUST always be retained or else
         * singletons and HNP startup will fail!
         */
        rc = mca_oob_xcast_direct(job, buffer, tag);
        goto DONE;
    }
    
    /* now use the crossover points to select the proper transmission
     * mode. We have built-in default crossover points for this
     * decision tree, but the user is free to alter them as
     * they wish via MCA params
     */
    
    if (num_daemons < orte_oob_xcast_linear_xover) {
        rc = mca_oob_xcast_direct(job, buffer, tag);
    } else if (num_daemons < orte_oob_xcast_binomial_xover) {
        rc = mca_oob_xcast_linear(job, buffer, tag);
    } else {
        rc = mca_oob_xcast_binomial_tree(job, buffer, tag);
    }
    
DONE:
    /* now go to sleep until woken up */
    OPAL_THREAD_LOCK(&orte_oob_xcast_mutex);
    if (orte_oob_xcast_num_active > 0) {
        opal_condition_wait(&orte_oob_xcast_cond, &orte_oob_xcast_mutex);
    }
    OPAL_THREAD_UNLOCK(&orte_oob_xcast_mutex);
    
    if (orte_timing) {
        gettimeofday(&stop, NULL);
        opal_output(0, "xcast [%ld,%ld,%ld]: time %ld usec", ORTE_NAME_ARGS(ORTE_PROC_MY_NAME),
                    (long int)((stop.tv_sec - start.tv_sec)*1000000 +
                               (stop.tv_usec - start.tv_usec)));
    }
    return rc;
}

static int mca_oob_xcast_binomial_tree(orte_jobid_t job,
                                       orte_buffer_t *buffer,
                                       orte_rml_tag_t tag)
{
    orte_daemon_cmd_flag_t command, mode;
    orte_std_cntr_t i;
    int rc;
    int peer, size, rank, hibit, mask;
    orte_process_name_t target;
    orte_buffer_t *buf;
    orte_vpid_t num_daemons;
    int bitmap;
    orte_std_cntr_t binomial_xcast_num_active;

    opal_output(mca_oob_base_output, "oob_xcast_mode: binomial");

    /* this is the HNP end, so it starts the procedure. Since the HNP is always the
     * vpid=0 at this time, we take advantage of that fact to figure out who we
     * should send this to on the first step
     */
    /* need to pack the msg for sending - be sure to include routing info so it
     * can properly be sent through the daemons
     */
    buf = OBJ_NEW(orte_buffer_t);
    
    /* tell the daemon the routing algorithm so it can figure
     * out how to forward the message down the tree, if at all
     */
    mode = ORTE_DAEMON_ROUTE_BINOMIAL;
    if (ORTE_SUCCESS != (rc = orte_dss.pack(buf, &mode, 1, ORTE_DAEMON_CMD))) {
        ORTE_ERROR_LOG(rc);
        return rc;
    }
    
    /* get the number of daemons currently in the system and tell the daemon so
     * it can properly route
     */
    if (ORTE_SUCCESS != (rc = orte_ns.get_vpid_range(0, &num_daemons))) {
        ORTE_ERROR_LOG(rc);
        goto CLEANUP;
    }
    if (ORTE_SUCCESS != (rc = orte_dss.pack(buf, &num_daemons, 1, ORTE_STD_CNTR))) {
        ORTE_ERROR_LOG(rc);
        goto CLEANUP;
    }
    
    /* if this isn't intended for the daemon command tag, then we better
     * tell the daemon to deliver it to the procs, and what job is supposed
     * to get it - this occurs when a caller just wants to send something
     * to all the procs in a job. In that use-case, the caller doesn't know
     * anything about inserting daemon commands or what routing algo might
     * be used, so we have to help them out a little. Functions that are
     * sending commands to the daemons themselves are smart enough to know
     * what they need to do.
     */
    if (ORTE_RML_TAG_DAEMON != tag) {
        command = ORTE_DAEMON_MESSAGE_LOCAL_PROCS;
        if (ORTE_SUCCESS != (rc = orte_dss.pack(buf, &command, 1, ORTE_DAEMON_CMD))) {
            ORTE_ERROR_LOG(rc);
            goto CLEANUP;
        }
        if (ORTE_SUCCESS != (rc = orte_dss.pack(buf, &job, 1, ORTE_JOBID))) {
            ORTE_ERROR_LOG(rc);
            goto CLEANUP;
        }
        if (ORTE_SUCCESS != (rc = orte_dss.pack(buf, &tag, 1, ORTE_RML_TAG))) {
            ORTE_ERROR_LOG(rc);
            goto CLEANUP;
        }
    }
    
    /* copy the payload into the new buffer - this is non-destructive, so our
     * caller is still responsible for releasing any memory in the buffer they
     * gave to us
     */
    if (ORTE_SUCCESS != (rc = orte_dss.copy_payload(buf, buffer))) {
        ORTE_ERROR_LOG(rc);
        goto CLEANUP;
    }
        
    if (orte_timing) {
        opal_output(0, "xcast [%ld,%ld,%ld]: mode binomial buffer size %ld",
                    ORTE_NAME_ARGS(ORTE_PROC_MY_NAME), (long)buf->bytes_used);
    }
    
    /* start setting up the target recipients */
    target.cellid = ORTE_PROC_MY_NAME->cellid;
    target.jobid = 0;
    
    /* compute the bitmap */
    bitmap = opal_cube_dim((int)num_daemons);
    rank = 0;
    size = (int)num_daemons;
    
    hibit = opal_hibit(rank, bitmap);
    --bitmap;

    /* we have to account for all of the messages we are about to send
     * because the non-blocking send can come back almost immediately - before
     * we would get the chance to increment the num_active. This causes us
     * to not correctly wakeup and reset the xcast_in_progress flag
     */
    OPAL_THREAD_LOCK(&orte_oob_xcast_mutex);
    /* compute the number of sends we are going to do - it would be nice
     * to have a simple algo to do this, but for now just brute force
     * is fine
     */
    binomial_xcast_num_active = 0;
    for (i = hibit + 1, mask = 1 << i; i <= bitmap; ++i, mask <<= 1) {
        peer = rank | mask;
        if (peer < size) {            
            ++binomial_xcast_num_active;
        }
    }
    if (binomial_xcast_num_active == 0) {
        /* if we aren't going to send anything at all, we
         * need to reset the xcast_in_progress flag so
         * we don't block the entire system and return
         */
        OPAL_THREAD_UNLOCK(&orte_oob_xcast_mutex);
        rc = ORTE_SUCCESS;
        goto CLEANUP;
    }
    orte_oob_xcast_num_active += binomial_xcast_num_active;
    OPAL_THREAD_UNLOCK(&orte_oob_xcast_mutex);

    target.cellid = ORTE_PROC_MY_NAME->cellid;
    target.jobid = 0;
    for (i = hibit + 1, mask = 1 << i; i <= bitmap; ++i, mask <<= 1) {
        peer = rank | mask;
        if (peer < size) {
            target.vpid = (orte_vpid_t)peer;
            opal_output(mca_oob_base_output, "[%ld,%ld,%ld] xcast to [%ld,%ld,%ld]", ORTE_NAME_ARGS(ORTE_PROC_MY_NAME), ORTE_NAME_ARGS(&target));
            if (0 > (rc = mca_oob_send_packed_nb(&target, buf, ORTE_RML_TAG_ORTED_ROUTED,
                                                 0, mca_oob_xcast_send_cb, NULL))) {
                if (ORTE_ERR_ADDRESSEE_UNKNOWN != rc) {
                    ORTE_ERROR_LOG(ORTE_ERR_COMM_FAILURE);
                    rc = ORTE_ERR_COMM_FAILURE;
                    OPAL_THREAD_LOCK(&orte_oob_xcast_mutex);
                    orte_oob_xcast_num_active -= (num_daemons-i);
                    OPAL_THREAD_UNLOCK(&orte_oob_xcast_mutex);
                    goto CLEANUP;
                }
                /* decrement the number we are waiting to see */
                OPAL_THREAD_LOCK(&orte_oob_xcast_mutex);
                orte_oob_xcast_num_active--;
                OPAL_THREAD_UNLOCK(&orte_oob_xcast_mutex);
            }
        }
    }

CLEANUP:  
    OBJ_RELEASE(buf);
    
    return rc;
}

static int mca_oob_xcast_linear(orte_jobid_t job,
                                orte_buffer_t *buffer,
                                orte_rml_tag_t tag)
{
    int rc;
    orte_buffer_t *buf;
    orte_daemon_cmd_flag_t command, mode=ORTE_DAEMON_ROUTE_NONE;
    orte_vpid_t i, range;
    orte_process_name_t dummy;
    orte_std_cntr_t linear_xcast_num_active;
    
    opal_output(mca_oob_base_output, "oob_xcast_mode: linear");

    /* since we have to pack some additional info into the buffer to be
     * sent to the daemons, we create a new buffer into which we will
     * put the intermediate payload - i.e., the info that goes to the
     * daemon. This buffer will contain all the info needed by the
     * daemon, plus the payload intended for the processes themselves
     */
    buf = OBJ_NEW(orte_buffer_t);
    
    /* tell the daemon that no further routing required */
    if (ORTE_SUCCESS != (rc = orte_dss.pack(buf, &mode, 1, ORTE_DAEMON_CMD))) {
        ORTE_ERROR_LOG(rc);
        goto CLEANUP;
    }

    /* if this isn't intended for the daemon command tag, then we better
     * tell the daemon to deliver it to the procs, and what job is supposed
     * to get it - this occurs when a caller just wants to send something
     * to all the procs in a job. In that use-case, the caller doesn't know
     * anything about inserting daemon commands or what routing algo might
     * be used, so we have to help them out a little. Functions that are
     * sending commands to the daemons themselves are smart enough to know
     * what they need to do.
     */
    if (ORTE_RML_TAG_DAEMON != tag) {
        command = ORTE_DAEMON_MESSAGE_LOCAL_PROCS;
        if (ORTE_SUCCESS != (rc = orte_dss.pack(buf, &command, 1, ORTE_DAEMON_CMD))) {
            ORTE_ERROR_LOG(rc);
            goto CLEANUP;
        }
        if (ORTE_SUCCESS != (rc = orte_dss.pack(buf, &job, 1, ORTE_JOBID))) {
            ORTE_ERROR_LOG(rc);
            goto CLEANUP;
        }
        if (ORTE_SUCCESS != (rc = orte_dss.pack(buf, &tag, 1, ORTE_RML_TAG))) {
            ORTE_ERROR_LOG(rc);
            goto CLEANUP;
        }
    }
    
    /* copy the payload into the new buffer - this is non-destructive, so our
     * caller is still responsible for releasing any memory in the buffer they
     * gave to us
     */
    if (ORTE_SUCCESS != (rc = orte_dss.copy_payload(buf, buffer))) {
        ORTE_ERROR_LOG(rc);
        goto CLEANUP;
    }
    
    if (orte_timing) {
        opal_output(0, "xcast [%ld,%ld,%ld]: mode linear buffer size %ld",
                    ORTE_NAME_ARGS(ORTE_PROC_MY_NAME), (long)buf->bytes_used);
    }
    
    /* get the number of daemons out there */
    orte_ns.get_vpid_range(0, &range);
    
    /* we have to account for all of the messages we are about to send
     * because the non-blocking send can come back almost immediately - before
     * we would get the chance to increment the num_active. This causes us
     * to not correctly wakeup and reset the xcast_in_progress flag
     */
    OPAL_THREAD_LOCK(&orte_oob_xcast_mutex);
    linear_xcast_num_active = range;
    if (orte_process_info.daemon ||
        orte_process_info.seed ||
        orte_process_info.singleton) {
        /* we never send to ourselves,
         * so we need to adjust the number of sends
         * we are expecting to complete
         */
        linear_xcast_num_active--;
        if (linear_xcast_num_active <= 0) {
            /* if we aren't going to send anything at all, we
             * need to reset the xcast_in_progress flag so
             * we don't block the entire system and return
             */
            OPAL_THREAD_UNLOCK(&orte_oob_xcast_mutex);
            rc = ORTE_SUCCESS;
            goto CLEANUP;
        }
    }
    orte_oob_xcast_num_active += linear_xcast_num_active;
    OPAL_THREAD_UNLOCK(&orte_oob_xcast_mutex);
    
    /* send the message to each daemon as fast as we can */
    dummy.cellid = ORTE_PROC_MY_NAME->cellid;
    dummy.jobid = 0;
    for (i=0; i < range; i++) {            
        if (ORTE_PROC_MY_NAME->vpid != i) { /* don't send to myself */
            dummy.vpid = i;
            if (0 > (rc = mca_oob_send_packed_nb(&dummy, buf, ORTE_RML_TAG_ORTED_ROUTED,
                                                 0, mca_oob_xcast_send_cb, NULL))) {
                if (ORTE_ERR_ADDRESSEE_UNKNOWN != rc) {
                    ORTE_ERROR_LOG(ORTE_ERR_COMM_FAILURE);
                    rc = ORTE_ERR_COMM_FAILURE;
                    OPAL_THREAD_LOCK(&orte_oob_xcast_mutex);
                    orte_oob_xcast_num_active -= (range-i);
                    OPAL_THREAD_UNLOCK(&orte_oob_xcast_mutex);
                    goto CLEANUP;
                }
                /* decrement the number we are waiting to see */
                OPAL_THREAD_LOCK(&orte_oob_xcast_mutex);
                orte_oob_xcast_num_active--;
                OPAL_THREAD_UNLOCK(&orte_oob_xcast_mutex);
            }
        }
    }
    rc = ORTE_SUCCESS;
    
    /* cleanup */
CLEANUP:
    OBJ_RELEASE(buf);
    return rc;    
}

static int mca_oob_xcast_direct(orte_jobid_t job,
                                orte_buffer_t *buffer,
                                orte_rml_tag_t tag)
{
    orte_std_cntr_t i;
    int rc;
    orte_process_name_t *peers=NULL;
    orte_std_cntr_t n;
    opal_list_t attrs;
    opal_list_item_t *item;
    
    opal_output(mca_oob_base_output, "oob_xcast_mode: direct");

    /* need to get the job peers so we know who to send the message to */
    OBJ_CONSTRUCT(&attrs, opal_list_t);
    orte_rmgr.add_attribute(&attrs, ORTE_NS_USE_JOBID, ORTE_JOBID, &job, ORTE_RMGR_ATTR_OVERRIDE);
    if (ORTE_SUCCESS != (rc = orte_ns.get_peers(&peers, &n, &attrs))) {
        ORTE_ERROR_LOG(rc);
        OBJ_DESTRUCT(&attrs);
        return rc;
    }
    item = opal_list_remove_first(&attrs);
    OBJ_RELEASE(item);
    OBJ_DESTRUCT(&attrs);
    
    if (orte_timing) {
        opal_output(0, "xcast [%ld,%ld,%ld]: mode direct buffer size %ld",
                    ORTE_NAME_ARGS(ORTE_PROC_MY_NAME), (long)buffer->bytes_used);
    }
    
    /* we have to account for all of the messages we are about to send
     * because the non-blocking send can come back almost immediately - before
     * we would get the chance to increment the num_active. This causes us
     * to not correctly wakeup and reset the xcast_in_progress flag
     */
    OPAL_THREAD_LOCK(&orte_oob_xcast_mutex);
    orte_oob_xcast_num_active += n;
    OPAL_THREAD_UNLOCK(&orte_oob_xcast_mutex);

    for(i=0; i<n; i++) {
        if (0 > (rc = mca_oob_send_packed_nb(peers+i, buffer, tag, 0, mca_oob_xcast_send_cb, NULL))) {
            if (ORTE_ERR_ADDRESSEE_UNKNOWN != rc) {
                ORTE_ERROR_LOG(ORTE_ERR_COMM_FAILURE);
                rc = ORTE_ERR_COMM_FAILURE;
                OPAL_THREAD_LOCK(&orte_oob_xcast_mutex);
                orte_oob_xcast_num_active -= (n-i);
                OPAL_THREAD_UNLOCK(&orte_oob_xcast_mutex);
                goto CLEANUP;
            }
            /* decrement the number we are waiting to see */
            OPAL_THREAD_LOCK(&orte_oob_xcast_mutex);
            orte_oob_xcast_num_active--;
            OPAL_THREAD_UNLOCK(&orte_oob_xcast_mutex);
        }          
    }
    rc = ORTE_SUCCESS;

CLEANUP:
    free(peers);

    return rc;
}

int mca_oob_xcast_gate(orte_gpr_trigger_cb_fn_t cbfunc)
{
    int rc;
    orte_std_cntr_t i;
    orte_buffer_t rbuf;
    orte_gpr_notify_message_t *mesg;
    
    OBJ_CONSTRUCT(&rbuf, orte_buffer_t);
    rc = mca_oob_recv_packed(ORTE_NAME_WILDCARD, &rbuf, ORTE_RML_TAG_XCAST_BARRIER);
    if(rc < 0) {
        OBJ_DESTRUCT(&rbuf);
        return rc;
    }
    if (cbfunc != NULL) {
        mesg = OBJ_NEW(orte_gpr_notify_message_t);
        if (NULL == mesg) {
            ORTE_ERROR_LOG(ORTE_ERR_OUT_OF_RESOURCE);
            return ORTE_ERR_OUT_OF_RESOURCE;
        }
        i=1;
        if (ORTE_SUCCESS != (rc = orte_dss.unpack(&rbuf, &mesg, &i, ORTE_GPR_NOTIFY_MSG))) {
            ORTE_ERROR_LOG(rc);
            OBJ_RELEASE(mesg);
            return rc;
        }
        cbfunc(mesg);
        OBJ_RELEASE(mesg);
    }
    OBJ_DESTRUCT(&rbuf);

    return ORTE_SUCCESS;
}