margo-p2p-bw.c 14.5 KB
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/*
 * Copyright (c) 2017 UChicago Argonne, LLC
 *
 * See COPYRIGHT in top-level directory.
 */

#include "ssg-config.h"

#include <unistd.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>

#include <mpi.h>

#include <margo.h>
#ifdef HAVE_ABT_SNOOZER
#include <abt-snoozer.h>
#endif
#include <mercury.h>
#include <abt.h>
#include <ssg.h>
#include <ssg-mpi.h>

struct options
{
    int xfer_size;
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    int duration_seconds;
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    int concurrency;
    int threads;
    int snoozer_flag_client;
    int snoozer_flag_server;
    unsigned int mercury_timeout_client;
    unsigned int mercury_timeout_server;
    char* diag_file_name;
    char* na_transport;
};

static void parse_args(int argc, char **argv, struct options *opts);
static void usage(void);

DECLARE_MARGO_RPC_HANDLER(bw_ult);
static hg_id_t bw_id;

static int run_benchmark(hg_id_t id, ssg_member_id_t target, 
    ssg_group_id_t gid, margo_instance_id mid);

#if 0
static void bench_routine_print(const char* op, int size, int iterations, 
    double* measurement_array);
static int measurement_cmp(const void* a, const void *b);
#endif
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struct bw_worker_arg
{
    double start_tm;
    margo_instance_id mid;
};

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static void bw_worker(void *_arg);
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static ABT_eventual bw_done_eventual;

static struct options g_opts;

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static ABT_pool transfer_pool;

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int main(int argc, char **argv) 
{
    margo_instance_id mid;
    int nranks;
    hg_context_t *hg_context;
    hg_class_t *hg_class;
    ABT_xstream xstream;
    ABT_pool pool;
    int ret;
    ssg_group_id_t gid;
    ssg_member_id_t self;
    int rank;
#if 0
    double *measurement_array;
#endif
    int namelen;
    char processor_name[MPI_MAX_PROCESSOR_NAME];
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    ABT_xstream *bw_worker_xstreams = NULL;
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    ABT_init(argc, argv);
    MPI_Init(&argc, &argv);

    /* 2 process one-way bandwidth measurement only */
    MPI_Comm_size(MPI_COMM_WORLD, &nranks);
    if(nranks != 2)
    {
        usage();
        exit(EXIT_FAILURE);
    }
    MPI_Comm_rank(MPI_COMM_WORLD, &rank);
    MPI_Get_processor_name(processor_name,&namelen);
    printf("Process %d of %d is on %s\n",
	rank, nranks, processor_name);

    parse_args(argc, argv, &g_opts);

    /* boilerplate HG initialization steps */
    /***************************************/

    if((rank == 0 && g_opts.mercury_timeout_client == 0) ||
       (rank == 1 && g_opts.mercury_timeout_server == 0))
    {
        struct hg_init_info hii;
        
        /* If mercury timeout of zero is requested, then set
         * init option to NO_BLOCK.  This allows some transports to go
         * faster because they do not have to set up or maintain the data
         * structures necessary for signaling completion on blocked
         * operations.
         */
        memset(&hii, 0, sizeof(hii));
        hii.na_init_info.progress_mode = NA_NO_BLOCK;
        hg_class = HG_Init_opt(g_opts.na_transport, HG_TRUE, &hii);
    }
    else
    {
        hg_class = HG_Init(g_opts.na_transport, HG_TRUE);
    }
    if(!hg_class)
    {
        fprintf(stderr, "Error: HG_Init()\n");
        return(-1);
    }
    hg_context = HG_Context_create(hg_class);
    if(!hg_context)
    {
        fprintf(stderr, "Error: HG_Context_create()\n");
        HG_Finalize(hg_class);
        return(-1);
    }

    if((rank == 0 && g_opts.snoozer_flag_client) || 
        (rank == 1 && g_opts.snoozer_flag_server))
    {
#ifdef HAVE_ABT_SNOOZER
        /* set primary ES to idle without polling in scheduler */
        ret = ABT_snoozer_xstream_self_set();
        if(ret != 0)
        {
            fprintf(stderr, "Error: ABT_snoozer_xstream_self_set()\n");
            return(-1);
        }
#else
        fprintf(stderr, "Error: abt-snoozer scheduler is not supported\n");
        return(-1);
#endif
    }

    /* get main pool for running mercury progress and RPC handlers */
    ret = ABT_xstream_self(&xstream);
    if(ret != 0)
    {
        fprintf(stderr, "Error: ABT_xstream_self()\n");
        return(-1);
    }   
    ret = ABT_xstream_get_main_pools(xstream, 1, &pool);
    if(ret != 0)
    {
        fprintf(stderr, "Error: ABT_xstream_get_main_pools()\n");
        return(-1);
    }

    /* actually start margo */
    mid = margo_init_pool(pool, pool, hg_context);
    assert(mid);

    if(g_opts.diag_file_name)
        margo_diag_start(mid);

    /* adjust mercury timeout in Margo if requested */
    if(rank == 0 && g_opts.mercury_timeout_client != UINT_MAX)
        margo_set_param(mid, MARGO_PARAM_PROGRESS_TIMEOUT_UB, &g_opts.mercury_timeout_client);
    if(rank == 1 && g_opts.mercury_timeout_server != UINT_MAX)
        margo_set_param(mid, MARGO_PARAM_PROGRESS_TIMEOUT_UB, &g_opts.mercury_timeout_server);

    bw_id = MARGO_REGISTER_MPLEX(
        mid, 
        "bw_rpc", 
        void,
        void,
        bw_ult,
        MARGO_DEFAULT_MPLEX_ID,
        NULL);

    /* set up group */
    ret = ssg_init(mid);
    assert(ret == 0);
    gid = ssg_group_create_mpi("margo-p2p-latency", MPI_COMM_WORLD, NULL, NULL);
    assert(gid != SSG_GROUP_ID_NULL);

    assert(ssg_get_group_size(gid) == 2);

    self = ssg_get_group_self_id(gid);
#if 0
    printf("MPI rank %d has SSG ID %lu\n", rank, self);
#endif

    if(self == 0)
    {
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        /* TODO: something smarter than this; don't contact server before 
         * it is ready.
         */
        sleep(5);
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        /* ssg id 0 initiates benchmark */
        ret = run_benchmark(bw_id, 1, gid, mid);
        assert(ret == 0);
    }
    else
    {
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        /* ssg id 1 acts as server to run transfers */
        int i;

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        if(g_opts.threads == 0)
        {
            /* run bulk transfers from primary pool on server */
            transfer_pool = pool;
        }
        else
        {
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            /* run bulk transfers from a dedicated pool */
            bw_worker_xstreams = malloc(
                    g_opts.threads * sizeof(*bw_worker_xstreams));
            assert(bw_worker_xstreams);
            ret = ABT_snoozer_xstream_create(g_opts.threads, &transfer_pool,
                    bw_worker_xstreams);
            assert(ret == ABT_SUCCESS);
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        }

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        ret = ABT_eventual_create(0, &bw_done_eventual);
        assert(ret == 0);

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        /* wait for test RPC to complete */
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        ABT_eventual_wait(bw_done_eventual, NULL);
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        sleep(1);

        /* cleanup dedicated pool if needed */
        for (i = 0; i < g_opts.threads; i++) {
            ABT_xstream_join(bw_worker_xstreams[i]);
            ABT_xstream_free(&bw_worker_xstreams[i]);
        }
        if(bw_worker_xstreams)
            free(bw_worker_xstreams);
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    }

    ssg_group_destroy(gid);
    ssg_finalize();

    if(g_opts.diag_file_name)
        margo_diag_dump(mid, g_opts.diag_file_name, 1);

    margo_finalize(mid);
    HG_Context_destroy(hg_context);
    HG_Finalize(hg_class);
    MPI_Finalize();
    ABT_finalize();

    return 0;
}

static void parse_args(int argc, char **argv, struct options *opts)
{
    int opt;
    int ret;
    char clientflag, serverflag;

    memset(opts, 0, sizeof(*opts));

    opts->concurrency = 1;

#ifdef HAVE_ABT_SNOOZER
    /* default to enabling snoozer scheduler on both client and server */
    opts->snoozer_flag_client = 1;
    opts->snoozer_flag_server = 1;
#else
    opts->snoozer_flag_client = 0;
    opts->snoozer_flag_server = 0;
#endif
    /* default to using whatever the standard timeout is in margo */
    opts->mercury_timeout_client = UINT_MAX;
    opts->mercury_timeout_server = UINT_MAX; 

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    while((opt = getopt(argc, argv, "n:x:c:T:d:s:t:D:")) != -1)
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    {
        switch(opt)
        {
            case 'd':
                opts->diag_file_name = strdup(optarg);
                if(!opts->diag_file_name)
                {
                    perror("strdup");
                    exit(EXIT_FAILURE);
                }
                break;
            case 'x':
                ret = sscanf(optarg, "%d", &opts->xfer_size);
                if(ret != 1)
                {
                    usage();
                    exit(EXIT_FAILURE);
                }
                break;
            case 'c':
                ret = sscanf(optarg, "%d", &opts->concurrency);
                if(ret != 1)
                {
                    usage();
                    exit(EXIT_FAILURE);
                }
                break;
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            case 'T':
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                ret = sscanf(optarg, "%d", &opts->threads);
                if(ret != 1)
                {
                    usage();
                    exit(EXIT_FAILURE);
                }
                break;
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            case 'D':
                ret = sscanf(optarg, "%d", &opts->duration_seconds);
                if(ret != 1)
                {
                    usage();
                    exit(EXIT_FAILURE);
                }
                break;
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            case 's':
                ret = sscanf(optarg, "%c,%c", &clientflag, &serverflag);
                if(ret != 2)
                {
                    usage();
                    exit(EXIT_FAILURE);
                }
                if(clientflag == '0') opts->snoozer_flag_client = 0;
                else if(clientflag == '1') opts->snoozer_flag_client = 1;
                if(serverflag == '0') opts->snoozer_flag_server = 0;
                else if(serverflag == '1') opts->snoozer_flag_server = 1;
                break;
            case 't':
                ret = sscanf(optarg, "%u,%u", &opts->mercury_timeout_client, &opts->mercury_timeout_server);
                if(ret != 2)
                {
                    usage();
                    exit(EXIT_FAILURE);
                }
                break;
            case 'n':
                opts->na_transport = strdup(optarg);
                if(!opts->na_transport)
                {
                    perror("strdup");
                    exit(EXIT_FAILURE);
                }
                break;
            default:
                usage();
                exit(EXIT_FAILURE);
        }
    }

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    if(opts->xfer_size < 1 || opts->concurrency < 1 || opts->duration_seconds < 1 || !opts->na_transport)
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    {
        usage();
        exit(EXIT_FAILURE);
    }

    return;
}

static void usage(void)
{
    fprintf(stderr,
        "Usage: "
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        "margo-p2p-bw -x <xfer_size> -D <duration> -n <na>\n"
        "\t-x <xfer_size> - size of each bulk tranfer in bytes\n"
        "\t-D <duration> - duration of test in seconds\n"
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        "\t-n <na> - na transport\n"
        "\t[-c concurrency] - number of concurrent operations to issue with ULTs\n"
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        "\t[-T <os threads] - number of dedicated operating system threads to run ULTs on\n"
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        "\t[-d filename] - enable diagnostics output \n"
        "\t[-s <bool,bool>] - specify if snoozer scheduler is used on client and server\n"
        "\t\t(e.g., -s 0,1 means snoozer disabled on client and enabled on server)\n"
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        "\t\texample: mpiexec -n 2 ./margo-p2p-bw -x 4096 -D 30 -n verbs://\n"
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        "\t\t(must be run with exactly 2 processes\n");
    
    return;
}

/* service an RPC that runs the bandwidth test */
static void bw_ult(hg_handle_t handle)
{
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    int i;
    ABT_thread *tid_array;
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    struct bw_worker_arg *arg_array;
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    int ret;
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    double start_time;
    margo_instance_id mid;
    const struct hg_info *hgi;

    /* get handle info and margo instance */
    hgi = margo_get_info(handle);
    assert(hgi);
    mid = margo_hg_info_get_instance(hgi);
    assert(mid != MARGO_INSTANCE_NULL);
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    tid_array = malloc(g_opts.concurrency * sizeof(*tid_array));
    assert(tid_array);
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    arg_array = malloc(g_opts.concurrency * sizeof(*arg_array));
    assert(arg_array);
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    start_time = ABT_get_wtime();
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    /* create requested number of workers to run transfer */
    for(i=0; i<g_opts.concurrency; i++)
    {
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        arg_array[i].start_tm = start_time;
        arg_array[i].mid = mid;
        ret = ABT_thread_create(transfer_pool, bw_worker, &arg_array[i], ABT_THREAD_ATTR_NULL, &tid_array[i]);
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        assert(ret == 0);
    }

    for(i=0; i<g_opts.concurrency; i++)
    {
        ABT_thread_join(tid_array[i]);
        ABT_thread_free(&tid_array[i]);
    }

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    margo_respond(handle, NULL);
    margo_destroy(handle);

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    free(tid_array);
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    free(arg_array);
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    ABT_eventual_set(bw_done_eventual, NULL, 0);

    return;
}
DEFINE_MARGO_RPC_HANDLER(bw_ult)

static int run_benchmark(hg_id_t id, ssg_member_id_t target, 
    ssg_group_id_t gid, margo_instance_id mid)
{
    hg_handle_t handle;
    hg_addr_t target_addr;
    int ret;

    target_addr = ssg_get_addr(gid, target);
    assert(target_addr != HG_ADDR_NULL);

    ret = margo_create(mid, target_addr, id, &handle);
    assert(ret == 0);

    ret = margo_forward(handle, NULL);
    assert(ret == 0);

    margo_destroy(handle);

    return(0);
}

#if 0
static void bench_routine_print(const char* op, int size, int iterations, double* measurement_array)
{
    double min, max, q1, q3, med, avg, sum;
    int bracket1, bracket2;
    int i;

    qsort(measurement_array, iterations, sizeof(double), measurement_cmp);

    min = measurement_array[0];
    max = measurement_array[iterations-1];

    sum = 0;
    for(i=0; i<iterations; i++)
    {
        sum += measurement_array[i];
    }
    avg = sum/(double)iterations;

    bracket1 = iterations/2;
    if(iterations%2)
        bracket2 = bracket1 + 1;
    else
        bracket2 = bracket1;
    med = (measurement_array[bracket1] + measurement_array[bracket2])/(double)2;

    bracket1 = iterations/4;
    if(iterations%4)
        bracket2 = bracket1 + 1;
    else
        bracket2 = bracket1;
    q1 = (measurement_array[bracket1] + measurement_array[bracket2])/(double)2;

    bracket1 *= 3;
    if(iterations%4)
        bracket2 = bracket1 + 1;
    else
        bracket2 = bracket1;
    q3 = (measurement_array[bracket1] + measurement_array[bracket2])/(double)2;

    printf("%s\t%d\t%d\t%.9f\t%.9f\t%.9f\t%.9f\t%.9f\t%.9f\n", op, iterations, size, min, q1, med, avg, q3, max);
#if 0
    for(i=0; i<iterations; i++)
    {
        printf("\t%.9f", measurement_array[i]);
    }
    printf("\n");
#endif
    fflush(NULL);

    return;
}

static int measurement_cmp(const void* a, const void *b)
{
    const double *d_a = a;
    const double *d_b = b;

    if(*d_a < *d_b)
        return(-1);
    else if(*d_a > *d_b)
        return(1);
    else
        return(0);
}
#endif

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/* function that assists in transferring data until end condition is met */
static void bw_worker(void *_arg)
{
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    struct bw_worker_arg *arg = _arg;
    double now;

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    printf("# DBG: worker started.\n");
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    now = ABT_get_wtime();

    while((now - arg->start_tm) < g_opts.duration_seconds)
    {
        /* TODO: run a bulk transfer */
        margo_thread_sleep(arg->mid, 1000.0);
        now = ABT_get_wtime();
    }

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    printf("# DBG: worker stopped.\n");
    return;
}