server-hang.c 3.58 KB
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/*
 * (C) 2015 The University of Chicago
 * 
 * See COPYRIGHT in top-level directory.
 */

#include <stdio.h>
#include <assert.h>
#include <unistd.h>
#include <abt.h>
#include <abt-snoozer.h>
#include <margo.h>

#include "my-rpc.h"

/* example server program.  Starts HG engine, registers the example RPC type,
 * and then executes indefinitely.
 *
 * This version is special; it deliberately executes a scenario in which the
 * progress thread will not be able to proceed; this is simply to serve as a
 * test case for timeout.
 */

int main(int argc, char **argv) 
{
    int ret;
    margo_instance_id mid;
    ABT_xstream handler_xstream;
    ABT_pool handler_pool;
    hg_context_t *hg_context;
    hg_class_t *hg_class;
    
    if(argc != 1)
    {
        fprintf(stderr, "Usage: ./server-hang\n");
        return(-1);
    }

    /* boilerplate HG initialization steps */
    /***************************************/
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    hg_class = HG_Init("tcp://localhost:1234", HG_TRUE);
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    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);
    }

    /* set up argobots */
    /***************************************/
    ret = ABT_init(argc, argv);
    if(ret != 0)
    {
        fprintf(stderr, "Error: ABT_init()\n");
        return(-1);
    }

    /* set primary ES to idle without polling */
    ret = ABT_snoozer_xstream_self_set();
    if(ret != 0)
    {
        fprintf(stderr, "Error: ABT_snoozer_xstream_self_set()\n");
        return(-1);
    }

    /* Find primary pool to use for running rpc handlers */
    ret = ABT_xstream_self(&handler_xstream);
    if(ret != 0)
    {
        fprintf(stderr, "Error: ABT_xstream_self()\n");
        return(-1);
    }
    ret = ABT_xstream_get_main_pools(handler_xstream, 1, &handler_pool);
    if(ret != 0)
    {
        fprintf(stderr, "Error: ABT_xstream_get_main_pools()\n");
        return(-1);
    }

    /* actually start margo */
    /* provide argobots pools for driving communication progress and
     * executing rpc handlers as well as class and context for Mercury
     * communication.
     */
    /***************************************/
    mid = margo_init(handler_pool, handler_pool, hg_context, hg_class);
    assert(mid);

    /* register RPC */
    MERCURY_REGISTER(hg_class, "my_rpc", my_rpc_in_t, my_rpc_out_t, 
        my_rpc_ult_handler);
    MERCURY_REGISTER(hg_class, "my_shutdown_rpc", void, void, 
        my_rpc_shutdown_ult_handler);

    /* NOTE: this is intentional; because this test program uses the main
     * thread for Mercury progress, we can stall everything with a long sleep
     * here.
     */
    sleep(5000);

    /* NOTE: at this point this server ULT has two options.  It can wait on
     * whatever mechanism it wants to (however long the daemon should run and
     * then call margo_finalize().  Otherwise, it can call
     * margo_wait_for_finalize() on the assumption that it should block until
     * some other entity calls margo_finalize().
     *
     * This example does the latter.  Margo will be finalized by a special
     * RPC from the client.
     *
     * This approach will allow the server to idle gracefully even when
     * executed in "single" mode, in which the main thread of the server
     * daemon and the progress thread for Mercury are executing in the same
     * ABT pool.
     */
    margo_wait_for_finalize(mid);

    ABT_finalize();

    HG_Context_destroy(hg_context);
    HG_Finalize(hg_class);

    return(0);
}