openmpi/ompi/mca/bcol/basesmuma/bcol_basesmuma_component.c

/*
 * Copyright (c) 2009-2012 Oak Ridge National Laboratory.  All rights reserved.
 * Copyright (c) 2009-2012 Mellanox Technologies.  All rights reserved.
 * $COPYRIGHT$
 *
 * Additional copyrights may follow
 *
 * $HEADER$
 */

/**
 * @file
 *
 */

#include "ompi_config.h"

#include "ompi/constants.h"
#include "ompi/communicator/communicator.h"
#include "ompi/mca/mpool/base/base.h"
#include "ompi/mca/bcol/bcol.h"
#include "ompi/mca/bcol/base/base.h"
#include "ompi/mca/coll/ml/coll_ml.h"

#include "orte/mca/rml/rml.h"
#include "orte/util/proc_info.h"

#include "bcol_basesmuma.h"
/*
 * Public string showing the coll ompi_sm V2 component version number
 */
const char *mca_bcol_basesmuma_component_version_string =
    "Open MPI bcol - basesmuma collective MCA component version " OMPI_VERSION;

/*
 * Local functions
 */

static int basesmuma_open(void);
static int basesmuma_close(void);
static int mca_bcol_basesmuma_deregister_ctl_sm(
    mca_bcol_basesmuma_component_t *bcol_component);


static inline int mca_bcol_basesmuma_param_register_int(
        const char* param_name, int default_value)
{
    int param_value;

    (void) mca_base_param_reg_int (&mca_bcol_basesmuma_component.super.bcol_version, param_name,
                                   NULL, false, false, default_value, &param_value);
    return param_value;
}

/*
 * Instantiate the public struct with all of our public information
 * and pointers to our public functions in it
 */

mca_bcol_basesmuma_component_t mca_bcol_basesmuma_component = {

    /* First, fill in the super */

    {
        /* First, the mca_component_t struct containing meta
           information about the component itself */
        
        {
            MCA_BCOL_BASE_VERSION_2_0_0,

            /* Component name and version */

            "basesmuma",
            OMPI_MAJOR_VERSION,
            OMPI_MINOR_VERSION,
            OMPI_RELEASE_VERSION,

            /* Component open and close functions */

            basesmuma_open,
            basesmuma_close,
        },

        /* Initialization / querying functions */
        
        mca_bcol_basesmuma_init_query,
        mca_bcol_basesmuma_comm_query,
        NULL,
        NULL,
        false,
        false,
        0, /* (default) priority */
    },
};

/*
 * Open the component
 */
static int basesmuma_open(void)
{

    /* local variables */
    mca_bcol_basesmuma_component_t *cs = &mca_bcol_basesmuma_component;
    int ret = OMPI_SUCCESS;
    opal_mutex_t *mutex_ptr;
    int dummy;

    /* set component priority */
    cs->super.priority=
        mca_bcol_basesmuma_param_register_int("priority",90);

    /* set control region size (bytes), per proc */
    cs->basesmuma_ctl_size_per_proc=
       
        mca_bcol_basesmuma_param_register_int("basesmuma_ctl_size_per_proc",
            CACHE_LINE_SIZE);

    /* set control region alignment (bytes) */
    cs->basesmuma_ctl_alignment=
        mca_bcol_basesmuma_param_register_int("basesmuma_ctl_alignment",
            getpagesize());

    /* Number of memory banks */
    cs->basesmuma_num_mem_banks=
        mca_bcol_basesmuma_param_register_int("basesmuma_num_ctl_banks",
                2);  

    /* Number of regions per memory bank */
    cs->basesmuma_num_regions_per_bank=
        mca_bcol_basesmuma_param_register_int("basesmuma_num_buffs_per_bank",
                16);   

    /* number of polling loops to allow pending resources to
     * complete their work
     */
    cs->n_poll_loops=
        mca_bcol_basesmuma_param_register_int("n_poll_loops",4);

    /*
     * Make sure that the number of banks is a power of 2
     */
    cs->basesmuma_num_mem_banks=
        roundup_to_power_radix(2,cs->basesmuma_num_mem_banks, &dummy);
    if ( 0 == cs->basesmuma_num_mem_banks ) {
        ret=OMPI_ERROR;
        goto ERROR;
    }
    
    /*
     * Make sure that the the number of buffers is a power of 2
     */
    cs->basesmuma_num_regions_per_bank=
        roundup_to_power_radix(2,cs->basesmuma_num_regions_per_bank, &dummy);
    if ( 0 == cs->basesmuma_num_regions_per_bank ) {
        ret=OMPI_ERROR;
        goto ERROR;
    }

    /* Number of groups supported */
    cs->n_groups_supported=
        mca_bcol_basesmuma_param_register_int("n_groups_supported",100);

    /* order of fanin tree */
    cs->radix_fanin=
        mca_bcol_basesmuma_param_register_int("radix_fanin",2);

    /* order of fanout tree */
    cs->radix_fanout=
        mca_bcol_basesmuma_param_register_int("radix_fanout",2);

    /* order of read tree */
    cs->radix_read_tree = 
        mca_bcol_basesmuma_param_register_int("radix_read_tree",3);

    /* order of reduction fanout tree */
    cs->order_reduction_tree=
        mca_bcol_basesmuma_param_register_int("order_reduction_tree",2);

    /* k-nomial radix */
    cs->k_nomial_radix=
        mca_bcol_basesmuma_param_register_int("k_nomial_radix",3);

    /* number of polling loops for non-blocking algorithms */
    cs->num_to_probe =
        mca_bcol_basesmuma_param_register_int("num_to_probe",10);

    /* radix of the k-ary scatter tree */
    cs->scatter_kary_radix =
        mca_bcol_basesmuma_param_register_int("scatter_kary_radix",4);

	/* Portals initialization */
	cs->portals_init = false;
	cs->portals_info = NULL;

    cs->verbose =
        mca_bcol_basesmuma_param_register_int("verbose",0);

    /* register parmeters controlling message fragementation */
    cs->super.min_frag_size=
        mca_bcol_basesmuma_param_register_int("min_frag_size",getpagesize());
    cs->super.max_frag_size=
        mca_bcol_basesmuma_param_register_int("max_frag_size",FRAG_SIZE_NO_LIMIT);
    /* by default use pre-registered shared memory segments */
    /* RLG NOTE: When we have a systematic way to handle single memory
     * copy semantics, we need to update this logic
     */
     cs->super.can_use_user_buffers=
        mca_bcol_basesmuma_param_register_int("can_use_user_buffers",0);
     cs->super.use_pipeline=
         mca_bcol_basesmuma_param_register_int("use_pipeline",1);

    /*
     * initialization
     */
    cs->sm_ctl_structs=NULL;
    OBJ_CONSTRUCT(&(cs->sm_connections_list),opal_list_t);
    OBJ_CONSTRUCT(&(cs->nb_admin_barriers),opal_list_t);
    mutex_ptr= &(cs->nb_admin_barriers_mutex);
    OBJ_CONSTRUCT(mutex_ptr, opal_mutex_t);

	/* Control structures object construct 
	 */
     OBJ_CONSTRUCT(&(cs->ctl_structures), opal_list_t);
	
    /* shared memory has not been registered yet */
    cs->mpool_inited = false;

    /* initialize base file names */
    cs->clt_base_fname="sm_ctl_mem_";
    cs->payload_base_fname="sm_payload_mem_";

    /* initialize the size of the shared memory scartch region */
    cs->my_scratch_shared_memory_size=getpagesize();
    cs->my_scratch_shared_memory=NULL;
    cs->scratch_offset_from_base_ctl_file=0;

    /*
     * register the progess function
     */
    ret=opal_progress_register(bcol_basesmuma_progress);
    if (MPI_SUCCESS != ret) {
        opal_output(0, "failed to register the progress function\n");
    }

    return ret;

ERROR:
    return ret;
}

/*
 * release the control structure backing file
 */
static int mca_bcol_basesmuma_deregister_ctl_sm(
    mca_bcol_basesmuma_component_t *bcol_component)
{

	/* local variables */
	int ret;
        bcol_basesmuma_smcm_mmap_t *sm_ctl_structs;

        /* get a handle on the backing file */
        sm_ctl_structs=bcol_component->sm_ctl_structs;
	/* Nothing to free */
	if (!sm_ctl_structs){
		return OMPI_SUCCESS;
	}

	/* unmap the shared memory file */
	ret=munmap((void *) sm_ctl_structs->map_addr, sm_ctl_structs->map_size);
       	if( 0 > ret) {
		fprintf(stderr,"Failed to munmap the shared memory file %s \n",
                    sm_ctl_structs->map_path);
		fflush(stderr);
		return OMPI_ERROR;
	}

	/* set the pointer to NULL */
	/*sm_ctl_structs->map_addr = NULL;*/
	 	 
	/* remove the file */
	/*ret = remove(sm_ctl_structs->map_path);*/
	if( 0 > ret) {
		fprintf(stderr,"Failed to remove the shared memory file %s \n",
                sm_ctl_structs->map_path);
                perror("Failed to remove the shared memory file");
		fflush(stderr);
		return OMPI_ERROR;
	}

	return OMPI_SUCCESS;
}


/*
 * Close the component
 */
static int basesmuma_close(void)
{
    int ret;
    bcol_basesmuma_registration_data_t *net_ctx;
    bcol_base_network_context_t *net_reg;
	mca_bcol_basesmuma_component_t *cs = &mca_bcol_basesmuma_component;

	/* gvm Leak FIX */
    while(!opal_list_is_empty(&(cs->ctl_structures))) {
        opal_list_item_t *item;
        item = opal_list_remove_first(&(cs->ctl_structures));
		OBJ_DESTRUCT(item);
	}
    OBJ_DESTRUCT(&(cs->ctl_structures));


    /* deregister the progress function */
    ret=opal_progress_unregister(bcol_basesmuma_progress);
    if (MPI_SUCCESS != ret) {
        opal_output(0, "failed to unregister the progress function\n");
    }

    /* remove the control structure backing file */
    ret=mca_bcol_basesmuma_deregister_ctl_sm(&mca_bcol_basesmuma_component);
    if (MPI_SUCCESS != ret) {
        opal_output(0, "failed to remove control structure backing file\n");
    }

    /* remove the network contexts - only one network context defined for
     * this component.
     */
    /* file_name returne by asprintf, so need to free the resource */
    if(mca_bcol_basesmuma_component.super.network_contexts ) {
        net_reg=(bcol_base_network_context_t *)
            mca_bcol_basesmuma_component.super.network_contexts[0];
        if(net_reg) {
            net_ctx=(bcol_basesmuma_registration_data_t *)net_reg->context_data;
            if( net_ctx) {
                if(net_ctx->file_name) {
                    free(net_ctx->file_name);
                }
                free(net_ctx);
            }
            free(net_reg);
        }
        free(mca_bcol_basesmuma_component.super.network_contexts);
        mca_bcol_basesmuma_component.super.network_contexts=NULL;
    }

    /* normal return */
    return OMPI_SUCCESS;
}

/* query to see if the component is available for use, and can 
 * satisfy the thread and progress requirements 
 */
int mca_bcol_basesmuma_init_query(bool enable_progress_threads,
        bool enable_mpi_threads)
{
    /* done */
    return OMPI_SUCCESS;
}

/* This routine is used to allocate shared memory for the the shared
 * memory control regions.
 */
int mca_bcol_basesmuma_allocate_sm_ctl_memory(mca_bcol_basesmuma_component_t *cs)
{
	/* local variables */
	int name_length, ret;
	size_t ctl_length;
        char *name, *ctl_mem;

        /* set the file name */
        name_length=asprintf(&name,
                "%s"OPAL_PATH_SEP"%s""%0d",
                orte_process_info.job_session_dir,
                cs->clt_base_fname,
                (int)getpid());
        if( 0 > name_length ) {
            return OMPI_ERROR;
        }
        /* make sure name is not too long */
        if ( OPAL_PATH_MAX < (name_length-1) ) {
            return OMPI_ERROR;
        } 

        /* compute segment length */

        ctl_length=(cs->basesmuma_num_mem_banks*
            cs->basesmuma_num_regions_per_bank+cs->basesmuma_num_mem_banks)
            *sizeof(mca_bcol_basesmuma_ctl_struct_t)*cs->n_groups_supported;
        /* need two banks of memory per group - for algorithms that have
         * user payload, and those that don't
         */
        ctl_length*=2;

        /* add space for internal library management purposes */
        ctl_length+=cs->my_scratch_shared_memory_size;

        /* round up to multiple of page size */
        ctl_length=(ctl_length-1)/getpagesize()+1;
        ctl_length*=getpagesize();

        /* allocate memory that will be mmaped */
	ctl_mem=(char *)valloc(ctl_length);
        if( !ctl_mem) {
            return OMPI_ERR_OUT_OF_RESOURCE;
        }

        /* allocate the shared file */
        cs->sm_ctl_structs=bcol_basesmuma_smcm_mem_reg(ctl_mem,
        	ctl_length,getpagesize(),name);
	if( !cs->sm_ctl_structs) {
            fprintf(stderr," In mca_bcol_basesmuma_allocate_sm_ctl_memory failed to allocathe backing file %s \n",name);
            ret=ORTE_ERR_OUT_OF_RESOURCE;
            goto Error;
        }

        /* free the memory allocated by asprintf for the file name -
         * in mca_base_smcm_mem_reg this name is copied into a new
         * memory location */
        free(name);

	/* successful return */
	return OMPI_SUCCESS;

Error:
        if(name) {
            free(name);
        }
        return ret;
}