resource-lp.c 17.1 KB
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/*
 * Copyright (C) 2014 University of Chicago.
 * See COPYRIGHT notice in top-level directory.
 *
*/

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#include <codes/codes-callback.h>
#include <codes/resource-lp.h>
#include <codes/resource.h>
#include <codes/codes_mapping.h>
#include <codes/configuration.h>
#include <codes/jenkins-hash.h>
#include <codes/quicklist.h>
#include <codes/lp-io.h>
#include <ross.h>
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#include <assert.h>
#include <stdio.h>
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#include <string.h>
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/**** BEGIN SIMULATION DATA STRUCTURES ****/

static int resource_magic; /* use this as sanity check on events */
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/* configuration globals (will be consumed by LP when they init) */
static uint64_t avail_unanno;
static uint64_t *avail_per_anno;
static const config_anno_map_t *anno_map;
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typedef struct resource_state resource_state;
typedef struct resource_msg resource_msg;
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typedef struct pending_op pending_op;
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#define TOKEN_DUMMY ((resource_token_t)-1)

/* event types */
enum resource_event
{
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    RESOURCE_GET = 100,
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    RESOURCE_FREE,
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    RESOURCE_DEQ,
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    RESOURCE_RESERVE,
};

struct resource_state {
    resource r;
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    /* pending operations - if OOM and we are using the 'blocking' method, 
     * then need to stash parameters.
     * Index 0 is the general pool, index 1.. are the reservation-specific
     * pools. We take advantage of resource_token_t's status as a simple 
     * array index to do the proper indexing */
    struct qlist_head pending[MAX_RESERVE+1];
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};

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/* following struct exists because we want to basically cache a message within
 * a message for rc (ewww) */
struct resource_msg_internal{
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    msg_header h;
    /* request data */
    uint64_t req;
    resource_token_t tok; /* only for reserved calls */
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    /* behavior when sending response to caller
     * 0 - send the callback immediately if resource unavailable. 
     * 1 - send the callback when memory is available (danger - deadlock
     * possible) */
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    int block_on_unavail;
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    /* callback data */
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    struct codes_cb_params cb;
};
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struct resource_msg {
    struct resource_msg_internal i, i_rc;
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    // for RC (asides from the message itself): the previous minimum resource
    // value
    uint64_t min_avail_rc;
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};

struct pending_op {
    struct resource_msg_internal m;
    struct qlist_head ql;
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};

/**** END SIMULATION DATA STRUCTURES ****/

/**** BEGIN LP, EVENT PROCESSING FUNCTION DECLS ****/

/* ROSS LP processing functions */  
static void resource_lp_ind_init(
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        resource_state * ns,
        tw_lp * lp);
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static void resource_event_handler(
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        resource_state * ns,
        tw_bf * b,
        resource_msg * m,
        tw_lp * lp);
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static void resource_rev_handler(
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        resource_state * ns,
        tw_bf * b,
        resource_msg * m,
        tw_lp * lp);
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static void resource_finalize(
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        resource_state * ns,
        tw_lp * lp);
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/* ROSS function pointer table for this LP */
static tw_lptype resource_lp = {
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    (init_f) resource_lp_ind_init,
    (pre_run_f) NULL,
    (event_f) resource_event_handler,
    (revent_f) resource_rev_handler,
    (final_f)  resource_finalize, 
    (map_f) codes_mapping,
    sizeof(resource_state),
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};

/**** END LP, EVENT PROCESSING FUNCTION DECLS ****/

/**** BEGIN IMPLEMENTATIONS ****/

void resource_lp_ind_init(
        resource_state * ns,
        tw_lp * lp){
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    // get my annotation
    const char * anno = codes_mapping_get_annotation_by_lpid(lp->gid);
    if (anno == NULL){
        resource_init(avail_unanno, &ns->r);
    }
    else{
        int idx = configuration_get_annotation_index(anno, anno_map);
        if (idx < 0){
            tw_error("resource LP %lu: unable to find annotation "
                    "%s in configuration\n", lp->gid, anno);
        }
        else{
            resource_init(avail_per_anno[idx], &ns->r);
        }
    }
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    int i;
    for (i = 0; i < MAX_RESERVE+1; i++){
        INIT_QLIST_HEAD(&ns->pending[i]);
    }
}

static void resource_response(
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        struct codes_cb_params const * p,
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        tw_lp *lp,
        int ret,
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        resource_token_t tok)
{
    SANITY_CHECK_CB(&p->info, resource_return);

    tw_event *e = tw_event_new(p->h.src, codes_local_latency(lp), lp);
    void * m = tw_event_data(e);

    GET_INIT_CB_PTRS(p, m, lp->gid, h, tag, rc, resource_return);

    rc->ret = ret;
    rc->tok = tok;

    tw_event_send(e);
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}
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static void resource_response_rc(tw_lp *lp){
    codes_local_latency_reverse(lp);
}

/* bitfield usage:
 * c0 - enqueued a message 
 * c1 - sent an ack 
 * c2 - successfully got the resource */
static void handle_resource_get(
        resource_state * ns,
        tw_bf * b,
        resource_msg * m,
        tw_lp * lp){
    int ret = 1;
    int send_ack = 1;
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    // save the previous minimum for RC
    assert(!resource_get_min_avail(m->i.tok, &m->min_avail_rc, &ns->r));
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    if (!qlist_empty(&ns->pending[m->i.tok]) || 
            (ret = resource_get(m->i.req, m->i.tok, &ns->r))){
        /* failed to receive data */
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        if (ret == 2)
            tw_error(TW_LOC,
                    "resource LP %lu: invalid token %d passed in "
                    "(%d tokens created)\n",
                    lp->gid, m->i.tok, ns->r.num_tokens);
        else if (ret == -1)
            tw_error(TW_LOC,
                    "resource LP %lu: unsatisfiable request: "
                    "token %d, size %lu\n",
                    lp->gid, m->i.tok, m->i.req);

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        if (m->i.block_on_unavail){
            /* queue up operation, save til later */
            b->c0 = 1;
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            pending_op *op = (pending_op*)malloc(sizeof(pending_op));
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            op->m = m->i; /* no need to set rc msg here */
            qlist_add_tail(&op->ql, &ns->pending[m->i.tok]);
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            send_ack = 0;
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        }
    }
    if (send_ack){
        b->c1 = 1;
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        resource_response(&m->i.cb, lp, ret, TOKEN_DUMMY);
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    }

    b->c2 = !ret;
}

/* bitfield usage:
 * c0 - enqueued a message 
 * c1 - sent an ack 
 * c2 - successfully got the resource */
static void handle_resource_get_rc(
        resource_state * ns,
        tw_bf * b,
        resource_msg * m,
        tw_lp * lp){
    if (b->c0){
        assert(!qlist_empty(&ns->pending[m->i.tok]));
        struct qlist_head *ql = qlist_pop_back(&ns->pending[m->i.tok]);
        free(qlist_entry(ql, pending_op, ql));
    }
    else if (b->c1){
        resource_response_rc(lp);
    }

    if (b->c2){
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        assert(!resource_restore_min_avail(m->i.tok, m->min_avail_rc, &ns->r));
        assert(!resource_free(m->i.req, m->i.tok, &ns->r));
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    }
}

static void handle_resource_free(
        resource_state * ns,
        tw_bf * b,
        resource_msg * m,
        tw_lp * lp){
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    (void)b;
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    assert(!resource_free(m->i.req, m->i.tok, &ns->r));
    /* create an event to pop the next queue item */
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    tw_event *e = tw_event_new(lp->gid, codes_local_latency(lp), lp);
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    resource_msg *m_deq = (resource_msg*)tw_event_data(e);
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    msg_set_header(resource_magic, RESOURCE_DEQ, lp->gid, &m_deq->i.h);
    m_deq->i.tok = m->i.tok; /* only tok is needed, all others grabbed from q */
    tw_event_send(e);
}
static void handle_resource_free_rc(
        resource_state * ns,
        tw_bf * b,
        resource_msg * m,
        tw_lp * lp){
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    (void)b;
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    assert(!resource_get(m->i.req, m->i.tok, &ns->r));
    codes_local_latency_reverse(lp);
}

/* bitfield usage:
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 * c0 - queue was empty to begin with
 * c1 - assuming !c0, alloc succeeded */ 
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static void handle_resource_deq(
        resource_state * ns,
        tw_bf * b,
        resource_msg * m,
        tw_lp * lp){
    if (qlist_empty(&ns->pending[m->i.tok])){
        /* nothing to do */
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        b->c0 = 1;
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        return;
    }

    struct qlist_head *front = ns->pending[m->i.tok].next;
    pending_op *p = qlist_entry(front, pending_op, ql);
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    assert(!resource_get_min_avail(m->i.tok, &m->min_avail_rc, &ns->r));
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    int ret = resource_get(p->m.req, p->m.tok, &ns->r);
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    assert(ret != 2 && ret != -1);
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    if (!ret){
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        b->c1 = 1;
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        /* success, dequeue (saving as rc) and send to client */
        qlist_del(front);
        m->i_rc = p->m;
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        resource_response(&p->m.cb, lp, ret, TOKEN_DUMMY);
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        free(p);
        /* additionally attempt to dequeue next one down */
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        tw_event *e = tw_event_new(lp->gid, codes_local_latency(lp), lp);
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        resource_msg *m_deq = (resource_msg*)tw_event_data(e);
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        msg_set_header(resource_magic, RESOURCE_DEQ, lp->gid, &m_deq->i.h);
        /* only tok is needed, all others grabbed from q */
        m_deq->i.tok = m->i.tok; 
        tw_event_send(e);
    }
    /* else do nothing */
}

/* bitfield usage:
 * c0 - dequeue+alloc success */ 
static void handle_resource_deq_rc(
        resource_state * ns,
        tw_bf * b,
        resource_msg * m,
        tw_lp * lp){
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    if (b->c0){
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        return;
    }

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    if (b->c1){
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        /* add operation back to the front of the queue */
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        pending_op *op = (pending_op*)malloc(sizeof(pending_op));
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        op->m = m->i_rc;
        qlist_add(&op->ql, &ns->pending[m->i.tok]);
        resource_response_rc(lp);
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        assert(!resource_restore_min_avail(m->i.tok, m->min_avail_rc, &ns->r)); 
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        assert(!resource_free(op->m.req, op->m.tok, &ns->r));
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        /* reverse "deq next" op */
        codes_local_latency_reverse(lp);
    }
}

static void handle_resource_reserve(
        resource_state * ns,
        tw_bf * b,
        resource_msg * m,
        tw_lp * lp){
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    (void)b;
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    resource_token_t tok;
    int ret = resource_reserve(m->i.req, &tok, &ns->r);
    assert(!ret);
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    resource_response(&m->i.cb, lp, ret, tok);
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}
static void handle_resource_reserve_rc(
        resource_state * ns,
        tw_bf * b,
        resource_msg * m,
        tw_lp * lp){
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    (void)b;
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    /* this reversal method is essentially a hack that relies on each
     * sequential reserve appending to the end of the list 
     * - we expect reserves to happen strictly at the beginning of the
     *   simulation */
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    /* NOTE: this logic will change if the resource_reserve logic changes */
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    ns->r.num_tokens--;
    ns->r.max[0] += m->i.req;
    ns->r.avail[0] += m->i.req;
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    resource_response_rc(lp);
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}

void resource_event_handler(
        resource_state * ns,
        tw_bf * b,
        resource_msg * m,
        tw_lp * lp){
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    assert(m->i.h.magic == resource_magic);
    switch(m->i.h.event_type){
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        case RESOURCE_GET:
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            handle_resource_get(ns,b,m,lp);
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            break;
        case RESOURCE_FREE:
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            handle_resource_free(ns,b,m,lp);
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            break;
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        case RESOURCE_DEQ:
            handle_resource_deq(ns,b,m,lp);
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            break;
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        case RESOURCE_RESERVE:
            handle_resource_reserve(ns,b,m,lp);
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            break;
        default:
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            assert(0);
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    }
}
void resource_rev_handler(
        resource_state * ns,
        tw_bf * b,
        resource_msg * m,
        tw_lp * lp){
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    assert(m->i.h.magic == resource_magic);
    switch(m->i.h.event_type){
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        case RESOURCE_GET:
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            handle_resource_get_rc(ns,b,m,lp);
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            break;
        case RESOURCE_FREE:
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            handle_resource_free_rc(ns,b,m,lp);
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            break;
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        case RESOURCE_DEQ:
            handle_resource_deq_rc(ns,b,m,lp);
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            break;
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        case RESOURCE_RESERVE:
            handle_resource_reserve_rc(ns,b,m,lp);
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            break;
        default:
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            assert(0);
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    }
}

void resource_finalize(
        resource_state * ns,
        tw_lp * lp){
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    struct qlist_head *ent;
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    for (int i = 0; i < MAX_RESERVE+1; i++){
        qlist_for_each(ent, &ns->pending[i]){
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            fprintf(stderr, "WARNING: resource LP %llu has a pending allocation\n",
                    LLU(lp->gid));
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        }
    }

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    char *out_buf = (char*)malloc(1<<12);
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    int written;
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    // see if I'm the "first" resource (currently doing it globally)
    if (codes_mapping_get_lp_relative_id(lp->gid, 0, 0) == 0){
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        written = sprintf(out_buf, 
                "# format: <LP> <max used general> <max used token...>\n");
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        lp_io_write(lp->gid, RESOURCE_LP_NM, written, out_buf);
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    }
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    written = sprintf(out_buf, "%llu", LLU(lp->gid));
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    // compute peak resource usage
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    // TODO: wrap this up in the resource interface
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    for (unsigned i = 0; i < ns->r.num_tokens+1; i++){
        written += sprintf(out_buf+written, " %llu", LLU(ns->r.max[i]-ns->r.min_avail[i]));
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    }
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    written += sprintf(out_buf+written, "\n");
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    lp_io_write(lp->gid, RESOURCE_LP_NM, written, out_buf);
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}

/**** END IMPLEMENTATIONS ****/

/**** BEGIN USER-FACING FUNCTIONS ****/
void resource_lp_init(){
    uint32_t h1=0, h2=0;

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    bj_hashlittle2(RESOURCE_LP_NM, strlen(RESOURCE_LP_NM), &h1, &h2);
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    resource_magic = h1+h2;

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    lp_type_register(RESOURCE_LP_NM, &resource_lp);
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}

void resource_lp_configure(){
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    anno_map = codes_mapping_get_lp_anno_map(RESOURCE_LP_NM);
    avail_per_anno = (anno_map->num_annos > 0) ?
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        (uint64_t*)malloc(anno_map->num_annos * sizeof(*avail_per_anno)) :
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            NULL;
    // get the unannotated version
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    long int avail;
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    int ret;
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    if (anno_map->has_unanno_lp > 0){
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        ret = configuration_get_value_longint(&config, RESOURCE_LP_NM,
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            "available", NULL, &avail);
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        if (ret){
            fprintf(stderr,
                    "Could not find section:resource value:available for "
                    "resource LP\n");
            exit(1);
        }
        assert(avail > 0);
        avail_unanno = (uint64_t)avail;
    }
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    for (int i = 0; i < anno_map->num_annos; i++){
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        ret = configuration_get_value_longint(&config, RESOURCE_LP_NM,
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            "available", anno_map->annotations[i].ptr, &avail);
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        if (ret){
            fprintf(stderr,
                    "Could not find section:resource value:available@%s for "
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                    "resource LP\n", anno_map->annotations[i].ptr);
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            exit(1);
        }
        assert(avail > 0);
        avail_per_anno[i] = (uint64_t)avail;
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    }
}

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static void resource_lp_issue_event_base(
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        enum resource_event type,
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        uint64_t req,
        resource_token_t tok, /* only used in reserve_get/free */
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        int block_on_unavail,
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        tw_lp *sender,
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        struct codes_mctx const * map_ctx,
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        int return_tag,
        msg_header const *return_header,
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        struct codes_cb_info const *cb)
{
    if (cb)
        SANITY_CHECK_CB(cb, resource_return);

    tw_lpid resource_lpid =
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        codes_mctx_to_lpid(map_ctx, RESOURCE_LP_NM, sender->gid);
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    tw_event *e = tw_event_new(resource_lpid, codes_local_latency(sender),
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            sender);

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    resource_msg *m = tw_event_data(e);

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    msg_set_header(resource_magic, type, sender->gid, &m->i.h);
    m->i.req = req;
    m->i.tok = tok;
    m->i.block_on_unavail = block_on_unavail;
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    if (map_ctx != NULL && cb != NULL && return_header != NULL) {
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        m->i.cb.info = *cb;
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        m->i.cb.h = *return_header;
        m->i.cb.tag = return_tag;
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    }

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    tw_event_send(e);
}

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void resource_lp_get(
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        uint64_t req,
        int block_on_unavail,
        tw_lp *sender,
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        struct codes_mctx const * map_ctx,
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        int return_tag,
        msg_header const *return_header,
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        struct codes_cb_info const *cb)
{
    resource_lp_issue_event_base(RESOURCE_GET, req, 0, block_on_unavail,
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            sender, map_ctx, return_tag, return_header, cb);
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}

/* no callback for frees thus far */
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void resource_lp_free(
        uint64_t req,
        tw_lp *sender,
        struct codes_mctx const * map_ctx)
{
    resource_lp_issue_event_base(RESOURCE_FREE, req, 0, -1, sender, map_ctx,
            0, NULL, NULL);
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}
void resource_lp_reserve(
        uint64_t req,
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        int block_on_unavail,
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        tw_lp *sender,
        struct codes_mctx const * map_ctx,
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        int return_tag,
        msg_header const *return_header,
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        struct codes_cb_info const *cb)
{
    resource_lp_issue_event_base(RESOURCE_RESERVE, req, 0, block_on_unavail,
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            sender, map_ctx, return_tag, return_header, cb);
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}
void resource_lp_get_reserved(
        uint64_t req,
        resource_token_t tok,
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        int block_on_unavail,
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        tw_lp *sender,
        struct codes_mctx const * map_ctx,
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        int return_tag,
        msg_header const *return_header,
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        struct codes_cb_info const *cb)
{
    resource_lp_issue_event_base(RESOURCE_GET, req, tok, block_on_unavail,
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            sender, map_ctx, return_tag, return_header, cb);
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}
void resource_lp_free_reserved(
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        uint64_t req,
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        resource_token_t tok,
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        tw_lp *sender,
        struct codes_mctx const * map_ctx)
{
    resource_lp_issue_event_base(RESOURCE_FREE, req, tok, -1,
            sender, map_ctx, 0, NULL, NULL);
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}

/* rc functions - thankfully, they only use codes-local-latency, so no need 
 * to pass in any arguments */

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static void resource_lp_issue_event_base_rc(tw_lp *sender){
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    codes_local_latency_reverse(sender);
}

void resource_lp_get_rc(tw_lp *sender){
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    resource_lp_issue_event_base_rc(sender);
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}
void resource_lp_free_rc(tw_lp *sender){
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    resource_lp_issue_event_base_rc(sender);
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}
void resource_lp_reserve_rc(tw_lp *sender){
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    resource_lp_issue_event_base_rc(sender);
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}
void resource_lp_get_reserved_rc(tw_lp *sender){
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    resource_lp_issue_event_base_rc(sender);
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}
void resource_lp_free_reserved_rc(tw_lp *sender){
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    resource_lp_issue_event_base_rc(sender);
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}

/*
 * Local variables:
 *  c-indent-level: 4
 *  c-basic-offset: 4
 * End:
 *
 * vim: ts=8 sts=4 sw=4 expandtab
 */