model-net-mpi-replay.c 50.7 KB
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/*
 * Copyright (C) 2014 University of Chicago.
 * See COPYRIGHT notice in top-level directory.
 *
 */
#include <ross.h>
#include <inttypes.h>

#include "codes/codes-workload.h"
#include "codes/codes.h"
#include "codes/configuration.h"
#include "codes/codes_mapping.h"
#include "codes/model-net.h"
#include "codes/rc-stack.h"
#include "codes/quicklist.h"
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#include "codes/codes-jobmap.h"
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/* turning on track lp will generate a lot of output messages */
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#define MN_LP_NM "modelnet_dragonfly_custom"
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#define TRACK_LP -1
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#define TRACE -1
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#define MAX_WAIT_REQS 512
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#define CS_LP_DBG 0
#define lprintf(_fmt, ...) \
        do {if (CS_LP_DBG) printf(_fmt, __VA_ARGS__);} while (0)
#define MAX_STATS 65536
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char workload_type[128];
char workload_file[8192];
char offset_file[8192];
static int wrkld_id;
static int num_net_traces = 0;
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static int alloc_spec = 0;
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static double self_overhead = 10.0;
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/* Doing LP IO*/
static char lp_io_dir[256] = {'\0'};
static lp_io_handle io_handle;
static unsigned int lp_io_use_suffix = 0;
static int do_lp_io = 0;

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/* variables for loading multiple applications */
/* Xu's additions start */
char workloads_conf_file[8192];
char alloc_file[8192];
int num_traces_of_job[5];
char file_name_of_job[5][8192];

struct codes_jobmap_ctx *jobmap_ctx;
struct codes_jobmap_params_list jobmap_p;
/* Xu's additions end */

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typedef struct nw_state nw_state;
typedef struct nw_message nw_message;
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typedef int32_t dumpi_req_id;
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static int net_id = 0;
static float noise = 5.0;
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static int num_net_lps = 0, num_mpi_lps = 0;
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FILE * workload_log = NULL;
FILE * workload_agg_log = NULL;
FILE * workload_meta_log = NULL;

static uint64_t sample_bytes_written = 0;
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long long num_bytes_sent=0;
long long num_bytes_recvd=0;

double max_time = 0,  max_comm_time = 0, max_wait_time = 0, max_send_time = 0, max_recv_time = 0;
double avg_time = 0, avg_comm_time = 0, avg_wait_time = 0, avg_send_time = 0, avg_recv_time = 0;

/* global variables for codes mapping */
static char lp_group_name[MAX_NAME_LENGTH], lp_type_name[MAX_NAME_LENGTH], annotation[MAX_NAME_LENGTH];
static int mapping_grp_id, mapping_type_id, mapping_rep_id, mapping_offset;

/* runtime option for disabling computation time simulation */
static int disable_delay = 0;
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static int enable_sampling = 0;
static double sampling_interval = 5000000;
static double sampling_end_time = 3000000000;
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static int enable_debug = 1;
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/* set group context */
struct codes_mctx group_ratio;

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/* MPI_OP_GET_NEXT is for getting next MPI operation when the previous operation completes.
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* MPI_SEND_ARRIVED is issued when a MPI message arrives at its destination (the message is transported by model-net and an event is invoked when it arrives.
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* MPI_SEND_POSTED is issued when a MPI message has left the source LP (message is transported via model-net). */
enum MPI_NW_EVENTS
{
	MPI_OP_GET_NEXT=1,
	MPI_SEND_ARRIVED,
    MPI_SEND_ARRIVED_CB, // for tracking message times on sender
	MPI_SEND_POSTED,
};

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struct mpi_workload_sample
{
    /* Sampling data */
    int nw_id;
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    int app_id;
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    unsigned long num_sends_sample;
    unsigned long num_bytes_sample;
    unsigned long num_waits_sample;
    double sample_end_time;
};
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/* stores pointers of pending MPI operations to be matched with their respective sends/receives. */
struct mpi_msgs_queue
{
    int op_type;
    int tag;
    int source_rank;
    int dest_rank;
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    uint64_t num_bytes;
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    tw_stime req_init_time;
	dumpi_req_id req_id;
    struct qlist_head ql;
};

/* stores request IDs of completed MPI operations (Isends or Irecvs) */
struct completed_requests
{
	dumpi_req_id req_id;
    struct qlist_head ql;
};

/* for wait operations, store the pending operation and number of completed waits so far. */
struct pending_waits
{
    int op_type;
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    int32_t req_ids[MAX_WAIT_REQS];
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	int num_completed;
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	int count;
    tw_stime start_time;
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    struct qlist_head ql;
};

typedef struct mpi_msgs_queue mpi_msgs_queue;
typedef struct completed_requests completed_requests;
typedef struct pending_waits pending_waits;

/* state of the network LP. It contains the pointers to send/receive lists */
struct nw_state
{
	long num_events_per_lp;
	tw_lpid nw_id;
	short wrkld_end;
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    int app_id;
    int local_rank;
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    struct rc_stack * processed_ops;
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    struct rc_stack * matched_reqs;
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    /* count of sends, receives, collectives and delays */
	unsigned long num_sends;
	unsigned long num_recvs;
	unsigned long num_cols;
	unsigned long num_delays;
	unsigned long num_wait;
	unsigned long num_waitall;
	unsigned long num_waitsome;

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	/* time spent by the LP in executing the app trace*/
	double start_time;
	double elapsed_time;
	/* time spent in compute operations */
	double compute_time;
	/* time spent in message send/isend */
	double send_time;
	/* time spent in message receive */
	double recv_time;
	/* time spent in wait operation */
	double wait_time;
	/* FIFO for isend messages arrived on destination */
	struct qlist_head arrival_queue;
	/* FIFO for irecv messages posted but not yet matched with send operations */
	struct qlist_head pending_recvs_queue;
	/* List of completed send/receive requests */
	struct qlist_head completed_reqs;
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    tw_stime cur_interval_end;

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    /* Pending wait operation */
    struct pending_waits * wait_op;
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    unsigned long num_bytes_sent;
    unsigned long num_bytes_recvd;

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    /* For sampling data */
    int sampling_indx;
    int max_arr_size;
    struct mpi_workload_sample * mpi_wkld_samples;
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    char output_buf[512];
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};

/* data for handling reverse computation.
* saved_matched_req holds the request ID of matched receives/sends for wait operations.
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* ptr_match_op holds the matched MPI operation which are removed from the queues when a send is matched with the receive in forward event handler.
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* network event being sent. op is the MPI operation issued by the network workloads API. rv_data holds the data for reverse computation (TODO: Fill this data structure only when the simulation runs in optimistic mode). */
struct nw_message
{
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   // forward message handler
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   int msg_type;
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   int op_type;
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   model_net_event_return event_rc;
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   struct
   {
       tw_lpid src_rank;
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       int dest_rank;
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       int64_t num_bytes;
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       int num_matched;
       int data_type;
       double sim_start_time;
       // for callbacks - time message was received
       double msg_send_time;
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       int16_t req_id;
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       int tag;
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       int app_id;
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       int found_match;
       short wait_completed;
   } fwd;
   struct
   {
       double saved_send_time;
       double saved_recv_time;
       double saved_wait_time;
       double saved_delay;
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       int16_t saved_num_bytes;
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       struct codes_workload_op * saved_op;
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   } rc;
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};

/* executes MPI isend and send operations */
static void codes_exec_mpi_send(
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        nw_state* s, tw_bf * bf, nw_message * m, tw_lp* lp, struct codes_workload_op * mpi_op);
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/* execute MPI irecv operation */
static void codes_exec_mpi_recv(
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        nw_state* s, tw_bf * bf, nw_message * m, tw_lp * lp, struct codes_workload_op * mpi_op);
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/* reverse of mpi recv function. */
static void codes_exec_mpi_recv_rc(
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        nw_state* s, tw_bf * bf, nw_message* m, tw_lp* lp);
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/* execute the computational delay */
static void codes_exec_comp_delay(
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        nw_state* s, nw_message * m, tw_lp* lp, struct codes_workload_op * mpi_op);
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/* gets the next MPI operation from the network-workloads API. */
static void get_next_mpi_operation(
        nw_state* s, tw_bf * bf, nw_message * m, tw_lp * lp);
/* reverse handler of get next mpi operation. */
static void get_next_mpi_operation_rc(
        nw_state* s, tw_bf * bf, nw_message * m, tw_lp * lp);
/* Makes a call to get_next_mpi_operation. */
static void codes_issue_next_event(tw_lp* lp);
/* reverse handler of next operation */
static void codes_issue_next_event_rc(tw_lp* lp);


///////////////////// HELPER FUNCTIONS FOR MPI MESSAGE QUEUE HANDLING ///////////////
/* upon arrival of local completion message, inserts operation in completed send queue */
/* upon arrival of an isend operation, updates the arrival queue of the network */
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static void update_completed_queue(
        nw_state * s, tw_bf * bf, nw_message * m, tw_lp * lp, dumpi_req_id req_id);
/* reverse of the above function */
static void update_completed_queue_rc(
        nw_state*s,
        tw_bf * bf,
        nw_message * m,
        tw_lp * lp);
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static void update_arrival_queue(
        nw_state*s, tw_bf* bf, nw_message* m, tw_lp * lp);
/* reverse of the above function */
static void update_arrival_queue_rc(
        nw_state*s, tw_bf* bf, nw_message* m, tw_lp * lp);
/* callback to a message sender for computing message time */
static void update_message_time(
        nw_state*s, tw_bf* bf, nw_message* m, tw_lp * lp);
/* reverse for computing message time */
static void update_message_time_rc(
        nw_state*s, tw_bf* bf, nw_message* m, tw_lp * lp);

/* conversion from seconds to eanaoseconds */
static tw_stime s_to_ns(tw_stime ns);

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/* Debugging functions, may generate unused function warning */
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static void print_waiting_reqs(int32_t * reqs, int count)
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{
    printf("\n Waiting reqs: ");
    int i;
    for(i = 0; i < count; i++ )
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        printf(" %d ", reqs[i]);
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}
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static void print_msgs_queue(struct qlist_head * head, int is_send)
{
    if(is_send)
        printf("\n Send msgs queue: ");
    else
        printf("\n Recv msgs queue: ");

    struct qlist_head * ent = NULL;
    mpi_msgs_queue * current = NULL;
    qlist_for_each(ent, head)
       {
            current = qlist_entry(ent, mpi_msgs_queue, ql);
            printf(" \n Source %d Dest %d bytes %d tag %d ", current->source_rank, current->dest_rank, current->num_bytes, current->tag);
       }
}
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static void print_completed_queue(struct qlist_head * head)
{
    printf("\n Completed queue: ");
      struct qlist_head * ent = NULL;
      struct completed_requests* current = NULL;
      qlist_for_each(ent, head)
       {
            current = qlist_entry(ent, completed_requests, ql);
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            printf(" %d ", current->req_id);
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       }
}
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static int clear_completed_reqs(nw_state * s,
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        tw_lp * lp,
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        int32_t * reqs, int count)
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{
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    int i, matched = 0;
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    for( i = 0; i < count; i++)
    {
      struct qlist_head * ent = NULL;
      qlist_for_each(ent, &s->completed_reqs)
       {
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            struct completed_requests* current =
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                qlist_entry(ent, completed_requests, ql);
            if(current->req_id == reqs[i])
            {
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                ++matched;
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                qlist_del(&current->ql);
                rc_stack_push(lp, current, free, s->matched_reqs);
            }
       }
    }
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    return matched;
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}
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static void add_completed_reqs(nw_state * s,
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        tw_lp * lp,
        int count)
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{
    int i;
    for( i = 0; i < count; i++)
    {
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       struct completed_requests * req = rc_stack_pop(s->matched_reqs);
       qlist_add(&req->ql, &s->completed_reqs);
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    }
}
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/* helper function - maps an MPI rank to an LP id */
static tw_lpid rank_to_lpid(int rank)
{
    return codes_mapping_get_lpid_from_relative(rank, NULL, "nw-lp", NULL, 0);
}

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static int notify_posted_wait(nw_state* s,
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        tw_bf * bf, nw_message * m, tw_lp * lp,
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        dumpi_req_id completed_req)
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{
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    struct pending_waits* wait_elem = s->wait_op;
    int wait_completed = 0;
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    m->fwd.wait_completed = 0;
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    if(!wait_elem)
        return 0;
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    int op_type = wait_elem->op_type;
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    if(op_type == CODES_WK_WAIT &&
            (wait_elem->req_ids[0] == completed_req))
    {
            wait_completed = 1;
    }
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    else if(op_type == CODES_WK_WAITALL
            || op_type == CODES_WK_WAITANY
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            || op_type == CODES_WK_WAITSOME)
    {
        int i;
        for(i = 0; i < wait_elem->count; i++)
        {
            if(wait_elem->req_ids[i] == completed_req)
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            {
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                wait_elem->num_completed++;
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                if(wait_elem->num_completed > wait_elem->count)
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                    printf("\n Num completed %d count %d LP %llu ",
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                            wait_elem->num_completed,
                            wait_elem->count,
                            lp->gid);
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//                if(wait_elem->num_completed > wait_elem->count)
//                    tw_lp_suspend(lp, 1, 0);
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                if(wait_elem->num_completed == wait_elem->count)
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                {
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                    if(enable_debug)
                        fprintf(workload_log, "\n(%lf) APP ID %d MPI WAITALL COMPLETED AT %ld ", s->app_id, tw_now(lp), s->nw_id);
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                    wait_completed = 1;
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                }
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                m->fwd.wait_completed = 1;
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            }
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        }
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    }
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    return wait_completed;
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}
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/* reverse handler of MPI wait operation */
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static void codes_exec_mpi_wait_rc(nw_state* s, tw_lp* lp)
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{
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    if(s->wait_op)
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     {
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         struct pending_waits * wait_op = s->wait_op;
         free(wait_op);
         s->wait_op = NULL;
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     }
   else
    {
        codes_issue_next_event_rc(lp);
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        completed_requests * qi = rc_stack_pop(s->processed_ops);
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        qlist_add(&qi->ql, &s->completed_reqs);
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    }
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    return;
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}
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/* execute MPI wait operation */
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static void codes_exec_mpi_wait(nw_state* s, tw_lp* lp, struct codes_workload_op * mpi_op)
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{
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    /* check in the completed receives queue if the request ID has already been completed.*/
    assert(!s->wait_op);
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    dumpi_req_id req_id = mpi_op->u.wait.req_id;
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    struct completed_requests* current = NULL;
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    struct qlist_head * ent = NULL;
    qlist_for_each(ent, &s->completed_reqs)
    {
        current = qlist_entry(ent, completed_requests, ql);
        if(current->req_id == req_id)
        {
            qlist_del(&current->ql);
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            rc_stack_push(lp, current, free, s->processed_ops);
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            codes_issue_next_event(lp);
            return;
        }
    }
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    /* If not, add the wait operation in the pending 'waits' list. */
    struct pending_waits* wait_op = malloc(sizeof(struct pending_waits));
    wait_op->op_type = mpi_op->op_type;
    wait_op->req_ids[0] = req_id;
    wait_op->count = 1;
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    wait_op->num_completed = 0;
    wait_op->start_time = tw_now(lp);
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    s->wait_op = wait_op;
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    return;
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}

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static void codes_exec_mpi_wait_all_rc(
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        nw_state* s,
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        tw_bf * bf,
        nw_message * m,
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        tw_lp* lp)
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{
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  if(bf->c1)
  {
    int sampling_indx = s->sampling_indx;
    s->mpi_wkld_samples[sampling_indx].num_waits_sample--;

    if(bf->c2)
    {
        s->cur_interval_end -= sampling_interval;
        s->sampling_indx--;
    }
  }
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  if(s->wait_op)
  {
      struct pending_waits * wait_op = s->wait_op;
      free(wait_op);
      s->wait_op = NULL;
  }
  else
  {
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      add_completed_reqs(s, lp, m->fwd.num_matched);
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      codes_issue_next_event_rc(lp);
  }
  return;
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}
static void codes_exec_mpi_wait_all(
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        nw_state* s,
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        tw_bf * bf,
        nw_message * m,
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        tw_lp* lp,
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        struct codes_workload_op * mpi_op)
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{
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  if(enable_debug)
    fprintf(workload_log, "\n MPI WAITALL POSTED AT %ld ", s->nw_id);
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  if(enable_sampling)
  {
    bf->c1 = 1;
    if(tw_now(lp) >= s->cur_interval_end)
    {
        bf->c2 = 1;
        int indx = s->sampling_indx;
        s->mpi_wkld_samples[indx].nw_id = s->nw_id;
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        s->mpi_wkld_samples[indx].app_id = s->app_id;
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        s->mpi_wkld_samples[indx].sample_end_time = s->cur_interval_end;
        s->cur_interval_end += sampling_interval;
        s->sampling_indx++;
    }
    if(s->sampling_indx >= MAX_STATS)
    {
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        struct mpi_workload_sample * tmp = calloc((MAX_STATS + s->max_arr_size), sizeof(struct mpi_workload_sample));
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        memcpy(tmp, s->mpi_wkld_samples, s->sampling_indx);
        free(s->mpi_wkld_samples);
        s->mpi_wkld_samples = tmp;
        s->max_arr_size += MAX_STATS;
    }
    int indx = s->sampling_indx;
    s->mpi_wkld_samples[indx].num_waits_sample++;
  }
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  int count = mpi_op->u.waits.count;
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  /* If the count is not less than max wait reqs then stop */
  assert(count < MAX_WAIT_REQS);
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  int i = 0, num_matched = 0;
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  m->fwd.num_matched = 0;
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  /*if(lp->gid == TRACK)
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  {
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      printf("\n MPI Wait all posted ");
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      print_waiting_reqs(mpi_op->u.waits.req_ids, count);
      print_completed_queue(&s->completed_reqs);
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  }*/
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      /* check number of completed irecvs in the completion queue */
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  for(i = 0; i < count; i++)
  {
      dumpi_req_id req_id = mpi_op->u.waits.req_ids[i];
      struct qlist_head * ent = NULL;
      struct completed_requests* current = NULL;
      qlist_for_each(ent, &s->completed_reqs)
       {
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            current = qlist_entry(ent, struct completed_requests, ql);
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            if(current->req_id == req_id)
                num_matched++;
       }
  }
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  m->fwd.found_match = num_matched;
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  if(num_matched == count)
  {
    /* No need to post a MPI Wait all then, issue next event */
      /* Remove all completed requests from the list */
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      m->fwd.num_matched = clear_completed_reqs(s, lp, mpi_op->u.waits.req_ids, count);
      struct pending_waits* wait_op = s->wait_op;
      free(wait_op);
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      s->wait_op = NULL;
      codes_issue_next_event(lp);
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  }
  else
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  {
      /* If not, add the wait operation in the pending 'waits' list. */
	  struct pending_waits* wait_op = malloc(sizeof(struct pending_waits));
	  wait_op->count = count;
      wait_op->op_type = mpi_op->op_type;
      assert(count < MAX_WAIT_REQS);

      for(i = 0; i < count; i++)
          wait_op->req_ids[i] =  mpi_op->u.waits.req_ids[i];

	  wait_op->num_completed = num_matched;
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	  wait_op->start_time = tw_now(lp);
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      s->wait_op = wait_op;
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  }
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  return;
}
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/* search for a matching mpi operation and remove it from the list.
 * Record the index in the list from where the element got deleted.
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 * Index is used for inserting the element once again in the queue for reverse computation. */
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static int rm_matching_rcv(nw_state * ns,
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        tw_bf * bf,
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        nw_message * m,
        tw_lp * lp,
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        mpi_msgs_queue * qitem)
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{
    int matched = 0;
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    int index = 0;
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    struct qlist_head *ent = NULL;
    mpi_msgs_queue * qi = NULL;
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    qlist_for_each(ent, &ns->pending_recvs_queue){
        qi = qlist_entry(ent, mpi_msgs_queue, ql);
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        if((qi->num_bytes == qitem->num_bytes)
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                && ((qi->tag == qitem->tag) || qi->tag == -1)
                && ((qi->source_rank == qitem->source_rank) || qi->source_rank == -1))
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        {
            matched = 1;
            break;
        }
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        ++index;
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    }
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    if(matched)
    {
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        m->rc.saved_recv_time = ns->recv_time;
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        ns->recv_time += (tw_now(lp) - qi->req_init_time);
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        if(qi->op_type == CODES_WK_IRECV)
            update_completed_queue(ns, bf, m, lp, qi->req_id);
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        else if(qi->op_type == CODES_WK_RECV)
            codes_issue_next_event(lp);
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        qlist_del(&qi->ql);
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        rc_stack_push(lp, qi, free, ns->processed_ops);
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        return index;
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    }
    return -1;
}

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static int rm_matching_send(nw_state * ns,
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        tw_bf * bf,
        nw_message * m,
        tw_lp * lp, mpi_msgs_queue * qitem)
630 631 632 633 634
{
    int matched = 0;
    struct qlist_head *ent = NULL;
    mpi_msgs_queue * qi = NULL;

635
    int index = 0;
636 637
    qlist_for_each(ent, &ns->arrival_queue){
        qi = qlist_entry(ent, mpi_msgs_queue, ql);
638
        if((qi->num_bytes == qitem->num_bytes)
639 640 641 642 643 644
                && (qi->tag == qitem->tag || qitem->tag == -1)
                && ((qi->source_rank == qitem->source_rank) || qitem->source_rank == -1))
        {
            matched = 1;
            break;
        }
645
        ++index;
646 647 648 649
    }

    if(matched)
    {
650
        m->rc.saved_recv_time = ns->recv_time;
651 652 653 654 655
        ns->recv_time += (tw_now(lp) - qitem->req_init_time);

        if(qitem->op_type == CODES_WK_IRECV)
            update_completed_queue(ns, bf, m, lp, qitem->req_id);

656
        qlist_del(&qi->ql);
657

658
        return index;
659 660 661 662 663
    }
    return -1;
}
static void codes_issue_next_event_rc(tw_lp * lp)
{
664
	    tw_rand_reverse_unif(lp->rng);
665 666 667 668 669 670 671 672 673 674 675 676 677 678 679 680 681 682 683 684
}

/* Trigger getting next event at LP */
static void codes_issue_next_event(tw_lp* lp)
{
   tw_event *e;
   nw_message* msg;

   tw_stime ts;

   ts = g_tw_lookahead + 0.1 + tw_rand_exponential(lp->rng, noise);
   e = tw_event_new( lp->gid, ts, lp );
   msg = tw_event_data(e);

   msg->msg_type = MPI_OP_GET_NEXT;
   tw_event_send(e);
}

/* Simulate delays between MPI operations */
static void codes_exec_comp_delay(
685
        nw_state* s, nw_message * m, tw_lp* lp, struct codes_workload_op * mpi_op)
686 687 688 689 690
{
	tw_event* e;
	tw_stime ts;
	nw_message* msg;

691
    m->rc.saved_delay = s->compute_time;
692 693
    s->compute_time += s_to_ns(mpi_op->u.delay.seconds);
    ts = s_to_ns(mpi_op->u.delay.seconds);
694 695

	ts += g_tw_lookahead + 0.1 + tw_rand_exponential(lp->rng, noise);
696

697 698 699
	e = tw_event_new( lp->gid, ts , lp );
	msg = tw_event_data(e);
	msg->msg_type = MPI_OP_GET_NEXT;
700 701
	tw_event_send(e);

702 703 704
}

/* reverse computation operation for MPI irecv */
705
static void codes_exec_mpi_recv_rc(
706 707 708
        nw_state* ns,
        tw_bf * bf,
        nw_message* m,
709
        tw_lp* lp)
710
{
711
	num_bytes_recvd -= m->rc.saved_num_bytes;
712 713
	ns->recv_time = m->rc.saved_recv_time;
	if(m->fwd.found_match >= 0)
714
	  {
715
		ns->recv_time = m->rc.saved_recv_time;
716 717 718 719
        int queue_count = qlist_count(&ns->arrival_queue);

        mpi_msgs_queue * qi = rc_stack_pop(ns->processed_ops);

720
        if(!m->fwd.found_match)
721 722 723
        {
            qlist_add(&qi->ql, &ns->arrival_queue);
        }
724
        else if(m->fwd.found_match >= queue_count)
725 726 727
        {
            qlist_add_tail(&qi->ql, &ns->arrival_queue);
        }
728
        else if(m->fwd.found_match > 0 && m->fwd.found_match < queue_count)
729
        {
730 731 732 733
            int index = 1;
            struct qlist_head * ent = NULL;
            qlist_for_each(ent, &ns->arrival_queue)
            {
734
               if(index == m->fwd.found_match)
735 736 737 738
               {
                 qlist_add(&qi->ql, ent);
                 break;
               }
739
               index++;
740
            }
741
        }
742
        if(qi->op_type == CODES_WK_IRECV)
743
        {
744
            update_completed_queue_rc(ns, bf, m, lp);
745
        }
746 747
        codes_issue_next_event_rc(lp);
      }
748
	else if(m->fwd.found_match < 0)
749
	    {
750
            struct qlist_head * ent = qlist_pop_back(&ns->pending_recvs_queue);
751 752
            mpi_msgs_queue * qi = qlist_entry(ent, mpi_msgs_queue, ql);
            free(qi);
753

754
            if(m->op_type == CODES_WK_IRECV)
755
                codes_issue_next_event_rc(lp);
756 757 758
	    }
}

759
/* Execute MPI Irecv operation (non-blocking receive) */
760
static void codes_exec_mpi_recv(
761
        nw_state* s,
762
        tw_bf * bf,
763 764
        nw_message * m,
        tw_lp* lp,
765
        struct codes_workload_op * mpi_op)
766 767 768 769 770
{
/* Once an irecv is posted, list of completed sends is checked to find a matching isend.
   If no matching isend is found, the receive operation is queued in the pending queue of
   receive operations. */

771
	m->rc.saved_recv_time = s->recv_time;
772 773
    m->rc.saved_num_bytes = mpi_op->u.recv.num_bytes;

774 775 776 777 778 779 780 781 782 783 784
	num_bytes_recvd += mpi_op->u.recv.num_bytes;

    mpi_msgs_queue * recv_op = (mpi_msgs_queue*) malloc(sizeof(mpi_msgs_queue));
    recv_op->req_init_time = tw_now(lp);
    recv_op->op_type = mpi_op->op_type;
    recv_op->source_rank = mpi_op->u.recv.source_rank;
    recv_op->dest_rank = mpi_op->u.recv.dest_rank;
    recv_op->num_bytes = mpi_op->u.recv.num_bytes;
    recv_op->tag = mpi_op->u.recv.tag;
    recv_op->req_id = mpi_op->u.recv.req_id;

785 786 787 788
    if(s->nw_id == TRACK_LP)
        printf("\n Receive op posted num bytes %d source %d ", recv_op->num_bytes,
                recv_op->source_rank);

789
	int found_matching_sends = rm_matching_send(s, bf, m, lp, recv_op);
790 791 792 793

	/* save the req id inserted in the completed queue for reverse computation. */
	if(found_matching_sends < 0)
	  {
794
	   	  m->fwd.found_match = -1;
795
          qlist_add_tail(&recv_op->ql, &s->pending_recvs_queue);
796

797 798 799
	       /* for mpi irecvs, this is a non-blocking receive so just post it and move on with the trace read. */
		if(mpi_op->op_type == CODES_WK_IRECV)
		   {
800
			codes_issue_next_event(lp);
801 802
			return;
		   }
803
      }
804 805
	else
	  {
806
        m->fwd.found_match = found_matching_sends;
807
        codes_issue_next_event(lp);
808 809
	    rc_stack_push(lp, recv_op, free, s->processed_ops);
      }
810 811
}

812 813 814 815 816 817 818 819
int get_global_id_of_job_rank(tw_lpid job_rank, int app_id)
{
    struct codes_jobmap_id lid;
    lid.job = app_id;
    lid.rank = job_rank;
    int global_rank = codes_jobmap_to_global_id(lid, jobmap_ctx);
    return global_rank;
}
820
/* executes MPI send and isend operations */
821
static void codes_exec_mpi_send(nw_state* s,
822 823
        tw_bf * bf,
        nw_message * m,
824
        tw_lp* lp,
825
        struct codes_workload_op * mpi_op)
826
{
827 828
	/* model-net event */
    int global_dest_rank = mpi_op->u.send.dest_rank;
829

830 831 832 833 834
    if(alloc_spec)
    {
        global_dest_rank = get_global_id_of_job_rank(mpi_op->u.send.dest_rank, s->app_id);
    }

835
    //printf("\n Sender rank %d global dest rank %d ", s->nw_id, global_dest_rank);
836
    m->rc.saved_num_bytes = mpi_op->u.send.num_bytes;
837
	/* model-net event */
838 839 840
	tw_lpid dest_rank = codes_mapping_get_lpid_from_relative(global_dest_rank, NULL, "nw-lp", NULL, 0);
	
    num_bytes_sent += mpi_op->u.send.num_bytes;
841
    s->num_bytes_sent += mpi_op->u.send.num_bytes;
842

843 844 845 846 847 848 849
    if(enable_sampling)
    {
        if(tw_now(lp) >= s->cur_interval_end)
        {
            bf->c1 = 1;
            int indx = s->sampling_indx;
            s->mpi_wkld_samples[indx].nw_id = s->nw_id;
850
            s->mpi_wkld_samples[indx].app_id = s->app_id;
851 852
            s->mpi_wkld_samples[indx].sample_end_time = s->cur_interval_end;
            s->sampling_indx++;
853
            s->cur_interval_end += sampling_interval;
854 855 856
        }
        if(s->sampling_indx >= MAX_STATS)
        {
857
            struct mpi_workload_sample * tmp = calloc((MAX_STATS + s->max_arr_size), sizeof(struct mpi_workload_sample));
858 859 860 861 862 863 864 865 866
            memcpy(tmp, s->mpi_wkld_samples, s->sampling_indx);
            free(s->mpi_wkld_samples);
            s->mpi_wkld_samples = tmp;
            s->max_arr_size += MAX_STATS;
        }
        int indx = s->sampling_indx;
        s->mpi_wkld_samples[indx].num_sends_sample++;
        s->mpi_wkld_samples[indx].num_bytes_sample += mpi_op->u.send.num_bytes;
    }
867 868 869
	nw_message local_m;
	nw_message remote_m;

870 871 872
    local_m.fwd.sim_start_time = tw_now(lp);
    local_m.fwd.dest_rank = mpi_op->u.send.dest_rank;
    local_m.fwd.src_rank = mpi_op->u.send.source_rank;
873
    local_m.op_type = mpi_op->op_type;
874
    local_m.msg_type = MPI_SEND_POSTED;
875 876 877
    local_m.fwd.tag = mpi_op->u.send.tag;
    local_m.fwd.num_bytes = mpi_op->u.send.num_bytes;
    local_m.fwd.req_id = mpi_op->u.send.req_id;
878
    local_m.fwd.app_id = s->app_id;
879 880 881 882

    remote_m = local_m;
	remote_m.msg_type = MPI_SEND_ARRIVED;

883 884
	m->event_rc = model_net_event_mctx(net_id, &group_ratio, &group_ratio, 
            "test", dest_rank, mpi_op->u.send.num_bytes, self_overhead,
885 886
	    sizeof(nw_message), (const void*)&remote_m, sizeof(nw_message), (const void*)&local_m, lp);

887 888 889 890
    if(enable_debug)
    {
        if(mpi_op->op_type == CODES_WK_ISEND)
        {
891 892
            fprintf(workload_log, "\n (%lf) APP %d MPI ISEND SOURCE %ld DEST %ld TAG %d BYTES %ld ",
                    tw_now(lp), s->app_id, s->nw_id, global_dest_rank, mpi_op->u.send.tag, mpi_op->u.send.num_bytes);
893 894
        }
        else
895 896 897
            fprintf(workload_log, "\n (%lf) APP ID %d MPI SEND SOURCE %ld DEST %ld TAG %d BYTES %ld ",
                    tw_now(lp), s->app_id, s->nw_id, global_dest_rank, mpi_op->u.send.tag, mpi_op->u.send.num_bytes);
    }
898
	/* isend executed, now get next MPI operation from the queue */
899 900 901 902 903 904 905 906 907 908
	if(mpi_op->op_type == CODES_WK_ISEND)
	   codes_issue_next_event(lp);
}

/* convert seconds to ns */
static tw_stime s_to_ns(tw_stime ns)
{
    return(ns * (1000.0 * 1000.0 * 1000.0));
}

909 910
static void update_completed_queue_rc(nw_state * s, tw_bf * bf, nw_message * m, tw_lp * lp)
{
911

912 913 914
    if(bf->c0)
    {
       struct qlist_head * ent = qlist_pop_back(&s->completed_reqs);
915 916 917 918 919 920 921

        completed_requests * req = qlist_entry(ent, completed_requests, ql);
      /*if(lp->gid == TRACK)
      {
          printf("\n After popping %ld ", req->req_id);
        print_completed_queue(&s->completed_reqs);
      }*/
922 923 924 925
       free(req);
    }
    else if(bf->c1)
    {
926
       struct pending_waits* wait_elem = rc_stack_pop(s->processed_ops);
927
       s->wait_op = wait_elem;
928 929
       s->wait_time = m->rc.saved_wait_time;
       add_completed_reqs(s, lp, m->fwd.num_matched);
930
       codes_issue_next_event_rc(lp);
931
    }
932 933
    if(m->fwd.wait_completed > 0)
           s->wait_op->num_completed--;
934 935
}

936
static void update_completed_queue(nw_state* s,
937 938 939 940 941 942 943
        tw_bf * bf,
        nw_message * m,
        tw_lp * lp,
        dumpi_req_id req_id)
{
    bf->c0 = 0;
    bf->c1 = 0;
944
    m->fwd.num_matched = 0;
945

946 947
    int waiting = 0;
    waiting = notify_posted_wait(s, bf, m, lp, req_id);
948

949 950 951 952 953 954
    if(!waiting)
    {
        bf->c0 = 1;
        completed_requests * req = malloc(sizeof(completed_requests));
        req->req_id = req_id;
        qlist_add_tail(&req->ql, &s->completed_reqs);
955

956 957 958 959 960
        /*if(lp->gid == TRACK)
        {
            printf("\n Forward mode adding %ld ", req_id);
            print_completed_queue(&s->completed_reqs);
        }*/
961
    }
962
    else
963 964
     {
            bf->c1 = 1;
965 966
            m->fwd.num_matched = clear_completed_reqs(s, lp, s->wait_op->req_ids, s->wait_op->count);
            m->rc.saved_wait_time = s->wait_time;
967
            s->wait_time += (tw_now(lp) - s->wait_op->start_time);
968 969 970

            struct pending_waits* wait_elem = s->wait_op;
            rc_stack_push(lp, wait_elem, free, s->processed_ops);
971
            s->wait_op = NULL;
972
            codes_issue_next_event(lp);
973 974 975
     }
}

976
/* reverse handler for updating arrival queue function */
977 978
static void update_arrival_queue_rc(nw_state* s,
        tw_bf * bf,
979
        nw_message * m, tw_lp * lp)
980
{
981
	s->recv_time = m->rc.saved_recv_time;
982 983
    s->num_bytes_recvd -= m->fwd.num_bytes;

984
    codes_local_latency_reverse(lp);
985

986
    if(m->fwd.found_match >= 0)
987
	{
988
        mpi_msgs_queue * qi = rc_stack_pop(s->processed_ops);
989
        int queue_count = qlist_count(&s->pending_recvs_queue);
990

991
        if(!m->fwd.found_match)
992 993 994
        {
            qlist_add(&qi->ql, &s->pending_recvs_queue);
        }
995
        else if(m->fwd.found_match >= queue_count)
996
        {
997 998
            qlist_add_tail(&qi->ql, &s->pending_recvs_queue);
        }
999
        else if(m->fwd.found_match > 0 && m->fwd.found_match < queue_count)
1000 1001 1002 1003 1004
        {
            int index = 1;
            struct qlist_head * ent = NULL;
            qlist_for_each(ent, &s->pending_recvs_queue)
            {
1005
               if(index == m->fwd.found_match)
1006 1007 1008 1009
               {
                 qlist_add(&qi->ql, ent);
                 break;
               }
1010
               index++;
1011
            }
1012
        }
1013 1014
        if(qi->op_type == CODES_WK_IRECV)
            update_completed_queue_rc(s, bf, m, lp);
1015 1016
        else if(qi->op_type == CODES_WK_RECV)
            codes_issue_next_event_rc(lp);
1017
    }
1018
	else if(m->fwd.found_match < 0)
1019
	{
1020
	    struct qlist_head * ent = qlist_pop_back(&s->arrival_queue);
1021 1022 1023 1024 1025 1026 1027 1028
        mpi_msgs_queue * qi = qlist_entry(ent, mpi_msgs_queue, ql);
        free(qi);
    }
}

/* once an isend operation arrives, the pending receives queue is checked to find out if there is a irecv that has already been posted. If no isend has been posted, */
static void update_arrival_queue(nw_state* s, tw_bf * bf, nw_message * m, tw_lp * lp)
{
1029
    if(s->app_id != m->fwd.app_id)
1030
        printf("\n Received message for app %d my id %d my rank %d ",
1031 1032 1033
                m->fwd.app_id, s->app_id, s->nw_id);
    assert(s->app_id == m->fwd.app_id);

1034 1035
    //if(s->local_rank != m->fwd.dest_rank)
    //    printf("\n Dest rank %d local rank %d ", m->fwd.dest_rank, s->local_rank);
1036
	m->rc.saved_recv_time = s->recv_time;
1037
    s->num_bytes_recvd += m->fwd.num_bytes;
1038 1039

    // send a callback to the sender to increment times
1040 1041 1042 1043 1044 1045
    // find the global id of the source
    int global_src_id = m->fwd.src_rank;
    if(alloc_spec)
    {
        global_src_id = get_global_id_of_job_rank(m->fwd.src_rank, s->app_id);
    }