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/*
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 *  Copyright (c) 2010 Luca Abeni
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 *  Copyright (c) 2010 Csaba Kiraly
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 *
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 *  This is free software; see gpl-3.0.txt
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 */
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#include <sys/time.h>
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#include <stdlib.h>
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#include <stdio.h>
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#include <stdint.h>
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#include <stdbool.h>
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#include <math.h>
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#include <assert.h>
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#include <string.h>
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#include <inttypes.h>
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#include <net_helper.h>
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#include <chunk.h> 
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#include <chunkbuffer.h> 
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#include <trade_msg_la.h>
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#include <trade_msg_ha.h>
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#include <peerset.h>
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#include <peer.h>
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#include <chunkidset.h>
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#include <limits.h>
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#include <trade_sig_ha.h>
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#include "streaming.h"
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#include "output.h"
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#include "input.h"
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#include "dbg.h"
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#include "chunk_signaling.h"
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#include "chunklock.h"
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#include "topology.h"
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#include "measures.h"
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#include "scheduling.h"
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#include "scheduler_la.h"
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uint64_t CB_SIZE_TIME = 4*1e6;
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static bool heuristics_distance_maxdeliver = false;
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static int bcast_after_receive_every = 0;
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static bool neigh_on_chunk_recv = false;
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struct chunk_attributes {
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  uint64_t deadline;
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  uint16_t deadline_increment;
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  uint16_t hopcount;
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} __attribute__((packed));
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extern bool chunk_log;
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struct chunk_buffer *cb;
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static struct input_desc *input;
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static int cb_size;
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static int transid=0;
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static int offer_per_tick = 1;        //N_p parameter of POLITO
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int _needs(struct chunkID_set *cset, int cb_size, int cid);
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uint64_t gettimeofday_in_us(void)
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{
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  struct timeval what_time; //to store the epoch time
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  gettimeofday(&what_time, NULL);
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  return what_time.tv_sec * 1000000ULL + what_time.tv_usec;
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}
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void cb_print()
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{
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#ifdef DEBUG
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  struct chunk *chunks;
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  int num_chunks, i, id;
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  chunks = cb_get_chunks(cb, &num_chunks);
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  dprintf("\tchbuf :");
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  i = 0;
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  if(num_chunks) {
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    id = chunks[0].id;
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    dprintf(" %d-> ",id);
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    while (i < num_chunks) {
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      if (id == chunks[i].id) {
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        dprintf("%d",id % 10);
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        i++;
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      } else if (chunk_islocked(id)) {
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        dprintf("*");
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      } else {
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        dprintf(".");
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      }
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      id++;
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    }
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  }
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  dprintf("\n");
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#endif
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}
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void stream_init(int size, struct nodeID *myID)
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{
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  static char conf[32];
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  cb_size = size;
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  sprintf(conf, "size=%d", cb_size);
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  cb = cb_init(conf);
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  chunkDeliveryInit(myID);
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  chunkSignalingInit(myID);
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  init_measures();
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}
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int source_init(const char *fname, struct nodeID *myID, bool loop, int *fds, int fds_size)
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{
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  int flags = 0;
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  if (memcmp(fname, "udp:", 4) == 0) {
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    fname += 4;
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    flags = INPUT_UDP;
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  }
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  if (loop) {
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    flags |= INPUT_LOOP;
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  }
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  input = input_open(fname, flags, fds, fds_size);
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  if (input == NULL) {
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    return -1;
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  }
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  stream_init(1, myID);
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  return 0;
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}
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void chunk_attributes_fill(struct chunk* c)
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{
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  struct chunk_attributes * ca;
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  assert(!c->attributes && c->attributes_size == 0);
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  c->attributes_size = sizeof(struct chunk_attributes);
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  c->attributes = ca = malloc(c->attributes_size);
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  ca->deadline = c->timestamp;
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  ca->deadline_increment = 2;
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  ca->hopcount = 0;
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}
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int chunk_get_hopcount(struct chunk* c) {
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  struct chunk_attributes * ca;
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  if (!c->attributes || c->attributes_size != sizeof(struct chunk_attributes)) {
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    fprintf(stderr,"Warning, chunk %d with strange attributes block. Size:%d expected:%lu\n", c->id, c->attributes ? c->attributes_size : 0, sizeof(struct chunk_attributes));
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    return -1;
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  }
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  ca = (struct chunk_attributes *) c->attributes;
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  return ca->hopcount;
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}
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void chunk_attributes_update_received(struct chunk* c)
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{
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  struct chunk_attributes * ca;
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  if (!c->attributes || c->attributes_size != sizeof(struct chunk_attributes)) {
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    fprintf(stderr,"Warning, received chunk %d with strange attributes block. Size:%d expected:%lu\n", c->id, c->attributes ? c->attributes_size : 0, sizeof(struct chunk_attributes));
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    return;
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  }
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  ca = (struct chunk_attributes *) c->attributes;
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  ca->hopcount++;
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  dprintf("Received chunk %d with hopcount %hu\n", c->id, ca->hopcount);
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}
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void chunk_attributes_update_sending(const struct chunk* c)
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{
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  struct chunk_attributes * ca;
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  if (!c->attributes || c->attributes_size != sizeof(struct chunk_attributes)) {
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    fprintf(stderr,"Warning, chunk %d with strange attributes block\n", c->id);
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    return;
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  }
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  ca = (struct chunk_attributes *) c->attributes;
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  ca->deadline += ca->deadline_increment;
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  dprintf("Sending chunk %d with deadline %lu\n", c->id, ca->deadline);
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}
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struct chunkID_set *cb_to_bmap(struct chunk_buffer *chbuf)
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{
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  struct chunk *chunks;
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  int num_chunks, i;
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  struct chunkID_set *my_bmap = chunkID_set_init("type=bitmap");
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  chunks = cb_get_chunks(chbuf, &num_chunks);
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  for(i=num_chunks-1; i>=0; i--) {
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    chunkID_set_add_chunk(my_bmap, chunks[i].id);
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  }
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  return my_bmap;
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}
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// a simple implementation that request everything that we miss ... up to max deliver
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struct chunkID_set *get_chunks_to_accept(struct nodeID *fromid, const struct chunkID_set *cset_off, int max_deliver, uint16_t trans_id){
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  struct chunkID_set *cset_acc, *my_bmap;
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  int i, d, cset_off_size;
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  //double lossrate;
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  struct peer *from = nodeid_to_peer(fromid, 0);
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  cset_acc = chunkID_set_init("size=0");
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  //reduce load a little bit if there are losses on the path from this guy
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  //lossrate = get_lossrate_receive(from->id);
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  //lossrate = finite(lossrate) ? lossrate : 0;        //start agressively, assuming 0 loss
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  //if (rand()/((double)RAND_MAX + 1) >= 10 * lossrate ) {
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    my_bmap = cb_to_bmap(cb);
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    cset_off_size = chunkID_set_size(cset_off);
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    for (i = 0, d = 0; i < cset_off_size && d < max_deliver; i++) {
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      int chunkid = chunkID_set_get_chunk(cset_off, i);
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      //dprintf("\tdo I need c%d ? :",chunkid);
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      if (!chunk_islocked(chunkid) && _needs(my_bmap, cb_size, chunkid)) {
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        chunkID_set_add_chunk(cset_acc, chunkid);
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        chunk_lock(chunkid,from);
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        dtprintf("accepting %d from %s", chunkid, node_addr(fromid));
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#ifdef MONL
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        dprintf(", loss:%f rtt:%f", get_lossrate(fromid), get_rtt(fromid));
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#endif
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        dprintf("\n");
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        d++;
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      }
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    }
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    chunkID_set_free(my_bmap);
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  //} else {
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  //    dtprintf("accepting -- from %s loss:%f rtt:%f\n", node_addr(fromid), lossrate, get_rtt(fromid));
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  //}
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  return cset_acc;
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}
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void send_bmap(struct nodeID *toid)
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{
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  struct chunkID_set *my_bmap = cb_to_bmap(cb);
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   sendBufferMap(toid,NULL, my_bmap, input ? 0 : cb_size, 0);
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  chunkID_set_free(my_bmap);
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}
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void bcast_bmap()
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{
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  int i, n;
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  struct peer *neighbours;
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  struct peerset *pset;
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  struct chunkID_set *my_bmap;
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  pset = get_peers();
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  n = peerset_size(pset);
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  neighbours = peerset_get_peers(pset);
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  my_bmap = cb_to_bmap(cb);        //cache our bmap for faster processing
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  for (i = 0; i<n; i++) {
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    sendBufferMap(neighbours[i].id,NULL, my_bmap, input ? 0 : cb_size, 0);
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  }
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  chunkID_set_free(my_bmap);
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}
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double get_average_lossrate_pset(struct peerset *pset)
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{
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  int i, n;
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  struct peer *neighbours;
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  n = peerset_size(pset);
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  neighbours = peerset_get_peers(pset);
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  {
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    struct nodeID *nodeids[n];
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    for (i = 0; i<n; i++) nodeids[i] = neighbours[i].id;
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#ifdef MONL
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    return get_average_lossrate(nodeids, n);
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#else
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    return 0;
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#endif
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  }
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}
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void ack_chunk(struct chunk *c, struct nodeID *from)
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{
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  //reduce load a little bit if there are losses on the path from this guy
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  double average_lossrate = get_average_lossrate_pset(get_peers());
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  average_lossrate = finite(average_lossrate) ? average_lossrate : 0;        //start agressively, assuming 0 loss
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  if (rand()/((double)RAND_MAX + 1) < 1 * average_lossrate ) {
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    return;
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  }
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  send_bmap(from);        //send explicit ack
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}
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void received_chunk(struct nodeID *from, const uint8_t *buff, int len)
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{
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  int res;
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  static struct chunk c;
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  struct peer *p;
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  static int bcast_cnt;
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  uint16_t transid;
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  res = parseChunkMsg(buff + 1, len - 1, &c, &transid);
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  if (res > 0) {
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    chunk_attributes_update_received(&c);
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    chunk_unlock(c.id);
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    dprintf("Received chunk %d from peer: %s\n", c.id, node_addr(from));
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    if(chunk_log){fprintf(stderr, "TEO: Received chunk %d from peer: %s at: %"PRIu64" hopcount: %i\n", c.id, node_addr(from), gettimeofday_in_us(), chunk_get_hopcount(&c));}
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    output_deliver(&c);
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    res = cb_add_chunk(cb, &c);
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    reg_chunk_receive(c.id, c.timestamp, chunk_get_hopcount(&c), res==E_CB_OLD, res==E_CB_DUPLICATE);
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    cb_print();
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    if (res < 0) {
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      dprintf("\tchunk too old, buffer full with newer chunks\n");
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      if(chunk_log){fprintf(stderr, "TEO: Received chunk: %d too old (buffer full with newer chunks) from peer: %s at: %"PRIu64"\n", c.id, node_addr(from), gettimeofday_in_us());}
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      free(c.data);
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      free(c.attributes);
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    }
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    p = nodeid_to_peer(from, neigh_on_chunk_recv);
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    if (p) {        //now we have it almost sure
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      chunkID_set_add_chunk(p->bmap,c.id);        //don't send it back
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    }
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    ack_chunk(&c,from);        //send explicit ack
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    if (bcast_after_receive_every && bcast_cnt % bcast_after_receive_every == 0) {
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       bcast_bmap();
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    }
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  } else {
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    fprintf(stderr,"\tError: can't decode chunk!\n");
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  }
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}
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struct chunk *generated_chunk(suseconds_t *delta)
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{
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  struct chunk *c;
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  c = malloc(sizeof(struct chunk));
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  if (!c) {
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    fprintf(stderr, "Memory allocation error!\n");
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    return NULL;
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  }
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  *delta = input_get(input, c);
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  if (*delta < 0) {
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    fprintf(stderr, "Error in input!\n");
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    exit(-1);
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  }
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  if (c->data == NULL) {
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    free(c);
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    return NULL;
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  }
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  dprintf("Generated chunk %d of %d bytes\n",c->id, c->size);
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  chunk_attributes_fill(c);
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  return c;
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}
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int add_chunk(struct chunk *c)
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{
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  int res;
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  res = cb_add_chunk(cb, c);
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  if (res < 0) {
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    free(c->data);
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    free(c->attributes);
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    free(c);
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    return 0;
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  }
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  free(c);
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  return 1;
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}
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uint64_t get_chunk_timestamp(int cid){
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  const struct chunk *c = cb_get_chunk(cb, cid);
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  if (!c) return 0;
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  return c->timestamp;
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}
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/**
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 *example function to filter chunks based on whether a given peer needs them.
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 *
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 * Looks at buffermap information received about the given peer.
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 */
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int needs(struct peer *n, int cid){
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  struct peer * p = n;
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  if (get_chunk_timestamp(cid) < gettimeofday_in_us() - CB_SIZE_TIME) {
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    return 0;
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  }
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  //dprintf("\t%s needs c%d ? :",node_addr(p->id),c->id);
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  if (! p->bmap) {
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    //dprintf("no bmap\n");
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    return 1;        // if we have no bmap information, we assume it needs the chunk (aggressive behaviour!)
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  }
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  return _needs(p->bmap, p->cb_size, cid);
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}
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int _needs(struct chunkID_set *cset, int cb_size, int cid){
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  if (cb_size == 0) { //if it declared it does not needs chunks
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    return 0;
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  }
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  if (get_chunk_timestamp(cid) < gettimeofday_in_us() - CB_SIZE_TIME) {
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    return 0;
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  }
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  if (chunkID_set_check(cset,cid) < 0) { //it might need the chunk
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    int missing, min;
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    //@TODO: add some bmap_timestamp based logic
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    if (chunkID_set_size(cset) == 0) {
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      //dprintf("bmap empty\n");
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      return 1;        // if the bmap seems empty, it needs the chunk
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    }
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    missing = cb_size - chunkID_set_size(cset);
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    missing = missing < 0 ? 0 : missing;
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    min = chunkID_set_get_earliest(cset);
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      //dprintf("%s ... cid(%d) >= min(%d) - missing(%d) ?\n",(cid >= min - missing)?"YES":"NO",cid, min, missing);
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    return (cid >= min - missing);
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  }
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  //dprintf("has it\n");
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  return 0;
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}
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double peerWeightReceivedfrom(struct peer **n){
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  struct peer * p = *n;
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  return timerisset(&p->bmap_timestamp) ? 1 : 0.1;
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}
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double peerWeightUniform(struct peer **n){
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  return 1;
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}
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double peerWeightRtt(struct peer **n){
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#ifdef MONL
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  double rtt = get_rtt(*n->id);
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  //dprintf("RTT to %s: %f\n", node_addr(p->id), rtt);
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  return finite(rtt) ? 1 / (rtt + 0.005) : 1 / 1;
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#else
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  return 1;
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#endif
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}
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//ordering function for ELp peer selection, chunk ID based
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//can't be used as weight
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double peerScoreELpID(struct nodeID **n){
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  struct chunkID_set *bmap;
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  int latest;
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  struct peer * p = nodeid_to_peer(*n, 0);
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  if (!p) return 0;
447 ea084625 Csaba Kiraly
448 1b7da906 Csaba Kiraly
  bmap = p->bmap;
449 ea084625 Csaba Kiraly
  if (!bmap) return 0;
450
  latest = chunkID_set_get_latest(bmap);
451
  if (latest == INT_MIN) return 0;
452
453
  return -latest;
454
}
455
456 97ab5c93 Csaba Kiraly
double chunkScoreChunkID(int *cid){
457
  return (double) *cid;
458
}
459
460 2d4a594b Csaba Kiraly
double chunkScoreTimestamp(int *cid){
461
  return (double) get_chunk_timestamp(*cid);
462 4367dafd Csaba Kiraly
}
463
464 8e750be6 Csaba Kiraly
void send_accepted_chunks(struct nodeID *toid, struct chunkID_set *cset_acc, int max_deliver, uint16_t trans_id){
465 8e85b948 Alessandro Russo
  int i, d, cset_acc_size, res;
466 b13977c0 Csaba Kiraly
  struct peer *to = nodeid_to_peer(toid, 0);
467 d447f71d Csaba Kiraly
468
  cset_acc_size = chunkID_set_size(cset_acc);
469 e2c563e7 Csaba Kiraly
  reg_offer_accept(cset_acc_size > 0 ? 1 : 0);        //this only works if accepts are sent back even if 0 is accepted
470 d447f71d Csaba Kiraly
  for (i = 0, d=0; i < cset_acc_size && d < max_deliver; i++) {
471 43dd1a10 Csaba Kiraly
    const struct chunk *c;
472 d447f71d Csaba Kiraly
    int chunkid = chunkID_set_get_chunk(cset_acc, i);
473
    c = cb_get_chunk(cb, chunkid);
474 f8286367 Csaba Kiraly
    if (c && (!to || needs(to, chunkid)) ) {// we should have the chunk, and he should not have it. Although the "accept" should have been an answer to our "offer", we do some verification
475 f5d9663e Csaba Kiraly
      chunk_attributes_update_sending(c);
476 033319c7 Csaba Kiraly
      res = sendChunk(toid, c, trans_id);
477 d447f71d Csaba Kiraly
      if (res >= 0) {
478 f8286367 Csaba Kiraly
        if(to) chunkID_set_add_chunk(to->bmap, c->id); //don't send twice ... assuming that it will actually arrive
479 d447f71d Csaba Kiraly
        d++;
480 f740dafb Csaba Kiraly
        reg_chunk_send(c->id);
481 0adbb1ef Csaba Kiraly
        if(chunk_log){fprintf(stderr, "TEO: Sending chunk %d to peer: %s at: %"PRIu64" Result: %d\n", c->id, node_addr(toid), gettimeofday_in_us(), res);}
482 96b8d0a8 Csaba Kiraly
      } else {
483
        fprintf(stderr,"ERROR sending chunk %d\n",c->id);
484 d447f71d Csaba Kiraly
      }
485
    }
486
  }
487
}
488
489 dc87dca9 Csaba Kiraly
int offer_peer_count()
490
{
491
  return offer_per_tick;
492
}
493
494 74a5d4ae CsabaKiraly
int offer_max_deliver(struct nodeID *n)
495 960017bf Csaba Kiraly
{
496 10fd812c Csaba Kiraly
497
  if (!heuristics_distance_maxdeliver) return 1;
498
499 5fc04950 Csaba Kiraly
#ifdef MONL
500 1b7da906 Csaba Kiraly
  switch (get_hopcount(n)) {
501 960017bf Csaba Kiraly
    case 0: return 5;
502
    case 1: return 2;
503
    default: return 1;
504
  }
505 5fc04950 Csaba Kiraly
#else
506
  return 1;
507
#endif
508 960017bf Csaba Kiraly
}
509
510 fcb5c29b Csaba Kiraly
void send_offer()
511 43355360 Csaba Kiraly
{
512
  struct chunk *buff;
513 74a5d4ae CsabaKiraly
  int size, res, i, n;
514 43355360 Csaba Kiraly
  struct peer *neighbours;
515 fcb5c29b Csaba Kiraly
  struct peerset *pset;
516 43355360 Csaba Kiraly
517 fcb5c29b Csaba Kiraly
  pset = get_peers();
518 43355360 Csaba Kiraly
  n = peerset_size(pset);
519
  neighbours = peerset_get_peers(pset);
520
  dprintf("Send Offer: %d neighbours\n", n);
521
  if (n == 0) return;
522
  buff = cb_get_chunks(cb, &size);
523
  if (size == 0) return;
524
525
  {
526 dc87dca9 Csaba Kiraly
    size_t selectedpeers_len = offer_peer_count();
527 1b7da906 Csaba Kiraly
    int chunkids[size];
528 8bb39b0b Csaba Kiraly
    struct peer *nodeids[n];
529
    struct peer *selectedpeers[selectedpeers_len];
530 43355360 Csaba Kiraly
531 abbef5a5 Csaba Kiraly
    //reduce load a little bit if there are losses on the path from this guy
532 68330740 Csaba Kiraly
    double average_lossrate = get_average_lossrate_pset(pset);
533 abbef5a5 Csaba Kiraly
    average_lossrate = finite(average_lossrate) ? average_lossrate : 0;        //start agressively, assuming 0 loss
534 f76dc385 Csaba Kiraly
    if (rand()/((double)RAND_MAX + 1) < 10 * average_lossrate ) {
535 abbef5a5 Csaba Kiraly
      return;
536
    }
537
538 ffcc70ad CsabaKiraly
    for (i = 0;i < size; i++) chunkids[size - 1 - i] = (buff+i)->id;
539 8bb39b0b Csaba Kiraly
    for (i = 0; i<n; i++) nodeids[i] = (neighbours+i);
540 851fa962 Csaba Kiraly
    selectPeersForChunks(SCHED_WEIGHTING, nodeids, n, chunkids, size, selectedpeers, &selectedpeers_len, SCHED_NEEDS, SCHED_PEER);
541 43355360 Csaba Kiraly
542
    for (i=0; i<selectedpeers_len ; i++){
543 8bb39b0b Csaba Kiraly
      int max_deliver = offer_max_deliver(selectedpeers[i]->id);
544 43355360 Csaba Kiraly
      struct chunkID_set *my_bmap = cb_to_bmap(cb);
545 8bb39b0b Csaba Kiraly
      dprintf("\t sending offer(%d) to %s, cb_size: %d\n", transid, node_addr(selectedpeers[i]->id), selectedpeers[i]->cb_size);
546
      res = offerChunks(selectedpeers[i]->id, my_bmap, max_deliver, transid++);
547 ddedf85f Csaba Kiraly
      chunkID_set_free(my_bmap);
548 43355360 Csaba Kiraly
    }
549
  }
550
}
551
552 4367dafd Csaba Kiraly
553 fcb5c29b Csaba Kiraly
void send_chunk()
554 89e893e2 Luca
{
555
  struct chunk *buff;
556 74a5d4ae CsabaKiraly
  int size, res, i, n;
557 924226c0 Luca Abeni
  struct peer *neighbours;
558 fcb5c29b Csaba Kiraly
  struct peerset *pset;
559 1cd06c26 CsabaKiraly
560 fcb5c29b Csaba Kiraly
  pset = get_peers();
561 0f35d029 Csaba Kiraly
  n = peerset_size(pset);
562
  neighbours = peerset_get_peers(pset);
563 e64fc7e5 Luca
  dprintf("Send Chunk: %d neighbours\n", n);
564 89e893e2 Luca
  if (n == 0) return;
565
  buff = cb_get_chunks(cb, &size);
566 e64fc7e5 Luca
  dprintf("\t %d chunks in buffer...\n", size);
567 89e893e2 Luca
  if (size == 0) return;
568
569
  /************ STUPID DUMB SCHEDULING ****************/
570 4367dafd Csaba Kiraly
  //target = n * (rand() / (RAND_MAX + 1.0)); /*0..n-1*/
571
  //c = size * (rand() / (RAND_MAX + 1.0)); /*0..size-1*/
572 89e893e2 Luca
  /************ /STUPID DUMB SCHEDULING ****************/
573
574 4367dafd Csaba Kiraly
  /************ USE SCHEDULER ****************/
575 924226c0 Luca Abeni
  {
576
    size_t selectedpairs_len = 1;
577 1b7da906 Csaba Kiraly
    int chunkids[size];
578 7b86e7d9 Csaba Kiraly
    struct peer *nodeids[n];
579 924226c0 Luca Abeni
    struct PeerChunk selectedpairs[1];
580
  
581 1b7da906 Csaba Kiraly
    for (i = 0;i < size; i++) chunkids[i] = (buff+i)->id;
582 7b86e7d9 Csaba Kiraly
    for (i = 0; i<n; i++) nodeids[i] = (neighbours+i);
583 0fec1310 Csaba Kiraly
    SCHED_TYPE(SCHED_WEIGHTING, nodeids, n, chunkids, size, selectedpairs, &selectedpairs_len, SCHED_NEEDS, SCHED_PEER, SCHED_CHUNK);
584 4367dafd Csaba Kiraly
  /************ /USE SCHEDULER ****************/
585
586 924226c0 Luca Abeni
    for (i=0; i<selectedpairs_len ; i++){
587 7b86e7d9 Csaba Kiraly
      struct peer *p = selectedpairs[i].peer;
588 74a5d4ae CsabaKiraly
      struct chunk *c = cb_get_chunk(cb, selectedpairs[i].chunk);
589 924226c0 Luca Abeni
      dprintf("\t sending chunk[%d] to ", c->id);
590
      dprintf("%s\n", node_addr(p->id));
591
592 b0225995 Csaba Kiraly
      send_bmap(p->id);
593 bc1ddc15 MatteoSammarco
594 f5d9663e Csaba Kiraly
      chunk_attributes_update_sending(c);
595 033319c7 Csaba Kiraly
      res = sendChunk(p->id, c, 0);        //we do not use transactions in pure push
596 84ff82ba CsabaKiraly
      if(chunk_log){fprintf(stderr, "TEO: Sending chunk %d to peer: %s at: %"PRIu64" Result: %d Size: %d bytes\n", c->id, node_addr(p->id), gettimeofday_in_us(), res, c->size);}
597 13d85fc6 Csaba Kiraly
      dprintf("\tResult: %d\n", res);
598 924226c0 Luca Abeni
      if (res>=0) {
599
        chunkID_set_add_chunk(p->bmap,c->id); //don't send twice ... assuming that it will actually arrive
600 f740dafb Csaba Kiraly
        reg_chunk_send(c->id);
601 96b8d0a8 Csaba Kiraly
      } else {
602
        fprintf(stderr,"ERROR sending chunk %d\n",c->id);
603 924226c0 Luca Abeni
      }
604 0f35d029 Csaba Kiraly
    }
605 4367dafd Csaba Kiraly
  }
606 89e893e2 Luca
}