1 /* Copyright (c) 2012. The SimGrid Team.
2 * All rights reserved. */
4 /* This program is free software; you can redistribute it and/or modify it
5 * under the terms of the license (GNU LGPL) which comes with this package. */
6 #ifndef BITTORRENT_PEER_H
7 #define BITTORRENT_PEER_H
10 #include <xbt/dynar.h>
11 #include <xbt/RngStream.h>
12 #include "connection.h"
13 #include "bittorrent.h"
18 typedef struct s_peer {
21 int pieces; //number of pieces the peer has.
22 char *bitfield; //list of pieces the peer has.
23 char *bitfield_blocks; //list of blocks the peer has.
24 short *pieces_count; //number of peers that have each piece.
26 xbt_dynar_t current_pieces; //current pieces the peer is downloading
27 int current_piece; //current pieces
28 int pieces_requested; //number of pieces the peer has requested
30 xbt_dict_t peers; //peers list
31 xbt_dict_t active_peers; //active peers list
33 char mailbox[MAILBOX_SIZE]; //peer mailbox.
34 char mailbox_tracker[MAILBOX_SIZE]; //pair mailbox while communicating with the tracker.
35 const char *hostname; //peer hostname
37 msg_task_t task_received; //current task being received
38 msg_comm_t comm_received; //current comm
40 int round; //current round for the chocking algortihm.
42 RngStream stream; //RngStream for
44 double begin_receive_time; //time when the receiving communication has begun, useful for calculating host speed.
46 xbt_dynar_t pending_sends; // list of sends being delivered
52 int peer(int argc, char *argv[]);
54 int get_peers_data(peer_t peer);
55 void leech_loop(peer_t peer, double deadline);
56 void seed_loop(peer_t peer, double deadline);
58 void peer_init(peer_t, int id, int seed);
59 void peer_free(peer_t peer);
61 int has_finished(char *bitfield);
63 void handle_pending_sends(peer_t peer);
64 void handle_message(peer_t peer, msg_task_t task);
66 void wait_for_pieces(peer_t peer, double deadline);
68 void update_pieces_count_from_bitfield(peer_t peer, char *bitfield);
69 void update_current_piece(peer_t peer);
70 void update_choked_peers(peer_t peer);
72 void update_interested_after_receive(peer_t peer);
74 void update_bitfield_blocks(peer_t peer, int index, int block_index,
76 int piece_complete(peer_t peer, int index);
77 int get_first_block(peer_t peer, int piece);
80 void send_requests_to_peer(peer_t peer, connection_t remote_peer);
82 void send_interested_to_peers(peer_t peer);
83 void send_handshake_all(peer_t peer);
85 void send_interested(peer_t peer, const char *mailbox);
87 void send_notinterested(peer_t peer, const char *mailbox);
88 void send_handshake(peer_t peer, const char *mailbox);
89 void send_bitfield(peer_t peer, const char *mailbox);
90 void send_choked(peer_t peer, const char *mailbox);
91 void send_unchoked(peer_t peer, const char *mailbox);
92 void send_have(peer_t peer, int piece);
94 void send_request(peer_t peer, const char *mailbox, int piece, int block_index,
96 void send_piece(peer_t peer, const char *mailbox, int piece, int stalled,
97 int block_index, int block_length);
99 int in_current_pieces(peer_t peer, int piece);
100 #endif /* BITTORRENT_PEER_H */