-/* Copyright (c) 2012-2015. The SimGrid Team.
+/* Copyright (c) 2012-2016. The SimGrid Team.
* All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
#define BLOCK_SIZE 16384
#define ENABLE_END_GAME_MODE 1
-/**
- * Number of blocks asked by each request
- */
+/** Number of blocks asked by each request */
#define BLOCKS_REQUESTED 2
-
static const unsigned long int FILE_SIZE = FILE_PIECES * PIECES_BLOCKS * BLOCK_SIZE;
-
#define SLEEP_DURATION 1
- /**
- * Peer main function
- */
+/** Peer main function */
int peer(int argc, char *argv[])
{
s_peer_t peer;
return 0;
}
-/**
- * Peer main loop when it is leeching.
- * @param peer peer data
- * @param deadline time at which the peer has to leave
+/** @brief Peer main loop when it is leeching.
+ * @param peer peer data
+ * @param deadline time at which the peer has to leave
*/
void leech_loop(peer_t peer, double deadline)
{
}
-/**
- * Peer main loop when it is seeding
- * @param peer peer data
- * @param deadline time when the peer will leave
+/** @brief Peer main loop when it is seeding
+ * @param peer peer data
+ * @param deadline time when the peer will leave
*/
void seed_loop(peer_t peer, double deadline)
{
}
}
-/**
- * Retrieves the peer list from the tracker
- * @param peer current peer data
+/**Â @brief Retrieves the peer list from the tracker
+ * @param peer current peer data
*/
int get_peers_data(peer_t peer)
{
int success = 0, send_success = 0;
double timeout = MSG_get_clock() + GET_PEERS_TIMEOUT;
//Build the task to send to the tracker
- tracker_task_data_t data =
- tracker_task_data_new(MSG_host_get_name(MSG_host_self()),
- peer->mailbox_tracker, peer->id, 0, 0, FILE_SIZE);
+ tracker_task_data_t data = tracker_task_data_new(MSG_host_get_name(MSG_host_self()), peer->mailbox_tracker,
+ peer->id, 0, 0, FILE_SIZE);
//Build the task to send.
msg_task_t task_send = MSG_task_create(NULL, 0, TRACKER_COMM_SIZE, data);
msg_task_t task_received = NULL;
msg_comm_t comm_received;
while (!send_success && MSG_get_clock() < timeout) {
XBT_DEBUG("Sending a peer request to the tracker.");
- msg_error_t status = MSG_task_send_with_timeout(task_send, TRACKER_MAILBOX,
- GET_PEERS_TIMEOUT);
+ msg_error_t status = MSG_task_send_with_timeout(task_send, TRACKER_MAILBOX, GET_PEERS_TIMEOUT);
if (status == MSG_OK) {
send_success = 1;
}
//Add the peers the tracker gave us to our peer list.
xbt_dynar_foreach(data->peers, i, peer_id) {
if (peer_id != peer->id)
- xbt_dict_set_ext(peer->peers, (char *) &peer_id, sizeof(int),
- connection_new(peer_id), NULL);
+ xbt_dict_set_ext(peer->peers, (char *) &peer_id, sizeof(int), connection_new(peer_id), NULL);
}
success = 1;
//free the communication and the task
return success;
}
-/**
- * Initialize the peer data.
- * @param peer peer data
- * @param id id of the peer to take in the network
- * @param seed indicates if the peer is a seed.
+/** @brief Initialize the peer data.
+ * @param peer peer data
+ * @param id id of the peer to take in the network
+ * @param seed indicates if the peer is a seed.
*/
void peer_init(peer_t peer, int id, int seed)
{
peer->bitfield_blocks = xbt_new(char, (FILE_PIECES) * (PIECES_BLOCKS) + 1);
if (seed) {
memset(peer->bitfield, '1', sizeof(char) * (FILE_PIECES + 1));
- memset(peer->bitfield_blocks, '1',
- sizeof(char) * FILE_PIECES * (PIECES_BLOCKS));
+ memset(peer->bitfield_blocks, '1', sizeof(char) * FILE_PIECES * (PIECES_BLOCKS));
} else {
memset(peer->bitfield, '0', sizeof(char) * (FILE_PIECES + 1));
- memset(peer->bitfield_blocks, '0',
- sizeof(char) * FILE_PIECES * (PIECES_BLOCKS));
+ memset(peer->bitfield_blocks, '0', sizeof(char) * FILE_PIECES * (PIECES_BLOCKS));
}
peer->bitfield[FILE_PIECES] = '\0';
peer->current_pieces = xbt_dynar_new(sizeof(int), NULL);
- peer->stream =
- (RngStream)MSG_host_get_property_value(MSG_host_self(), "stream");
+ peer->stream = (RngStream)MSG_host_get_property_value(MSG_host_self(), "stream");
peer->comm_received = NULL;
peer->round = 0;
-
}
-/**
- * Destroys a poor peer object.
- */
+/** Destroys a poor peer object. */
void peer_free(peer_t peer)
{
char *key;
xbt_free(peer->bitfield_blocks);
}
-/**
- * Returns if a peer has finished downloading the file
- * @param bitfield peer bitfield
+/**Â @brief Returns if a peer has finished downloading the file
+ * @param bitfield peer bitfield
*/
int has_finished(char *bitfield)
{
return nb;
}
-
void update_active_peers_set(peer_t peer, connection_t remote_peer)
{
-
if (remote_peer->interested && !remote_peer->choked_upload) {
//add in the active peers set
- xbt_dict_set_ext(peer->active_peers, (char *) &remote_peer->id,
- sizeof(int), remote_peer, NULL);
+ xbt_dict_set_ext(peer->active_peers, (char *) &remote_peer->id, sizeof(int), remote_peer, NULL);
} else {
//remove
xbt_ex_t e;
TRY {
- xbt_dict_remove_ext(peer->active_peers, (char *) &remote_peer->id,
- sizeof(int));
+ xbt_dict_remove_ext(peer->active_peers, (char *) &remote_peer->id, sizeof(int));
}
CATCH(e) {
xbt_ex_free(e);
}
}
-
-/**
- * Handle a received message sent by another peer
+/** @brief Handle a received message sent by another peer
* @param peer Peer data
* @param task task received.
*/
{
message_t message = MSG_task_get_data(task);
connection_t remote_peer;
- remote_peer =
- xbt_dict_get_or_null_ext(peer->peers, (char *) &message->peer_id,
- sizeof(int));
+ remote_peer = xbt_dict_get_or_null_ext(peer->peers, (char *) &message->peer_id, sizeof(int));
switch (message->type) {
-
case MESSAGE_HANDSHAKE:
- XBT_DEBUG("Received a HANDSHAKE from %s (%s)", message->mailbox,
- message->issuer_host_name);
+ XBT_DEBUG("Received a HANDSHAKE from %s (%s)", message->mailbox, message->issuer_host_name);
//Check if the peer is in our connection list.
if (!remote_peer) {
- xbt_dict_set_ext(peer->peers, (char *) &message->peer_id, sizeof(int),
- connection_new(message->peer_id), NULL);
+ xbt_dict_set_ext(peer->peers, (char *) &message->peer_id, sizeof(int), connection_new(message->peer_id), NULL);
send_handshake(peer, message->mailbox);
}
//Send our bitfield to the peer
send_bitfield(peer, message->mailbox);
break;
case MESSAGE_BITFIELD:
- XBT_DEBUG("Recieved a BITFIELD message from %s (%s)", message->mailbox,
- message->issuer_host_name);
+ XBT_DEBUG("Recieved a BITFIELD message from %s (%s)", message->mailbox, message->issuer_host_name);
//Update the pieces list
update_pieces_count_from_bitfield(peer, message->bitfield);
//Store the bitfield
remote_peer->bitfield = xbt_strdup(message->bitfield);
- xbt_assert(!remote_peer->am_interested,
- "Should not be interested at first");
+ xbt_assert(!remote_peer->am_interested, "Should not be interested at first");
if (is_interested(peer, remote_peer)) {
remote_peer->am_interested = 1;
send_interested(peer, message->mailbox);
}
break;
case MESSAGE_INTERESTED:
- XBT_DEBUG("Recieved an INTERESTED message from %s (%s)", message->mailbox,
- message->issuer_host_name);
- xbt_assert((remote_peer != NULL),
- "A non-in-our-list peer has sent us a message. WTH ?");
+ XBT_DEBUG("Recieved an INTERESTED message from %s (%s)", message->mailbox, message->issuer_host_name);
+ xbt_assert((remote_peer != NULL), "A non-in-our-list peer has sent us a message. WTH ?");
//Update the interested state of the peer.
remote_peer->interested = 1;
update_active_peers_set(peer, remote_peer);
break;
case MESSAGE_NOTINTERESTED:
- XBT_DEBUG("Received a NOTINTERESTED message from %s (%s)",
- message->mailbox, message->issuer_host_name);
- xbt_assert((remote_peer != NULL),
- "A non-in-our-list peer has sent us a message. WTH ?");
+ XBT_DEBUG("Received a NOTINTERESTED message from %s (%s)", message->mailbox, message->issuer_host_name);
+ xbt_assert((remote_peer != NULL), "A non-in-our-list peer has sent us a message. WTH ?");
remote_peer->interested = 0;
update_active_peers_set(peer, remote_peer);
break;
case MESSAGE_UNCHOKE:
- xbt_assert((remote_peer != NULL),
- "A non-in-our-list peer has sent us a message. WTH ?");
- XBT_DEBUG("Received a UNCHOKE message from %s (%s)", message->mailbox,
- message->issuer_host_name);
+ xbt_assert((remote_peer != NULL), "A non-in-our-list peer has sent us a message. WTH ?");
+ XBT_DEBUG("Received a UNCHOKE message from %s (%s)", message->mailbox, message->issuer_host_name);
xbt_assert(remote_peer->choked_download, "WTF !!!");
remote_peer->choked_download = 0;
//Send requests to the peer, since it has unchoked us
request_new_piece_to_peer(peer, remote_peer);
break;
case MESSAGE_CHOKE:
- xbt_assert((remote_peer != NULL),
- "A non-in-our-list peer has sent us a message. WTH ?");
- XBT_DEBUG("Received a CHOKE message from %s (%s)", message->mailbox,
- message->issuer_host_name);
+ xbt_assert((remote_peer != NULL), "A non-in-our-list peer has sent us a message. WTH ?");
+ XBT_DEBUG("Received a CHOKE message from %s (%s)", message->mailbox, message->issuer_host_name);
xbt_assert(!remote_peer->choked_download, "WTF !!!");
remote_peer->choked_download = 1;
remove_current_piece(peer, remote_peer, remote_peer->current_piece);
break;
case MESSAGE_HAVE:
- XBT_DEBUG("Received a HAVE message from %s (%s) of piece %d",
- message->mailbox, message->issuer_host_name, message->index);
+ XBT_DEBUG("Received a HAVE message from %s (%s) of piece %d", message->mailbox, message->issuer_host_name,
+ message->index);
xbt_assert(remote_peer->bitfield, "bitfield not received");
- xbt_assert((message->index >= 0
- && message->index < FILE_PIECES),
- "Wrong HAVE message received");
+ xbt_assert((message->index >= 0 && message->index < FILE_PIECES), "Wrong HAVE message received");
remote_peer->bitfield[message->index] = '1';
peer->pieces_count[message->index]++;
//If the piece is in our pieces, we tell the peer that we are interested.
case MESSAGE_REQUEST:
xbt_assert(remote_peer->interested, "WTF !!!");
- xbt_assert((message->index >= 0
- && message->index < FILE_PIECES), "Wrong request received");
+ xbt_assert((message->index >= 0 && message->index < FILE_PIECES), "Wrong request received");
if (!remote_peer->choked_upload) {
- XBT_DEBUG("Received a REQUEST from %s (%s) for %d (%d,%d)",
- message->mailbox, message->issuer_host_name, message->index,
- message->block_index,
- message->block_index + message->block_length);
+ XBT_DEBUG("Received a REQUEST from %s (%s) for %d (%d,%d)", message->mailbox, message->issuer_host_name,
+ message->index, message->block_index, message->block_index + message->block_length);
if (peer->bitfield[message->index] == '1') {
- send_piece(peer, message->mailbox, message->index,
- message->block_index, message->block_length);
+ send_piece(peer, message->mailbox, message->index, message->block_index, message->block_length);
}
} else {
- XBT_DEBUG("Received a REQUEST from %s (%s) for %d but he is choked.",
- message->mailbox, message->issuer_host_name, message->peer_id);
+ XBT_DEBUG("Received a REQUEST from %s (%s) for %d but he is choked.", message->mailbox,
+ message->issuer_host_name, message->peer_id);
}
break;
case MESSAGE_PIECE:
- XBT_DEBUG("Received piece %d (%d,%d) from %s (%s)", message->index,
- message->block_index,
- message->block_index + message->block_length,
- message->mailbox, message->issuer_host_name);
+ XBT_DEBUG("Received piece %d (%d,%d) from %s (%s)", message->index, message->block_index,
+ message->block_index + message->block_length, message->mailbox, message->issuer_host_name);
xbt_assert(!remote_peer->choked_download, "WTF !!!");
- xbt_assert(remote_peer->am_interested || ENABLE_END_GAME_MODE, "Can't received a piece if I'm not interested wihtout end-game mode! piece (%d) bitfield(%s) remote bitfield(%s)", message->index, peer->bitfield, remote_peer->bitfield);
+ xbt_assert(remote_peer->am_interested || ENABLE_END_GAME_MODE,
+ "Can't received a piece if I'm not interested wihtout end-game mode!"
+ "piece (%d) bitfield(%s) remote bitfield(%s)", message->index, peer->bitfield, remote_peer->bitfield);
xbt_assert(remote_peer->choked_download != 1, "Can't received a piece if I'm choked !");
- xbt_assert((message->index >= 0
- && message->index < FILE_PIECES), "Wrong piece received");
+ xbt_assert((message->index >= 0 && message->index < FILE_PIECES), "Wrong piece received");
//TODO: Execute à computation.
if (peer->bitfield[message->index] == '0') {
- update_bitfield_blocks(peer, message->index, message->block_index,
- message->block_length);
+ update_bitfield_blocks(peer, message->index, message->block_index, message->block_length);
if (piece_complete(peer, message->index)) {
//Removing the piece from our piece list
remove_current_piece(peer, remote_peer, message->index);
}
break;
case MESSAGE_CANCEL:
- XBT_DEBUG("The received CANCEL from %s (%s)",
- message->mailbox, message->issuer_host_name);
+ XBT_DEBUG("The received CANCEL from %s (%s)", message->mailbox, message->issuer_host_name);
break;
}
//Update the peer speed.
if (remote_peer) {
- connection_add_speed_value(remote_peer,
- 1.0 / (MSG_get_clock() -
- peer->begin_receive_time));
+ connection_add_speed_value(remote_peer, 1.0 / (MSG_get_clock() - peer->begin_receive_time));
}
peer->begin_receive_time = MSG_get_clock();
task_message_free(task);
}
-/**
- * Selects the appropriate piece to download and requests it to the remote_peer
- */
+/** Selects the appropriate piece to download and requests it to the remote_peer */
void request_new_piece_to_peer(peer_t peer, connection_t remote_peer)
{
int piece = select_piece_to_download(peer, remote_peer);
}
}
-/**
- * remove current_piece from the list of currently downloaded pieces.
- */
-void remove_current_piece(peer_t peer, connection_t remote_peer,
- int current_piece)
+/** remove current_piece from the list of currently downloaded pieces. */
+void remove_current_piece(peer_t peer, connection_t remote_peer, int current_piece)
{
int piece_index = -1, piece;
unsigned int i;
remote_peer->current_piece = -1;
}
-/**
- * Updates the list of who has a piece from a bitfield
- * @param peer peer we want to update the list
- * @param bitfield bitfield
+/** @brief Updates the list of who has a piece from a bitfield
+ * @param peer peer we want to update the list
+ * @param bitfield bitfield
*/
void update_pieces_count_from_bitfield(peer_t peer, char *bitfield)
{
}
}
-
-
-/**
- * Return the piece to be downloaded
+/** @brief Return the piece to be downloaded
* There are two cases (as described in "Bittorrent Architecture Protocol", Ryan Toole :
* If a piece is partially downloaded, this piece will be selected prioritarily
* If the peer has strictly less than 4 pieces, he chooses a piece at random.
- * If the peer has more than pieces, he downloads the pieces that are the less
- * replicated (rarest policy).
+ * If the peer has more than pieces, he downloads the pieces that are the less replicated (rarest policy).
* If all pieces have been downloaded or requested, we select a random requested piece (endgame mode).
* @param peer: local peer
* @param remote_peer: information about the connection
return piece;
// end game mode
- if (xbt_dynar_length(peer->current_pieces) >= (FILE_PIECES - peer->pieces)
- && is_interested(peer, remote_peer)) {
+ if (xbt_dynar_length(peer->current_pieces) >= (FILE_PIECES - peer->pieces) && is_interested(peer, remote_peer)) {
if(!ENABLE_END_GAME_MODE)
return -1;
int i;
}
xbt_assert(nb_interesting_pieces != 0, "WTF !!!");
// get a random interesting piece
- random_piece_index =
- RngStream_RandInt(peer->stream, 0, nb_interesting_pieces - 1);
+ random_piece_index = RngStream_RandInt(peer->stream, 0, nb_interesting_pieces - 1);
for (i = 0; i < FILE_PIECES; i++) {
if (peer->bitfield[i] == '0' && remote_peer->bitfield[i] == '1') {
if (random_piece_index == current_index) {
int random_piece_index, current_index = 0;
// compute the number of interesting pieces
for (i = 0; i < FILE_PIECES; i++) {
- if (peer->bitfield[i] == '0' && remote_peer->bitfield[i] == '1'
- && !in_current_pieces(peer, i)) {
+ if (peer->bitfield[i] == '0' && remote_peer->bitfield[i] == '1' && !in_current_pieces(peer, i)) {
nb_interesting_pieces++;
}
}
xbt_assert(nb_interesting_pieces != 0, "WTF !!!");
// get a random interesting piece
- random_piece_index =
- RngStream_RandInt(peer->stream, 0, nb_interesting_pieces - 1);
+ random_piece_index = RngStream_RandInt(peer->stream, 0, nb_interesting_pieces - 1);
for (i = 0; i < FILE_PIECES; i++) {
- if (peer->bitfield[i] == '0' && remote_peer->bitfield[i] == '1'
- && !in_current_pieces(peer, i)) {
+ if (peer->bitfield[i] == '0' && remote_peer->bitfield[i] == '1' && !in_current_pieces(peer, i)) {
if (random_piece_index == current_index) {
piece = i;
break;
int random_rarest_index, current_index = 0;
// compute the smallest number of copies of available pieces
for (i = 0; i < FILE_PIECES; i++) {
- if (peer->pieces_count[i] < min && peer->bitfield[i] == '0'
- && remote_peer->bitfield[i] == '1' && !in_current_pieces(peer, i))
+ if (peer->pieces_count[i] < min && peer->bitfield[i] == '0' && remote_peer->bitfield[i] == '1'
+ && !in_current_pieces(peer, i))
min = peer->pieces_count[i];
}
- xbt_assert(min != SHRT_MAX
- || !is_interested_and_free(peer, remote_peer), "WTF !!!");
+ xbt_assert(min != SHRT_MAX || !is_interested_and_free(peer, remote_peer), "WTF !!!");
// compute the number of rarest pieces
for (i = 0; i < FILE_PIECES; i++) {
- if (peer->pieces_count[i] == min && peer->bitfield[i] == '0'
- && remote_peer->bitfield[i] == '1' && !in_current_pieces(peer, i))
+ if (peer->pieces_count[i] == min && peer->bitfield[i] == '0' && remote_peer->bitfield[i] == '1'
+ && !in_current_pieces(peer, i))
nb_min_pieces++;
}
- xbt_assert(nb_min_pieces != 0
- || !is_interested_and_free(peer, remote_peer), "WTF !!!");
+ xbt_assert(nb_min_pieces != 0 || !is_interested_and_free(peer, remote_peer), "WTF !!!");
// get a random rarest piece
random_rarest_index = RngStream_RandInt(peer->stream, 0, nb_min_pieces - 1);
for (i = 0; i < FILE_PIECES; i++) {
- if (peer->pieces_count[i] == min && peer->bitfield[i] == '0'
- && remote_peer->bitfield[i] == '1' && !in_current_pieces(peer, i)) {
+ if (peer->pieces_count[i] == min && peer->bitfield[i] == '0' && remote_peer->bitfield[i] == '1'
+ && !in_current_pieces(peer, i)) {
if (random_rarest_index == current_index) {
piece = i;
break;
current_index++;
}
}
- xbt_assert(piece != -1
- || !is_interested_and_free(peer, remote_peer), "WTF !!!");
+ xbt_assert(piece != -1 || !is_interested_and_free(peer, remote_peer), "WTF !!!");
return piece;
}
}
-
-/**
- * Update the list of current choked and unchoked peers, using the
- * choke algorithm
- * @param peer the current peer
+/** @brief Update the list of current choked and unchoked peers, using the choke algorithm
+ * @param peer the current peer
*/
void update_choked_peers(peer_t peer)
{
if (nb_interested_peers(peer) == 0)
return;
- // if(xbt_dict_size(peer->active_peers) > 0)
- // return;
- XBT_DEBUG("(%d) update_choked peers %d active peers", peer->id,
- xbt_dict_size(peer->active_peers));
+ XBT_DEBUG("(%d) update_choked peers %d active peers", peer->id, xbt_dict_size(peer->active_peers));
//update the current round
peer->round = (peer->round + 1) % 3;
char *key, *key_choked=NULL;
}
xbt_dict_cursor_free(&cursor);
- /**
- * If we are currently seeding, we unchoke the peer which has
- * been unchoke the least time.
- */
+ /**If we are currently seeding, we unchoke the peer which has been unchoked the last time.*/
if (peer->pieces == FILE_PIECES) {
connection_t connection;
double unchoke_time = MSG_get_clock() + 1;
xbt_dict_foreach(peer->peers, cursor, key, connection) {
- if (connection->last_unchoke < unchoke_time && connection->interested
- && connection->choked_upload) {
+ if (connection->last_unchoke < unchoke_time && connection->interested && connection->choked_upload) {
unchoke_time = connection->last_unchoke;
peer_choosed = connection;
}
int j = 0;
do {
//We choose a random peer to unchoke.
- int id_chosen = RngStream_RandInt(peer->stream, 0,
- xbt_dict_length(peer->peers) - 1);
+ int id_chosen = RngStream_RandInt(peer->stream, 0, xbt_dict_length(peer->peers) - 1);
int i = 0;
connection_t connection;
xbt_dict_foreach(peer->peers, cursor, key, connection) {
connection_t connection;
double fastest_speed = 0.0;
xbt_dict_foreach(peer->peers, cursor, key, connection) {
- if (connection->peer_speed > fastest_speed
- && connection->choked_upload && connection->interested) {
+ if (connection->peer_speed > fastest_speed && connection->choked_upload && connection->interested) {
peer_choosed = connection;
fastest_speed = connection->peer_speed;
}
}
}
-
}
- if (peer_choosed != NULL)
- XBT_DEBUG
- ("(%d) update_choked peers unchoked (%d) ; int (%d) ; choked (%d) ",
- peer->id, peer_choosed->id, peer_choosed->interested,
- peer_choosed->choked_upload);
-
- // if (xbt_dict_size(peer->peers) > 0)
- // xbt_assert((xbt_dict_size(peer->active_peers) != 0),
- // "No more active peers !");
-
- // if (peer_choked != NULL && peer_choked->choked_upload != 0)
- // peer_choked = NULL;
- // if (peer_choosed != NULL && peer_choosed->choked_upload == 0)
- // peer_choosed = NULL;
+ if (peer_choosed != NULL)
+ XBT_DEBUG("(%d) update_choked peers unchoked (%d) ; int (%d) ; choked (%d) ",
+ peer->id, peer_choosed->id, peer_choosed->interested, peer_choosed->choked_upload);
if (peer_choked != peer_choosed) {
if (peer_choked != NULL) {
- xbt_assert((!peer_choked->choked_upload),
- "Tries to choked a choked peer");
+ xbt_assert((!peer_choked->choked_upload), "Tries to choked a choked peer");
peer_choked->choked_upload = 1;
xbt_assert((*((int *) key_choked) == peer_choked->id), "WTF !!!");
update_active_peers_set(peer, peer_choked);
- // xbt_dict_remove_ext(peer->active_peers, key_choked, sizeof(int));
XBT_DEBUG("(%d) Sending a CHOKE to %d", peer->id, peer_choked->id);
send_choked(peer, peer_choked->mailbox);
}
if (peer_choosed != NULL) {
- xbt_assert((peer_choosed->choked_upload),
- "Tries to unchoked an unchoked peer");
+ xbt_assert((peer_choosed->choked_upload), "Tries to unchoked an unchoked peer");
peer_choosed->choked_upload = 0;
- xbt_dict_set_ext(peer->active_peers, (char *) &peer_choosed->id,
- sizeof(int), peer_choosed, NULL);
+ xbt_dict_set_ext(peer->active_peers, (char *) &peer_choosed->id, sizeof(int), peer_choosed, NULL);
peer_choosed->last_unchoke = MSG_get_clock();
XBT_DEBUG("(%d) Sending a UNCHOKE to %d", peer->id, peer_choosed->id);
update_active_peers_set(peer, peer_choosed);
}
}
-/**
- * Updates our "interested" state about peers: send "not interested" to peers
- * that don't have any more pieces we want.
- * @param peer our peer data
+/** @brief Update "interested" state of peers: send "not interested" to peers that don't have any more pieces we want.
+ * @param peer our peer data
*/
void update_interested_after_receive(peer_t peer)
{
}
}
-void update_bitfield_blocks(peer_t peer, int index, int block_index,
- int block_length)
+void update_bitfield_blocks(peer_t peer, int index, int block_index, int block_length)
{
int i;
xbt_assert((index >= 0 && index <= FILE_PIECES), "Wrong piece.");
- xbt_assert((block_index >= 0
- && block_index <= PIECES_BLOCKS), "Wrong block : %d.",
- block_index);
+ xbt_assert((block_index >= 0 && block_index <= PIECES_BLOCKS), "Wrong block : %d.", block_index);
for (i = block_index; i < (block_index + block_length); i++) {
peer->bitfield_blocks[index * PIECES_BLOCKS + i] = '1';
}
}
-/**
- * Returns if a peer has completed the download of a piece
- */
+/** Returns if a peer has completed the download of a piece */
int piece_complete(peer_t peer, int index)
{
int i;
return 1;
}
-/**
- * Returns the first block that a peer doesn't have in a piece.
- * If the peer has all blocks of the piece, returns -1.
- */
+/** Returns the first block that a peer doesn't have in a piece. If the peer has all blocks of the piece, returns -1. */
int get_first_block(peer_t peer, int piece)
{
int i;
return -1;
}
-/**
- * Indicates if the remote peer has a piece not stored by the local peer
- */
+/** Indicates if the remote peer has a piece not stored by the local peer */
int is_interested(peer_t peer, connection_t remote_peer)
{
xbt_assert(remote_peer->bitfield, "Bitfield not received");
return 0;
}
-/**
- * Indicates if the remote peer has a piece not stored by the local peer nor requested by the local peer
- */
+/** Indicates if the remote peer has a piece not stored by the local peer nor requested by the local peer */
int is_interested_and_free(peer_t peer, connection_t remote_peer)
{
xbt_assert(remote_peer->bitfield, "Bitfield not received");
int i;
for (i = 0; i < FILE_PIECES; i++) {
- if (remote_peer->bitfield[i] == '1' && peer->bitfield[i] == '0'
- && !in_current_pieces(peer, i)) {
+ if (remote_peer->bitfield[i] == '1' && peer->bitfield[i] == '0' && !in_current_pieces(peer, i)) {
return 1;
}
}
return 0;
}
-
-/**
- * Returns a piece that is partially downloaded and stored by the remote peer if any
- * -1 otherwise.
- */
+/** Returns a piece that is partially downloaded and stored by the remote peer if any -1 otherwise. */
int partially_downloaded_piece(peer_t peer, connection_t remote_peer)
{
xbt_assert(remote_peer->bitfield, "Bitfield not received");
int i;
for (i = 0; i < FILE_PIECES; i++) {
- if (remote_peer->bitfield[i] == '1' && peer->bitfield[i] == '0'
- && !in_current_pieces(peer, i)) {
+ if (remote_peer->bitfield[i] == '1' && peer->bitfield[i] == '0' && !in_current_pieces(peer, i)) {
if (get_first_block(peer, i) > 0)
return i;
}
return -1;
}
-
-/**
- * Send request messages to a peer that have unchoked us
- * @param peer peer
- * @param remote_peer peer data to the peer we want to send the request
+/** @brief Send request messages to a peer that have unchoked us
+ * @param peer peer
+ * @param remote_peer peer data to the peer we want to send the request
*/
void send_request_to_peer(peer_t peer, connection_t remote_peer, int piece)
{
}
}
-
-/**
- * Indicates if a piece is currently being downloaded by the peer.
- */
+/** Indicates if a piece is currently being downloaded by the peer. */
int in_current_pieces(peer_t peer, int piece)
{
unsigned i;
return 0;
}
-
-
-
/***********************************************************
*
* Low level message functions
-/**
- * Send a "interested" message to a peer
- * @param peer peer data
- * @param mailbox destination mailbox
+/** @brief Send a "interested" message to a peer
+ * @param peer peer data
+ * @param mailbox destination mailbox
*/
void send_interested(peer_t peer, const char *mailbox)
{
- msg_task_t task =
- task_message_new(MESSAGE_INTERESTED, peer->hostname, peer->mailbox,
- peer->id, task_message_size(MESSAGE_INTERESTED));
+ msg_task_t task = task_message_new(MESSAGE_INTERESTED, peer->hostname, peer->mailbox, peer->id,
+ task_message_size(MESSAGE_INTERESTED));
MSG_task_dsend(task, mailbox, task_message_free);
XBT_DEBUG("Sending INTERESTED to %s", mailbox);
-
}
-/**
- * Send a "not interested" message to a peer
- * @param peer peer data
- * @param mailbox destination mailbox
+/** @brief Send a "not interested" message to a peer
+ * @param peer peer data
+ * @param mailbox destination mailbox
*/
void send_notinterested(peer_t peer, const char *mailbox)
{
- msg_task_t task =
- task_message_new(MESSAGE_NOTINTERESTED, peer->hostname, peer->mailbox,
- peer->id, task_message_size(MESSAGE_NOTINTERESTED));
+ msg_task_t task = task_message_new(MESSAGE_NOTINTERESTED, peer->hostname, peer->mailbox, peer->id,
+ task_message_size(MESSAGE_NOTINTERESTED));
MSG_task_dsend(task, mailbox, task_message_free);
XBT_DEBUG("Sending NOTINTERESTED to %s", mailbox);
-
}
-/**
- * Send a handshake message to all the peers the peer has.
- * @param peer peer data
+/** @brief Send a handshake message to all the peers the peer has.
+ * @param peer peer data
*/
void send_handshake_all(peer_t peer)
{
xbt_dict_cursor_t cursor = NULL;
char *key;
xbt_dict_foreach(peer->peers, cursor, key, remote_peer) {
- msg_task_t task =
- task_message_new(MESSAGE_HANDSHAKE, peer->hostname, peer->mailbox,
- peer->id, task_message_size(MESSAGE_HANDSHAKE));
+ msg_task_t task = task_message_new(MESSAGE_HANDSHAKE, peer->hostname, peer->mailbox, peer->id,
+ task_message_size(MESSAGE_HANDSHAKE));
MSG_task_dsend(task, remote_peer->mailbox, task_message_free);
XBT_DEBUG("Sending a HANDSHAKE to %s", remote_peer->mailbox);
}
}
-/**
- * Send a "handshake" message to an user
- * @param peer peer data
- * @param mailbox mailbox where to we send the message
+/** @brief Send a "handshake" message to an user
+ * @param peer peer data
+ * @param mailbox mailbox where to we send the message
*/
void send_handshake(peer_t peer, const char *mailbox)
{
- msg_task_t task =
- task_message_new(MESSAGE_HANDSHAKE, peer->hostname, peer->mailbox,
- peer->id, task_message_size(MESSAGE_HANDSHAKE));
+ msg_task_t task = task_message_new(MESSAGE_HANDSHAKE, peer->hostname, peer->mailbox, peer->id,
+ task_message_size(MESSAGE_HANDSHAKE));
MSG_task_dsend(task, mailbox, task_message_free);
XBT_DEBUG("Sending a HANDSHAKE to %s", mailbox);
}
-/**
- * Send a "choked" message to a peer.
- */
+/** Send a "choked" message to a peer. */
void send_choked(peer_t peer, const char *mailbox)
{
XBT_DEBUG("Sending a CHOKE to %s", mailbox);
- msg_task_t task =
- task_message_new(MESSAGE_CHOKE, peer->hostname, peer->mailbox,
- peer->id, task_message_size(MESSAGE_CHOKE));
+ msg_task_t task = task_message_new(MESSAGE_CHOKE, peer->hostname, peer->mailbox, peer->id,
+ task_message_size(MESSAGE_CHOKE));
MSG_task_dsend(task, mailbox, task_message_free);
}
-/**
- * Send a "unchoked" message to a peer
- */
+/** Send a "unchoked" message to a peer */
void send_unchoked(peer_t peer, const char *mailbox)
{
XBT_DEBUG("Sending a UNCHOKE to %s", mailbox);
- msg_task_t task =
- task_message_new(MESSAGE_UNCHOKE, peer->hostname, peer->mailbox,
- peer->id, task_message_size(MESSAGE_UNCHOKE));
+ msg_task_t task = task_message_new(MESSAGE_UNCHOKE, peer->hostname, peer->mailbox, peer->id,
+ task_message_size(MESSAGE_UNCHOKE));
MSG_task_dsend(task, mailbox, task_message_free);
}
-/**
- * Send a "HAVE" message to all peers we are connected to
- */
+/** Send a "HAVE" message to all peers we are connected to */
void send_have(peer_t peer, int piece)
{
XBT_DEBUG("Sending HAVE message to all my peers");
xbt_dict_cursor_t cursor = NULL;
char *key;
xbt_dict_foreach(peer->peers, cursor, key, remote_peer) {
- msg_task_t task =
- task_message_index_new(MESSAGE_HAVE, peer->hostname, peer->mailbox,
- peer->id, piece,
- task_message_size(MESSAGE_HAVE));
+ msg_task_t task = task_message_index_new(MESSAGE_HAVE, peer->hostname, peer->mailbox, peer->id, piece,
+ task_message_size(MESSAGE_HAVE));
MSG_task_dsend(task, remote_peer->mailbox, task_message_free);
}
}
-/**
- * Send a bitfield message to all the peers the peer has.
- * @param peer peer data
+/** @brief Send a bitfield message to all the peers the peer has.
+ * @param peer peer data
*/
void send_bitfield(peer_t peer, const char *mailbox)
{
XBT_DEBUG("Sending a BITFIELD to %s", mailbox);
- msg_task_t task =
- task_message_bitfield_new(peer->hostname, peer->mailbox, peer->id,
- peer->bitfield, FILE_PIECES);
+ msg_task_t task = task_message_bitfield_new(peer->hostname, peer->mailbox, peer->id, peer->bitfield, FILE_PIECES);
MSG_task_dsend(task, mailbox, task_message_free);
}
-/**
- * Send a "request" message to a pair, containing a request for a piece
- */
-void send_request(peer_t peer, const char *mailbox, int piece,
- int block_index, int block_length)
+/** Send a "request" message to a pair, containing a request for a piece */
+void send_request(peer_t peer, const char *mailbox, int piece, int block_index, int block_length)
{
- XBT_DEBUG("Sending a REQUEST to %s for piece %d (%d,%d)", mailbox, piece,
- block_index, block_length);
- msg_task_t task =
- task_message_request_new(peer->hostname, peer->mailbox, peer->id, piece,
- block_index, block_length);
+ XBT_DEBUG("Sending a REQUEST to %s for piece %d (%d,%d)", mailbox, piece, block_index, block_length);
+ msg_task_t task = task_message_request_new(peer->hostname, peer->mailbox, peer->id, piece, block_index, block_length);
MSG_task_dsend(task, mailbox, task_message_free);
}
-/**
- * Send a "piece" message to a pair, containing a piece of the file
- */
-void send_piece(peer_t peer, const char *mailbox, int piece,
- int block_index, int block_length)
+/** Send a "piece" message to a pair, containing a piece of the file */
+void send_piece(peer_t peer, const char *mailbox, int piece, int block_index, int block_length)
{
- XBT_DEBUG("Sending the PIECE %d (%d,%d) to %s", piece, block_index,
- block_length, mailbox);
+ XBT_DEBUG("Sending the PIECE %d (%d,%d) to %s", piece, block_index, block_length, mailbox);
xbt_assert(piece >= 0, "Tried to send a piece that doesn't exist.");
- xbt_assert((peer->bitfield[piece] == '1'),
- "Tried to send a piece that we doesn't have.");
- msg_task_t task =
- task_message_piece_new(peer->hostname, peer->mailbox, peer->id, piece,
- block_index, block_length, BLOCK_SIZE);
+ xbt_assert((peer->bitfield[piece] == '1'), "Tried to send a piece that we doesn't have.");
+ msg_task_t task = task_message_piece_new(peer->hostname, peer->mailbox, peer->id, piece, block_index, block_length,
+ BLOCK_SIZE);
MSG_task_dsend(task, mailbox, task_message_free);
}