NAME

Net::BitTorrent::DHT - Kademlia-like DHT Node for BitTorrent

Synopsis

use Net::BitTorrent::DHT;
use AnyEvent;
use Bit::Vector;
# Standalone node with user-defined port and boot_nodes
my $dht = Net::BitTorrent::DHT->new(
      port => [1337 .. 1340, 0],
      boot_nodes =>
          [['router.bittorrent.com', 6881], ['router.utorrent.com', 6881]]
);

my $peer_quest
= $dht->get_peers(Bit::Vector->new_Hex('ab97a7bca78f2628380e6609a8241a7fb02aa981'), \&dht_cb);

# tick, tick, tick, ...
AnyEvent->condvar->recv;

sub dht_cb {
    my ($infohash, $node, $peers) = @_;
    printf "We found %d peers for %s from %s:%d via DHT\n\t%s\n",
        scalar(@$peers),
        $infohash->to_Hex, $node->host, $node->port,
        join ', ', map { sprintf '%s:%d', @$_ } @$peers;
}

Description

BitTorrent uses a "distributed sloppy hash table" (DHT) for storing peer contact information for "trackerless" torrents. In effect, each peer becomes a tracker. The protocol is based on Kademila and is implemented over UDP.

Methods

Net::BitTorrent::DHT's API is simple but powerful. ...well, I think so anyway.

Net::BitTorrent::DHT->new( )

The constructor accepts a number different arguments which all greatly affect the function of your DHT node. Any combination of the following arguments may be used during construction.

For brevity, the following examples assume you are building a standalone node (for reasearch, etc.).

Net::BitTorrent::DHT->new( nodeid => ... )

During construction, our local DHT nodeID can be set during construction. This is mostly useful when creating a standalone DHT node.

use Net::BitTorrent::DHT;
# Bit::Vector object
use Bit::Vector;
my $node_c = Net::BitTorrent::DHT->new(
    nodeid => Bit::Vector->new_Hex( 160, 'ABCD' x 10 )
);
# A SHA1 digest
use Digest::SHA;
my $node_d = Net::BitTorrent::DHT->new(
        nodeid => Bit::Vector->new_Hex( 160, Digest::SHA::sha1( $possibly_random_value ) )
);

Note that storing and reusing DHT nodeIDs over a number of sessions may seem advantagious (as if you had a "reserved parking place" in the DHT network) but will likely not improve performance as unseen nodeIDs are removed from remote routing tables after a half hour.

NodeIDs, are 160-bit integers.

Net::BitTorrent::DHT->new( port => ... )

Opens a specific UDP port number to the outside world on both IPv4 and IPv6.

use Net::BitTorrent::DHT;
# A single possible port
my $node_a = Net::BitTorrent::DHT->new( port => 1123 );
# A list of ports
my $node_b = Net::BitTorrent::DHT->new( port => [1235 .. 9875] );

Note that when handed a list of ports, they are each tried until we are able to bind to the specific port.

Net::BitTorrent::DHT->find_node( $target, $callback )

This method asks for remote nodes with nodeIDs closer to our target. As the remote nodes respond, the callback is called with the following arguments:

  • target

    This is the target nodeid. This is useful when you've set the same callback for multiple, concurrent find_node( ) quest.

    Targets are 160-bit Bit::Vector objects.

  • node

    This is a blessed object. TODO.

  • nodes

    This is a list of ip:port combinations the remote node claims are close to our target.

A single find_node quest is an array ref which contains the following data:

  • target

    This is the target nodeID.

  • coderef

    This is the callback triggered as we locate new peers.

  • nodes

    This is a list of nodes we have announced to so far.

  • timer

    This is an AnyEvent timer which is triggered every few minutes.

    Don't modify this.

Net::BitTorrent::DHT->get_peers( $infohash, $callback )

This method initiates a search for peers serving a torrent with this infohash. As they are found, the callback is called with the following arguments:

  • infohash

    This is the infohash related to these peers. This is useful when you've set the same callback for multiple, concurrent get_peers( ) quests. This is a 160-bit Bit::Vector object.

  • node

    This is a blessed object. TODO.

  • peers

    This is an array ref of peers sent to us by aforementioned remote node.

A single get_peers quest is an array ref which contains the following data:

  • infohash

    This is the infohash related to these peers. This is a 160-bit Bit::Vector object.

  • coderef

    This is the callback triggered as we locate new peers.

  • peers

    This is a compacted list of all peers found so far. This is probably more useful than the list passed to the callback.

  • timer

    This is an AnyEvent timer which is triggered every five minutes. When triggered, the node requests new peers from nodes in the bucket nearest to the infohash.

    Don't modify this.

Net::BitTorrent::DHT->announce_peer( $infohash, $port, $callback )

This method announces that the peer controlling the querying node is downloading a torrent on a port. These outgoing queries are sent to nodes 'close' to the target infohash. As the remote nodes respond, the callback is called with the following arguments:

  • infohash

    This is the infohash related to this announcment. This is useful when you've set the same callback for multiple, concurrent announce_peer( ) quest. Infohashes are 160-bit Bit::Vector objects.

  • port

    This is port you defined above.

  • node

    This is a blessed object. TODO.

A single announce_peer quest is an array ref which contains the following data:

  • infohash

    This is the infohash related to these peers. This is a 160-bit Bit::Vector object.

  • coderef

    This is the callback triggered as we locate new peers.

  • port

    This is port you defined above.

  • nodes

    This is a list of nodes we have announced to so far.

  • timer

    This is an AnyEvent timer which is triggered every few minutes.

    Don't modify this.

announce_peer queries require a token sent in reply to a get_peers query so they should be used together.

use Net::BitTorrent::DHT;
my $node = Net::BitTorrent::DHT->new( );
my $quest_a = $dht->announce_peer(Bit::Vector->new_Hex('A' x 40), 6881, \&dht_cb);
my $quest_b = $dht->announce_peer(Bit::Vector->new_Hex('1' x 40), 9585, \&dht_cb);

sub dht_cb {
    my ($infohash, $port, $node) = @_;
    say sprintf '%s:%d now knows we are serving %s on port %d',
        $node->host, $node->port, $infohash->to_Hex, $port;
}

Net::BitTorrent::DHT->dump_ipv4_buckets( )

This is a quick utility method which returns or prints (depending on context) a list of the IPv4-based routing table's bucket structure.

use Net::BitTorrent::DHT;
my $node = Net::BitTorrent::DHT->new( );
# After some time has passed...
$node->dump_ipv4_buckets; # prints to STDOUT with say
my @dump = $node->dump_ipv4_buckets; # returns list of lines

Net::BitTorrent::DHT->dump_ipv6_buckets( )

This is a quick utility method which returns or prints (depending on context) a list of the IPv6-based routing table's bucket structure.

use Net::BitTorrent::DHT;
my $node = Net::BitTorrent::DHT->new( );
# After some time has passed...
$node->dump_ipv6_buckets; # prints to STDOUT with say
my @dump = $node->dump_ipv6_buckets; # returns list of lines

Author

Sanko Robinson <sanko@cpan.org> - http://sankorobinson.com/

CPAN ID: SANKO

License and Legal

Copyright (C) 2008-2014 by Sanko Robinson <sanko@cpan.org>

This program is free software; you can redistribute it and/or modify it under the terms of The Artistic License 2.0. See the LICENSE file included with this distribution or notes on the Artistic License 2.0 for clarification.

When separated from the distribution, all original POD documentation is covered by the Creative Commons Attribution-Share Alike 3.0 License. See the clarification of the CCA-SA3.0.

Neither this module nor the Author is affiliated with BitTorrent, Inc.