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py-libp2p/libp2p/kademlia/kad_peerinfo.py
Alex Stokes 7477b29508 run black w/ extended line length
2019-08-04 12:37:41 +08:00

148 lines
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Python
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import heapq
from operator import itemgetter
import random
from multiaddr import Multiaddr
from libp2p.peer.id import ID
from libp2p.peer.peerdata import PeerData
from libp2p.peer.peerinfo import PeerInfo
from .utils import digest
P_IP = "ip4"
P_UDP = "udp"
class KadPeerInfo(PeerInfo):
def __init__(self, peer_id, peer_data=None):
super(KadPeerInfo, self).__init__(peer_id, peer_data)
self.peer_id_bytes = peer_id.to_bytes()
self.xor_id = peer_id.xor_id
self.addrs = peer_data.get_addrs() if peer_data else None
self.ip = self.addrs[0].value_for_protocol(P_IP) if peer_data else None
self.port = int(self.addrs[0].value_for_protocol(P_UDP)) if peer_data else None
def same_home_as(self, node):
return sorted(self.addrs) == sorted(node.addrs)
def distance_to(self, node):
"""
Get the distance between this node and another.
"""
return self.xor_id ^ node.xor_id
def __iter__(self):
"""
Enables use of Node as a tuple - i.e., tuple(node) works.
"""
return iter([self.peer_id_bytes, self.ip, self.port])
def __repr__(self):
return repr([self.xor_id, self.ip, self.port, self.peer_id_bytes])
def __str__(self):
return "%s:%s" % (self.ip, str(self.port))
def encode(self):
return (
str(self.peer_id_bytes) + "\n" + str("/ip4/" + str(self.ip) + "/udp/" + str(self.port))
)
class KadPeerHeap:
"""
A heap of peers ordered by distance to a given node.
"""
def __init__(self, node, maxsize):
"""
Constructor.
@param node: The node to measure all distnaces from.
@param maxsize: The maximum size that this heap can grow to.
"""
self.node = node
self.heap = []
self.contacted = set()
self.maxsize = maxsize
def remove(self, peers):
"""
Remove a list of peer ids from this heap. Note that while this
heap retains a constant visible size (based on the iterator), it's
actual size may be quite a bit larger than what's exposed. Therefore,
removal of nodes may not change the visible size as previously added
nodes suddenly become visible.
"""
peers = set(peers)
if not peers:
return
nheap = []
for distance, node in self.heap:
if node.peer_id_bytes not in peers:
heapq.heappush(nheap, (distance, node))
self.heap = nheap
def get_node(self, node_id):
for _, node in self.heap:
if node.peer_id_bytes == node_id:
return node
return None
def have_contacted_all(self):
return len(self.get_uncontacted()) == 0
def get_ids(self):
return [n.peer_id_bytes for n in self]
def mark_contacted(self, node):
self.contacted.add(node.peer_id_bytes)
def popleft(self):
return heapq.heappop(self.heap)[1] if self else None
def push(self, nodes):
"""
Push nodes onto heap.
@param nodes: This can be a single item or a C{list}.
"""
if not isinstance(nodes, list):
nodes = [nodes]
for node in nodes:
if node not in self:
distance = self.node.distance_to(node)
heapq.heappush(self.heap, (distance, node))
def __len__(self):
return min(len(self.heap), self.maxsize)
def __iter__(self):
nodes = heapq.nsmallest(self.maxsize, self.heap)
return iter(map(itemgetter(1), nodes))
def __contains__(self, node):
for _, other in self.heap:
if node.peer_id_bytes == other.peer_id_bytes:
return True
return False
def get_uncontacted(self):
return [n for n in self if n.peer_id_bytes not in self.contacted]
def create_kad_peerinfo(node_id_bytes=None, sender_ip=None, sender_port=None):
node_id = ID(node_id_bytes) if node_id_bytes else ID(digest(random.getrandbits(255)))
peer_data = None
if sender_ip and sender_port:
peer_data = PeerData()
addr = [Multiaddr("/" + P_IP + "/" + str(sender_ip) + "/" + P_UDP + "/" + str(sender_port))]
peer_data.add_addrs(addr)
return KadPeerInfo(node_id, peer_data)
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