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Comrad/p2p/kad.py

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2020-08-18 09:01:22 +00:00
###
# Kademlia patches
###
from kademlia.storage import *
from kademlia.network import *
from kademlia.routing import RoutingTable
from rpcudp.protocol import RPCProtocol
import os
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handler = logging.StreamHandler()
formatter = logging.Formatter('%(asctime)s - %(name)s - %(levelname)s - %(message)s')
handler.setFormatter(formatter)
log = logging.getLogger('kademlia')
log.addHandler(handler)
log.setLevel(logging.DEBUG)
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PROXY_ADDR = ('0.0.0.0',8368)
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"""UDP proxy server."""
import asyncio
class ProxyDatagramProtocol(asyncio.DatagramProtocol):
def __init__(self, remote_address=PROXY_ADDR):
self.remote_address = remote_address
self.remotes_d = {}
super().__init__()
def connection_made(self, transport):
self.transport = transport
def datagram_received(self, data, addr):
if addr in self.remotes_d:
self.remotes_d[addr].transport.sendto(data)
return
loop = asyncio.get_event_loop()
self.remotes_d[addr] = RemoteDatagramProtocol(self, addr, data)
coro = loop.create_datagram_endpoint(
lambda: self.remotes_d[addr], remote_addr=self.remote_address)
asyncio.ensure_future(coro)
class RemoteDatagramProtocol(asyncio.DatagramProtocol):
def __init__(self, proxy, addr, data):
print('RemoteDP got:',proxy,addr,data)
self.proxy = proxy
self.addr = addr
self.data = data
super().__init__()
def connection_made(self, transport):
self.transport = transport
self.transport.sendto(self.data)
def datagram_received(self, data, _):
self.proxy.transport.sendto(data, self.addr)
def connection_lost(self, exc):
self.proxy.remotes.pop(self.attr)
async def start_datagram_proxy(protocol_class, bind, port, remote_host, remote_port):
loop = asyncio.get_event_loop()
protocol = protocol_class((remote_host, remote_port))
return await loop.create_datagram_endpoint(
lambda: protocol, local_addr=(bind, port))
def main(bind='0.0.0.0', port=8888,
remote_host='0.0.0.0', remote_port=9999):
loop = asyncio.get_event_loop()
print("Starting datagram proxy...")
coro = start_datagram_proxy(bind, port, remote_host, remote_port)
transport, _ = loop.run_until_complete(coro)
print("Datagram proxy is running...")
try:
loop.run_forever()
except KeyboardInterrupt:
pass
print("Closing transport...")
transport.close()
loop.close()
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log = logging.getLogger('kademlia') # pylint: disable=invalid-name
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class KadProtocol(KademliaProtocol):
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# remote_address = PROXY_ADDR
# REMOTES_D={}
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# def __init__(self, source_node, storage, ksize):
# RPCProtocol.__init__(self,wait_timeout=5)
# self.router = RoutingTable(self, ksize, source_node)
# self.storage = storage
# self.source_node = source_node
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# def datagram_received(self, data, addr):
# #if not hasattr(self,'remotes_d'): self.remotes_d={}
# # print('\n\n!?!?!?',self.REMOTES_D, type(self.REMOTES_D))
# # if addr in self.REMOTES_D:
# # self.REMOTES_D[addr].transport.sendto(data)
# # return
# loop = asyncio.get_event_loop()
# # self.REMOTES_D[addr] = RemoteDatagramProtocol(self, addr, data)
# RDP = RemoteDatagramProtocol(self, addr, data)
# coro = loop.create_datagram_endpoint(lambda: RDP, remote_addr=self.remote_address)
# asyncio.ensure_future(coro)
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def handle_call_response(self, result, node):
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"""
If we get a response, add the node to the routing table. If
we get no response, make sure it's removed from the routing table.
"""
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if not result[0]:
log.warning("no response from %s, ?removing from router", node)
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self.router.remove_contact(node)
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return result
log.info("got successful response from %s", node)
self.welcome_if_new(node)
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return result
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class KadServer(Server):
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protocol_class = KademliaProtocol # KadProtocol #KademliaProtocol
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# def __init__(self, *x, **y):
# self.storage = y['storage']
# # raise Exception(str(self.storage))
# super().__init__(*x,**y)
# log.info(f'Storage has {len(self.storage.data)} keys')
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def __repr__(self):
repr = f"""
KadServer()
ksize = {self.ksize}
alpha = {self.alpha}
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storage = {len(self.storage.data)} keys
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node = {self.node}
transport = {self.transport}
protocol = {self.protocol}
refresh_loop = {self.refresh_loop}
save_state_loop = {self.save_state_loop}
bootstrappable_neighbors = {self.bootstrappable_neighbors()}
"""
return repr
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# async def get(self, key):
# """
# Get a key if the network has it.
# Returns:
# :class:`None` if not found, the value otherwise.
# """
# log.info("Looking up key %s", key)
# dkey = digest(key)
# # if this node has it, return it
# if self.storage.get(dkey) is not None:
# log.info('I already have this')
# return self.storage.get(dkey)
# node = Node(dkey)
# nearest = self.protocol.router.find_neighbors(node)
# log.info(f'My nearest nodes are: {nearest}')
# if not nearest:
# log.warning("There are no known neighbors to get key %s", key)
# return None
# spider = ValueSpiderCrawl(self.protocol, node, nearest,
# self.ksize, self.alpha)
# found = await spider.find()
# log.info(f'spider done crawling: {spider}')
# log.info(f'spider found value: {found}')
# self.storage[dkey]=found
# return found
# async def set(self, key, value):
# """
# Set the given string key to the given value in the network.
# """
# if not check_dht_value_type(value):
# raise TypeError(
# "Value must be of type int, float, bool, str, or bytes"
# )
# log.info("setting '%s' = '%s' on network", key, value)
# dkey = digest(key)
# print('STORE??',type(self.storage),self.storage)
# self.storage.set(dkey,value)
# return await self.set_digest(dkey, value)
# async def set_digest(self, dkey, value):
# """
# Set the given SHA1 digest key (bytes) to the given value in the
# network.
# """
# node = Node(dkey)
# nearest = self.protocol.router.find_neighbors(node)
# if not nearest:
# log.warning("There are no known neighbors to set key %s",
# dkey.hex())
# #return False
# spider = NodeSpiderCrawl(self.protocol, node, nearest,
# self.ksize, self.alpha)
# nodes = await spider.find()
# log.info("setting '%s' on %s", dkey.hex(), list(map(str, nodes)))
# # if this node is close too, then store here as well
# neighbs=[n.distance_to(node) for n in nodes]
# log.info('setting on %s neighbors', neighbs)
# biggest = max(neighbs) if neighbs else 0
# log.info('my distance to node is %s, biggest distance is %s',
# self.node.distance_to(node),biggest)
# if self.node.distance_to(node) < biggest:
# self.storage.set(dkey,value)
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# log.info('here are the nodes %s' % nodes)
# results = [self.protocol.call_store(n, dkey, value) for n in nodes]
# log.info('here are the results')
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# # return true only if at least one store call succeeded
# return any(await asyncio.gather(*results))
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#### NEVERMIND
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# KadServer = Server
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import time
if __name__=='__main__':
# test
hfs = HalfForgetfulStorage(fn='test.db')
#hfs['a']=1
# time.sleep(2)
hfs['a']=1000
print(hfs['a'])
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print(hfs['a'])