加入 Gitee
与超过 1200万 开发者一起发现、参与优秀开源项目,私有仓库也完全免费 :)
免费加入
文件
克隆/下载
dht_client.py 5.80 KB
一键复制 编辑 原始数据 按行查看 历史
mktime 提交于 2015-06-23 10:28 . dht clinet
from bencode import bencode, bdecode
import socket
from threading import Thread
import random
from hashlib import sha1
import time
import json
import struct
from Queue import Queue
import binascii
from SimpleXMLRPCServer import SimpleXMLRPCServer
BOOTSTRAP_NODES = [
("router.bittorrent.com", 6881),
("dht.transmissionbt.com", 6881),
("router.utorrent.com", 6881)
]
q = Queue()
def entropy(bytes):
s = ""
for i in range(bytes):
s += chr(random.randint(0, 255))
return s
class DHT(Thread):
def __init__(self):
Thread.__init__(self)
self.ufd = socket.socket(socket.AF_INET, socket.SOCK_DGRAM, socket.IPPROTO_UDP)
self.ufd.bind(("0.0.0.0", 6881))
self.nid = self.rand_id()
self.next_sequence = 0
self.version = 'CWxx'
self.new_nodes = []
self.db = open("data.txt", "a")
def rand_id(self):
hash = sha1()
hash.update( entropy(20) )
return hash.digest()
def new_sequence(self):
seq = '%8d' % (self.next_sequence % 65536*65535)
self.next_sequence += 1
return seq
def parse_nodes(self, nodes):
n = []
length = len(nodes)
if (length % 26) != 0:
return n
for i in range(0, length, 26):
nid = nodes[i:i+20]
ip = socket.inet_ntoa(nodes[i+20:i+24])
port = struct.unpack("!H", nodes[i+24:i+26])[0]
n.append( (ip, port) )
return list(set(n))
def run(self):
while True:
try:
data, addr = self.ufd.recvfrom(65536)
except:
print "ERROR:recv data"
continue
try:
msg = bdecode(data)
except:
print "bdecode error"
continue
self.recieve_msg(msg, addr)
def recieve_msg(self, msg, addr):
#print "++++++++++++RESPONSE MSG++++++++++++++"
#print msg
#print "++++++++++++RESPONSE MSG++++++++++++++"
try:
t = msg['y']
except:
return
if t == "q":
self.parse_request(msg, addr)
elif t == "r":
self.parse_response(msg, addr)
else:
print "IT'S AN ERROR MSG"
def send_message(self, addr, msg):
data = bencode(msg)
try:
self.ufd.sendto(data, addr)
except:
return
#print '[ERROR] sending', msg, 'to', addr
def parse_request(self, msg, addr):
query_method = msg['q']
resp_msg = {}
if query_method == "ping":
print "++++++ GOT A PING REQUEST++++++++"
resp_msg = {
"t": self.new_sequence(),
"y": "r",
"r": {"id": self.nid}
}
elif query_method == "find_node":
print "++++++ GOT A FIND_NODE REQUEST++++++++"
resp_msg = {
"t": msg['t'],
"y": "r",
"r": { "id":self.nid, "nodes":""}
}
elif query_method == "get_peers":
print "++++++ GOT A GET_PEERS REQUEST++++++++"
print "----------ADDR:", addr
resp_msg = {
"id": self.nid,
"t": msg["t"],
"y": "r",
#"r": {"id":self.nid, "token":"tokenstr", "values":""}
"r": {"id":self.nid, "token":"tokenstr", "nodes":""}
}
self.log_infohash(msg, addr)
elif query_method == "announce_peer":
print "++++++ GOT A ANNOUNCE_PEER REQUEST++++++++"
# send reply
self.send_message(resp_msg, addr)
def log_infohash(self, msg, addr):
infohash = binascii.hexlify(msg["a"]["info_hash"])
print ">>>>>>>>>>>>> [%s] <<<<<<<<<<<<<<<<<<<" % infohash
q.put(infohash)
#self.db.write(infohash + "\n")
#self.db.flush()
def parse_response(self, msg, addr):
try:
l = self.parse_nodes(msg['r']['nodes'])
except:
return
for node in l:
self.new_nodes.append(node)
def ping(self, addr):
m = {
'v': self.version,
't': self.new_sequence(),
'y': 'q',
'q': 'ping',
'a': {
'id': self.nid
}
}
self.send_message(addr, m)
def find_node(self, addr, target_id):
m = {
'v': self.version,
't': self.new_sequence(),
'y': 'q',
'q': 'find_node',
'a': {
'id': self.nid,
'target': target_id,
}
}
self.send_message(addr, m)
def get_peers(self, addr, info_hash):
m = {
'v': self.version,
't': self.new_sequence(),
'y': 'q',
'q': 'get_peers',
'a': {
'id': self.nid,
'info_hash': info_hash,
}
}
self.send_message(addr, m)
def distance(self, a, b):
dist = sum([bin(ord(x) ^ ord(y)).count('1') for x,y in zip(a,b)])
return dist
def boot(self):
print "+++++++++++++BOOT START+++++++++++++++"
for addr in BOOTSTRAP_NODES:
self.find_node(addr, self.rand_id())
def auto_find(self):
print "+++++++++++++AUTO FIND+++++++++++++++"
for addr in self.new_nodes:
self.get_peers(addr, self.rand_id())
def get_hash():
return q.get()
def rpc_server():
server = SimpleXMLRPCServer(('0.0.0.0', 1989))
server.register_function(get_hash, 'get_hash')
server.serve_forever()
if __name__ == '__main__':
rpc_thread = Thread(target=rpc_server)
rpc_thread.start()
d = DHT()
d.start()
d.boot()
while True:
d.auto_find()
time.sleep(1)
d.join()
Loading...
马建仓 AI 助手
尝试更多
代码解读
代码找茬
代码优化