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siagnal peer init

master
Роман Бородин 2019-04-25 19:47:08 +03:00
parent ed57cbcb57
commit 9cdc27c1f3
9 changed files with 73 additions and 660 deletions
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5
mods/const.py 100644
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import os
app_dir = os.path.join(os.environ['HOME'], '.black-mamba')
signalpeers_db = os.path.join(app_dir, 'signalpeers.sqlite')
downloads_db = os.path.join(app_dir, 'downloads.sqlite')
sharedfiles_db = os.path.join(app_dir, 'sharedfiles.sqlite')

15
mods/helpers.py 100644
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from datetime import datetime
def store_signalpeer(conn, signalpeerkvstore):
peer_addr = (conn._channel.stream.sock.getpeername()[0], conn.root.peer_port)
signalpeer_key = f'{peer_addr[0]:{peer_addr[1]}}'
if signalpeer_key not in signalpeerkvstore:
signalpeerkvstore[signalpeer_key] = {'addr': peer_addr, 'seen': datetime.utcnow(), 'cname': conn.root.peer_cname}
else:
signalpeerkvstore[signalpeer_key]['seen'] = datetime.utcnow()
if signalpeerkvstore[signalpeer_key]['cname'] != conn.root.peer_cname:
signalpeerkvstore[signalpeer_key]['cname'] = conn.root.peer_cname
def merge_signalpeers(signalpeers, signalpeerkvstore):
new_keys = list(set(signalpeers.keys()) - set(signalpeerkvstore.keys()))
for k in new_keys:
signalpeerkvstore[k] = signalpeers[k]

1
mods/peer.py 100644
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import rpyc

67
mods/rpyc_utcp.py
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import rpyc
from rpyc.utils.server import ThreadedServer
from rpyc.core import SocketStream, Channel
from rpyc.utils.factory import connect_stream
from rpyc.lib import Timeout
from . import utcp
import sys
class UTCPSocketStream(SocketStream):
MAX_IO_CHUNK = utcp.DATA_LENGTH
@classmethod
def utcp_connect(cls, host, port, *a, **kw):
sock = utcp.UTCP(encrypted=True)
sock.connect((host, port))
return cls(sock)
def poll(self, timeout):
timeout = Timeout(timeout)
return self.sock.poll(timeout.timeleft())
def read(self, count):
try:
return self.sock.recv(count)
except EOFError:
self.close()
raise EOFError
def write(self, data):
try:
self.sock.send(data)
except EOFError:
ex = sys.exc_info()[1]
self.close()
raise EOFError(ex)
def utcp_connect(host, port, service=rpyc.VoidService, config={}, **kw):
s = UTCPSocketStream.utcp_connect(host, port, **kw)
return connect_stream(s, service, config)
class UTCPThreadedServer(ThreadedServer):
def __init__(self, service, hostname = '', ipv6 = False, port = 0,
backlog = 1, reuse_addr = True, authenticator = None, registrar = None,
auto_register = None, protocol_config = {}, logger = None, listener_timeout = 0.5,
socket_path = None):
backlog = 1
ThreadedServer.__init__(self, service, hostname=hostname, ipv6=ipv6, port=port,
backlog=backlog, reuse_addr=reuse_addr, authenticator=authenticator, registrar=registrar,
auto_register=auto_register, protocol_config=protocol_config, logger=logger, listener_timeout=listener_timeout,
socket_path=socket_path)
self.listener.close()
self.listener = None
##########
self.listener = utcp.UTCP(encrypted=True)
self.listener.bind((hostname, port))
sockname = self.listener.getsockname()
self.host, self.port = sockname[0], sockname[1]
def _serve_client(self, sock, credentials):
addrinfo = sock.getpeername()
if credentials:
self.logger.info("welcome %s (%r)", addrinfo, credentials)
else:
self.logger.info("welcome %s", addrinfo)
try:
config = dict(self.protocol_config, credentials = credentials,
endpoints = (sock.getsockname(), addrinfo), logger = self.logger)
conn = self.service._connect(Channel(UTCPSocketStream(sock)), config)
self._handle_connection(conn)
finally:
self.logger.info("goodbye %s", addrinfo)

8
mods/settings.py 100644
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class Settings:
def __init__(self):
self.listen_port = 8765
self.listen_host = ''
self.cname = 'Very cool peer'
settings = Settings()

41
mods/signalpeer.py 100644
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import rpyc
from . import const
from . import typedefs
from .settings import settings
from uuid import uuid4
from sqlitedict import SqliteDict
from . import helpers
peer = {}
my_id = uuid4().hex
class SignalpeerService(rpyc.Service):
signalpeerkvstore = None
peer_id = None
exposed_peer_type = typedefs.SIGNALPEER
def on_connect(self, conn):
self.peer_id = uuid4().hex
if conn.root.pid == my_id:
conn.close()
return
self.signalpeerkvstore = SqliteDict(const.signalpeers_db, autocommit=True)
peer[self.peer_id] = conn
peer_type = conn.root.peer_type
if peer_type == typedefs.SIGNALPEER:
helpers.store_signalpeer(conn, self.signalpeerkvstore)
helpers.merge_signalpeers(conn.root.signal_peers, self.signalpeerkvstore)
def on_disconnect(self, conn):
if self.peer_id in peer:
peer.pop(self.peer_id)
@property
def exposed_peer_port(self):
return settings.listen_port
@property
def exposed_peer_cname(self):
return settings.cname
@property
def exposed_pid(self):
return my_id
@property
def exposed_signal_peers(self):
return dict(self.signalpeerkvstore.items())

2
mods/typedefs.py 100644
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SIGNALPEER = 1
PEER = 2

593
mods/utcp.py
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# based on https://github.com/ethay012/UTCP-over-UDP
import random
import socket
import pickle
import threading
import io
import hashlib
import simplecrypto
from struct import Struct
import uuid
import bisect
from datetime import datetime
DATA_DIVIDE_LENGTH = 8000
PACKET_HEADER_SIZE = 512 # Pickle service info
DATA_LENGTH = DATA_DIVIDE_LENGTH
SENT_SIZE = PACKET_HEADER_SIZE + DATA_LENGTH + 272 # Encrypted data always 272 bytes bigger
class Connection:
SMALLEST_STARTING_SEQ = 0
HIGHEST_STARTING_SEQ = 4294967295
def __init__(self, remote, encrypted=False):
self.fileno = 0
self.peer_addr = remote
self.seq = Connection.gen_starting_seq_num()
self.recv_seq = -1
self.my_key = None
if encrypted:
self.my_key = simplecrypto.RsaKeypair()
self.pubkey = self.my_key.publickey.serialize()
self.peer_pub = None
self.recv_lock = threading.Lock()
self.send_lock = threading.Lock()
self.packet_buffer = {
'ACK': [],
'SYN-ACK': [],
'DATA': [],
'FIN-ACK': []
}
@staticmethod
def gen_starting_seq_num():
return random.randint(Connection.SMALLEST_STARTING_SEQ, Connection.HIGHEST_STARTING_SEQ)
def seq_inc(self, inc=1):
self.seq += inc
return self.seq
def set_ack(self, ack):
self.ack = ack
return ack
class UTCPPacket:
def __cmp__(self, other):
return (self.seq > other.seq) - (self.seq < other.seq)
def __lt__(self, other):
return self.seq < other.seq
def __gt__(self, other):
return self.seq > other.seq
def __eq__(self, other):
return self.seq == other.seq
class Ack(UTCPPacket):
type = 'ACK'
def __init__(self, id_):
self.id = id_
self.seq = 0
class Fin(UTCPPacket):
type = 'FIN'
def __init__(self):
self.id = uuid.uuid4().bytes
self.seq = 0
class FinAck(UTCPPacket):
type = 'FIN-ACK'
def __init__(self, id_):
self.id = id_
self.seq = 0
class Syn(UTCPPacket):
type = 'SYN'
checksum = None
def __init__(self):
self.id = uuid.uuid4().bytes
self.seq = 0
def set_pub(self, pubkey):
self.checksum = UTCP.checksum(pubkey)
self.pubkey = pubkey
class SynAck(UTCPPacket):
type = 'SYN-ACK'
checksum = None
def __init__(self, id_):
self.id = id_
self.seq = 0
def set_pub(self, pubkey):
self.checksum = UTCP.checksum(pubkey)
self.pubkey = pubkey
class Packet(UTCPPacket):
type = 'DATA'
def __init__(self):
self.id = uuid.uuid4().bytes
self.checksum = 0
self.data = b''
self.seq = 0
def __repr__(self):
return f'Packet(seq={self.seq})'
def __str__(self):
return 'UUID: %d, DATA:%s' % (uuid.UUID(bytes=self.id), self.data)
def set_data(self, data):
self.checksum = UTCP.checksum(data)
self.data = data
class RestrictedUnpickler(pickle.Unpickler):
def find_class(self, module, name):
if module != 'builtins':
if name == 'Packet': return Packet
if name == 'Ack': return Ack
if name == 'Fin': return Fin
if name == 'FinAck': return FinAck
if name == 'Syn': return Syn
if name == 'SynAck': return SynAck
raise pickle.UnpicklingError("global '%s.%s' is forbidden" %
(module, name))
def restricted_pickle_loads(s):
return RestrictedUnpickler(io.BytesIO(s)).load()
class UTCPChannel:
HEADER = Struct('!I')
POLL_TIMEOUT = 0.1
def __init__(self, sock):
self.sock = sock
def poll(self):
return self.sock.poll(self.POLL_TIMEOUT)
def recv(self):
header = self.sock.recv(self.HEADER.size)
data_len = self.HEADER.unpack(header)[0]
return self.sock.recv(data_len)
def send(self, data):
header = self.HEADER.pack(len(data))
self.sock.send(header + data)
class ConnectedSOCK(object):
def __init__(self, low_sock, client_addr):
self.client_addr = client_addr
self.low_sock = low_sock
self.channel = UTCPChannel(self)
def __getattribute__(self, att):
try:
return object.__getattribute__(self, att)
except AttributeError:
return getattr(self.low_sock, att)
def getpeername(self):
return self.client_addr
def send(self, data):
if self.closed:
raise EOFError
return self.low_sock.send(data, self.client_addr)
def sendall(self, data):
if self.closed:
raise EOFError
self.low_sock.sendall(data, self.client_addr)
def recv(self, size):
if self.closed:
raise EOFError
return self.low_sock.recv(size, self.client_addr)
@property
def closed(self):
return self.low_sock.own_socket._closed or self.client_addr not in self.low_sock.connections
def close(self):
if self.client_addr in self.low_sock.connections:
self.low_sock.close(self.client_addr)
def shutdown(self, *a, **kw):
self.close()
def poll(self, timeout):
return self.low_sock.poll(timeout, self.client_addr)
def packets_arrived(self, packet_type):
return self.low_sock.packets_arrived(packet_type, self.client_addr)
def fileno(self):
if self.closed:
raise EOFError
return self.low_sock.fileno(self.client_addr)
class UTCP(object):
host = None
port = None
client = False
def __init__(self,encrypted=False, **kw):
self.encrypted = encrypted
self.incoming_packet_event = threading.Event()
self.new_conn_event = threading.Event()
self.own_socket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
self.own_socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
self.settimeout()
self.connection_lock = threading.Lock()
self.queue_lock = threading.Lock()
self.channel = None
self.connections = {}
self.connection_queue = []
self.syn_received = {}
self.fileno_seq = 40000000
def next_fileno(self):
self.fileno_seq += 1
return self.fileno_seq
def packets_arrived(self, packet_type, connection=None):
try:
conn = self.connections[connection]
except:
raise EOFError
with conn.recv_lock:
return bool(len(conn.packet_buffer[packet_type]))
def poll(self, timeout, connection=None):
if connection not in list(self.connections.keys()):
if connection is None:
connection = list(self.connections.keys())[0]
else:
raise EOFError('Connection not in connected devices')
if not self.closed:
has_data = self.packets_arrived('DATA', connection)
if has_data:
return True
else:
if not timeout:
timeout = 0.5
while True and not self.closed:
self.incoming_packet_event.wait(timeout)
has_data = self.packets_arrived('DATA', connection)
if not has_data:
continue
else:
return has_data
else:
self.incoming_packet_event.wait(timeout)
return self.packets_arrived('DATA', connection)
return False
def get_free_port(self):
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
s.bind(('', 0))
port = s.getsockname()[1]
s.close()
return port
def setsockopt(self, *a, **kw):
pass
def settimeout(self, timeout=5):
self.own_socket.settimeout(timeout)
def setblocking(self, mode):
self.own_socket.setblocking(mode)
def __repr__(self):
return 'UTCP()'
def __str__(self):
return 'Connections: %s' \
% str(self.connections)
def getsockname(self):
return self.own_socket.getsockname()
def getpeername(self):
if len(self.connections):
return list(self.connections.keys())[0]
else:
raise EOFError('Not connected')
def bind(self, addr):
self.host = addr[0]
self.port = addr[1]
self.own_socket.bind(addr)
def send(self, data, connection=None):
if self.closed:
raise EOFError
try:
if connection not in list(self.connections.keys()):
if connection is None:
connection = list(self.connections.keys())[0]
else:
raise EOFError('Connection not in connected devices')
conn = self.connections[connection]
data_parts = UTCP.data_divider(data)
for data_part in data_parts:
data_chunk = data_part if not self.encrypted else conn.peer_pub.encrypt_raw(data_part)
packet = Packet()
packet.set_data(data_chunk)
self.__send_packet(connection, packet, retransmit=True)
return len(data)
except socket.error as error:
raise EOFError('Socket was closed before executing command. Error is: %s.' % error)
def sendall(self, data, connection=None):
_ = self.send(data, connection)
def recv(self, size, connection=None):
if self.closed:
raise EOFError
try:
if connection not in list(self.connections.keys()):
if connection is None:
connection = list(self.connections.keys())[0]
else:
raise EOFError('Connection not in connected devices')
data = self.find_correct_packet('DATA', connection, size)
if not self.status:
raise EOFError('Disconnecting')
return data
except socket.error as error:
raise EOFError('Socket was closed before executing command. Error is: %s.' % error)
def __send_packet(self, peer_addr, packet, retransmit=False, wait_cond='ACK'):
conn = self.connections[peer_addr]
packet.seq = conn.seq_inc()
packet_to_send = pickle.dumps(packet)
if not retransmit:
self.own_socket.sendto(packet_to_send, peer_addr)
else:
data_not_received = True
retransmit_count = 0
while data_not_received and retransmit_count < 3:
data_not_received = False
try:
self.own_socket.sendto(packet_to_send, peer_addr)
answer = self.find_correct_packet(wait_cond, peer_addr, want_id=packet.id)
if not answer:
data_not_received = True
retransmit_count += 1
except socket.timeout:
data_not_received = True
if not answer:
self.drop_connection(peer_addr)
raise EOFError('Connection lost')
return answer
def listen_handler(self, max_connections):
try:
while True and self.status:
try:
answer, address = self.find_correct_packet('SYN')
with self.queue_lock:
if len(self.connection_queue) < max_connections:
conn = Connection(address, self.encrypted)
conn.fileno = self.next_fileno()
if self.encrypted:
try:
conn.peer_pub = simplecrypto.RsaPublicKey(answer.pubkey)
except:
raise socket.error('Init peer public key error')
self.connection_queue.append((answer, conn))
self.blink_new_conn_event()
else:
if answer.id in map(lambda x: x[0].id, self.connection_queue):
continue
self.own_socket.sendto(b'Connections full', address)
except KeyError:
continue
except TypeError:
continue
except socket.error as error:
raise EOFError('Something went wrong in listen_handler func! Error is: %s.' + str(error))
def listen(self, max_connections=1):
self.status = 1
self.central_receive()
try:
t = threading.Thread(target=self.listen_handler, args=(max_connections,))
t.daemon = True
t.start()
except Exception as error:
raise EOFError('Something went wrong in listen func! Error is: %s.' % str(error))
def stop(self):
self.own_socket.close()
self.status = 0
def shutdown(self, *a, **kw):
self.close()
self.status = 0
self.connections = {}
self.stop()
def accept(self):
while self.status:
try:
self.new_conn_event.wait(0.1)
if self.connection_queue:
with self.queue_lock:
answer, conn = self.connection_queue.pop()
conn.recv_seq = answer.seq
self.connections[conn.peer_addr] = conn
syn_ack = SynAck(answer.id)
if self.encrypted:
syn_ack.set_pub(conn.peer_pub.encrypt_raw(conn.pubkey))
answer = self.__send_packet(conn.peer_addr, syn_ack, retransmit=True)
return ConnectedSOCK(self, conn.peer_addr), conn.peer_addr
except EOFError:
if conn.peer_addr in self.connections:
self.close(conn.peer_addr)
continue
except Exception as error:
if conn.peer_addr in self.connections:
self.close(conn.peer_addr)
raise EOFError('Something went wrong in accept func: ' + str(error))
def connect(self, server_address=('127.0.0.1', 10000)):
if server_address in self.connections:
raise EOFError('Already connected to peer')
try:
self.bind(('', self.get_free_port()))
self.status = 1
self.client = True
self.central_receive()
conn = Connection(server_address, self.encrypted)
self.connections[server_address] = conn
syn = Syn()
if self.encrypted:
syn.set_pub(conn.pubkey)
try:
answer = self.__send_packet(server_address, syn, retransmit=True, wait_cond='SYN-ACK')
except EOFError:
raise EOFError('Remote peer unreachable')
if type(answer) == str: # == 'Connections full':
raise socket.error('Server cant receive any connections right now.')
if self.encrypted:
try:
peer_pub = conn.my_key.decrypt_raw(answer.pubkey)
conn.peer_pub = simplecrypto.RsaPublicKey(peer_pub)
except:
raise socket.error('Decrypt peer public key error')
ack = Ack(answer.id)
self.__send_packet(server_address, ack)
self.channel = UTCPChannel(self)
conn.fileno = self.next_fileno()
except socket.error as error:
self.own_socket.close()
self.connections = {}
self.status = 0
raise EOFError('The socket was closed. Error:' + str(error))
def fileno(self, connection=None):
if connection not in list(self.connections.keys()):
if connection is None:
connection = list(self.connections.keys())[0]
else:
raise EOFError('Connection not in connected devices')
return self.connections[connection].fileno
@property
def closed(self):
return not bool(len(self.connections))
def drop_connection(self, connection):
with self.connection_lock:
if len(self.connections):
self.connections.pop(connection)
def close(self, connection=None):
try:
if connection not in list(self.connections.keys()):
if connection is None:
if len(self.connections):
connection = list(self.connections.keys())[0]
else:
return
else:
raise EOFError('Connection not in connected devices')
fin = Fin()
answer = self.__send_packet(connection, fin, retransmit=True)
answer = self.find_correct_packet('FIN-ACK', connection, want_id=fin.id)
if not answer:
raise Exception('The receiver didn\'t send the fin packet')
else:
self.drop_connection(connection)
if not len(self.connections) and self.client:
self.stop()
except Exception as error:
raise EOFError('Something went wrong in the close func! Error is: %s.' % error)
def disconnect(self, connection, fin_id):
try:
ack = Ack(fin_id)
self.__send_packet(connection, ack)
fin_ack = FinAck(fin_id)
try:
self.__send_packet(connection, fin_ack)
except:
pass
self.drop_connection(connection)
except Exception as error:
raise EOFError('Something went wrong in disconnect func:%s ' % error)
@staticmethod
def data_divider(data):
'''Divides the data into a list where each element's length is 1024'''
data = [data[i:i + DATA_DIVIDE_LENGTH] for i in range(0, len(data), DATA_DIVIDE_LENGTH)]
return data
@staticmethod
def checksum(source_bytes):
return hashlib.sha1(source_bytes).digest()
def find_correct_packet(self, condition, address=('Any',), size=DATA_LENGTH, want_id=None):
not_found = True
tries = 0
while not_found and tries < 2 and self.status:
try:
not_found = False
if address[0] == 'Any':
order = self.syn_received.popitem() # to reverse the tuple received
return order[1], order[0]
try:
conn = self.connections[address]
except:
break
if condition in ['ACK', 'SYN-ACK', 'FIN-ACK']:
tries += 1
if condition == 'DATA':
if self.poll(0.1, address):
data = b''
while size:
if not self.poll(0.1, address):
continue
with conn.recv_lock:
packet = conn.packet_buffer[condition][0]
chunk = packet.data[:size]
chunk_len = len(chunk)
data += chunk
packet.data = packet.data[size:]
size -= chunk_len
if not len(packet.data):
try:
conn.packet_buffer[condition].pop(0)
except IndexError:
size = 0
return data
else:
raise KeyError
else:
if self.packets_arrived(condition, address):
packet = conn.packet_buffer[condition].pop()
else:
raise KeyError
if want_id and packet.id != want_id:
raise KeyError
return packet
except KeyError:
not_found = True
self.incoming_packet_event.wait(0.5)
def blink_incoming_packet_event(self):
self.incoming_packet_event.set()
self.incoming_packet_event.clear()
def blink_new_conn_event(self):
self.new_conn_event.set()
self.new_conn_event.clear()
def multiplex(self, packet, address):
if address not in self.connections and not isinstance(packet, Syn):
return
if not isinstance(packet, Syn):
conn = self.connections[address]
if isinstance(packet, SynAck):
conn.recv_seq = packet.seq
elif conn.recv_seq == packet.seq: # Repeat ACK
ack = Ack(packet.id)
self.__send_packet(address, ack)
return
elif packet.seq < conn.recv_seq: # Possibly DUP
return
elif packet.seq > (conn.recv_seq + 1): # Intermediate packet lost
return
else:
conn.recv_seq = packet.seq
if isinstance(packet, Packet):
if packet.checksum == UTCP.checksum(packet.data):
if self.encrypted:
packet.data = conn.my_key.decrypt_raw(packet.data)
else:
return
if isinstance(packet, Fin):
self.disconnect(address, packet.id)
elif isinstance(packet, Syn):
if address in self.connections:
return
if packet.id not in map(lambda x: x.id, self.syn_received.values()):
self.syn_received[address] = packet
else:
with conn.recv_lock:
if packet.id not in map(lambda x: x.id, conn.packet_buffer[packet.type]):
bisect.insort(conn.packet_buffer[packet.type], packet)
if isinstance(packet, Packet):
ack = Ack(packet.id)
self.__send_packet(address, ack)
self.blink_incoming_packet_event()
def central_receive_handler(self):
while True and self.status:
try:
packet, address = self.own_socket.recvfrom(SENT_SIZE)
packet = restricted_pickle_loads(packet)
self.multiplex(packet, address)
except pickle.UnpicklingError:
continue
except socket.timeout:
continue
except socket.error:
self.own_socket.close()
self.status = 0
def central_receive(self):
t = threading.Thread(target=self.central_receive_handler)
t.daemon = True
t.start()

1
runbm.py 100644
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#!/usr/bin/env python3