#!/usr/bin/env python
#
# Electrum - lightweight Bitcoin client
# Copyright (C) 2011 thomasv@gitorious
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import copy, re, errno, os
import threading, traceback, sys, time, Queue
import socket
import ssl
import requests
ca_path = requests.certs.where()
import util
import x509
import pem
from version import ELECTRUM_VERSION, PROTOCOL_VERSION
from simple_config import SimpleConfig
def Interface(server, response_queue, config = None):
"""Interface factory function. The returned interface class handles the connection
to a single remote electrum server. The object handles all necessary locking. It's
exposed API is:
- Inherits everything from threading.Thread.
- Member functions send_request(), stop(), is_connected()
- Member variable server.
"server" is constant for the object's lifetime and hence synchronization is unnecessary.
"""
host, port, protocol = server.split(':')
if protocol in 'st':
return TcpInterface(server, response_queue, config)
else:
raise Exception('Unknown protocol: %s'%protocol)
# Connection status
CS_OPENING, CS_CONNECTED, CS_FAILED = range(3)
class TcpInterface(threading.Thread):
def __init__(self, server, response_queue, config = None):
threading.Thread.__init__(self)
self.daemon = True
self.config = config if config is not None else SimpleConfig()
# Set by stop(); no more data is exchanged and the thread exits after gracefully
# closing the socket
self.disconnect = False
self._status = CS_OPENING
self.debug = False # dump network messages. can be changed at runtime using the console
self.message_id = 0
self.response_queue = response_queue
self.request_queue = Queue.Queue()
self.unanswered_requests = {}
# request timeouts
self.request_time = time.time()
self.ping_time = 0
# parse server
self.server = server
self.host, self.port, self.protocol = self.server.split(':')
self.host = str(self.host)
self.port = int(self.port)
self.use_ssl = (self.protocol == 's')
def print_error(self, *msg):
util.print_error("[%s]"%self.host, *msg)
def process_response(self, response):
if self.debug:
self.print_error("<--", response)
msg_id = response.get('id')
error = response.get('error')
result = response.get('result')
if msg_id is not None:
method, params, _id, queue = self.unanswered_requests.pop(msg_id)
if queue is None:
queue = self.response_queue
else:
# notification
method = response.get('method')
params = response.get('params')
_id = None
queue = self.response_queue
# restore parameters
if method == 'blockchain.numblocks.subscribe':
result = params[0]
params = []
elif method == 'blockchain.headers.subscribe':
result = params[0]
params = []
elif method == 'blockchain.address.subscribe':
addr = params[0]
result = params[1]
params = [addr]
if method == 'server.version':
self.server_version = result
return
if error:
queue.put((self, {'method':method, 'params':params, 'error':error, 'id':_id}))
else:
queue.put((self, {'method':method, 'params':params, 'result':result, 'id':_id}))
def get_simple_socket(self):
try:
l = socket.getaddrinfo(self.host, self.port, socket.AF_UNSPEC, socket.SOCK_STREAM)
except socket.gaierror:
self.print_error("cannot resolve hostname")
return
for res in l:
try:
s = socket.socket(res[0], socket.SOCK_STREAM)
s.connect(res[4])
s.settimeout(2)
s.setsockopt(socket.SOL_SOCKET, socket.SO_KEEPALIVE, 1)
return s
except BaseException as e:
continue
else:
self.print_error("failed to connect", str(e))
def get_socket(self):
if self.use_ssl:
cert_path = os.path.join( self.config.path, 'certs', self.host)
if not os.path.exists(cert_path):
is_new = True
s = self.get_simple_socket()
if s is None:
return
# try with CA first
try:
s = ssl.wrap_socket(s, ssl_version=ssl.PROTOCOL_TLSv1, cert_reqs=ssl.CERT_REQUIRED, ca_certs=ca_path, do_handshake_on_connect=True)
except ssl.SSLError, e:
s = None
if s and check_host_name(s.getpeercert(), self.host):
self.print_error("SSL certificate signed by CA")
return s
# get server certificate.
# Do not use ssl.get_server_certificate because it does not work with proxy
s = self.get_simple_socket()
if s is None:
return
try:
s = ssl.wrap_socket(s, ssl_version=ssl.PROTOCOL_TLSv1, cert_reqs=ssl.CERT_NONE, ca_certs=None)
except ssl.SSLError, e:
self.print_error("SSL error retrieving SSL certificate:", e)
return
dercert = s.getpeercert(True)
s.close()
cert = ssl.DER_cert_to_PEM_cert(dercert)
# workaround android bug
cert = re.sub("([^\n])-----END CERTIFICATE-----","\\1\n-----END CERTIFICATE-----",cert)
temporary_path = cert_path + '.temp'
with open(temporary_path,"w") as f:
f.write(cert)
else:
is_new = False
s = self.get_simple_socket()
if s is None:
return
if self.use_ssl:
try:
s = ssl.wrap_socket(s,
ssl_version=ssl.PROTOCOL_TLSv1,
cert_reqs=ssl.CERT_REQUIRED,
ca_certs= (temporary_path if is_new else cert_path),
do_handshake_on_connect=True)
except ssl.SSLError, e:
self.print_error("SSL error:", e)
if e.errno != 1:
return
if is_new:
rej = cert_path + '.rej'
if os.path.exists(rej):
os.unlink(rej)
os.rename(temporary_path, rej)
else:
with open(cert_path) as f:
cert = f.read()
try:
b = pem.dePem(cert, 'CERTIFICATE')
x = x509.X509(b)
except:
traceback.print_exc(file=sys.stderr)
self.print_error("wrong certificate")
return
try:
x.check_date()
except:
self.print_error("certificate has expired:", cert_path)
os.unlink(cert_path)
return
self.print_error("wrong certificate")
return
except BaseException, e:
self.print_error(e)
if e.errno == 104:
return
traceback.print_exc(file=sys.stderr)
return
if is_new:
self.print_error("saving certificate")
os.rename(temporary_path, cert_path)
return s
def send_request(self, request, response_queue = None):
'''Queue a request.'''
self.request_time = time.time()
self.request_queue.put((copy.deepcopy(request), response_queue))
def send_requests(self):
'''Sends all queued requests'''
while self.is_connected() and not self.request_queue.empty():
request, response_queue = self.request_queue.get()
method = request.get('method')
params = request.get('params')
r = {'id': self.message_id, 'method': method, 'params': params}
try:
self.pipe.send(r)
except socket.error, e:
self.print_error("socket error:", e)
self.stop()
return
if self.debug:
self.print_error("-->", r)
self.unanswered_requests[self.message_id] = method, params, request.get('id'), response_queue
self.message_id += 1
def is_connected(self):
'''True if status is connected'''
return self._status == CS_CONNECTED and not self.disconnect
def stop(self):
if not self.disconnect:
self.disconnect = True
self.print_error("disconnecting")
def maybe_ping(self):
# ping the server with server.version
if time.time() - self.ping_time > 60:
self.send_request({'method':'server.version', 'params':[ELECTRUM_VERSION, PROTOCOL_VERSION]})
self.ping_time = time.time()
# stop interface if we have been waiting for more than 10 seconds
if self.unanswered_requests and time.time() - self.request_time > 10 and self.pipe.idle_time() > 10:
self.print_error("interface timeout", len(self.unanswered_requests))
self.stop()
def get_and_process_response(self):
if self.is_connected():
try:
response = self.pipe.get()
except util.timeout:
return
# If remote side closed the socket, SocketPipe closes our socket and returns None
if response is None:
self.disconnect = True
self.print_error("connection closed remotely")
else:
self.process_response(response)
def run(self):
s = self.get_socket()
if s:
self.pipe = util.SocketPipe(s)
s.settimeout(0.1)
self.print_error("connected")
self._status = CS_CONNECTED
# Indicate to parent that we've connected
self.notify_status()
while self.is_connected():
self.maybe_ping()
self.send_requests()
self.get_and_process_response()
s.shutdown(socket.SHUT_RDWR)
s.close()
# Also for the s is None case
self._status = CS_FAILED
# Indicate to parent that the connection is now down
self.notify_status()
def notify_status(self):
'''Notify owner that we have just connected or just failed the connection.
Owner determines which through e.g. testing is_connected()'''
self.response_queue.put((self, None))
def _match_hostname(name, val):
if val == name:
return True
return val.startswith('*.') and name.endswith(val[1:])
def check_host_name(peercert, name):
"""Simple certificate/host name checker. Returns True if the
certificate matches, False otherwise."""
# Check that the peer has supplied a certificate.
# None/{} is not acceptable.
if not peercert:
return False
if peercert.has_key("subjectAltName"):
for typ, val in peercert["subjectAltName"]:
if typ == "DNS" and _match_hostname(name, val):
return True
else:
# Only check the subject DN if there is no subject alternative
# name.
cn = None
for attr, val in peercert["subject"]:
# Use most-specific (last) commonName attribute.
if attr == "commonName":
cn = val
if cn is not None:
return _match_hostname(name, cn)
return False
def check_cert(host, cert):
try:
b = pem.dePem(cert, 'CERTIFICATE')
x = x509.X509(b)
except:
traceback.print_exc(file=sys.stdout)
return
try:
x.check_date()
expired = False
except:
expired = True
m = "host: %s\n"%host
m += "has_expired: %s\n"% expired
util.print_msg(m)
def test_certificates():
config = SimpleConfig()
mydir = os.path.join(config.path, "certs")
certs = os.listdir(mydir)
for c in certs:
print c
p = os.path.join(mydir,c)
with open(p) as f:
cert = f.read()
check_cert(c, cert)
if __name__ == "__main__":
test_certificates()