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import Queue
import stem.control
import logging
from twisted.web import server, resource
from twisted.internet import reactor
from chutney.TorNet import *
# Introduction Point Tracking
node_intro_circuits = {}
node_intro_events = {}
# node_events
introduction_point_circuits = {}
nodes_by_fingerprint = {}
def get_node_fingerprints(nodes):
for n in nodes:
fingerprint = n.getStemController().get_info("fingerprint")
nodes_by_fingerprint[fingerprint] = n
return nodes_by_fingerprint
def track_introduction_points(node):
nodenum = node._env["nodenum"]
nodenick = node._env["nick"]
node_intro_circuits[nodenum] = {}
node_intro_events[nodenum] = Queue.Queue()
def listener(logevent):
prefix = "rend_service_intro_has_opened(): Established circuit "
if logevent.message.startswith(prefix):
circuit = logevent.message[len(prefix):].split(" ")[0]
fingerprint = logevent.message[len(prefix):].split(" ")[1][1:]
node_intro_circuits[nodenum][circuit] = fingerprint
added_intro_node = nodes_by_fingerprint[fingerprint]
logging.info("%s: added %s (%s)" % (nodenick, added_intro_node._env["nick"], fingerprint))
node_intro_events[nodenum].put(("added", fingerprint))
prefix = "rend_services_introduce(): Circuit to "
if logevent.message.startswith(prefix) and "disapeared" in logevent.message:
fingerprint = logevent.message[len(prefix):].split(" ")[0][1:41]
for_deletion = []
for circuit, fp in node_intro_circuits[nodenum].iteritems():
#log("circuit " + str(circuit) + " fp " + str(fp))
if fingerprint == fp:
for_deletion.append(circuit)
for circuit in for_deletion:
fingerprint = node_intro_circuits[nodenum][circuit]
removed_intro_node = nodes_by_fingerprint[fingerprint]
logging.info("%s: removed %s (%s)" % (nodenick, removed_intro_node._env["nick"], fingerprint))
node_intro_events[nodenum].put(("removed", fingerprint))
del node_intro_circuits[nodenum][circuit]
logging.debug(nodenick + ": " + logevent.message)
node.getStemController().add_event_listener(listener, stem.control.EventType.INFO)
logging.info("Tracking introduction points for " + node._env["nick"])
def track_introduction_point(node):
nodenum = node._env["nodenum"]
nodenick = node._env["nick"]
introduction_point_circuits[node] = {}
def listener(logevent):
prefix = " "
if logevent.message.startswith(prefix):
circuit = logevent.message[len(prefix):].split(" ")[0]
fingerprint = logevent.message[len(prefix):].split(" ")[1][1:]
node_intro_circuits[nodenum][circuit] = fingerprint
added_intro_node = nodes_by_fingerprint[fingerprint]
logging.info("%s: added %s (%s)" % (nodenick, added_intro_node._env["nick"], fingerprint))
node_intro_events[nodenum].put(("added", fingerprint))
prefix = "rend_services_introduce(): Giving up on "
if logevent.message.startswith(prefix) or "Giving up on" in logevent.message:
logging.info(logevent.message)
fingerprint = logevent.message[len(prefix):].split(" ")[0][1:41]
for_deletion = []
for circuit, fp in node_intro_circuits[nodenum].iteritems():
#log("circuit " + str(circuit) + " fp " + str(fp))
if fingerprint == fp:
for_deletion.append(circuit)
if len(for_deletion) == 0:
logging.info("got log message " + logevent.message + " but not deleting an introduction point")
for circuit in for_deletion:
fingerprint = node_intro_circuits[nodenum][circuit]
removed_intro_node = nodes_by_fingerprint[fingerprint]
logging.info("%s: removed %s (%s)" % (nodenick, removed_intro_node._env["nick"], fingerprint))
node_intro_events[nodenum].put(("removed", fingerprint))
del node_intro_circuits[nodenum][circuit]
node.getStemController().add_event_listener(listener, stem.control.EventType.INFO)
logging.info("Tracking introduction points for " + node._env["nick"])
def determine_max_load(service_url, clients):
request_queue = Queue.Queue(1000)
singlelock = threading.Lock()
responses = []
running = True
class worker(threading.Thread):
def __init__ (self, client):
super(worker, self).__init__()
self.client = client
def run(self):
while running:
try:
request = request_queue.get(True, 1)
print("making request")
result = self.client.query("http://2oiifbe3wne4iaqb.onion/");
singlelock.acquire()
responses.append((result, time.time()))
print("result " + str(result))
singlelock.release()
# Let the queue know the job is finished.
request_queue.task_done()
except:
pass
# Create worker threads
for client in clients:
worker(client).start()
# Add elements to eueue at rate current_load
# Check size of queue, if above limit, return current_load
while True:
# Determine Average Load
time_barrier = time.time() - 10.0
last_responses = []
singlelock.acquire()
for response, response_time in reversed(responses):
if response_time < time_barrier:
break
last_responses.append(response)
singlelock.release()
current_average_load = len(last_responses) / 10.0
print("current average load %f" % current_average_load)
new_load = int(current_average_load) + 1
time_per_item = 1.0 / new_load
for i in range(new_load):
print("putting in item")
request_queue.put(1)
time.sleep(time_per_item)
def check_same_intro_points():
intro_sets = []
for introduction_points in node_intro_circuits.values():
intro_sets.append(set(introduction_points.values()))
if len(intro_sets) == 1:
logging.info("Only one node, so trivially the same introduction points")
return True
for i in range(len(intro_sets) - 1):
if not (intro_sets[i].issubset(intro_sets[i + 1]) and
intro_sets[i + 1].issubset(intro_sets[i])):
logging.info("Not the same introduction points")
for num, circuits in node_intro_circuits.items():
logging.info("node %i" % num)
for fingerprint in sorted(circuits.values()):
node = nodes_by_fingerprint[fingerprint]
logging.info(" - " + node._env["nick"] + "(" + fingerprint + ")")
return False
logging.info("Same introduction points")
for fingerprint in node_intro_circuits.values()[0].values():
node = nodes_by_fingerprint[fingerprint]
logging.info(" - " + node._env["nick"] + "(" + fingerprint + ")")
return True
def create_hidden_service(nodes):
hs_nodes = []
hs_servers = []
# Use twisted to create web servers in this script
class Site(resource.Resource):
isLeaf = True
numberRequests = 0
def __init__(self, siteNum):
self.siteNum = siteNum
def render_GET(self, request):
self.numberRequests += 1
request.setHeader("content-type", "text/plain")
return str(self.siteNum)
base_port = 10080
for i in range(nodes):
port = base_port + i
node = Node(
tag="h",
hiddenservice=1,
torrc="hidden-service.tmpl",
hiddenservicetarget="127.0.0.1:%i" % port
)
hs_nodes.append(node)
site = server.Site(Site(i))
s = reactor.listenTCP(port, site)
hs_servers.append(s)
port += 1
return hs_nodes, hs_servers
def connection_test(client_nodes, expected_nodes):
logging.info("Connecting to clients")
responses = {str(i): 0 for i in range(expected_nodes)}
for c in client_nodes:
result = c.query("http://2oiifbe3wne4iaqb.onion/");
if result in responses:
responses[result] += 1
else:
logging.info("Unknown response: " + str(result))
test_pass = True
for node, responses in sorted(responses.items()):
logging.info(node + ": " + str(responses))
if responses == 0:
test_pass = False
if test_pass:
logging.info("Test PASS")
else:
logging.info("Test FAIL")
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