def handle_messaging_command(self, user, request):
"""
Handles requests from fetcher. Really just a multiplexer function,
real handling is done in separate classes.
"""
t = request.get('t')
if t == 'msg':
validator = {'msg': [ONE_OR_MORE, str],
OPTIONAL_KEY('context'): [ZERO_OR_MORE, {}]
}
if not validate(validator, request):
warning('Invalid messaging request: %s\n' %(str(request)))
return None
l = request['msg']
if len(l) < 6:
warning('Invalid messaging request: %s\n' % str(request))
return None
msg = Message()
msg.from_list(l)
# check internal validity
if not msg.validate():
return None
if self.chatcontext:
context = request.get('context')
else:
context = None
return self.handle_message(user, msg, context)
elif t == 'request':
if not validate({'msgid': str}, request):
warning('Invalid messaging request: %s\n' % str(request))
return None
return self.handle_request(user, request['msgid'])
elif t == 'request_heads':
if not validate({'addrs' : [ZERO_OR_MORE, str]}, request):
warning('Invalid heads request: %s\n' % str(request))
return None
return self.handle_request_heads(user, request['addrs'])
return {}
def got_message_reply(self, user, result, ctx):
(c, m, ctxmsgs) = ctx
if result == None:
return
if not validate(self.msgreplyspec, result):
return
for m in ctxmsgs:
if m.error:
m.error = False
for cb in self.change_message_cb:
cb(c, m)
parentid = result['parentid']
children = result['children']
# find conversation with parentid
c = None
for ci in self.conversations.values():
if ci.has_msgid(parentid):
c = ci
break
if c == None:
return
# request children if we don't have them already
for childid in children:
if not c.has_msgid(childid):
self.request_message(user, childid, max_depth=10)
def got_data(self, user, d):
validator = {
'packet': int,
'frag': lambda i: is_unsigned_int('frag', i),
'fragcount': lambda i: is_unsigned_int('fragcount', i),
'payload': str,
'ack': bool,
}
if not validate(validator, d):
warning('fetcher: Invalid data packet %s\n' % str(d))
return
if d['fragcount'] > TP_MAX_RECORD_SIZE // MTU + 1:
warning('fetcher: Too large packet %d\n' % d['fragcount'])
return
if len(d['payload']) > MTU * 2:
warning('fetcher: Received too large fragment %d\n' % len(d['payload']))
return
key = (user, d['packet'])
o = pending_receives.get(key)
if o == None:
# We have not yet received any fragments from this packet
o = UDP_Receiver(user, d['packet'])
o.handle_data(d)
def got_community_profiles(self, user, reply, ctx):
if reply == None:
return
validator = {
'cname': [ZERO_OR_MORE, str],
'profile': [ZERO_OR_MORE, {}]
}
if not validate(validator, reply):
warning('Invalid community profiles reply\n' % str(reply))
return
communities = self.get_user_communities(user)
for (cname, profile) in zip(reply['cname'], reply['profile']):
if cname == DEFAULT_COMMUNITY_NAME:
continue
com = self.get_ordinary_community(cname)
if com in communities:
self.update_community_profile(com, user, profile)
communities.remove(com)
# Do icon requests for the rest of communities
for com in communities:
if com.get('name') != DEFAULT_COMMUNITY_NAME:
self.request_com_icon(user, com)
def fmt_bdecode(fmt, data):
try:
x = bdecode(data)
except ValueError:
return None
if not validate(fmt, x):
return None
return x
def fmt_bdecode(fmt, data):
try:
x = bdecode(data)
except ValueError:
return None
if not validate(fmt, x):
return None
return x
def got_ack(self, user, d):
validator = {
'packet': int,
'ack': [ONE_OR_MORE, lambda i: is_unsigned_int('ack', i)],
}
if not validate(validator, d):
warning('fetcher: Invalid ack packet %s\n' % str(d))
return
key = (user, d['packet'])
o = pending_sends.get(key)
if o != None:
o.handle_ack(d)
def got_bye(self, d, address):
""" User quit, denounce """
validator = {
'uid': lambda s: valid_uid(s) and s != self.myuid,
}
if not validate(validator, d):
return
user = self.safe_get_user(d.get('uid'), address[0])
if user == None:
info('Rejecting quit message from uid %s\n' % d.get('uid'))
else:
self.denounce_user(user)
def handle_icon_push(self, user, request):
""" This is called when is received. Save the icon image. """
validator = {'icon': str,
'iconid': str,
'version': lambda i: is_unsigned_int('version', i)
}
if not validate(validator, request):
return None
icon = request['icon']
iconid = request['iconid']
if iconid == 'user':
if user.get('faceversion') != request['version']:
# This is an outdated version of the icon..
return None
if icon == '':
# if we got an empty string, user removed the icon
# giving None to save_face removes the picture
delete_face(user)
elif not save_face(user, icon):
warning('Could not save face for %s: %d bytes\n' % (user.tag(), len(icon)))
return None
user.set('myfaceversion', request['version'])
self.announce_user_change(user, what=(PROFILE_ICON_CHANGED, None))
elif iconid.startswith('c:'):
cname = iconid[2:]
if cname == DEFAULT_COMMUNITY_NAME:
return None
com = self.get_ordinary_community(cname)
if com == None:
return None
if com.get('iconversion') != request['version']:
# This is an outdated version of the icon..
return None
if com.get('iconlocked'):
return None
if icon == '':
delete_community_icon(com)
elif not save_community_icon(com, icon):
warning('Failed to update community icon: %s\n' % cname)
return None
com.set('myiconversion', request['version'])
self.announce_community_change(com)
return None
def process_results(self, reply):
metas = []
if reply == None:
return metas
if not validate(self.queryresultspec, reply):
warning("msgboard: Invalid results: %s\n" % str(reply))
return metas
for metadict in reply["msgs"]:
meta = Share_Meta()
if not meta.unserialize(metadict):
warning("msgboard: Can not unserialize: %s\n" % str(metadict))
continue
if not self.validate_message(meta):
warning("msgboard: Invalid meta: %s\n" % str(meta))
continue
metas.append(meta)
return metas
def handle_request(self, user, request):
""" Handle incoming queries. Search through Share_Metas. """
if request.get("t") == "msgpush":
return self.handle_msgpush(user, request)
if not validate(self.queryspec, request):
warning("Invalid msgboard query: %s\n" % str(request))
return None
keywords = request.get("keywords")
criteria = request.get("criteria")
if criteria == None:
criteria = {}
criteria.setdefault("src", self.community.myuid)
metas = search_metas(self.all_metas(), criteria, keywords)
if not normal_traffic_mode():
t = int(time())
metas = filter(lambda meta: self.test_send_time(meta, t), metas)
for meta in metas:
self.set_send_time(meta, t)
serializedmetas = []
for meta in metas:
serializedmetas.append(meta.serialize())
if len(serializedmetas) == 0:
if normal_traffic_mode():
return {"msgs": []}
else:
return self.fetcher.POSTPONE_REPLY
if self.fetcher.is_fetch_community_efficient():
com = self.community.get_default_community()
# Broadcast messages in bundles of three messages
push = {"t": "msgpush"}
for metabundle in n_lists(serializedmetas, 3):
push["msgs"] = metabundle
self.fetcher.fetch_community(com, self.name, push, None, ack=False)
return self.fetcher.POSTPONE_REPLY
return {"msgs": serializedmetas}
def got_request_heads_reply(self, user, result, addrs):
if not validate(self.requestheadsreplyspec, result):
return
heads = result['heads']
for head in heads:
addr = head[0]
# check that we requested a head for this address, if not
# then skip this addr
if addr not in addrs:
continue
# request all heads received for this address
for msgid in head[1:]:
c = self.get_conversation(addr)
if not c.has_msgid(msgid):
self.request_message(user, msgid, max_depth=10)
def handle_community_profiles_fetch(self, user, request):
validator = {
'cname': [ZERO_OR_MORE, str],
'version': [ZERO_OR_MORE, lambda i: is_unsigned_int('version', i)]
}
if not validate(validator, request):
warning('Invalid community profiles fetch\n' % str(request))
return None
cnames = []
profiles = []
for (cname, version) in zip(request['cname'], request['version']):
com = self.get_ordinary_community(cname)
if com == None:
continue
if version < com.get('v'):
cnames.append(cname)
profiles.append(com.serialize())
debug('Sending %s community profile to %s\n' %
(com.get('name'), user.get('nick')))
return {'cname': cnames, 'profile': profiles}
def got_hello(self, d, address):
""" Check validity of Proximate hello, and register the other party. """
validator = {
'v': valid_protocol_version,
'pv': lambda x: type(x) == int and x >= 0,
'port': valid_port,
'nick': valid_nick,
'uid': lambda s: valid_uid(s) and s != self.myuid,
}
if not validate(validator, d):
if type(d) != dict or d.get('uid') != self.myuid:
info('Rejecting signature: %s\n' % str(d))
return
updatelist = [('nick', d['nick']), ('protocolversion', d['v'])]
if address != None:
ip = address[0]
else:
ip = None
self.add_or_update_user(d['uid'], updatelist, d['pv'], ip, d['port'])
# type validator documentation as a commented source code :-)
from bencode.py import fmt_bdecode
from typevalidator import validate, ANY, ZERO_OR_MORE, ONE_OR_MORE, OPTIONAL_KEY
# Syntax of validate: validate(specification, object)
# Syntax of fmt_bdecode: fmt_bdecode(specification, blob)
#
# Blob is first transformed to an object with bdecode, then validated with
# type validator. This can be done with one call with fmt_bdecode()
# Asserted examples with type validator:
# Demand a dictionary whose keys and values are strings:
assert validate({str: str}, {'name': 'Cheradenine'})
assert validate({str: str}, {1: 'Cheradenine'}) == False
assert validate({str: str}, {'name': 1}) == False
# Demand a dictionary whose keys are integers but values may have any
# (supported) type. Furthermore, key with value 123 must exist.
assert validate({int: ANY, 123: ANY}, {123: 'x'})
assert validate({int: ANY, 123: ANY}, {123: 456})
assert validate({int: ANY, 123: ANY}, {4: 'x'}) == False # 123 does not exist
# List may begin with ZERO_OR_MORE or ONE_OR_MORE to specify that minimum
# length of the list is either zero or one, respectively. If either is
# used, then also a type must be specified after this.
assert validate([ZERO_OR_MORE, ANY], [])
assert validate([ONE_OR_MORE, ANY], ['x'])
assert validate([ONE_OR_MORE, ANY], []) == False
assert validate([ONE_OR_MORE, str], ['x', 1]) == False
def validate_message(self, sm):
return validate(self.msgspec, sm.d)
# type validator documentation as a commented source code :-)
from bencode.py import fmt_bdecode
from typevalidator import validate, ANY, ZERO_OR_MORE, ONE_OR_MORE, OPTIONAL_KEY
# Syntax of validate: validate(specification, object)
# Syntax of fmt_bdecode: fmt_bdecode(specification, blob)
#
# Blob is first transformed to an object with bdecode, then validated with
# type validator. This can be done with one call with fmt_bdecode()
# Asserted examples with type validator:
# Demand a dictionary whose keys and values are strings:
assert validate({str: str}, {'name': 'Cheradenine'})
assert validate({str: str}, {1: 'Cheradenine'}) == False
assert validate({str: str}, {'name': 1}) == False
# Demand a dictionary whose keys are integers but values may have any
# (supported) type. Furthermore, key with value 123 must exist.
assert validate({int: ANY, 123: ANY}, {123: 'x'})
assert validate({int: ANY, 123: ANY}, {123: 456})
assert validate({int: ANY, 123: ANY}, {4: 'x'}) == False # 123 does not exist
# List may begin with ZERO_OR_MORE or ONE_OR_MORE to specify that minimum
# length of the list is either zero or one, respectively. If either is
# used, then also a type must be specified after this.
assert validate([ZERO_OR_MORE, ANY], [])
assert validate([ONE_OR_MORE, ANY], ['x'])
assert validate([ONE_OR_MORE, ANY], []) == False
assert validate([ONE_OR_MORE, str], ['x', 1]) == False
def got_request_reply(self, user, result, max_depth):
if not validate(self.requestreplyspec, result):
return
msg_list = result['msg']
children = result['children']
m = Message()
m.from_list(msg_list)
if not m.validate():
warning('Invalid message received from request\n')
return
debug('Received requested message %s (%i)\n' % (m.get_msg(), max_depth))
ctime = int(m.get_ctime()[0])
if time.time() - ctime >= MESSAGE_EXPIRATION:
debug('Rejecting expired message: %s\n' % m.get_msg())
return
# when we receive a message, the corresponding conversation
# is identified:
# user-to-user : from sender_addr or target_addr (!= my_addr)
# community : from target_addr
target_addr = m.get_target_addr()
sender_addr = m.get_sender_addr()
if is_addr_community(target_addr):
ckey = target_addr
else:
if sender_addr == self.my_addr:
ckey = target_addr
else:
ckey = sender_addr
c = self.get_conversation(ckey)
# discard duplicates
msgid = m.get_msgid()
if c.has_msgid(msgid):
return
# add message and set it as new head if it doesn't have children
if len(c.get_children(msgid)) > 0:
c.add_msg(m)
else:
c.add_msg(m, set_head=True)
self.cleanup_conversation(c)
self.announce_new_message(c, m)
# if maximum depth is reached, do not continue to request
# parent and children
if max_depth <= 0:
return
# request parent if we don't have it already
parentid = m.get_parentid()
if parentid != '':
if not c.has_msgid(parentid):
self.request_message(user, parentid, max_depth=max_depth-1)
# request children if we don't have them already
for childid in children:
if not c.has_msgid(childid):
self.request_message(user, childid, max_depth=max_depth-1)
def handle_requests(self, from_user, request):
""" Handles requests from fetcher """
if request == None:
return
if not validate({'t': str,
'uid': lambda s: type(s) == str and valid_uid(s) and s != self.my_uid,
'param': str}, request):
debug('Key management: Broken request: %s\n' %(request))
return {'r': self.KM_PROTOCOL_VIOLATION, uid: self.my_uid}
cmd = request['t']
uid = request['uid']
param = request['param']
debug('Key management: handling request %s from %s\n' %(cmd, uid))
user = self.community.get_user(uid)
if user != from_user:
warning("keymanagement: Invalid uid from fetcher: %s\n" %(uid))
return {'r': self.KM_PROTOCOL_VIOLATION, 'uid': self.my_uid}
nick = user.get('nick')
if self.current['user'] and user != self.current['user']:
warning('keymanagement: Paraller request from %s: Current uid is %s\n' %(nick, self.current['user'].get('uid')))
return {'r': self.KM_REQUEST_NACK, 'uid': self.my_uid}
if not self.check_request(cmd):
warning('keymanagement: Protocol violation from %s: Current state is %s but received request %s\n' %(nick, self.current['state'], cmd))
return {'r': self.KM_PROTOCOL_VIOLATION, 'uid': self.my_uid}
self.current['state'] = cmd
self.key_exchange_gui.plugin_to_gui(user, cmd, True)
payload = ''
if cmd == self.KM_REQUEST_KEY:
self.current['user'] = user
result = self.KM_REQUEST_ACK
elif cmd == self.KM_REQUEST_DENIED:
debug('keymanagement: %s denied request for key exchange\n' %(nick))
self.current = {'user': None, 'state': None}
result = self.KM_CANCEL
elif cmd == self.KM_REQUEST_OK:
debug('keymanagement: started key exchange with %s\n' %(nick))
result = self.KM_REQUEST_ANSWER_ACK
elif cmd == self.KM_TEMP_KEY_ACK:
# Other user has typed in the passphrase. We can now send the
# temporary key encrypted with it.
result = self.KM_TEMP_KEY1
payload = self.sym_enc(self.load_pub_key(self.myself, temp=True),
self.temp_passphrase)
if not payload:
result = self.KM_ERROR
payload = ''
elif cmd == self.KM_TEMP_KEY2:
# Received other party's temporary key. Let's send our
# permanent key encrypted with this temporary key.
temp_key = self.sym_dec(param, self.temp_passphrase)
if temp_key and self.save_key(user, pub=temp_key, temp=True):
result = self.KM_PERM_KEY1
payload = self.asym_enc(self.load_pub_key(self.myself),
self.key_path(user, temp=True))
if not payload:
result = self.KM_ERROR
payload = ''
else:
result = self.KM_ERROR
payload = ''
elif cmd == self.KM_PERM_KEY2:
# Received permanent key. Save it and send "finished".
perm_key = self.asym_dec(param, self.key_path(self.myself, temp=True))
if perm_key and self.save_key(user, pub=perm_key):
result = self.KM_PERM_KEY_ACK
else:
result = self.KM_ERROR
elif cmd == self.KM_CANCEL:
self.current = {'user': None, 'state': None}
# Key exchange canceled
result = self.KM_CANCEL
elif cmd == self.KM_FINISHED:
self.community.announce_user_change(user) # update user state
self.current = {'user': None, 'state': None}
# Successful key exchange
result = self.KM_FINISHED
elif cmd == self.KM_ERROR:
self.current = {'user': None, 'state': None}
result = self.KM_ERROR
elif cmd == self.KM_PROTOCOL_VIOLATION:
self.current = {'user': None, 'state': None}
result = self.KM_PROTOCOL_VIOLATION
debug('Key management: sending answer %s to %s\n' %(result, nick))
return {'r': result, 'uid': self.my_uid, 'param': payload}
def request_cb(self, target_user, request, ctx):
""" Handles answers from fetcher """
if request == None:
return
if not validate({'r': str,
'uid': lambda s: type(s) == str and valid_uid(s) and s != self.my_uid,
'param': str}, request):
debug('Key management: Broken payload: %s\n' %(' '.join(payload)))
return
cmd = request['r']
uid = request['uid']
param = request['param']
if uid == self.my_uid:
return
debug('Key management: got answer %s from %s\n' %(cmd, uid))
user = self.community.get_user(uid)
if self.current['user'] and user != self.current['user']:
warning('keymanagement: Protocol violation from %s: Current uid is %s\n' %(nick, self.current['uid'].get('uid')))
return {'r': self.KM_PROTOCOL_VIOLATION, 'uid': self.my_uid}
if not self.check_answer(cmd):
warning('keymanagement: Protocol violation from %s: request was %s but answer was %s' %(uid, self.current['state'], cmd))
self.send_request(user, self.KM_PROTOCOL_VIOLATION, '')
return
self.key_exchange_gui.plugin_to_gui(user, cmd, False)
payload = ''
if cmd == self.KM_REQUEST_ACK:
self.temp_key_watcher = self.gen_temp_key()
self.temp_passphrase = self.gen_passphrase()
debug('Key management: passphrase is %s\n' %(self.temp_passphrase))
return
if cmd == self.KM_REQUEST_ANSWER_ACK:
self.gen_temp_key()
return
elif cmd == self.KM_TEMP_KEY1:
# Received temporery key: save it and send our temporary key
# encrypted with the symmetric cipher
temp_key = self.sym_dec(param, self.temp_passphrase)
if temp_key and self.save_key(user, pub=temp_key, temp=True):
send_cmd = self.KM_TEMP_KEY2
payload = self.sym_enc(self.load_pub_key(self.myself, temp=True),
self.temp_passphrase)
if not payload:
send_cmd = self.KM_ERROR
payload = ''
else:
send_cmd = self.KM_ERROR
payload = ''
elif cmd == self.KM_PERM_KEY1:
# Received counterpartys permanent key, so let's save it and send ours
perm_key = self.asym_dec(param, self.key_path(self.myself, temp=True))
if perm_key and self.save_key(user, pub=perm_key):
send_cmd = self.KM_PERM_KEY2
payload = self.asym_enc(self.load_pub_key(self.myself),
self.key_path(user, temp=True))
if not payload:
send_cmd = KM.ERROR
payload = ''
else:
send_cmd = KM_ERROR
payload = ''
elif cmd == self.KM_PERM_KEY_ACK:
send_cmd = self.KM_FINISHED
elif cmd == self.KM_FINISHED:
# Successful key exchange
self.current = {'user': None, 'state': None}
self.community.announce_user_change(user) # update user state
return
elif cmd == self.KM_CANCEL:
self.current = {'user': None, 'state': None}
return
elif cmd == self.KM_ERROR:
self.current = {'user': None, 'state': None}
return
elif cmd == self.KM_PROTOCOL_VIOLATION:
self.current = {'user': None, 'state': None}
return
elif cmd == self.KM_REQUEST_NACK:
self.current = {'user': None, 'state': None}
return
self.current['state'] = send_cmd
self.send_request(user, send_cmd, payload)
