import os,sys; sys.path.append(os.path.abspath(os.path.join(os.path.abspath(os.path.join(os.path.dirname(__file__),'..')),'..'))) from komrade import * from komrade.backend import * def is_valid_msg_d(msg_d): if not type(msg_d)==dict: return False to_name=msg_d.get('to_name') to_pub=msg_d.get('to') from_name=msg_d.get('from_name') from_pub=msg_d.get('from') msg=msg_d.get('msg') # if to_name and to_pub and from_name and from_pub and msg: return True if to_pub and from_pub and msg: return True return False class Message(Logger): def __init__(self,msg_d,from_whom=None,to_whom=None,messenger=None,embedded_msg=None,is_encrypted=False): # check input if not is_valid_msg_d(msg_d): raise KomradeException('This is not a valid msg_d:',msg_d) # set fields self.msg_d=msg_d self.to_name=msg_d.get('to_name') self.to_pubkey=msg_d.get('to') self.from_name=msg_d.get('from_name') self.from_pubkey=msg_d.get('from') self.msg=msg_d.get('msg') self.embedded_msg=embedded_msg # only if this message has an embedded one self._route=msg_d.get(ROUTE_KEYNAME) self._from_whom=from_whom self._to_whom=to_whom self.messenger=None self._is_encrypted=None # get operators straight away? if not self._from_whom or not self._to_whom: self.get_whoms() if not self.from_name: self.from_name=self.from_whom.name if not self.to_name: self.to_name=self.to_whom.name if not self.to_pubkey: self.to_pubkey=self.to_whom.pubkey.data if not self.from_pubkey: self.from_pubkey=self.from_whom.pubkey.data if isBase64(self.to_pubkey): self.to_pubkey = b64decode(self.to_pubkey) if isBase64(self.from_pubkey): self.from_pubkey = b64decode(self.from_pubkey) if hasattr(self.to_pubkey,'data'): self.to_pubkey=self.to_pubkey.data if hasattr(self.from_pubkey,'data'): self.from_pubkey=self.from_pubkey.data # self.log('loaded message: to pub',self.to_pubkey,'from pub',self.from_pubkey) def __repr__(self): # self.log('my type??',type(self.msg),self.msg) if type(self.msg)==dict: if is_valid_msg_d(self.msg): import textwrap msg = textwrap.indent(repr(Message(self.msg)),' '*10) else: msg=dict_format(self.msg,tab=4) elif type(self.msg)==bytes: msg=b64enc_s(self.msg) else: msg=self.msg return f""" from: @{self.from_name if self.from_name else ''} ({b64enc_s(self.from_pubkey)}) to: @{self.to_name if self.to_name else ''} ({b64enc_s(self.to_pubkey)}) msg: {msg} """ @property def data(self): md={} msg_d=self.msg_d while msg_d: for k,v in msg_d.items(): md[k]=v msg_d = msg_d.get('msg',{}) if type(msg_d)!=dict: msg_d=None if 'msg' in md and type(md['msg']) == dict: del md['msg'] del md[ROUTE_KEYNAME] return md def mark_return_to_sender(self,new_msg=None): self._from_whom,self._to_whom = self._to_whom,self._from_whom self.msg_d['from'],self.msg_d['to'] = self.msg_d['to'],self.msg_d['from'], if 'from_name' in self.msg_d and 'to_name' in self.msg_d: self.msg_d['from_name'],self.msg_d['to_name'] = self.msg_d['to_name'],self.msg_d['from_name'] if new_msg: self.msg=self.msg_d['msg']=new_msg def get_whom(self,name=None,pubkey=None): from komrade.backend.operators import locate_an_operator return locate_an_operator(name=None,pubkey=None) @property def from_whom(self): if not self._from_whom: self._from_whom,self._to_whom = self.get_whoms() return self._from_whom @property def to_whom(self): if not self._to_whom: self._from_whom,self._to_whom = self.get_whoms() return self._to_whom def get_whoms(self): if self._from_whom is None or self._to_whom is None: self._from_whom = locate_an_operator(self.from_name,self.from_pubkey) self._to_whom = locate_an_operator(self.to_name,self.to_pubkey) return self._from_whom,self._to_whom ## loading messages def get_whoms1(self): if self._from_whom is not None and self._to_whom is not None: return (self._from_whom,self._to_whom) alleged_from_whom = self.get_whom(self.from_name) alleged_to_whom = self.get_whom(self.to_name) if not self.whom_records_match(alleged_from_whom,alleged_to_whom): raise KomradeException('Records of from_whoms on The Operator and the from_whom do not match. Something fishy going on?') else: self._from_whom = alleged_from_whom self._to_whom = alleged_to_whom return (self._from_whom,self._to_whom) def whom_records_match(self,alleged_from_whom,alleged_to_whom): alleged_from_whom_name = self.from_name alleged_from_whom_pubkey = self.from_pubkey alleged_to_whom_name = self.to_name alleged_to_whom_pubkey = self.to_pubkey # self.log('from_whom names:',alleged_from_whom.name, alleged_from_whom_name) # self.log('from_whom pubs:',alleged_from_whom.pubkey, alleged_from_whom_pubkey) # self.log('to_whom names:',alleged_to_whom.name, alleged_to_whom_name) # self.log('to_whom pubs:',alleged_to_whom.pubkey, alleged_to_whom_pubkey) if alleged_to_whom.name != alleged_to_whom_name: return False if alleged_from_whom.name != alleged_from_whom_name: return False if alleged_to_whom.pubkey != alleged_to_whom_pubkey: return False if alleged_from_whom.pubkey != alleged_from_whom_pubkey: return False return True def decrypt(self,recursive=False): # check if needs decryption if not self.is_encrypted: return # otherwise lets do it self.msg_encr = self.msg self.log(f'Attempting to decrypt {self}') # decrypt msg # self.log('attempting to decrypt',self.msg,'from',self.from_pubkey,'to',self.to_whom,self.to_whom.keychain(),self.to_whom.assemble(self.to_whom.keychain())) self.msg = self.msg_d['msg'] = decr_msg_b = SMessage( self.to_whom.privkey.data, self.from_pubkey ).unwrap(self.msg) # self.log('Am I decrypted?',self) # unpickle self.msg = self.msg_d['msg'] = decr_msg = pickle.loads(decr_msg_b) self.log('Message decrypted:',self) # now, is the decrypted message itself a message? if is_valid_msg_d(decr_msg): self.log('Once decrypted, I discovered that I contain a valid msg in its own right!',self) # then ... make that, a message object and decrypt it too! self.msg = Message(decr_msg) if recursive and self.msg.is_encrypted: self.msg.decrypt() # self.log(f'done decrypting! {self}') return decr_msg @property def is_encrypted(self): return type(self.msg) == bytes # if self.msg._is_encrypted is not None: # return self.msg._is_encrypted def encrypt(self): # each child message should already be encrypted before coming to its parent message ,recursive=False): if self._is_encrypted: return # self.log(f'attempting to encrypt msg {self.msg} from {self.from_whom} to {self.to_whom}') self.log(f'Before encrypting the message from @{self.from_name} to @{self.to_name}, it looks like:\n{self}') # make sure msg is not meeta if self.has_embedded_msg: self.msg = self.msg.msg_d self.log('woops, first had to replace Message object with dict',self) # binarize msg msg_b = pickle.dumps(self.msg) # encrypt it! # self.log('from whom keychain:',self.from_whom.keychain()) # self.log('to pubkey:',self.to_pubkey) msg_encr = SMessage( self.from_whom.privkey.data, self.to_pubkey ).wrap(msg_b) self.msg_decr = self.msg self.msg_d['msg'] = self.msg = b64encode(msg_encr) self.log(f'After encrypting the message from {self.from_whom} to {self.to_whom}, it looks like:\n{self}') self.msg_d['msg'] = self.msg = msg_encr self._is_encrypted = True ## msg properties @property def has_embedded_msg(self): return type(self.msg) == Message @property def messages(self): # move through msgs recursively def _msgs(): msg=self while True: yield msg if msg.has_embedded_msg: msg=msg.msg break return list(_msgs()) @property def route(self): if type(self.msg)==dict: rte=self.msg.get(ROUTE_KEYNAME) if rte: return rte if self.has_embedded_msg: return self.msg.route return None def delete_route(self): if type(self.msg)==dict: del self.msg[ROUTE_KEYNAME] if ROUTE_KEYNAME in self.msg_d['msg']: del self.msg_d['msg'][ROUTE_KEYNAME] if self.has_embedded_msg: self.msg.delete_route() def test_msg(): phone = TheTelephone() op = TheOperator() pprint(op.pubkey) print('?keychains?') pprint(phone.pubkey) msg={'_route':'forge_new_keys'} resp_msp_obj = phone.ring_ring(msg) print(resp_msp_obj) if __name__ == '__main__': test_msg()