""" There is only one operator! Running on node prime. """ # internal imports 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 * # print(PATH_OPERATOR_WEB_KEYS_URL) class TheOperator(Operator): """ The remote operator """ @property def phone(self): global TELEPHONE from komrade.backend.the_telephone import TheTelephone if not TELEPHONE: TELEPHONE=TheTelephone() return TELEPHONE def __init__(self, name = OPERATOR_NAME, passphrase='acc'): """ Boot up the operator. Requires knowing or setting a password of memory. """ super().__init__( name, passphrase, path_crypt_keys=PATH_CRYPT_OP_KEYS, path_crypt_data=PATH_CRYPT_OP_DATA ) self._keychain = self.operator_keychain def ring(self, from_caller=None, to_caller=None, json_phone2phone={}, json_caller2phone={}, # (person) -> operator or operator -> (person) json_caller2caller={}): encr_msg_to_send = super().ring( from_phone=self, to_phone=self.phone, from_caller=from_caller, to_caller=to_caller, json_phone2phone=json_phone2phone, json_caller2phone=json_caller2phone, # (person) -> operator json_caller2caller=json_caller2caller) return self.send(encr_msg_to_send) # ends the ring_ring() chain def answer_phone(self,data_b): # route incoming call from the switchboard self.log('Hello, this is the Operator. You said: ',data_b) # unseal msg_obj = self.unseal_msg(data_b) self.log(f'Operator understood message: {msg_obj}') # decrypt all of it! msg_obj.decrypt() self.log('I am now decrypted!',msg_obj) #self.log(f'Operator understood message route: {msg_obj.route}') # carry out message instructions route_result = self.route(msg_obj) self.log('route_result <-',route_result) # turn msg back around msg_obj = self.compose_msg_to(route_result,self.phone) self.log('returning msg:',msg_obj) # send back down encrypted msg_sealed = self.seal_msg(msg_obj) # return back to phone and back down to chain return msg_sealed def find_pubkey(self): return self.operator_keychain['pubkey'] def send(self,encr_data_b): self.log(type(encr_data_b),encr_data_b,'sending!') return encr_data_b def route(self, msg_obj): # get route from msg route = msg_obj.route # no route? if not msg_obj.route: raise KomradeException('no route!') # what we working with? self.log(f'route() got incoming msg = {msg_obj} and route = {route}') # pass on data # data = msg_obj.msg # if type(data)==dict and ROUTE_KEYNAME in data: # del data[ROUTE_KEYNAME] ## hard code the acceptable routes if route == 'forge_new_keys': return self.forge_new_keys(msg_obj) elif route == 'does_username_exist': return self.does_username_exist(msg_obj) # otherwise, hang up and try again return OPERATOR_INTERCEPT_MESSAGE ### ROUTES def forge_new_keys(self,data): self.log('about to make some new keys!',data) # return {'_route':'well_hello_to_you_too'} # get keys forged_keys_plus_id = super().forge_new_keys(**data) # return to Telephone/Caller return forged_keys_plus_id def does_username_exist(self,data): assert type(data)==dict and 'name' in data and data['name'] # find pubkey? name=data.get('name') pubkey=self.crypt_keys.get(name,prefix='/pubkey/') self.log(f'looking for {name}, found {pubkey} as pubkey') return bool(pubkey) def test_op(): from komrade.backend.the_telephone import TheTelephone op = TheOperator() # op.boot() keychain_op = op.keychain(force=True) phone = TheTelephone() # phone.boot() keychain_ph = phone.keychain(force=True) from pprint import pprint print('REASSEMBLED OPERATOR KEYCHAIN') pprint(keychain_op) # stop print('REASSEMBLED TELEPHONE KEYCHAIN') pprint(keychain_ph) # print(op.pubkey(keychain=keychain)) # print(op.crypt_keys.get(op.pubkey(), prefix='/privkey_encr/')) # print(op.crypt_keys.get(op.name, prefix='/pubkey_encr/')) # print(op.pubkey_) # stop # pubkey = op.keychain()['pubkey'] # pubkey_b64 = b64encode(pubkey) # print(pubkey) if __name__ == '__main__': test_op()