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 * class Person(Caller): # def ring_ring(self,msg,to_whom = None): # # if no one intended, call the operator # #return super().ring_ring(with_msg,to_phone=self.op) # if not to_whom: to_whom = self.op # # create a message, caller 2 caller # msg_obj = self.compose_msg_to(msg, to_whom) # # ring 2: use 'Caller' class to dial and get response # resp_msg_obj = super().ring_ring( # msg_obj # ) # self.log('resp_msg_encr_caller2caller',resp_msg_encr_caller2caller) # # ring 3: decrypt and send back # resp_msg_unencr = self.unpackage_msg_from( # msg_encr_caller2caller, # to_whom # ) # self.log('resp_msg_unencr',resp_msg_encr_caller2caller) # return resp_msg_unencr # def ring_ring(self,with_msg,to_whom = None): # # if no one intended, call the operator # #return super().ring_ring(with_msg,to_phone=self.op) # if not to_whom: to_whom = self.op # # msg should be unencrypted # msg_unencr = with_msg # self.log('msg_unencr',msg_unencr) # # ring 1: encrypt caller2phone # msg_encr_caller2caller = self.package_msg_to( # msg_unencr, # to_whom # ) # self.log('msg_encr_caller2caller!',msg_encr_caller2caller) # # ring 2: use 'Caller' class to dial and get response # resp_msg_encr_caller2caller = super().ring_ring( # msg_encr_caller2caller # ) # self.log('resp_msg_encr_caller2caller',resp_msg_encr_caller2caller) # # ring 3: decrypt and send back # resp_msg_unencr = self.unpackage_msg_from( # msg_encr_caller2caller, # to_whom # ) # self.log('resp_msg_unencr',resp_msg_encr_caller2caller) # return resp_msg_unencr def send_msg_to(self,msg,to_whom): msg = {'_please':'deliver_to', 'msg':msg} return self.ring_ring(msg,to_whom) def ring_ring(self,msg,to_whom): return super(Caller,self).ring_ring( msg, to_whom, get_resp_from=super().ring_ring ) def register(self, name = None, passphrase = DEBUG_DEFAULT_PASSPHRASE, is_group=None): # get needed metadata if not name: name=self.name if name is None: name = input('\nWhat is the name for this account? ') if passphrase is None: passphrase = getpass.getpass('\nEnter a memborable password: ') # if is_group is None: # is_group = input('\nIs this a group account? [y/N]').strip().lower() == 'y' # form request msg_to_op = { '_please':'forge_new_keys', 'name':name, 'passphrase':hashish(passphrase.encode()) } # get message back msg_obj = self.phone.ring_ring(msg_to_op) phone_res = msg_obj.msg print('GOT BACK!!!',msg_obj) # URI id uri_id = phone_res.get('uri_id') returned_keys = phone_res.get('_keychain') self.log('got URI from Op:',uri_id) self.log('got returnd keys from Op:',returned_keys) # better have the right keys assert set(KEYMAKER_DEFAULT_KEYS_TO_SAVE_ON_CLIENT) == set(returned_keys.keys()) # now save these keys! saved_keys = self.save_keychain(name,returned_keys,uri_id=uri_id) self.log('saved keys!',saved_keys) # save my qr? # better have the right keys # assert set(KEYMAKER_DEFAULT_KEYS_TO_SAVE) == set(saved_keys.keys()) # success! self.log('yay!!!!') return saved_keys # def register(self,name=None,passphrase=DEBUG_DEFAULT_PASSPHRASE, is_group=None): # # get needed metadata # if not name: name=self.name # if name is None: # name = input('\nWhat is the name for this account? ') # if passphrase is None: # passphrase = getpass.getpass('\nEnter a memborable password: ') # # if is_group is None: # # is_group = input('\nIs this a group account? [y/N]').strip().lower() == 'y' # # form request to operator # msg_to_op = {'_please':'forge_new_keys'} # msg_response = self.phone.ring_ring( # msg_to_op, # self.op # ) # # call and ask operator to register us # # for only this one! we skip straight to phone, # # since I don't have any public keys yet # resp = self.phone.ring_ring(msg_to_op) # return resp # def get_new_keys(self, name = None, passphrase = DEBUG_DEFAULT_PASSPHRASE, is_group=None): # # get needed metadata # if not name: name=self.name # if name is None: # name = input('\nWhat is the name for this account? ') # if passphrase is None: # passphrase = getpass.getpass('\nEnter a memborable password: ') # # if is_group is None: # # is_group = input('\nIs this a group account? [y/N]').strip().lower() == 'y' # phone_res = self.phone.ring(msg_to_op) # # URI id # uri_id = phone_res.get('uri_id') # returned_keys = phone_res.get('_keychain') # self.log('got URI from Op:',uri_id) # self.log('got returnd keys from Op:',returned_keys) # stop # # better have the right keys # assert set(KEYMAKER_DEFAULT_KEYS_TO_SAVE_ON_CLIENT) == set(returned_keys.keys()) # # now save these keys! # saved_keys = self.save_keychain(name,returned_keys,uri_id=uri_id) # self.log('saved keys!',saved_keys) # # better have the right keys # # assert set(KEYMAKER_DEFAULT_KEYS_TO_SAVE) == set(saved_keys.keys()) # # success! # self.log('yay!!!!') # return saved_keys if __name__=='__main__': marx = Person('marx') elon = Person('elon') # marx.register() # elon.register() # person.register() # print(person.pubkey) elon.send_msg_to('youre dumb',marx)