""" 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.crypt import * from komrade.backend.operators import * from komrade.backend.mazes import * class TheOperator(Operator): """ The remote operator! Only one! """ def __init__(self, name = OPERATOR_NAME, passphrase='acc'): """ Boot up the operator. Requires knowing or setting a password of memory. """ # init req paths # if not os.path.exists(PATH_OPERATOR): os.makedirs(PATH_OPERATOR) if not passphrase: passphrase=getpass.getpass('Hello, this is the Operator speaking. What is the passphrase?\n> ') super().__init__(name,passphrase) def decrypt_incoming(self,data): # step 1 split: data_unencr,data_encr = data.split(BSEP) self.log('data_unencr =',data_unencr) self.log('data_encr =',data_encr) if data_encr and 'name' in data_unencr: name=data_unencr['name'] keychain=data_unencr.get('keychain',{}) # decrypt using this user's pubkey on record caller = Operator(name) from_pubkey = user.pubkey(keychain=keychain) data_unencr2 = SMessage(OPERATOR.privkey_, from_pubkey).unwrap(data_encr) if type(data_unencr)==dict and type(data_unencr2)==dict: data = data_unencr dict_merge(data_unencr2, data) else: data=(data_unencr,data_unencr2) else: data = data_unencr return data def route(self, data): data = self.decrypt_incoming(data) self.log('DATA =',data) return 'success!' def init_operators(): op = Operator( name=OPERATOR_NAME, path_crypt_keys=PATH_CRYPT_OP_KEYS, path_crypt_data=PATH_CRYPT_OP_DATA ) phone = Operator( name=TELEPHONE_NAME, path_crypt_keys=PATH_CRYPT_OP_KEYS, path_crypt_data=PATH_CRYPT_OP_KEYS ) # keys_to_return = [k for k in KEYMAKER_DEFAULT_KEYS_TO_RETURN if not k.startswith('admin')] # for the root entities, the *users* keep the encrypted version, # and the Op and Telephone just have decryptor keys # keys_to_save = ['pubkey_decr','privkey_decr','adminkey_decr_decr'] keys_to_save = ['pubkey_encr','privkey_encr','adminkey_decr_encr','adminkey_decr_decr'] keys_to_return = ['pubkey_decr','privkey_decr'] # keys_to_return = ['pubkey_encr','privkey_encr','adminkey_encr','adminkey_decr_encr'] op_decr_keys = op.forge_new_keys(keys_to_save=keys_to_save,keys_to_return=keys_to_return) phone_decr_keys = phone.forge_new_keys(keys_to_save=keys_to_save,keys_to_return=keys_to_return) print('\n'*5) print('OPERATOR_KEYCHAIN =',op_decr_keys) print() print('TELEPHONE_KEYCHAIN =',phone_decr_keys) # stringify total_d = {OPERATOR_NAME:{}, TELEPHONE_NAME:{}} for k,v in phone_decr_keys.items(): v_s = v.decode('utf-8') total_d[TELEPHONE_NAME][k]=v_s for k,v in op_decr_keys.items(): v_s = v.decode('utf-8') total_d[OPERATOR_NAME][k]=v_s builtin_keychains = total_d builtin_keychains_s = json.dumps(total_d) print('builtin_keychains =',builtin_keychains) print('builtin_keychains_s =',builtin_keychains_s) builtin_keychains_b = builtin_keychains_s.encode('utf-8') builtin_keychains_b_decr = KomradeSymmetricKeyWithoutPassphrase() builtin_keychains_b_encr = builtin_keychains_b_decr.encrypt(builtin_keychains_b) builtin_keychains_b_decr_b64 = b64encode(builtin_keychains_b_decr.key) builtin_keychains_b_encr_b64 = b64encode(builtin_keychains_b_encr) with open(PATH_BUILTIN_KEYCHAINS_ENCR,'wb') as of: of.write(builtin_keychains_b_encr_b64) print('>> saved:',PATH_BUILTIN_KEYCHAINS_ENCR) print(builtin_keychains_b_encr_b64,'\n\n') with open(PATH_BUILTIN_KEYCHAINS_DECR,'wb') as of: of.write(builtin_keychains_b_decr_b64) print('>> saved:',PATH_BUILTIN_KEYCHAINS_DECR) print(builtin_keychains_b_decr_b64,'\n') # op_pub = op.pubkey_decr_ # phone_pub = phone.pubkey_decr_ # phone_priv = phone.privkey_decr_ # print('OPERATOR_PUBKEY_DECR =',b64encode(op_pub)) # print('TELEPHONE_PUBKEY_DECR =',b64encode(phone_pub)) # print('TELEPHONE_PRIVKEY_DECR =',b64encode(phone_priv)) # return { # 'op.keychain()':op.keychain(), # 'phone.keychain()':phone.keychain() # } def test_op(): op = TheOperator() op.boot() #pubkey = op.keychain()['pubkey'] #pubkey_b64 = b64encode(pubkey) #print(pubkey_b64) keychain = op.keychain(force=True) from pprint import pprint pprint(keychain) pubkey = op.keychain()['pubkey'] pubkey_b64 = b64encode(pubkey) print(pubkey) if __name__ == '__main__': test_op()