# 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.keymaker import * from komrade.backend.mazes import * from komrade.backend.operators import * # external imports from flask import Flask, request, jsonify from flask_classful import FlaskView ### ACTUAL PHONE CONNECTIONS class TheTelephone(Logger): """ API client class for Caller to interact with The Operator. """ def __init__(self, caller): self.caller = caller @property def sess(self): """ Get connection to Tor """ if not hasattr(self,'_sess'): self._sess = get_tor_proxy_session() return self._sess def req(self,json_coming_from_phone={},json_coming_from_caller={}): # Two parts of every request: # 1) only overall encryption layer E2EE Telephone -> Operator: req_data = [] if json_coming_from_phone: json_coming_from_phone_s = json.dumps(json_coming_from_phone) json_coming_from_phone_b = json_coming_from_phone_s.encode() #json_coming_from_phone_b_encr = SMessage(TELEPHONE_PRIVKEY,OPERATOR_PUBKEY).wrap(json_coming_from_phone_b) else: json_coming_from_phone_b=b'' # 2) (optional) extra E2EE encrypted layer Caller -> Operator if json_coming_from_caller: json_coming_from_caller_s = json.dumps(json_coming_from_caller) json_coming_from_caller_b = json_coming_from_caller_s.encode() json_coming_from_caller_b_encr = SMessage(self.caller.privkey_,OPERATOR_PUBKEY).wrap(json_coming_from_caller_b) else: json_coming_from_caller_b_encr = b'' # encrypt whole package E2EE, Telephone to Operator req_data = json_coming_from_phone_b + BSEP + json_coming_from_caller_b_encr req_data_encr = SMessage(TELEPHONE_PRIVKEY, OPERATOR_PUBKEY).wrap(req_data) req_data_encr_b64 = b64encode(req_data_encr) self.log('req_data_encr_b64 <--',req_data_encr_b64) # send! req_data_encr_b64_str = req_data_encr_b64.decode('utf-8') res = self.sess.post(OPERATOR_API_URL + req_data_encr_b64) self.log('result from operator?',res) return res def forge_new_keys(self, name, pubkey_is_public=False): req_json = {'name':name, 'pubkey_is_public':pubkey_is_public} req_json_s = jsonify(req_json) req_json_s_encr = SMessage() return self.sess.post(json=req_json) OPERATOR = None from flask_classful import FlaskView, route class TheSwitchboard(FlaskView, Logger): #default_methods = ['POST'] def get(self): return "We're sorry; we are unable to complete your call as dialed. Please check the number and dial again, or call your operator to help you." @route('/please/') def please(self,encr_b64_str=None): # first try to get from string to bytes self.log('incoming <--',encr_b64_str) try: encr_b64_b = encr_b64_str.encode('utf-8') self.log('encr_b64_b',encr_b64_b) encr_b = b64decode(encr_b64_b) self.log('encr_b',encr_b) return 'successfully understood input' except (UnicodeDecodeError,binascii.Error) as e: return OPERATOR_INTERCEPT_MESSAGE if not encr_b64_str: return OPERATOR_INTERCEPT_MESSAGE data = request.data self.log('incoming_data! <--',data) # step 1: decode data = b64decode(data) self.log('decoded data:',data) # step 2: decrypt from phone data = SMessage(OPERATOR.privkey_, TELEPHONE_PUBKEY).unwrap(data) self.log('decrypted data:',data) # step 3: give to The Operator res = OPERATOR.route(data) # return response to caller return res def run_forever(port='8080'): global OPERATOR OPERATOR = TheOperator() app = Flask(__name__) TheSwitchboard.register(app, route_base='/op/', route_prefix=None) app.run(debug=True, port=port, host='0.0.0.0')