mirror of
https://github.com/ComradCollective/Comrad
synced 2024-11-01 21:40:32 +00:00
314 lines
12 KiB
Python
314 lines
12 KiB
Python
# internal imports
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import os,sys; sys.path.append(os.path.abspath(os.path.join(os.path.abspath(os.path.join(os.path.dirname(__file__),'..')),'..')))
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from komrade import *
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from komrade.backend.crypt import *
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from komrade.backend.keymaker import *
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from komrade.backend.mazes import *
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from komrade.backend.switchboard import *
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class Operator(Keymaker):
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def __init__(self, name, passphrase=None, keychain = {}, path_crypt_keys=PATH_CRYPT_CA_KEYS, path_crypt_data=PATH_CRYPT_CA_DATA):
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super().__init__(name=name,passphrase=passphrase, keychain=keychain,
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path_crypt_keys=path_crypt_keys, path_crypt_data=path_crypt_data)
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self.boot(create=False)
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def boot(self,create=False):
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# Do I have my keys?
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have_keys = self.exists()
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# If not, forge them -- only once!
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if not have_keys and create:
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self.get_new_keys()
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# load keychain into memory
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self._keychain = self.keychain(force = True)
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@property
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def phone(self):
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if hasattr(self,'_phone'): return self._phone
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global TELEPHONE,TELEPHONE_KEYCHAIN
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if TELEPHONE: return TELEPHONE
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from komrade.backend.the_telephone import TheTelephone
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self._phone=TELEPHONE=TheTelephone()
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return TELEPHONE
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@property
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def op(self):
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if hasattr(self,'_phone'): return self._phone
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global OPERATOR,OPERATOR_KEYCHAIN
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if OPERATOR: return OPERATOR
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from komrade.backend.the_operator import TheOperator
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OPERATOR=TheOperator()
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return OPERATOR
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def encrypt_to_send(self,msg_json,from_privkey,to_pubkey):
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if not msg_json or not from_privkey or not to_pubkey:
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self.log('not enough info!')
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return b''
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msg_b = package_for_transmission(msg_json)
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try:
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msg_encr = SMessage(
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from_privkey,
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to_pubkey,
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).wrap(msg_b)
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return msg_encr
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except ThemisError as e:
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self.log('unable to encrypt to send!',e)
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return b''
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def decrypt_from_send(self,msg_encr,from_pubkey,to_privkey):
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if not msg_encr or not from_pubkey or not to_privkey:
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self.log('not enough info!')
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return {}
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try:
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# decrypt
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msg_b = SMessage(
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to_privkey,
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from_pubkey,
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).unwrap(msg_encr)
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# decode
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self.log('msg_b??',msg_b)
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msg_json = unpackage_from_transmission(msg_b)
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self.log('msg_json??',msg_json)
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# return
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return msg_json
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except ThemisError as e:
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self.log('unable to decrypt from send!',e)
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return {}
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def encrypt_outgoing(self,
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data_from_sender1={},
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data_from_sender2={},
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privkey_from_sender1=None,
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privkey_from_sender2=None,
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to_pubkey=None,
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unencr_header=b''):
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# 2) encrypt to phone
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json_phone_encr = self.encrypt_to_send(data_from_sender1,from_phone_privkey,to_pubkey)
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self.log('json_phone_encr',json_phone_encr)
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# 3) to caller
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json_caller_encr = self.encrypt_to_send(json_caller,from_caller_privkey,to_pubkey)
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self.log()
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# return
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req_data_encr = unencr_header + BSEP + json_phone_encr + BSEP + json_caller_encr
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return req_data_encr
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def reassemble_nec_keys_using_header(self,unencr_header):
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assert unencr_header.count(BSEP2)==1
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phone_pubkey_encr,op_pubkey_decr = unencr_header.split(BSEP2)
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# get phone pubkey
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new_phone_keychain = self.phone.keychain(extra_keys={'pubkey_encr':phone_pubkey_encr},force=True)
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new_op_keychain = self.keychain(extra_keys={'pubkey_decr':op_pubkey_decr},force=True)
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phone_pubkey = new_phone_keychain.get('pubkey')
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op_pubkey = new_op_keychain.get('pubkey')
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self.log('reassembled phone/op pubkeys:',phone_pubkey,op_pubkey)
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return (phone_pubkey,op_pubkey)
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def reassemble_necessary_keys_using_decr_phone_data(self,decr_phone_data):
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name=decr_phone_data.get('name')
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if not name: return None
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try:
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caller = Caller(name)
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self.log('got caller on phone',name,caller)
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return caller.pubkey_
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except:
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return
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def decrypt_incoming(self,data_b64_s):
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assert type(data_b64_s) == str
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if not isBase64(data_b64_s):
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self.log('incoming data not b64')
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return OPERATOR_INTERCEPT_MESSAGE
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data_b64_b = data_b64_s.encode()
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data = b64decode(data_b64_b)
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# step 1 split:
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print('!?!?!?',type(data),data)
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unencr_header,data_encr_by_phone,data_encr_by_caller = data.split(BSEP)
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data_unencr_by_phone,data_unencr_by_caller = None,None
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# set up
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DATA = {}
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# assuming the entire message is to me, whoever I am
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my_keychain = self.keychain()
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to_privkey = my_keychain.get('privkey')
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self.log('keychain',self.keychain())
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self.log('to_privkey',to_privkey)
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# get other keys from halfkeys
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phone_pubkey,op_pubkey = self.reassemble_nec_keys_using_header(unencr_header)
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# 2) decrypt from phone
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self.log('data_encr_by_phone',data_encr_by_phone)
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self.log('phone_pubkey',phone_pubkey)
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self.log('to_privkey',to_privkey)
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data_by_phone = self.decrypt_from_send(data_encr_by_phone,phone_pubkey,to_privkey)
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self.log('data_by_phone',data_by_phone)
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# 3) decrypt from caller
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caller_pubkey = self.reassemble_necessary_keys_using_decr_phone_data(data_by_phone)
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data_by_caller = self.decrypt_from_send(data_encr_by_caller,caller_pubkey,to_privkey)
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# return
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# req_data_encr = unencr_header + BSEP + data_by_phone + BSEP + data_by_caller
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self.log('data_by_phone',data_by_phone)
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self.log('data_by_caller',data_by_caller)
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DATA = {}
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dict_merge(DATA,data_by_phone)
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dict_merge(DATA,data_by_caller)
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self.log('DATA!!!!!',DATA)
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return DATA
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### CREATE PRIME ENTITIES
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def create_phonelines():
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## CREATE OPERATOR
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op = Operator(name=OPERATOR_NAME)
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op_keys_to_keep_on_client = ['pubkey_decr'] # sent TO operator
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op_keys_to_keep_on_3rdparty = ['pubkey_encr','privkey_encr'] # dl by op
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op_keys_to_keep_on_server = ['privkey_decr','adminkey_encr','adminkey_decr_encr','adminkey_decr_decr']
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## create phone
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phone = Operator(name=TELEPHONE_NAME)
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phone_keys_to_keep_on_client = ['privkey_decr']
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phone_keys_to_keep_on_3rdparty = ['pubkey_encr','privkey_encr'] # dl by phone
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phone_keys_to_keep_on_server = ['pubkey_decr'] # sent to phone
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# create keys for Op
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op_decr_keys = op.forge_new_keys(
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keys_to_save=op_keys_to_keep_on_server, # on server only; flipped around
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keys_to_return=op_keys_to_keep_on_client + op_keys_to_keep_on_3rdparty # on clients only
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)
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# create keys for phone
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phone_decr_keys = phone.forge_new_keys(
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name=TELEPHONE_NAME,
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keys_to_save=phone_keys_to_keep_on_server, # on server only
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keys_to_return=phone_keys_to_keep_on_client + phone_keys_to_keep_on_3rdparty # on clients only
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)
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## store remote keys
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THIRD_PARTY_DICT = {OPERATOR_NAME:{}, TELEPHONE_NAME:{}}
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for key in op_keys_to_keep_on_3rdparty:
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if key in op_decr_keys:
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THIRD_PARTY_DICT[OPERATOR_NAME][key]=op_decr_keys[key]
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for key in phone_keys_to_keep_on_3rdparty:
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if key in phone_decr_keys:
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THIRD_PARTY_DICT[TELEPHONE_NAME][key]=phone_decr_keys[key]
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# store local keys
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STORE_IN_APP = {OPERATOR_NAME:{}, TELEPHONE_NAME:{}}
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for key in op_keys_to_keep_on_client:
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if key in op_decr_keys:
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STORE_IN_APP[OPERATOR_NAME][key]=op_decr_keys[key]
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for key in phone_keys_to_keep_on_client:
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if key in phone_decr_keys:
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STORE_IN_APP[TELEPHONE_NAME][key]=phone_decr_keys[key]
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# package
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STORE_IN_APP_pkg = package_for_transmission(STORE_IN_APP[TELEPHONE_NAME]) + BSEP + package_for_transmission(STORE_IN_APP[OPERATOR_NAME])
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THIRD_PARTY_DICT_pkg = package_for_transmission(THIRD_PARTY_DICT[TELEPHONE_NAME]) + BSEP + package_for_transmission(THIRD_PARTY_DICT[OPERATOR_NAME])
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# encrypt
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omega_key = KomradeSymmetricKeyWithoutPassphrase()
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STORE_IN_APP_encr = b64encode(omega_key.encrypt(STORE_IN_APP_pkg))
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THIRD_PARTY_totalpkg = b64encode(omega_key.data + BSEP + omega_key.encrypt(THIRD_PARTY_DICT_pkg))
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# save
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with open(PATH_BUILTIN_KEYCHAIN,'wb') as of:
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of.write(STORE_IN_APP_encr)
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print('STORE_IN_APP_encr',STORE_IN_APP_encr)
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with open(PATH_OPERATOR_WEB_KEYS_FILE,'wb') as of:
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of.write(THIRD_PARTY_totalpkg)
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print('THIRD_PARTY_DICT_encr',THIRD_PARTY_totalpkg)
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def connect_phonelines():
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# globals
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global OMEGA_KEY,OPERATOR_KEYCHAIN,TELEPHONE_KEYCHAIN
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if OMEGA_KEY and OPERATOR_KEYCHAIN and TELEPHONE_KEYCHAIN:
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return (OPERATOR_KEYCHAIN,TELEPHONE_KEYCHAIN)
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print('\n\n\n\nCONNECTING PHONELINES!\n\n\n\n')
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# import
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from komrade.backend.mazes import tor_request
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from komrade.backend import PATH_OPERATOR_WEB_KEYS_URL
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# load local keys
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if not os.path.exists(PATH_BUILTIN_KEYCHAIN):
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print('builtin keys not present??')
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return
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with open(PATH_BUILTIN_KEYCHAIN,'rb') as f:
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local_builtin_keychain_encr = b64decode(f.read())
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# load remote keys
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print('??',PATH_OPERATOR_WEB_KEYS_URL)
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r = komrade_request(PATH_OPERATOR_WEB_KEYS_URL)
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if r.status_code!=200:
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print('cannot authenticate the keymakers')
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return
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# unpack remote pkg
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pkg = b64decode(r.text)
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OMEGA_KEY_b,remote_builtin_keychain_encr = pkg.split(BSEP)
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OMEGA_KEY = KomradeSymmetricKeyWithoutPassphrase(key=OMEGA_KEY_b)
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remote_builtin_keychain = OMEGA_KEY.decrypt(remote_builtin_keychain_encr)
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remote_builtin_keychain_phone,remote_builtin_keychain_op = remote_builtin_keychain.split(BSEP)
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remote_builtin_keychain_phone_json = unpackage_from_transmission(remote_builtin_keychain_phone)
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remote_builtin_keychain_op_json = unpackage_from_transmission(remote_builtin_keychain_op)
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print('remote_builtin_keychain_phone_json',remote_builtin_keychain_phone_json)
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print('remote_builtin_keychain_op_json',remote_builtin_keychain_op_json)
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# unpack local pkg
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local_builtin_keychain = OMEGA_KEY.decrypt(local_builtin_keychain_encr)
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local_builtin_keychain_phone,local_builtin_keychain_op = local_builtin_keychain.split(BSEP)
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local_builtin_keychain_phone_json = unpackage_from_transmission(local_builtin_keychain_phone)
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local_builtin_keychain_op_json = unpackage_from_transmission(local_builtin_keychain_op)
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print('local_builtin_keychain_phone_json',local_builtin_keychain_phone_json)
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print('local_builtin_keychain_op_json',local_builtin_keychain_op_json)
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# set builtin keychains
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TELEPHONE_KEYCHAIN={}
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OPERATOR_KEYCHAIN={}
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dict_merge(TELEPHONE_KEYCHAIN,local_builtin_keychain_phone_json)
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dict_merge(OPERATOR_KEYCHAIN,local_builtin_keychain_op_json)
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dict_merge(TELEPHONE_KEYCHAIN,remote_builtin_keychain_phone_json)
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dict_merge(OPERATOR_KEYCHAIN,remote_builtin_keychain_op_json)
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return (OPERATOR_KEYCHAIN,TELEPHONE_KEYCHAIN)
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# # load prime objects?
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# from komrade.backend.the_operator import TheOperator
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# from komrade.backend.the_telephone import TheTelephone
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# OPERATOR = TheOperator(keychain=OPERATOR_KEYCHAIN)
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# TELEPHONE = TheTelephone(keychain=TELEPHONE_KEYCHAIN)
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# return (OPERATOR,TELEPHONE) |