mirror of
https://github.com/ComradCollective/Comrad
synced 2024-11-07 15:20:23 +00:00
142 lines
4.0 KiB
Python
142 lines
4.0 KiB
Python
"""
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There is only one operator!
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Running on node prime.
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"""
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# 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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OPERATOR_NAME = 'TheOperator'
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TELEPHONE_NAME = 'TheTelephone'
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class Operator(Keymaker):
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def __init__(self, name, passphrase=None):
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super().__init__(name=name,passphrase=passphrase)
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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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class Caller(Operator):
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"""
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Variant of an Operator which handles local keys and keymaking.
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"""
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@property
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def phone(self):
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"""
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Operator on the line.
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"""
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if not hasattr(self,'_phone'):
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self._phone = TheTelephone(caller = self)
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return self._phone
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def get_new_keys(self,pubkey_pass = None, privkey_pass = None, adminkey_pass = None):
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"""
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This is the local caller's version.
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He never touches the encrypted keys. Only the Operator does!
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"""
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# Get decryptor keys back from The Operator (one half of the Keymaker)
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keychain = self.forge_new_keys(self.name)
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self.log('create_keys() res from Operator? <-',keychain)
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# Now lock the decryptor keys away, sealing it with a password of memory!
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self.lock_new_keys(keychain)
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class TheOperator(Operator):
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"""
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The remote operator! Only one!
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"""
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def __init__(self, name = OPERATOR_NAME, passphrase='acc'):
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"""
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Boot up the operator. Requires knowing or setting a password of memory.
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"""
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# init req paths
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if not os.path.exists(PATH_OPERATOR): os.makedirs(PATH_OPERATOR)
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if not passphrase:
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passphrase=getpass.getpass('Hello, this is the Operator speaking. What is the passphrase?\n> ')
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super().__init__(name,passphrase)
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def route(self, data):
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# step 1 split:
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data_unencr,data_encr = data.split(BSEP)
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if data_encr and 'name' in data_unencr:
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name=data_unencr['name']
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keychain=data_unencr.get('keychain',{})
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# decrypt using this user's pubkey on record
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caller = Operator(name)
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from_pubkey = user.pubkey(keychain=keychain)
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data_unencr2 = SMessage(OPERATOR.privkey_, from_pubkey).unwrap(data_encr)
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if type(data_unencr)==dict and type(data_unencr2)==dict:
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data = data_unencr
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dict_merge(data_unencr2, data)
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else:
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data=(data_unencr,data_unencr2)
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else:
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data = data_unencr
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print(data)
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def init_operators():
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op = Operator(name=OPERATOR_NAME)
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phone = Operator(name=TELEPHONE_NAME)
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op.get_new_keys()
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phone.get_new_keys()
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op_pub = op.pubkey_
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phone_pub = phone.pubkey_
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phone_priv = phone.privkey_
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print('OPERATOR_PUBKEY',op_pub)
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print('TELEPHONE_PUBKEY =',phone_pub)
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print('TELEPHONE_PRIVKEY =',phone_priv)
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def test_op():
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op = TheOperator()
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#op.boot()
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#pubkey = op.keychain()['pubkey']
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#pubkey_b64 = b64encode(pubkey)
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#print(pubkey_b64)
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keychain = op.keychain(force=True)
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from pprint import pprint
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pprint(keychain)
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pubkey = op.keychain()['pubkey']
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pubkey_b64 = b64encode(pubkey)
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print(pubkey)
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def test_call():
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caller = Operator('marx3') #Caller('marx')
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# caller.boot(create=True)
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# print(caller.keychain())
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phone = TheTelephone(caller=caller)
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res = phone.req({'name':'marx', 'pubkey_is_public':True})
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print(res)
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if __name__ == '__main__':
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#run_forever()
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# test_op()
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# init_operators()
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test_call() |