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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__ ) , ' .. ' ) ) , ' .. ' ) ) )
from komrade import *
from komrade . backend import *
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from komrade . backend . keymaker import *
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class Komrade ( Caller ) :
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def __init__ ( self , name = None , passphrase = DEBUG_DEFAULT_PASSPHRASE ) :
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super ( ) . __init__ ( name = name , passphrase = passphrase )
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self . log ( f ' booted komrade with { name } and { passphrase } and \n \n { dict_format ( self . keychain ( ) ) } ' )
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# if SHOW_STATUS:
# from komrade.cli import CLI
# self.cli = CLI(name=name, komrade=self)
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self . boot ( create = False )
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# self.name=name
# pass
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def boot ( self , create = False , ping = False ) :
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# Do I already have my keys?
# yes? -- login
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keys = self . keychain ( )
if keys . get ( ' pubkey ' ) and keys . get ( ' privkey ' ) :
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self . log ( ' already booted! @ ' + self . name )
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return True
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if self . exists_locally_as_account ( ) :
self . log ( f ' this account (@ { self . name } ) can be logged into ' )
return self . login ( )
elif self . exists_locally_as_contact ( ) :
self . log ( f ' this account (@ { self . name } ) is a contact ' )
return #pass #???
elif ping and self . exists_on_server ( ) :
self . log ( f ' this account exists on server. introduce? ' )
return
elif create :
self . log ( ' account is free: register? ' )
return self . register ( )
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def exists_locally_as_contact ( self ) :
return self . pubkey and not self . privkey
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def exists_locally_as_account ( self ) :
return self . pubkey and self . privkey_encr
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def exists_on_server ( self ) :
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answer = self . phone . ring_ring ( {
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' _route ' : ' does_username_exist ' ,
' name ' : self . name
} )
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self . log ( ' answer?? ' , answer )
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return answer
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# login?
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# def login(self):
# if keys.get('pubkey') and keys.get('privkey')
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def register ( self , name = None , passphrase = None , is_group = None , show_intro = 0 , show_body = True ) :
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# print('got name:',name)
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## Defaults
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if name and not self . name : self . name = name
if not name and self . name : name = self . name
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# if not name and not self.name: name=''
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# print('got name',name)
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## 1) Have name?
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tolog = ' '
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if SHOW_STATUS and show_intro :
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self . name = name = self . cli . status_keymaker_part1 ( name )
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elif not name :
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self . name = name = input ( ' \n Hello, this is Komrade @ ' )
print ( ' \n I would like to sign up for the socialist network revolution. ' , flush = True )
do_pause ( )
else :
print ( f ' Hello, this is Komrade @ { name } . \n \n I would like to sign up for the socialist network revolution. ' )
do_pause ( )
clear_screen ( )
self . log ( f ' @Keymaker: Excellent. But to communicate with komrades securely, \n you must first cut your public & private encryption keys. ' )
# do_pause()
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## 2) Make pub public/private keys
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keypair = KomradeAsymmetricKey ( )
pubkey , privkey = keypair . pubkey_obj , keypair . privkey_obj
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self . log ( f ' @Keymaker: I have cut for you a private and public asymmetric key pair \n using the Elliptic Curve algorithm from Themis cryptography library: \n \n (1) { pubkey } \n \n (2) { privkey } { ART_KEY_PAIR } ' , clear = False , pause = True )
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## 3) Have passphrase?
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if SHOW_STATUS and not passphrase :
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passphrase = self . cli . status_keymaker_part2 ( name , passphrase , pubkey , privkey , hasher , self )
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else :
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if not passphrase : passphrase = DEBUG_DEFAULT_PASSPHRASE
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while not passphrase :
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passphrase = getpass ( f ' @Keymaker: Enter a memorable password to encrypt your private key with: \n \n @ { self . name } : ' )
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clear_screen ( )
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## 4) Get hashed password
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passhash = hasher ( passphrase )
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self . log ( f ''' @Keymaker: I have replaced your password with a disguised, hashed version \n using a salted SHA-256 algorithm from python ' s hashlib: \n \n \t { make_key_discreet_str ( passhash ) } ''' )
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## 5) Encrypt private key
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privkey_decr = KomradeSymmetricKeyWithPassphrase ( passphrase )
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privkey_encr = privkey_decr . encrypt ( privkey . data )
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privkey_encr_obj = KomradeEncryptedAsymmetricPrivateKey ( privkey_encr )
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self . log ( f " @Keymaker: Store your private key on your device hardware ONLY \n as it was encrypted by your password-generated key: \n \n [Encrypted Private Key] \n ( { make_key_discreet_str ( privkey_encr_obj . data_b64 ) } ) " )
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## 6) Test keychain works
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privkey_decr2 = KomradeSymmetricKeyWithPassphrase ( passphrase )
assert privkey_decr2 . decrypt ( privkey_encr ) == privkey . data
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self . _keychain [ ' pubkey ' ] = pubkey
self . _keychain [ ' privkey_encr ' ] = privkey_encr_obj
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# self._keychain['privkey_decr']=privkey_decr
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# we should be able to reassemble privkey now?
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# self.log('this is my keychain now:')
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assert ' privkey ' in self . keychain ( )
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# self.log('My keychain now looks like:',dict_format(self.keychain()))
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## 6) More narration?
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if SHOW_STATUS :
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self . cli . status_keymaker_part3 ( privkey , privkey_decr , privkey_encr , passphrase )
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## 7) Save data to server
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data = {
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' name ' : name ,
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' pubkey ' : pubkey . data ,
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}
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self . log ( ' @Keymaker: Store your public key both on your device hardware \n as well as register it with Komrade @Operator on the remote server: \n \n ' , dict_format ( data , tab = 2 ) )
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# ring operator
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# call from phone since I don't have pubkey on record on Op yet
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# self.log('my keychain:',self._keychain,pubkey,self.op._keychain)
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resp_msg_d = self . ring_ring (
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{
' name ' : name ,
' pubkey ' : pubkey . data ,
} ,
route = ' register_new_user '
)
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if not resp_msg_d . get ( ' success ' ) :
self . log ( f ' Registration failed. Message from operator was: \n \n { dict_format ( resp_msg_d ) } ' )
return
# otherwise, save things on our end
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self . log ( f ' Registration successful. Message from operator was: \n \n { dict_format ( resp_msg_d ) } ' )
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self . name = resp_msg_d . get ( ' name ' )
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pubkey_b = resp_msg_d . get ( ' pubkey ' )
sec_login = resp_msg_d . get ( ' secret_login ' )
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pubkey = self . _keychain [ ' pubkey ' ] = KomradeAsymmetricPublicKey ( pubkey_b )
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uri_id = b64enc ( pubkey_b )
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self . crypt_keys . set (
self . name ,
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pubkey_b ,
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prefix = ' /pubkey/ ' )
self . crypt_keys . set (
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uri_id ,
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self . name ,
prefix = ' /name/ ' )
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self . crypt_keys . set (
uri_id ,
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sec_login ,
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prefix = ' /secret_login/ '
)
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self . crypt_keys . set (
uri_id ,
privkey_encr_obj . data ,
prefix = ' /privkey_encr/ '
)
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self . log ( f ''' Now saving name and public key on local device: ''' )
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# save qr too:
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uri_id = b64enc ( pubkey_b )
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qr_str = self . qr_str ( uri_id )
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fnfn = self . save_uri_as_qrcode ( uri_id )
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# self.log(f'saved public key as QR code to:\n {fnfn}\n\n{qr_str}')
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return resp_msg_d
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# done!
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self . log ( f ' Congratulations. Welcome, Komrade { self } . ' )
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@property
def secret_login ( self ) :
return self . crypt_keys . get (
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self . pubkey . data_b64 ,
prefix = ' /secret_login/ '
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)
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def login ( self , passphrase = None ) :
# check hardware
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if not self . pubkey :
self . log ( ''' Login impossible. I do not have this komrade ' s public key, much less private one. ''' )
return
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if not self . privkey_encr :
self . log ( ''' Login impossible. I do not have this komrade ' s private key on this hardware. ''' )
return
# check password
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while not passphrase :
from getpass import getpass
passphrase = getpass ( ' @Keymaker: Enter password for {self} in order to decrypt the encrypted private key: \n \n ' )
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# assemble privkey?
privkey = self . keychain ( passphrase = passphrase ) . get ( ' privkey ' )
if not privkey :
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self . log ( ''' Login impossible. I do not have this komrade ' s private key on this hardware. ''' )
return
# compose message
msg = {
' name ' : self . name ,
' pubkey ' : self . pubkey . data ,
' secret_login ' : self . secret_login
}
# ask operator and get response
resp_msg = self . ring_ring (
msg ,
route = ' login '
)
# get result
self . log ( ' Got result back from operator: ' , resp_msg )
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return resp_msg
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## MEETING PEOPLE
def find ( self , someone ) :
if type ( someone ) == str :
return Komrade ( name = someone )
if type ( someone ) == bytes :
return Komrade ( pubkey = someone )
self . log ( ' what is type of someoen here? ' , type ( someone ) )
return someone
def meet ( self , someone ) :
# get person obj
someone = self . find ( someone )
self . log ( ' got someone = ' , someone , type ( someone ) )
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def ring_ring ( self , msg , route = None , * * y ) :
if type ( msg ) == dict and not ROUTE_KEYNAME in msg :
msg [ ROUTE_KEYNAME ] = route
return super ( ) . ring_ring ( msg , caller = self , * * y )
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def send_msg_to ( self , msg , to_whom ) :
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to_whom = self . find ( to_whom )
self . log ( f ' found { to_whom } ' )
msg_obj = self . compose_msg_to (
msg ,
to_whom
)
self . log ( ' composed msg: ' , msg_obj )
msg_obj . encrypt ( )
self . log ( ' going to send msg_d? ' , msg_obj . msg_d )
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return self . ring_ring ( msg_obj . msg_d )
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def test_register ( ) :
import random
num = random . choice ( list ( range ( 0 , 1000 ) ) )
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botname = f ' marx { str ( num ) . zfill ( 3 ) } '
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marxbot = Komrade ( botname )
# marxbot=Komrade()
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marxbot . register ( passphrase = ' spectre ' )
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def test_msg ( ) :
z = Komrade ( ' zuck ' )
z . login ( )
s = Komrade ( ' sergey ' )
z . send_msg_to ( ' you ssssssuck ' , s )
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if __name__ == ' __main__ ' :
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test_msg ( )
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# marx = Komrade('marx')
# elon = Komrade('elon')
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# marx.register()
# # elon.register()
# # person.register()
# # print(person.pubkey)
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# # elon.send_msg_to('youre dumb',marx)
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# #Caller('elon').ring_ring({'_route':'say_hello','msg':'my dumb message to operator'})
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# # print(marx.exists_on_server())