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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 . crypt import *
from abc import ABC , abstractmethod
class KomradeKey ( ABC ) :
@abstractmethod
def encrypt ( self , msg , * * kwargs ) : pass
@abstractmethod
def decrypt ( self , msg , * * kwargs ) : pass
@abstractmethod
def data ( self ) : pass
class KomradeSymmetricKey ( KomradeKey ) :
@property
def cell ( self ) :
if not hasattr ( self , ' _cell ' ) :
if hasattr ( self , ' passphrase ' ) and self . passphrase :
self . _cell = SCellSeal ( passphrase = self . passphrase )
elif hasattr ( self , ' key ' ) and self . key :
self . _cell = SCellSeal ( key = self . key )
return self . _cell
def encrypt ( self , msg , * * kwargs ) :
if issubclass ( type ( msg ) , KomradeKey ) : msg = msg . data
return self . cell . encrypt ( msg , * * kwargs )
def decrypt ( self , msg , * * kwargs ) :
return self . cell . decrypt ( msg , * * kwargs )
class KomradeSymmetricKeyWithPassphrase ( KomradeSymmetricKey ) :
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def __init__ ( self , passphrase = DEBUG_DEFAULT_PASSPHRASE , why = WHY_MSG ) :
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self . passphrase = passphrase
if not self . passphrase :
self . passphrase = getpass . getpass ( why )
#return self.passphrase
@property
def data ( self ) : return KEY_TYPE_SYMMETRIC_WITH_PASSPHRASE . encode ( ' utf-8 ' )
class KomradeSymmetricKeyWithoutPassphrase ( KomradeSymmetricKey ) :
def __init__ ( self , key = None ) :
self . key = GenerateSymmetricKey ( ) if not key else key
@property
def data ( self ) : return self . key
class KomradeAsymmetricKey ( KomradeKey ) :
def __init__ ( self , pubkey , privkey ) :
self . pubkey = pubkey
self . privkey = privkey
def encrypt ( self , msg , pubkey = None , privkey = None ) :
if issubclass ( type ( msg ) , KomradeKey ) : msg = msg . data
pubkey = pubkey if pubkey else self . pubkey
privkey = privkey if privkey else self . privkey
return SMessage ( privkey , pubkey ) . wrap ( msg )
def decrypt ( self , msg , pubkey = None , privkey = None ) :
pubkey = pubkey if pubkey else self . pubkey
privkey = privkey if privkey else self . privkey
return SMessage ( privkey , pubkey ) . unwrap ( msg )
@property
def data ( self ) : return self . key
class KomradeAsymmetricPublicKey ( KomradeAsymmetricKey ) :
@property
def key ( self ) : return self . pubkey
class KomradeAsymmetricPrivateKey ( KomradeAsymmetricKey ) :
@property
def key ( self ) : return self . privkey
class Keymaker ( Logger ) :
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def __init__ ( self , name = None , passphrase = DEBUG_DEFAULT_PASSPHRASE , keychain = { } , path_crypt_keys = None , path_crypt_data = None , allow_builtin = True ) :
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self . name = name
self . _keychain = keychain
self . passphrase = passphrase
self . path_crypt_keys = path_crypt_keys
self . path_crypt_data = path_crypt_data
self . allow_builtin = allow_builtin
### BASE STORAGE
@property
def crypt_keys ( self ) :
if not hasattr ( self , ' _crypt_keys ' ) :
self . _crypt_keys = Crypt ( fn = self . path_crypt_keys )
return self . _crypt_keys
@property
def crypt_keys_mem ( self ) :
if not hasattr ( self , ' _crypt_keys_mem ' ) :
self . _crypt_keys_mem = CryptMemory ( )
return self . _crypt_keys_mem
@property
def crypt_data ( self ) :
if not hasattr ( self , ' _crypt_data ' ) :
self . _crypt_data = Crypt ( fn = self . path_crypt_data )
return self . _crypt_data
### STARTING WITH MOST ABSTRACT
def findkey ( self , keyname , keychain = { } , uri = None ) :
# self.log(f'looking for key {keyname}, in keychain {keychain.keys()} or under crypt uri {uri}')
# look in keychain, then in crypt, for this key
given_key = keychain . get ( keyname )
if given_key :
# self.log(f'{keyname} found in keychain: {given_key}')
return given_key
found_key = self . crypt_keys . get ( uri , prefix = f ' / { keyname } / ' )
if found_key :
# self.log(f'{keyname} found in crypt: {given_key}')
return found_key
# self.log(f'{keyname} not found!!')
def getkey ( self , keyname , keychain = { } , uri = None ) :
# cached?
# if hasattr(self,'_'+keyname) and getattr(self,'_'+keyname):
# return getattr(self,'_'+keyname)
if keyname in self . _keychain : return self . _keychain [ keyname ]
# self.log(f'keyname={keyname}, keychain={keychain.keys()}, uri={uri}')
# 1) I already have this key stored in either the keychain or the crypt; return straight away
key = self . findkey ( keyname , keychain , uri )
if key :
# self.log(f'>> I have {key} already, returning')
return key
## 2) I can assemble the key
# self.log(f'assembling key: {keyname}_encr + {keyname}_decr')
key_encr = self . findkey ( keyname + ' _encr ' , keychain , uri )
key_decr = self . findkey ( keyname + ' _decr ' , keychain , uri )
key = self . assemble_key ( key_encr , key_decr , keyname + ' _encr ' , keyname + ' _decr ' )
return key
def get_cell ( self , str_or_key_or_cell ) :
# self.log('getting decr cell for',str_or_key_or_cell)
if type ( str_or_key_or_cell ) == SCellSeal :
return str_or_key_or_cell
elif type ( str_or_key_or_cell ) == str :
return SCellSeal ( passphrase = str_or_key_or_cell )
elif type ( str_or_key_or_cell ) == bytes :
return SCellSeal ( key = str_or_key_or_cell )
def assemble_key ( self , key_encr , key_decr , key_encr_name = None , key_decr_name = None ) :
# self.log(f'assembling key: {key_decr} decrypting {key_encr}')
# need the encrypted half
if not key_encr :
# self.log('!! encrypted half not given')
return
if not key_decr :
if self . passphrase :
key_decr = self . passphrase
else :
# self.log('!! decryptor half not given')
return
# need some way to regenerate the decryptor
decr_cell = self . get_cell ( key_decr )
# need the decryptor half
if not decr_cell :
# self.log('!! decryptor cell not regenerable')
return
# decrypt!
try :
self . log ( f ' >> decrypting { key_encr_name } with { key_decr_name } \n ( { key_encr } with cell { decr_cell } ' )
key = decr_cell . decrypt ( key_encr )
# self.log('assembled_key built:',key)
return key
except ThemisError as e :
self . log ( ' !! decryption failed: ' , e )
return
# Concrete keys
## (1) Final keys
def pubkey ( self , force = False , * * kwargs ) :
# if force or not hasattr(self,'_pubkey') or not self._pubkey:
# self._pubkey = self.getkey(keyname='pubkey',uri=self.name,**kwargs)
# return self._pubkey
x = self . getkey ( keyname = ' pubkey ' , uri = self . name , * * kwargs )
print ( ' weee ' , x )
return x
def privkey ( self , force = False , * * kwargs ) :
# if force or not hasattr(self,'_privkey') or not self._privkey:
# self._privkey=self.getkey(keyname='privkey',uri=self.pubkey(**kwargs),**kwargs)
# return self._privkey
return self . getkey ( keyname = ' privkey ' , uri = self . pubkey ( * * kwargs ) , * * kwargs )
def adminkey ( self , force = False , * * kwargs ) :
# if force or not hasattr(self,'_adminkey') or not self._adminkey:
# self._adminkey=self.getkey(keyname='adminkey',uri=self.privkey(**kwargs),**kwargs)
# return self._adminkey
return self . getkey ( keyname = ' adminkey ' , uri = self . privkey ( * * kwargs ) , * * kwargs )
## (1-X) Encrypted halves
def pubkey_encr ( self , * * kwargs ) :
return self . getkey ( uri = self . name , keyname = ' pubkey_encr ' , * * kwargs )
def privkey_encr ( self , * * kwargs ) :
return self . getkey ( uri = self . pubkey ( * * kwargs ) , keyname = ' privkey_encr ' , * * kwargs )
def adminkey_encr ( self , * * kwargs ) :
return self . getkey ( uri = self . privkey ( * * kwargs ) , keyname = ' adminkey_encr ' , * * kwargs )
## (1-Y) Decrpytor halves
def pubkey_decr ( self , * * kwargs ) :
return self . getkey ( uri = self . name , keyname = ' pubkey_decr ' , * * kwargs )
def privkey_decr ( self , * * kwargs ) :
return self . getkey ( uri = self . pubkey ( * * kwargs ) , keyname = ' privkey_decr ' , * * kwargs )
def adminkey_decr ( self , * * kwargs ) :
return self . getkey ( uri = self . privkey ( * * kwargs ) , keyname = ' adminkey_decr ' , * * kwargs )
## Second halving!
## (1-X-X)
def pubkey_encr_encr ( self , * * kwargs ) :
return self . getkey ( uri = self . name , keyname = ' pubkey_encr_encr ' , * * kwargs )
def privkey_encr_encr ( self , * * kwargs ) :
return self . getkey ( uri = self . pubkey_encr ( * * kwargs ) , keyname = ' privkey_encr_encr ' , * * kwargs )
def adminkey_encr_encr ( self , * * kwargs ) :
return self . getkey ( uri = self . privkey_encr ( * * kwargs ) , keyname = ' adminkey_encr_encr ' , * * kwargs )
## (1-X-Y)
def pubkey_encr_decr ( self , * * kwargs ) :
return self . getkey ( uri = self . name , keyname = ' pubkey_encr_decr ' , * * kwargs )
def privkey_encr_decr ( self , * * kwargs ) :
return self . getkey ( uri = self . pubkey_encr ( * * kwargs ) , keyname = ' privkey_encr_decr ' , * * kwargs )
def adminkey_encr_decr ( self , * * kwargs ) :
return self . getkey ( uri = self . privkey_encr ( * * kwargs ) , keyname = ' adminkey_encr_decr ' , * * kwargs )
## (1-Y-X)
def pubkey_decr_encr ( self , * * kwargs ) :
return self . getkey ( uri = self . name , keyname = ' pubkey_decr_encr ' , * * kwargs )
def privkey_decr_encr ( self , * * kwargs ) :
return self . getkey ( uri = self . pubkey_decr ( * * kwargs ) , keyname = ' privkey_decr_encr ' , * * kwargs )
def adminkey_decr_encr ( self , * * kwargs ) :
return self . getkey ( uri = self . privkey_decr ( * * kwargs ) , keyname = ' adminkey_decr_encr ' , * * kwargs )
## (1-Y-Y)
def pubkey_decr_decr ( self , * * kwargs ) :
return self . getkey ( uri = self . name , keyname = ' pubkey_decr_decr ' , * * kwargs )
def privkey_decr_decr ( self , * * kwargs ) :
return self . getkey ( uri = self . pubkey_decr ( * * kwargs ) , keyname = ' privkey_decr_decr ' , * * kwargs )
def adminkey_decr_decr ( self , * * kwargs ) :
return self . getkey ( uri = self . privkey_decr ( * * kwargs ) , keyname = ' adminkey_decr_decr ' , * * kwargs )
# convenience functions
# Concrete keys
@property
def pubkey_ ( self ) : return self . keychain ( ) . get ( ' pubkey ' )
@property
def privkey_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' privkey ' )
@property
def adminkey_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' adminkey ' )
## (1-X) Encrypted halves
@property
def pubkey_encr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' pubkey_encr ' )
@property
def privkey_encr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' privkey_encr ' )
@property
def adminkey_encr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' adminkey_encr ' )
## (1-Y) Decrpytor halves
@property
def pubkey_decr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' pubkey_decr ' )
@property
def privkey_decr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' privkey_decr ' )
@property
def adminkey_decr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' adminkey_decr ' )
## Second halving!
## (1-X-X)
@property
def pubkey_encr_encr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' pubkey_encr_encr ' )
@property
def privkey_encr_encr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' privkey_encr_encr ' )
@property
def adminkey_encr_encr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' adminkey_encr_encr ' )
## (1-X-Y)
@property
def pubkey_encr_decr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' pubkey_encr_decr ' )
@property
def privkey_encr_decr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' privkey_encr_decr ' )
@property
def adminkey_encr_decr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' adminkey_encr_decr ' )
## (1-Y-X)
@property
def pubkey_decr_encr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' pubkey_decr_encr ' )
@property
def privkey_decr_encr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' privkey_decr_encr ' )
@property
def adminkey_decr_encr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' adminkey_decr_encr ' )
## (1-Y-Y)
@property
def pubkey_decr_decr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' pubkey_decr_decr ' )
@property
def privkey_decr_decr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' privkey_decr_decr ' )
@property
def adminkey_decr_decr_ ( self , * * kwargs ) : return self . keychain ( ) . get ( ' adminkey_decr_decr ' )
# Get key de-cryptors
def genkey_pass_keycell ( self , pass_phrase , q_name = ' Read permissions? ' ) :
if pass_phrase is None :
pass_key = GenerateSymmetricKey ( )
pass_cell = SCellSeal ( key = pass_key )
else :
if pass_phrase is True : pass_phrase = getpass . getpass ( f ' Enter pass phrase [ { q_name } ]: ' )
pass_key = None
pass_cell = SCellSeal ( passphrase = pass_phrase )
self . log ( f ' pass_key [ { q_name } ] <-- ' , pass_key )
self . log ( f ' pass_cell [ { q_name } ] <-- ' , pass_cell )
return ( pass_key , pass_cell )
def exists ( self ) :
return self . crypt_keys . exists ( self . name , prefix = ' /pubkey_encr/ ' ) or self . crypt_keys . exists ( self . name , prefix = ' /pubkey_decr/ ' ) or self . crypt_keys . exists ( self . name , prefix = ' /pubkey/ ' )
### CREATING KEYS
def get_new_keys ( self ) :
raise KomradeException ( ' Every keymaker must make their own get_new_keys() ! ' )
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def gen_keys_from_types ( self , key_types , passphrase = DEBUG_DEFAULT_PASSPHRASE ) :
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asymmetric_pubkey = None
asymmetric_privkey = None
keychain = { }
for key_name , key_type_desc in key_types . items ( ) :
if key_type_desc in { KEY_TYPE_ASYMMETRIC_PUBKEY , KEY_TYPE_ASYMMETRIC_PRIVKEY } :
if not asymmetric_privkey or not asymmetric_pubkey :
keypair = GenerateKeyPair ( KEY_PAIR_TYPE . EC )
asymmetric_privkey = keypair . export_private_key ( )
asymmetric_pubkey = keypair . export_public_key ( )
if key_type_desc == KEY_TYPE_ASYMMETRIC_PRIVKEY :
keychain [ key_name ] = KomradeAsymmetricPrivateKey ( asymmetric_pubkey , asymmetric_privkey )
elif key_type_desc == KEY_TYPE_ASYMMETRIC_PUBKEY :
keychain [ key_name ] = KomradeAsymmetricPublicKey ( asymmetric_pubkey , asymmetric_privkey )
elif key_type_desc == KEY_TYPE_SYMMETRIC_WITHOUT_PASSPHRASE :
keychain [ key_name ] = KomradeSymmetricKeyWithoutPassphrase ( )
elif key_type_desc == KEY_TYPE_SYMMETRIC_WITH_PASSPHRASE :
if not passphrase and not self . passphrase : self . passphrase = getpass . getpass ( WHY_MSG )
passphrase = passphrase if passphrase else self . passphrase
keychain [ key_name ] = KomradeSymmetricKeyWithPassphrase ( passphrase = passphrase )
return keychain
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def gen_encr_keys ( self , keychain , keys_to_gen , passphrase = DEBUG_DEFAULT_PASSPHRASE ) :
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# generate encrypted keys too
for key_name in keys_to_gen :
if key_name . endswith ( ' _encr ' ) and key_name not in keychain :
# encrypt it with the associated decr
self . log ( f ' let \' s encrypt { key_name } ! ' )
name_of_what_to_encrypt = key_name [ : - len ( ' _encr ' ) ]
the_key_to_encrypt_it_with = name_of_what_to_encrypt + ' _decr '
if the_key_to_encrypt_it_with in keychain and name_of_what_to_encrypt in keychain :
_key_decr = keychain [ the_key_to_encrypt_it_with ]
_key = keychain [ name_of_what_to_encrypt ]
self . log ( f ' about to encrypt key { name_of_what_to_encrypt } , using { the_key_to_encrypt_it_with } , which is a type { KEYMAKER_DEFAULT_KEY_TYPES [ the_key_to_encrypt_it_with ] } and has value { keychain [ the_key_to_encrypt_it_with ] } ' )
_key_encr = _key_decr . encrypt ( _key )
# self.log(f'{_key}\n-- encrypting ----->\n{_key_encr}')
keychain [ key_name ] = _key_encr
return keychain
def forge_new_keys ( self ,
name = None ,
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passphrase = DEBUG_DEFAULT_PASSPHRASE ,
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keys_to_save = KEYMAKER_DEFAULT_KEYS_TO_SAVE ,
keys_to_return = KEYMAKER_DEFAULT_KEYS_TO_RETURN ,
keys_to_gen = KEYMAKER_DEFAULT_KEYS_TO_GEN ,
key_types = KEYMAKER_DEFAULT_KEY_TYPES ) :
self . log ( ' forging new keys... ' , name , self . name )
self . log ( ' keys_to_save: ' , keys_to_save )
self . log ( ' keys_to_return ' , keys_to_return )
if not name : name = self . name
keys_to_gen = set ( keys_to_gen ) | set ( keys_to_save ) | set ( keys_to_return )
keys_to_gen = sorted ( list ( keys_to_gen ) , key = lambda x : x . count ( ' _ ' ) )
self . log ( ' keys_to_gen = ' , keys_to_gen )
key_types = dict ( [ ( k , key_types [ k ] ) for k in keys_to_gen ] )
self . log ( ' key_types = ' , key_types )
# get decryptor keys!
keychain = self . gen_keys_from_types ( key_types , passphrase = passphrase )
self . log ( ' keychain 1 = ' , keychain )
# gen encrypted keys!
keychain = self . gen_encr_keys ( keychain , keys_to_gen , passphrase = passphrase )
self . log ( ' keychain 2 = ' , keychain )
# save keys!
keys_saved = self . save_keychain ( name , keychain , keys_to_save )
self . log ( ' keys_saved = ' , keys_saved )
# return keys!
keys_returned = self . return_keychain ( keychain , keys_to_return )
return keys_returned
def return_keychain ( self , keychain , keys_to_return = None ) :
keychain_toreturn = { }
if not keychain_toreturn : keychain_toreturn = list ( keychain . keys ( ) )
for key in keys_to_return :
if key in keychain :
keychain_toreturn [ key ] = keychain [ key ]
return keychain_toreturn
def save_keychain ( self , name , keychain , keys_to_save = None ) :
keys_saved = [ ]
if not keys_to_save : keys_to_save = list ( keychain . keys ( ) )
# filter for transfer
for k , v in keychain . items ( ) :
if issubclass ( type ( v ) , KomradeKey ) :
v = v . data
keychain [ k ] = v
# for k,v in keychain_tosave.items():
if ' pubkey ' in keys_to_save or ' privkey ' in keys_to_save or ' adminkey ' in keys_to_save :
# unless we're the operator or the telephone
if not self . name in { OPERATOR_NAME , TELEPHONE_NAME } :
raise KomradeException ( ' there is no private property in a socialist network! all keys must be split between komrades ' )
else :
if ' pubkey ' in keys_to_save and ' pubkey ' in keychain :
keys_saved + = [ ' pubkey ' ]
self . crypt_keys . set ( name , keychain [ ' pubkey ' ] , prefix = ' /pubkey/ ' )
if ' privkey ' in keys_to_save and ' privkey ' in keychain :
keys_saved + = [ ' privkey ' ]
self . crypt_keys . set ( keychain [ ' pubkey ' ] , keychain [ ' privkey ' ] , prefix = ' /privkey/ ' )
if ' adminkey ' in keys_to_save and ' adminkey ' in keychain :
keys_saved + = [ ' adminkey ' ]
self . crypt_keys . set ( keychain [ ' privkey ' ] , keychain [ ' adminkey ' ] , prefix = ' /adminkey/ ' )
### SAVE ENCRYPTED KEYS?
if ' pubkey_encr ' in keys_to_save and ' pubkey_encr ' in keychain :
keys_saved + = [ ' pubkey_encr ' ]
self . crypt_keys . set ( name , keychain [ ' pubkey_encr ' ] , prefix = ' /pubkey_encr/ ' )
if ' privkey_encr ' in keys_to_save and ' privkey_encr ' in keychain :
keys_saved + = [ ' privkey_encr ' ]
self . crypt_keys . set ( keychain [ ' pubkey ' ] , keychain [ ' privkey_encr ' ] , prefix = ' /privkey_encr/ ' )
if ' adminkey_encr ' in keys_to_save and ' adminkey_encr ' in keychain :
keys_saved + = [ ' adminkey_encr ' ]
self . crypt_keys . set ( keychain [ ' privkey ' ] , keychain [ ' adminkey_encr ' ] , prefix = ' /adminkey_encr/ ' )
# stop
# save decrypted keys?
if ' pubkey_decr ' in keys_to_save and ' pubkey_decr ' in keychain :
keys_saved + = [ ' pubkey_decr ' ]
self . crypt_keys . set ( name , keychain [ ' pubkey_decr ' ] , prefix = ' /pubkey_decr/ ' )
if ' privkey_decr ' in keys_to_save and ' privkey_decr ' in keychain :
keys_saved + = [ ' privkey_decr ' ]
self . crypt_keys . set ( keychain [ ' pubkey ' ] , keychain [ ' privkey_decr ' ] , prefix = ' /privkey_decr/ ' )
if ' adminkey_decr ' in keys_to_save and ' adminkey_decr ' in keychain :
keys_saved + = [ ' adminkey_decr ' ]
self . crypt_keys . set ( keychain [ ' privkey ' ] , keychain [ ' adminkey_decr ' ] , prefix = ' /adminkey_decr/ ' )
if ' pubkey_encr_encr ' in keys_to_save and ' pubkey_encr_encr ' in keychain :
keys_saved + = [ ' pubkey_encr_encr ' ]
self . crypt_keys . set ( name , keychain [ ' pubkey_decr_encr ' ] , prefix = ' /pubkey_decr_encr/ ' )
if ' privkey_encr_encr ' in keys_to_save and ' privkey_encr_encr ' in keychain :
keys_saved + = [ ' privkey_encr_encr ' ]
self . crypt_keys . set ( keychain [ ' pubkey_decr ' ] , keychain [ ' privkey_decr_encr ' ] , prefix = ' /privkey_decr_encr/ ' )
if ' adminkey_encr_encr ' in keys_to_save and ' adminkey_encr_encr ' in keychain :
keys_saved + = [ ' adminkey_encr_encr ' ]
self . crypt_keys . set ( keychain [ ' privkey_decr ' ] , keychain [ ' adminkey_decr_encr ' ] , prefix = ' /adminkey_decr_encr/ ' )
if ' pubkey_decr_encr ' in keys_to_save and ' pubkey_decr_encr ' in keychain :
keys_saved + = [ ' pubkey_decr_encr ' ]
self . crypt_keys . set ( name , keychain [ ' pubkey_decr_encr ' ] , prefix = ' /pubkey_decr_encr/ ' )
if ' privkey_decr_encr ' in keys_to_save and ' privkey_decr_encr ' in keychain :
keys_saved + = [ ' privkey_decr_encr ' ]
self . crypt_keys . set ( keychain [ ' pubkey_decr ' ] , keychain [ ' privkey_decr_encr ' ] , prefix = ' /privkey_decr_encr/ ' )
if ' adminkey_decr_encr ' in keys_to_save and ' adminkey_decr_encr ' in keychain :
keys_saved + = [ ' adminkey_decr_encr ' ]
self . crypt_keys . set ( keychain [ ' privkey_decr ' ] , keychain [ ' adminkey_decr_encr ' ] , prefix = ' /adminkey_decr_encr/ ' )
if ' pubkey_decr_decr ' in keys_to_save and ' pubkey_decr_decr ' in keychain :
keys_saved + = [ ' pubkey_decr_decr ' ]
self . crypt_keys . set ( name , keychain [ ' pubkey_decr_decr ' ] , prefix = ' /pubkey_decr_decr/ ' )
if ' privkey_decr_decr ' in keys_to_save and ' privkey_decr_decr ' in keychain :
keys_saved + = [ ' privkey_encr_encr ' ]
self . crypt_keys . set ( keychain [ ' pubkey_decr ' ] , keychain [ ' privkey_decr_decr ' ] , prefix = ' /privkey_decr_decr/ ' )
if ' adminkey_decr_decr ' in keys_to_save and ' adminkey_decr_decr ' in keychain :
keys_saved + = [ ' adminkey_decr_decr ' ]
self . crypt_keys . set ( keychain [ ' privkey_decr ' ] , keychain [ ' adminkey_decr_decr ' ] , prefix = ' /adminkey_decr_decr/ ' )
if ' pubkey_decr_decr ' in keys_to_save and ' pubkey_decr_decr ' in keychain :
keys_saved + = [ ' pubkey_decr_decr ' ]
self . crypt_keys . set ( name , keychain [ ' pubkey_decr_decr ' ] , prefix = ' /pubkey_decr_decr/ ' )
if ' privkey_decr_decr ' in keys_to_save and ' privkey_decr_decr ' in keychain :
keys_saved + = [ ' privkey_encr_encr ' ]
self . crypt_keys . set ( keychain [ ' pubkey_decr ' ] , keychain [ ' privkey_decr_decr ' ] , prefix = ' /privkey_decr_decr/ ' )
if ' adminkey_decr_decr ' in keys_to_save and ' adminkey_decr_decr ' in keychain :
keys_saved + = [ ' adminkey_decr_decr ' ]
self . crypt_keys . set ( keychain [ ' privkey_decr ' ] , keychain [ ' adminkey_decr_decr ' ] , prefix = ' /adminkey_decr_decr/ ' )
# return in dict form
keys_saved_d = { }
for key_saved in keys_saved :
if key_saved in keychain :
keys_saved_d [ key_saved ] = keychain [ key_saved ]
return keys_saved_d
def valid_keychain ( self , keychain_b64_d ) :
valid_kc = { }
for k , v in keychain_b64_d . items ( ) :
self . log ( ' incoming <-- ' , k , v )
if type ( v ) == bytes :
data = v
elif type ( v ) == str :
if not isBase64 ( v ) :
self . log ( ' not valid input! ' )
continue
# first try to get from string to bytes
try :
data = v . encode ( )
self . log ( ' data ' , data )
except UnicodeEncodeError :
self . log ( ' not valid unicode? ' )
continue
# then try to get from b64 bytes to raw bytes
if isBase64 ( data ) :
valid_kc [ k ] = b64decode ( data )
else :
valid_kc [ k ] = data
return valid_kc
def assemble ( self , _keychain ) :
# last minute assemblies?
encr_keys = [ k for k in _keychain if k . endswith ( ' _encr ' ) ]
for ekey in encr_keys :
eval = _keychain [ ekey ]
if not eval : continue
unencrkey = ekey [ : - len ( ' _encr ' ) ]
if unencrkey in _keychain : continue
decrkey = unencrkey + ' _decr '
if decrkey not in _keychain : continue
dval = _keychain [ decrkey ]
if not dval : continue
self . log ( ekey , decrkey , ' ?? ' )
self . log ( eval , dval , ' ???? ' )
new_val = self . assemble_key ( eval , dval )
self . log ( ' !!#! ' , new_val )
if new_val :
_keychain [ unencrkey ] = new_val
return _keychain
2020-09-08 07:20:42 +00:00
def keychain ( self , passphrase = DEBUG_DEFAULT_PASSPHRASE , force = False , allow_builtin = True , extra_keys = { } , keys_to_gen = KEYMAKER_DEFAULT_KEYS_TO_GEN , * * kwargs ) :
2020-09-07 23:34:27 +00:00
# assemble as many keys as we can!
# if not force and hasattr(self,'_keychain') and self._keychain: return self._keychain
if passphrase : self . passphrase = passphrase
_keychain = { * * extra_keys , * * self . _keychain }
self . log ( ' _keychain at start of keychain() = ' , _keychain )
for keyname in keys_to_gen + keys_to_gen :
# if keyname in _keychain and _keychain[keyname]: continue
# self.log('??',keyname,keyname in self._keychain,'...')
if hasattr ( self , keyname ) :
method = getattr ( self , keyname )
res = method ( keychain = _keychain , * * kwargs )
# self.log('res <--',res)
if res :
_keychain [ keyname ] = res
_keychain = self . assemble ( _keychain )
_keychain = self . assemble ( _keychain )
self . _keychain = _keychain
return _keychain
return _keychain
if __name__ == ' __main__ ' :
keymaker = Keymaker ( ' marx69 ' )
keychain = keymaker . forge_new_keys ( )
print ( keychain )
