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): def __init__(self,passphrase=None, why=WHY_MSG): 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): self.key = GenerateSymmetricKey() @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): def __init__(self,name=None,passphrase=None, path_crypt_keys=None, path_crypt_data=None, allow_builtin=True): self.name=name self._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): # 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) 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): # 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} 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 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 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 ## (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() !') def gen_keys_from_types(self,key_types,passphrase=None): 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 def gen_encr_keys(self,keychain,keys_to_gen,passphrase=None): # 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, passphrase=None, 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) keychain = self.gen_keys_from_types(key_types,passphrase=passphrase) self.log('keychain 1 =',keychain) keychain = self.gen_encr_keys(keychain,keys_to_gen,passphrase=passphrase) self.log('keychain 2 =',keychain) # 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: self.crypt_keys.set(name,keychain['pubkey'],prefix='/pubkey/') if 'privkey' in keys_to_save and 'privkey' in keychain: self.crypt_keys.set(keychain['pubkey'],keychain['privkey'],prefix='/privkey/') if 'adminkey' in keys_to_save and 'adminkey' in keychain: 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: self.crypt_keys.set(name,keychain['pubkey_encr'],prefix='/pubkey_encr/') if 'privkey_encr' in keys_to_save and 'privkey_encr' in keychain: self.crypt_keys.set(keychain['pubkey'],keychain['privkey_encr'],prefix='/privkey_encr/') if 'adminkey_encr' in keys_to_save and 'adminkey_encr' in keychain: 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: self.crypt_keys.set(name,keychain['pubkey_decr'],prefix='/pubkey_decr/') if 'privkey_decr' in keys_to_save and 'privkey_decr' in keychain: self.crypt_keys.set(keychain['pubkey'],keychain['privkey_decr'],prefix='/privkey_decr/') if 'adminkey_decr' in keys_to_save and 'adminkey_decr' in keychain: 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: 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: 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: 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: 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: 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: 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: 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: 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: 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: 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: 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: self.crypt_keys.set(keychain['privkey_decr'],keychain['adminkey_decr_decr'],prefix='/adminkey_decr_decr/') keychain_toreturn = {} for key in keys_to_return: if key in keychain: keychain_toreturn[key]=keychain[key] return keychain_toreturn 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 keychain(self,passphrase=None,force=False,allow_builtin=True,extra_keys={},keys_to_gen=KEYMAKER_DEFAULT_KEYS_TO_GEN,**kwargs): # 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 self._keychain = _keychain = {**extra_keys} self.log('_keychain at start of keychain() =',_keychain) for keyname in keys_to_gen: # self.log('??',keyname,'...') if hasattr(self,keyname): method=getattr(self,keyname) res=method(keychain=_keychain, **kwargs) # self.log('res <--',res) if res: _keychain[keyname]=res return _keychain if __name__ == '__main__': keymaker = Keymaker('marx69') keychain = keymaker.forge_new_keys() print(keychain)