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Comrad/comrad/backend/crypt.py
2020-09-29 14:09:56 +01:00

270 lines
7.6 KiB
Python

"""
Storage for both keys and data
"""
import os,sys; sys.path.append(os.path.abspath(os.path.join(os.path.abspath(os.path.join(os.path.dirname(__file__),'..')),'..')))
from comrad import *
# from simplekv.fs import FilesystemStore
# from simplekv.memory.redisstore import RedisStore
# import redis
import hashlib,os
import zlib
from pythemis.exception import ThemisError
# from vedis import Vedis
# from walrus.tusks.rlite import WalrusLite
import hirlite
LOG_GET_SET = 0
class Crypt(Logger):
def __init__(self,
name=None,
fn=None,
use_secret=CRYPT_USE_SECRET,
path_secret=PATH_CRYPT_SECRET,
encrypt_values=False,
encryptor_func=None,
decryptor_func=None):
# defaults
if not name and fn: name=os.path.basename(fn).replace('.','_')
self.name,self.fn=name,fn
# use secret? for salting
if use_secret and path_secret:
if not os.path.exists(path_secret):
self.secret = get_random_binary_id()
from comrad.backend.keymaker import make_key_discreet
self.log('shhh! creating secret:',make_key_discreet(self.secret))
with open(path_secret,'wb') as of:
of.write(self.secret)
else:
with open(path_secret,'rb') as f:
self.secret = f.read()
else:
self.secret = b''
self.encrypt_values = encrypt_values
if self.secret and encrypt_values and (not encryptor_func or not decryptor_func):
from comrad.backend.keymaker import ComradSymmetricKeyWithPassphrase
self.key = ComradSymmetricKeyWithPassphrase(
passphrase=self.secret
)
encryptor_func = self.key.encrypt
decryptor_func = self.key.decrypt
self.encryptor_func=encryptor_func
self.decryptor_func=decryptor_func
# self.store = FilesystemStore(self.fn)
# self.store = RedisStore(redis.StrictRedis())
# self.db = Vedis(self.fn)
# self.db = WalrusLite(self.fn)
self.db = hirlite.Rlite(path=self.fn)
def log(self,*x,**y):
if LOG_GET_SET:
super().log(*x)
def hash(self,binary_data):
# return binary_data
return hasher(binary_data,self.secret)
def force_binary(self,k_b):
if k_b is None: return None
if type(k_b)==str: k_b=k_b.encode()
if type(k_b)!=bytes: k_b=k_b.decode()
return k_b
def package_key(self,k,prefix=''):
if not k: return b''
k_b = self.force_binary(k)
k_b2 = self.force_binary(prefix) + k_b
return k_b2
def package_val(self,k,encrypt=None):
if encrypt is None: encrypt=self.encrypt_values
k_b = self.force_binary(k)
if encrypt:
try:
k_b = self.encryptor_func(k_b)
except ThemisError as e:
self.log('!! ENCRYPTION ERROR:',e)
return k_b
def unpackage_val(self,k_b,encrypt=None):
if encrypt is None: encrypt=self.encrypt_values
if encrypt:
try:
k_b = self.decryptor_func(k_b)
except ThemisError as e:
self.log('!! DECRYPTION ERROR:',e)
return k_b
def has(self,k,prefix=''):
got=self.get(k,prefix=prefix)
# self.log('has got',got)
return bool(got)
def set(self,k,v,prefix='',override=False,encrypt=True):
if self.has(k,prefix=prefix) and not override:
self.log(f"I'm afraid I can't let you do that, overwrite someone's data!\n\nat {prefix}{k} = {v}")
return False #(False,None,None)
k_b=self.package_key(k,prefix=prefix)
k_b_hash = self.hash(k_b)
v_b=self.package_val(v,encrypt = (self.encrypt_values and encrypt))
if not override:
self.log(f'''Crypt.set(\n\t{k_b}\n\n\t{k_b_hash}\n\n\t{v_b}\n)''')
#self.store.put(k_b_hash,v_b)
#with self.db.transaction():
# self.db[k_b_hash]=v_b
return self.db.command('set',k_b_hash,v_b)
# return True
def exists(self,k,prefix=''):
return self.has(k,prefix=prefix)
def key2hash(self,k,prefix=''):
return self.hash(
self.package_key(
prefix + k
)
)
def delete(self,k,prefix=''):
k_b=self.package_key(k,prefix=prefix)
k_b_hash = self.hash(k_b)
with self.db.transaction():
del self.db[k_b_hash]
return True
def get(self,k,prefix=''):
k_b=self.package_key(k,prefix=prefix)
k_b_hash = self.hash(k_b)
# v=self.db.get(k_b_hash)
self.log('getting k',k,'with prefix',prefix)
self.log('getting k_b',k_b)
self.log('getting k_b_hash',k_b_hash)
v = self.db.command('get',k_b_hash)
self.log('<--',v)
v_b=self.unpackage_val(v)
return v_b
class KeyCrypt(Crypt):
def __init__(self):
return super().__init__(name=PATH_CRYPT_CA_KEYS.replace('.','_'))
class DataCrypt(Crypt):
def __init__(self):
return super().__init__(name=PATH_CRYPT_CA_DATA.replace('.','_'))
class CryptList(Crypt): # like inbox
def __init__(self,
crypt,
keyname,
prefix='',
encryptor_func=lambda x: x,
decryptor_func=lambda x: x):
self.crypt=crypt
self.db=self.crypt.db
self.keyname=self.crypt.package_key(keyname,prefix)
@property
def values(self): return list(self.l)
def package_val(self,val):
# if type(val)!=bytes: val=val.encode()
return val
def unpackage_val(self,val):
# if type(val)==str: val=val.encode()
return val
def append(self,val):
self.log('<--val',val)
if type(val)==list: return [self.append(x) for x in val]
val_x = self.package_val(val)
# with self.db.transaction():
# res = self.db.lpush(self.keyname,val_x)
res = self.db.command('rpush',self.keyname,val_x)
self.log('-->',res)
return res
def prepend(self,val):
self.log('<--val',val)
if type(val)==list: return [self.prepend(x) for x in val]
val_x = self.package_val(val)
res = self.db.command('lpush',self.keyname,val_x)
self.log('-->',res)
return res
@property
def values(self):
l = self.db.command('lrange',self.keyname, '0', '-1')
self.log('<-- l',l)
if not l: return []
vals = [self.unpackage_val(x) for x in l]
self.log('-->',vals)
return vals
def remove(self,val):
self.log('<--',val)
if type(val)==list: return [self.remove(x) for x in val]
val_x = self.package_val(val)
self.db.command('lrem',self.keyname,'0',val_x)
if __name__=='__main__':
crypt = Crypt(fn='tes22t.db')
print(crypt.set(
'testing22',
b'wooooooboy',
prefix='/test/',
))
print('got back', crypt.get(
'testing22',
prefix='/test/'
))
crypt_list = CryptList(
keyname='MyInbosdx35',
crypt=crypt
)
print(crypt_list.values)
# print(crypt_list.remove('cool thing 0'))
# print(crypt_list.append('cool thing 1'))
print(crypt_list.append('Appended'))
print(crypt_list.append('cool thing 0'))
print(crypt_list.prepend('Prepended'))
print()
print()
print(crypt_list.remove('cool thing 0'))
print()
print()
print(crypt_list.values)