borg/darc/key.py

186 lines
6.8 KiB
Python

from __future__ import with_statement
from getpass import getpass
import hashlib
import os
import msgpack
import zlib
from Crypto.Cipher import AES
from Crypto.Hash import SHA256, HMAC
from Crypto.Util import Counter
from Crypto.Util.number import bytes_to_long, long_to_bytes
from Crypto.Random import get_random_bytes
from Crypto.Protocol.KDF import PBKDF2
from .helpers import IntegrityError, get_keys_dir
PREFIX = '\0' * 8
def SHA256_PDF(p, s):
return HMAC.new(p, s, SHA256).digest()
class Key(object):
FILE_ID = 'DARC KEY'
def __init__(self, store=None, password=None):
if store:
self.open(self.find_key_file(store), password=password)
def find_key_file(self, store):
id = store.id.encode('hex')
keys_dir = get_keys_dir()
for name in os.listdir(keys_dir):
filename = os.path.join(keys_dir, name)
with open(filename, 'rb') as fd:
line = fd.readline().strip()
if line and line.startswith(self.FILE_ID) and line[9:] == id:
return filename
raise Exception('Key file for store with ID %s not found' % id)
def open(self, filename, prompt=None, password=None):
prompt = prompt or 'Enter password for %s: ' % filename
with open(filename, 'rb') as fd:
lines = fd.readlines()
if not lines[0].startswith(self.FILE_ID) != self.FILE_ID:
raise ValueError('Not a DARC key file')
self.store_id = lines[0][len(self.FILE_ID):].strip().decode('hex')
cdata = (''.join(lines[1:])).decode('base64')
self.password = password or ''
data = self.decrypt_key_file(cdata, self.password)
while not data:
self.password = getpass(prompt)
if not self.password:
raise Exception('Key decryption failed')
data = self.decrypt_key_file(cdata, self.password)
if not data:
print 'Incorrect password'
key = msgpack.unpackb(data)
if key['version'] != 1:
raise IntegrityError('Invalid key file header')
self.store_id = key['store_id']
self.enc_key = key['enc_key']
self.enc_hmac_key = key['enc_hmac_key']
self.id_key = key['id_key']
self.chunk_seed = key['chunk_seed']
self.counter = Counter.new(64, initial_value=1, prefix=PREFIX)
self.path = filename
def post_manifest_load(self, config):
iv = bytes_to_long(config['aes_counter']) + 100
self.counter = Counter.new(64, initial_value=iv, prefix=PREFIX)
def pre_manifest_write(self, manifest):
manifest.config['aes_counter'] = long_to_bytes(self.counter.next_value(), 8)
def encrypt_key_file(self, data, password):
salt = get_random_bytes(32)
iterations = 10000
key = PBKDF2(password, salt, 32, iterations, SHA256_PDF)
hash = HMAC.new(key, data, SHA256).digest()
cdata = AES.new(key, AES.MODE_CTR, counter=Counter.new(128)).encrypt(data)
d = {
'version': 1,
'salt': salt,
'iterations': iterations,
'algorithm': 'SHA256',
'hash': hash,
'data': cdata,
}
return msgpack.packb(d)
def decrypt_key_file(self, data, password):
d = msgpack.unpackb(data)
assert d['version'] == 1
assert d['algorithm'] == 'SHA256'
key = PBKDF2(password, d['salt'], 32, d['iterations'], SHA256_PDF)
data = AES.new(key, AES.MODE_CTR, counter=Counter.new(128)).decrypt(d['data'])
if HMAC.new(key, data, SHA256).digest() != d['hash']:
return None
return data
def save(self, path, password):
key = {
'version': 1,
'store_id': self.store_id,
'enc_key': self.enc_key,
'enc_hmac_key': self.enc_hmac_key,
'id_key': self.enc_key,
'chunk_seed': self.chunk_seed,
}
data = self.encrypt_key_file(msgpack.packb(key), password)
with open(path, 'wb') as fd:
fd.write('%s %s\n' % (self.FILE_ID, self.store_id.encode('hex')))
fd.write(data.encode('base64'))
self.path = path
def chpasswd(self):
password, password2 = 1, 2
while password != password2:
password = getpass('New password: ')
password2 = getpass('New password again: ')
if password != password2:
print 'Passwords do not match'
self.save(self.path, password)
return 0
@staticmethod
def create(store, filename, password=None):
i = 1
path = filename
while os.path.exists(path):
i += 1
path = filename + '.%d' % i
if password is not None:
password2 = password
else:
password, password2 = 1, 2
while password != password2:
password = getpass('Key file password (Leave blank for no password): ')
password2 = getpass('Key file password again: ')
if password != password2:
print 'Passwords do not match'
key = Key()
key.store_id = store.id
# Chunk AES256 encryption key
key.enc_key = get_random_bytes(32)
# Chunk encryption HMAC key
key.enc_hmac_key = get_random_bytes(32)
# Chunk id HMAC key
key.id_key = get_random_bytes(32)
# Chunkifier seed
key.chunk_seed = bytes_to_long(get_random_bytes(4))
# Convert to signed int32
if key.chunk_seed & 0x80000000:
key.chunk_seed = key.chunk_seed - 0xffffffff - 1
key.save(path, password)
return Key(store, password=password)
def id_hash(self, data):
"""Return HMAC hash using the "id" HMAC key
"""
return HMAC.new(self.id_key, data, SHA256).digest()
def encrypt(self, data):
data = zlib.compress(data)
nonce = long_to_bytes(self.counter.next_value(), 8)
data = ''.join((nonce, AES.new(self.enc_key, AES.MODE_CTR, '',
counter=self.counter).encrypt(data)))
hash = HMAC.new(self.enc_hmac_key, data, SHA256).digest()
return ''.join(('\0', hash, data))
def decrypt(self, id, data):
if data[0] != '\0':
raise IntegrityError('Invalid encryption envelope')
hash = data[1:33]
if HMAC.new(self.enc_hmac_key, data[33:], SHA256).digest() != hash:
raise IntegrityError('Encryption envelope checksum mismatch')
nonce = bytes_to_long(data[33:41])
counter = Counter.new(64, initial_value=nonce, prefix=PREFIX)
data = zlib.decompress(AES.new(self.enc_key, AES.MODE_CTR, counter=counter).decrypt(data[41:]))
if id and HMAC.new(self.id_key, data, SHA256).digest() != id:
raise IntegrityError('Chunk id verification failed')
return data