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#
# Copyright (c) 2014 ThoughtWorks, Inc.
#
# Pixelated is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# Pixelated is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with Pixelated. If not, see <http://www.gnu.org/licenses/>.
from __future__ import with_statement
import hmac
import io
import os
from hashlib import sha256
from leap.soledad.client.crypto import decrypt_sym
from leap.soledad.client.crypto import encrypt_sym
from whoosh.filedb.filestore import FileStorage
from whoosh.filedb.structfile import BufferFile, StructFile
from whoosh.util import random_name
class DelayedCloseBytesIO(io.BytesIO):
def __init__(self, name):
super(DelayedCloseBytesIO, self).__init__()
self._name = name
self.shouldClose = False
def close(self):
self.shouldClose = True
def explicit_close(self):
super(DelayedCloseBytesIO, self).close()
class DelayedCloseStructFile(StructFile):
def __init__(self, fileobj, name=None, onclose=None):
super(DelayedCloseStructFile, self).__init__(fileobj, name, onclose)
def close(self):
"""Closes the wrapped file.
"""
if self.is_closed:
raise Exception("This file is already closed")
if self.onclose:
self.onclose(self)
if hasattr(self.file, "explicit_close"):
self.file.explicit_close()
self.is_closed = True
class EncryptedFileStorage(FileStorage):
def __init__(self, path, masterkey=None):
FileStorage.__init__(self, path, supports_mmap=False)
self.masterkey = masterkey[:32]
self.signkey = masterkey[32:]
self._tmp_storage = self.temp_storage
self.length_cache = {}
self._open_files = {}
def open_file(self, name, **kwargs):
return self._open_encrypted_file(name)
def create_file(self, name, excl=False, mode="w+b", **kwargs):
f = DelayedCloseStructFile(DelayedCloseBytesIO(name), name=name, onclose=self._encrypt_index_on_close(name))
f.is_real = False
self._open_files[name] = f
return f
def delete_file(self, name):
super(EncryptedFileStorage, self).delete_file(name)
if name in self._open_files:
del self._open_files[name]
def temp_storage(self, name=None):
name = name or "%s.tmp" % random_name()
path = os.path.join(self.folder, name)
return EncryptedFileStorage(path, self.masterkey).create()
def file_length(self, name):
return self.length_cache[name][0]
def gen_mac(self, iv, ciphertext):
verifiable_payload = ''.join((iv, ciphertext))
return hmac.new(self.signkey, verifiable_payload, sha256).digest()
def encrypt(self, content):
iv, ciphertext = encrypt_sym(content, self.masterkey)
mac = self.gen_mac(iv, ciphertext)
return ''.join((mac, iv, ciphertext))
def decrypt(self, payload):
payload_mac, iv, ciphertext = payload[:32], payload[32:57], payload[57:]
generated_mac = self.gen_mac(iv, ciphertext)
if sha256(payload_mac).digest() != sha256(generated_mac).digest():
raise Exception("EncryptedFileStorage - Error opening file. Wrong MAC")
return decrypt_sym(ciphertext, self.masterkey, iv)
def _encrypt_index_on_close(self, name):
def wrapper(struct_file):
struct_file.seek(0)
content = struct_file.file.read()
file_hash = sha256(content).digest()
if name in self.length_cache and file_hash == self.length_cache[name][1]:
return
self.length_cache[name] = (len(content), file_hash)
encrypted_content = self.encrypt(content)
with open(self._fpath(name), 'w+b') as f:
f.write(encrypted_content)
return wrapper
def _open_encrypted_file(self, name, onclose=lambda x: None):
if not self.file_exists(name):
if name in self._open_files:
f = self._open_files[name]
if not f.is_closed:
state = 'closed' if f.file.shouldClose else 'open'
if state == 'closed':
self._store_file(name, f.file.getvalue())
f.close()
del self._open_files[name]
else:
raise NameError(name)
file_content = open(self._fpath(name), "rb").read()
decrypted = self.decrypt(file_content)
self.length_cache[name] = (len(decrypted), sha256(decrypted).digest())
return BufferFile(buffer(decrypted), name=name, onclose=onclose)
def _store_file(self, name, content):
try:
encrypted_content = self.encrypt(content)
with open(self._fpath(name), 'w+b') as f:
f.write(encrypted_content)
except Exception, e:
print e
raise
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