Skip to content

maltebaumann/encrypted-core-data

 
 

Repository files navigation

Encrypted Core Data SQLite Store Build Statusanalytics

Provides a Core Data store that encrypts all data that is persisted. Besides the initial setup, the usage is exactly the same as Core Data and can be used in existing projects that use Core Data.

What's New in ECD 2.0 (as of 6/20/14)

  • Many to Many relationship support
  • Upgraded to SqlCipher v3.1.0
  • Moved away from OpenSSL to Apple's, FIPS compliant, CommonCrypto
  • Better unit test support
  • Better SQLite cache support
  • Support for more sort descriptors
  • Closed many of the outstanding issues
  • Tested working in iOS 6.0 - 7.1

Vulnerabilities Addressed

  1. SQLite database is not encrypted, contents are in plain text
  • CWE-311: Missing Encryption of Sensitive Data
  1. SQLite database file protected with 4 digit system passcode
  • CWE-326: Inadequate Encryption Strength
  • SRG-APP-000129-MAPP-000029 Severity-CAT II: The mobile application must implement automated mechanisms to enforce access control restrictions which are not provided by the operating system

Project Setup

  • When creating the project make sure Use Core Data is selected
  • Switch into your project's root directory and checkout the encrypted-core-data project code
    cd ~/Documents/code/YourApp

    git clone https://github.com/project-imas/encrypted-core-data.git
  • Click on the top level Project item and add files ("option-command-a")

  • Navigate to encrypted-core-data, highlight Incremental Store, and click Add

  • SQLCipher is added as a git submodule within ECD. A git submodule init and git submodule update should populate the sqlcipher submodule directory, where the sqlcipher.xcodeproj can be found and added to your project.

  • To use CommonCrypto with SQLCipher in Xcode:

    • add the compiler flags -DSQLCIPHER_CRYPTO_CC and -DSQLITE_HAS_CODEC under the sqlcipher project settings > Build Settings > Custom Compiler Flags > Other C Flags
    • Under your application's project settings > Build Phases, add sqlcipher to Target Dependencies, and libsqlcipher.a and Security.framework to Link Binary With Libraries.
  • Note: Along with the move to CommonCrypto, we've updated the version of SQLCipher included as a submodule from v2.0.6 to v3.1.0. Databases created with v2.0.6 will not be able to be read directly by v3.1.0, and support for legacy database migration is not yet supported by ECD.

Installation via CocoaPod

  • If you don't already have CocoaPods installed, do $ sudo gem install cocoapods in your terminal. (See the CocoaPods website for details.)
  • In your project directory, do pod init to create a Podfile.
  • Add pod 'EncryptedCoreData', :git => 'https://github.com/project-imas/encrypted-core-data.git' to your Podfile
  • Run pod install
  • In your application delegate source file (AppDelegate.m), add #import "EncryptedStore.h"

Using EncryptedStore

EncryptedStore is known to work successfully on iOS versions 6.0 through 7.1.

If you wish to set a custom cache size and/or custom database URL: create an NSDictionary to set the options for your EncryptedStore, replacing customPasscode, customCacheSize, and/or customDatabaseURL:

NSDictionary *options = @{ EncryptedStorePassphraseKey: (NSString *) customPasscode,
                           EncryptedStoreCacheSize: (NSNumber *) customCacheSize,
                           EncryptedStoreDatabaseLocation: (NSURL *) customDatabaseURL
                           };

In your application delegate source file (i.e. AppDelegate.m) you should see

NSPersistentStoreCoordinator *coordinator = [self persistentStoreCoordinator];

If you created an NSDictionary with custom options, replace that line with

NSPersistentStoreCoordinator *coordinator = [EncryptedStore makeStoreWithOptions:options managedObjectModel:[self managedObjectModel]];

Otherwise, replace that line with:

NSPersistentStoreCoordinator *coordinator = [EncryptedStore makeStore:[self managedObjectModel]:@"SOME_PASSCODE"];

making sure to replace "SOME_PASSCODE" with a passcode of your own.

Also in the same file add an import for EncryptedStore.h:

   #import "EncryptedStore.h"

If there are issues you can add -com.apple.CoreData.SQLDebug 1 to see all statements encryted-cored-data generates be logged.

Features

  • One-to-one relationships
  • One-to-many relationships
  • Many-to-Many relationships (NEW)
  • Predicates
  • Inherited entities (Thanks to NachoMan)

Missing features and known bugs are maintained on the issue tracker

Diagram

Below is a diagram showing the differences between NSSQLiteStore and EncryptedStore. Note that actual the SQLite calls are coupled fairly strongly with the layer wrapping it:

Strings Comparison

Below is the output of doing the unix strings command on a sample applications .sqlite file. As you can see, the default persistence store leaves all information in plaintext:

License

Copyright 2012 - 2014 The MITRE Corporation, All Rights Reserved.

Licensed under the Apache License, Version 2.0 (the "License"); you may not use this work except in compliance with the License. You may obtain a copy of the License at

http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.

About

v2.0 - iOS Core Data encrypted SQLite store using SQLCipher

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Languages

  • Objective-C 99.6%
  • Ruby 0.4%