After the basic iCloud discussion in this post, I would like to add some more technical information. The following items are just a loose compilation of facts about the mentioned controls which allow the restriction of iCloud usage. The basic iCloud usage, consisting of backup, document sync, and photo stream, can be deactivated using the most recent version of the iPhone Configuration Utility:
Since there are no default settings for these values, it is necessary to include the disabled entries in existing configuration profiles.
Another new functionality which can be deactivated using configuration profiles is Siri. Even though this functionality is not directly related to the iCloud at first glance, it still bears a big threat potential. Looking at the SLAs of the iPhone 4s, the following paragraph gets relevant: When you use Siri, the things you say will be recorded and sent to Apple to process your requests. Your device will also send Apple other information, such as your first name and nickname; the names, nicknames, and relationship with you (e.g., “my dad”) of your address book contacts; and song names in your collection (collectively, your “User Data”).
So Siri also uses cloud-based services in the background. The following screenshot shows the option to disallow the usage of Siri:
Thinking of this privacy relevant submission of data, another new option of the most recent tool version gets relevant: “Allow diagnostic data to be sent to Apple”. The two checked options in the following screenshots are also new features of the most recent version of the configuration utility:
That’s it for the short configuration option compilation of today, have a great week everybody,
A few days ago (on 10/12/2011) Apple launched its new cloud offering which is called — who would have guessed 😉 — iCloud. Since we’re performing quite some research in the area of cloud security, we had a first look at the basic functionality and concepts of the iCloud. Its main features include the possibility to store full backups of Apple devices (at least, an iPhone, iPad or iPod touch running iOS 5 or a Mac running OS X Lion 10.7.2 is required), photos, music, or documents online. The data to be stored online is initially pushed to the cloud storage and then synchronized to any device which is using the same iCloud account. From this moment on, all changes on the cloudified data is immediately synchronized to the iCloud and then pushed to all participating devices. At this point, most infosec people might start to be worried a little bit: The common cloud concept of centralized data storage on premise of a third party does not cope well with the usual control focused approach of most technical infosec guys. The resulting concerns can be attributed to several main cloud computing related risks (which are proposed by ENISA and actually very valuable work:
Lock In: According to the way the cloud functionality is integrated into iOS and OS X , usage of the iCloud might result in strong lock in effects. There is neither the possibility to use different backend cloud storage for the functionality nor the possibility to develop a product which provides similar functionality (see later paragraphs for examples).
Isolation Failure: is probably the most present threat for many IT people, since it is highly related to technical implementation details. It includes, but is not limited to, breakout attacks from guest systems due to vulnerabilities in the hypervisor or to unauthorised data access due to insufficient permission models in backend storage. Thinking of the trust factor consistency, Apple’s history of cloud based services was not their “finest hour” (as Steve Jobs stated during his keynote on iCloud). Remembering this talk and the awkward MobileMe vulnerabilities, we would agree with that 😉
Loss of Governance: The loss of governance over data in the cloud is kind of an intrinsic risk to cloud computing (also refer to the proposed system operation life cycle and the motivation given here). Again, referring to explanations about the technical iCloud implementation in the later paragraphs, this loss might be even more relevant in the iCloud environment.
There are some more risks according to the ENISA study, but those are beyond the scope of this post. If we do such rough assessments as sample exercises during our cloud security workshops, the participants usually ask what “they can do”. Possible controls can be divided into two groups: controls to reduce the risk to a reasonable level and controls which prohibit the usage of the particular service. When analyzing the cloud, the control always mentioned first is crypto. Speaking of cloud storage, crypto is a valid control to ensure that unauthorized access (e.g. due to isolation failure/physical access/subpoena) to data has no relevant impact. The only requirement is that the encryption is performed on client side (depending on the attacker model and whether you trust your cloud service provider). For example, Amazon provides a feature which is called Server Side Encryption which encrypts any file that is stored within S3. Additionally, Amazon allows the implementation of a custom encryption client which enables customers to perform transparent encryption of all files which are stored in S3. The analysis of the security benefits, attacker models, and operational feasibility of these controls will be the subject of yet-another blogpost, but at least Amazon offers these encryption features. The offered services of the iCloud differ a little bit in functionality (for example, the iCloud iTunes version is a kind-of music streaming platform), but basically there are two API functions which allow access to the iCloud backend. First, it is possible to store documents (where documents can be complete directory structures) in the iCloud, second, a so called key-value store can be accessed. The access is encapsulated in dedicated API calls which take care of the complete data transfer, synchronization, and pushing operations using an iCloud daemon. So any use of the iCloud is strictly connected to an app (I would have called it application ;-)) which has to use the introduced iCloud API calls. Even though I’m not that familiar with the iOS/OS X architecture, I would have guessed that it would have been easily possible to add client side encryption using the internal keychain and usual cryptographic mechanisms. Still, this is not the fact and it is questionable, regarding the user experience oriented focus of Apple, whether this feature will be implemented in the future. This lack of encryption possibility brings up the second class of controls, which shall restrict the iCloud usage. This is especially important in corporate context, where full backups of devices would potentially expose sensitive corporate data to third parties. Even though the usage might be restricted by acceptable use policies, this might not enough since the activation of this feature can happen accidentally: If a user logs in once into the iCloud frontend, which is possible using a regular apple ID, the data synchronization is enabled by default and starts immediately (refer also to the quoted terms of service above). Since most corporate environments use MDM solutions, it is possible to restrict the iCloud usage at least for iOS based devices. The corresponding configuration profiles offer several options to disable the functionality:
For today, this little introduction to iCloud and some of its security and trust aspects will be finished here. We will, however, continue to explore the attributes of iCloud more deeply in the near future (and we might even have a talk on it at Troopers ;-).