Alexey Kessenikh
Alexey Kessenikh is an expert in information security with more than 10 years of experience. Currently a CISO for Soveren, alongside working for a giant e-commerce marketplace with 400M+ users and with previous experience working as a consultant for Deloitte.

In a previous article, I explained how you can define risks for your information assets. In this article, I will run you through the risks that affect assets that process, store and transmit personal data. I will also touch on how you can reduce and nullify these risks with security controls.

The risks we’re going to consider are:

  • Access management
  • Data security
  • Development and testing
  • Device security
  • Data transfer

A key way to reduce risks when working with personal data is to define the systems, network and network components that are responsible for storing and processing personal data. You need to be crystal clear on which assets contain all personal data and shift them to a separate security contour.

Doing so will allow you to dismiss threats that are applicable to other IT assets in your infrastructure and could directly or indirectly affect your systems and environment for personal data.

Make Life Easier

When talking about working with personal data, we often forget that we don’t always need to use the personal data itself. You can make your job a damn sight easier and minimize risks by using unique identifiers for your customers (users).

Read More:   Update Database Design Decisions for Multi-Version Concurrency Control

Simply put, you can take the name of your customer — John Smith — his telephone number, and address and replace it with UserID_1. If you need to keep the different parts of the data separate in a table, you could set John’s unique IDs as:

  • Name — name_uid_
  • Telephone — ph_uid_1
  • Address —ad_uid_1

The above values will be enough for your internal processes (analytics, statistics, batch queries, etc.); plus, you won’t have personal data running amok in your systems, just the identifiers. Doing so will mean that you can set up your security so that only one set system has access or can request access to the personal data.

Another best practice is to organize your system so that it separates the types of personal data stored with each type having its own namespace.

For example, separating: 

  • Employee and customer personal data
  • Users whose personal data is a name, telephone, and address and users who also provide ID, like a passport scan
  • Decryption keys for different types of data (e.g., those from a key management system)

An add-on for the last point about keeping decryption keys separate is that it will give you greater control over access management, with the ability to set key usage for different data requests.

No People, No Problem

Limiting access to personal data is the key thing here. The less people, services and systems that have access to personal data, the simpler it is to formalize and monitor everything. 

Additionally, having an understanding about who can access personal data and how will allow you to correctly set up your investigation-into-incident processes. This in itself will bring down your response and investigation time, not to mention business expenses for incident management processes.

Encryption

Personal data should be stored and transmitted encrypted. Making it impossible for third parties to decrypt the data will reduce risks associated with unauthorized access to personal data and data breaches as a whole.

Read More:   Managing Compliance with Continuous Delivery – InApps Technology 2022

As an alternative, you can obfuscate the personal data (as is done for payment data in PCI DSS) or tokenize it.

You can tokenize things like IP addresses completely. This means that third-party services won’t be able to access the source IP address but can learn which users have the same IP as their tokens will be the same.

Personal Data Only in Production Environment

Even if your test environment is secured and protected at the same level as your production environment, you should never use real personal data when testing. I mean, if you have given your devs access to real personal data in the first place, this creates risks of its own that will need to be controlled (e.g., monitoring the devs, integrity control, protection against data breaches caused by unauthorized parties gaining access).

Device Security

If you’re not a large or established business and you don’t yet have formalized policies and processes for end user device security, or you think that basic Windows and MacOS security is good enough, make sure that you secure all virtual workspaces for employees that have access to systems which contain personal data. In fact, it would be better to secure the contours that contain personal data using a jump host.

An alternative to this would be to use something like Amazon AppStream or similar, which will cover your risks for devices that don’t have additional security software installed on them.

Push or Pull

If you need to transfer personal data — and of course you should be doing this through a secure channel and/or in encrypted format — to third parties, make sure you are transferring the data (push model) and they are not taking it from you (pull model).

It may seem that there is no difference here or that it hinders efficiency, but think about it this way: If you leave data open to be pulled from you, then you run the risk of having much more data taken (or more requests than you would have ever anticipated). Now imagine that the third-party service is compromised. You see where I am going with this.

Read More:   Update Intel Gives the Etcd Key-Value Store a Needed Boost

The alternative is to use anonymized data where possible. Set up an anonymization service that is able to maximally depersonalize data at the web/mobile app entry point by tokenizing all the information using an open algorithm.

Anonymizing data

Final Thoughts

Reducing risks is quite different from eliminating them. It’s always worth remembering that you should create a separate environment every time people/systems will work with critical data (especially when security requirements for this data are regulated like GDPR or others). By doing so, you will make your security job a whole lot easier. This doesn’t mean just avoiding fines or bad publicity, but also reducing the costs of supporting your security overall, even when taking into account the additional costs of extra infrastructure to store and process the personal data.

Feature image via Pixabay.