How effective encryption achieves data security and functionality in the cloud

While the growing popularity of public cloud applications has fundamentally changed the way in which many businesses operate, it has also created a number of previously unseen data security and compliance issues.

This has happened because many of the most popular cloud applications provide very little visibility or control over how sensitive data is handled once in the cloud. Instead, users are expected to simply trust that their data is being kept secure.

Many IT departments are overjoyed with this approach because it takes a significant amount of stress out of operationalising business applications.

However, for security teams it has the opposite effect. Without controland visibility over cloud apps,it is difficult to ensure that corporate data is truly secure. This has led security teams to focus on implementing encryptiontechniques to attempt to shore up the protection of clouddata.

The primary driver for cloud encryption is the need to ensure that, if intellectual property, trade secrets, or regulated data such as customer payment card information is lost in a breach, it cannot be viewed.

For others, data residency concerns or policies that require control of encryption keys lead them to encryption. In apps likeSalesforce,this data exists as structured data– in file-sharing apps such as Box, itis unstructured. In both cases, the most commonly used tool for encryption is a cloud access security broker (CASB).

Encrypting cloud data can be tricky

CASBs mediate connections between cloud apps and the outside world via a combination of proxies and API connectors to applications. In doing so, they create a focal point of visibility and control for cloud applications in use, with controls taking the form of dataloss prevention, contextual access control, and, of course, encryption of cloud data at rest.

Unfortunately, usinga CASB for encryption has its challenges. Inorder to preserveapplication functionality after data is encrypted, someCASBs actually reduce the strength of the encryption.

When data is encrypted, the application is unable to read the encrypted data and loses the ability to do anything with it. Thesearch function is perhaps the best example of this. If acustomer file is encrypted and a sales person attempts tosearch for it, the application would not be able to read the file and the search function would bebroken.

Reducing the encryption strength allows a CASB vendor to ‘crack’ its own encryption in order to allow critical functionality like search.

These functionality issues can seriously impede the productivity benefits of adopting cloud applications in the first place. As such, some CASBs ‘solve’ the issues bylimiting the strength of the cryptographic algorithm used. However, doing this severely impairs the overall effectiveness of the encryption, making data much more vulnerable.Thishasleft many businesses with a difficult trade-off between lost functionality and sub-optimal security,neither option being particularly appealing.

Resolving the security and functionality trade-off

The latest development in cloud encryption is one that takes a ‘split index’ approach to searchingcloud-based data, which gives businesses the best of both worlds.

When first deployed, API connections are used to analyse cloudapplications in use, identify sensitive data at rest, and let the business decideexactly what it wants to encrypt. TheCASB will then replace all sensitive data with copies thathave been encrypted. The business retains control over the encryption keys in this scenario.

The encrypted data can then be stored in the cloud app or on premises. In the latter case, the only thing stored in the cloud application is an encrypted pointer to where the data lies in the local data store.

The split indexapproach preserves search by moving the search functionality from the app to the CASB. As data is encrypted, an encrypted local search index is generated onpremises, with pointers to the encrypted data associated with the relevant keywords in the index.

When a user searches for data, the search query is executed against this local index, returning all of the associated pointers to the CASB. It then searches for those pointers and retrieves the encrypted files or records, decrypting the data for the user on the fly.

From there, sensitive data is divulged on a need-to-know basis. Because it is encrypted in the app, it’s not readable by prying eyes such as the rogue cloud vendor employee or the occasional over-reaching government entity.

Even within thebusiness, access is provided by policy,giving the security team complete control over who can access what and when. Using cloud encryption in such a way also allows an organisation to get ahead of government regulations.

For many businesses, data security headaches are causing security teams to resent publiccloud applications. Cloud encryption offers a solution, but businesses shouldn’t have to make a choice between appfunctionality and data security.

The splitindex approach to encryption will allow businesses to enjoy all the benefits of public cloud applications, while giving security teams full control and visibility of the data, ensuring it remains secure at all times.

Copyright © 2019 IDG Communications, Inc.

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