Dark Reading is part of the Informa Tech Division of Informa PLC

This site is operated by a business or businesses owned by Informa PLC and all copyright resides with them.Informa PLC's registered office is 5 Howick Place, London SW1P 1WG. Registered in England and Wales. Number 8860726.

Application Security

10:30 AM
Jeff Williams
Jeff Williams
Connect Directly
E-Mail vvv

Open Source Software Poses a Real Security Threat

It's true that open source software has many benefits, but it also has weak points. These four practical steps can help your company stay safer.

Open source code has conquered the world of software. Almost every website, API, and application is built on an enormous stack of open source libraries and frameworks that totals many millions of lines of code. Millions of corporations and developers are taking advantage of the expansive array of components, zero cost, and easy integration to create more-sophisticated software far faster than building it themselves.

I am a huge advocate of open source and have led several very successful open source projects. But along with all the benefits of open source components, we have to recognize some new risks. There are millions of these libraries in all the different software languages, such as Java, .NET, Ruby, Python, Go, and many more. Dozens of new vulnerabilities are discovered every week, but we’re only scratching the surface. The problem is that only a handful of talented security researchers are doing the highly skilled work of testing this code.

That means that there are, almost certainly, large numbers of latent vulnerabilities in open source software. Having a researcher discover one of these and publish it seems like an expensive fire drill for companies, because they have to search to see if they're using the library, replace it, recode their application to match, retest, resecure, and redeploy. But if a malicious actor finds the vulnerability and starts attacking companies with it, the damage can be much more expensive. Web applications and web APIs run with almost full privilege inside a company's data center, and all that open source inherits the power to do anything the application can do.

Bad actors have recognized the power of the software supply chain attack vector. If finding a vulnerability gets too hard, they can switch to attacking the open source projects themselves. For example, they could simply join a project and contribute code that contains or creates a weakness. Or they could target the open source repositories cloning an existing library, introduce malicious code, and make it available with a similar name as the original. Hackers have even targeted the development "tool chain" to inject their code into binaries. In all these examples, developers and end users alike would not see the attack happening in their data center, but they would be completely owned.

The ramifications of this are staggering. If an attacker was able to infiltrate a popular library like log4j, they would very quickly be running with privilege inside most data centers in the world. They could use this access to not only attack the targeted application but as an internal launching point for attacks on the organization's internal network. And that's just a single library. This is the easiest path to seriously disrupting the Internet and harming huge numbers of people.

Organizations need to minimize their exposure and establish the capability to respond to novel vulnerabilities and attacks within hours. Unfortunately, most organizations take months to respond and are very exposed in the interim. Every company that is betting their future on software needs to have a strategy for beefing up the security of their software supply chain. Here are a few practical tips:

  1. Exercise Restraint: Don't allow just any random library into your supply chain. Remember that you are betting your company on the security of that code. Set and enforce some policies around the types of code you will allow. Look for projects with high popularity, active committers, and evidence of process — including security.
  1. Establish Guardrails: Create guidelines for secure use of the libraries you select for use. Define how you expect each library to be used, and detail how developers should safely install, configure, and use each library in their code. Also, be sure to identify dangerous methods and how to use them safely.
  1. Constant Vigilance: Establish continuous self-inventory so you know exactly what open source libraries you are using in your inventory. Ensure that you have a notification system in place, so you know exactly what applications and servers are affected by new vulnerabilities.
  1. Runtime Protection: Use runtime application security protection (RASP) to prevent both "known" and "unknown" library vulnerabilities from being exploited. If novel vulnerabilities are disclosed, your RASP infrastructure enables you to respond in minutes, not weeks or months.

In an age of "digital transformation initiatives" your software supply chain is the key to creating and deploying applications quickly. Please make sure you don't inadvertently undermine your entire business in the rush to reinvent it.

Related Content:

Learn from the industry's most knowledgeable CISOs and IT security experts in a setting that is conducive to interaction and conversation. Early-bird rate ends August 31. Click for more info

A pioneer in application security, Jeff Williams is the founder and CTO of Contrast Security, a revolutionary application security product that enhances software with the power to defend itself, check itself for vulnerabilities, and join a security command and control ... View Full Bio

Recommended Reading:

Comment  | 
Print  | 
More Insights
Newest First  |  Oldest First  |  Threaded View
User Rank: Apprentice
9/28/2018 | 4:59:22 PM
Re: contrast with closed source
Well, you're right in the sense that this is a problem for both open and closed source code.  But they're not the same. The success of open source code has made your point incorrect.  The size and complexity of the open source supply chain is dramatically larger than for closed source. The average web application is now 81% open source libraries and frameworks (although 72% of *that* is never invoked).  Your point about closed-source projects just makes my point.  Further, updating open source isn't the same as updating closed source.  Nobody goes back and provides patches for old open source... you are forced to upgrade to the latest version.  That means changing your software to match.  As I mentioned, I'm a huge open source advocate, but you can't try this false equivalence thing -- it's not helping the cause.  That bear now deserves to be poked.
User Rank: Strategist
8/15/2018 | 2:41:39 PM
contrast with closed source
I feel that this headline was designed to poke the FOSS bear. :)

Singling this out as an open-source problem is insufficiently precise. The valid points made here have less to do with open source per se than they do with overall software supply chain.

Further, most closed-source projects are themselves built on top of many layers of open-source components - from Linux to Apache http to Cygwin to the broad spectrum of libraries. This is especially true for security appliances. With open source, you and others can at least verify that you're using current, patched versions of those components - and quickly upgrade them to respond to vulnerabilities, instead of waiting for your vendor's next quarterly/yearly patch/certification cycle.

As a FOSS advocate, it would have been more even-handed of you to have included points such as these as part of your analysis.
COVID-19: Latest Security News & Commentary
Dark Reading Staff 6/5/2020
How AI and Automation Can Help Bridge the Cybersecurity Talent Gap
Peter Barker, Chief Product Officer at ForgeRock,  6/1/2020
Cybersecurity Spending Hits 'Temporary Pause' Amid Pandemic
Kelly Jackson Higgins, Executive Editor at Dark Reading,  6/2/2020
Register for Dark Reading Newsletters
White Papers
Cartoon Contest
Write a Caption, Win a Starbucks Card! Click Here
Latest Comment: What? IT said I needed virus protection!
Current Issue
How Cybersecurity Incident Response Programs Work (and Why Some Don't)
This Tech Digest takes a look at the vital role cybersecurity incident response (IR) plays in managing cyber-risk within organizations. Download the Tech Digest today to find out how well-planned IR programs can detect intrusions, contain breaches, and help an organization restore normal operations.
Flash Poll
Twitter Feed
Dark Reading - Bug Report
Bug Report
Enterprise Vulnerabilities
From DHS/US-CERT's National Vulnerability Database
PUBLISHED: 2020-06-05
The Elementor Page Builder plugin before 2.9.9 for WordPress suffers from a stored XSS vulnerability. An author user can create posts that result in a stored XSS by using a crafted payload in custom links.
PUBLISHED: 2020-06-05
The Elementor Page Builder plugin before 2.9.9 for WordPress suffers from multiple stored XSS vulnerabilities. An author user can create posts that result in stored XSS vulnerabilities, by using a crafted link in the custom URL or by applying custom attributes.
PUBLISHED: 2020-06-05
In Combodo iTop a menu shortcut name can be exploited with a stored XSS payload. This is fixed in all iTop packages (community, essential, professional) in version 2.7.0 and iTop essential and iTop professional in version 2.6.4.
PUBLISHED: 2020-06-05
In Combodo iTop, dashboard ids can be exploited with a reflective XSS payload. This is fixed in all iTop packages (community, essential, professional) for version 2.7.0 and in iTop essential and iTop professional packages for version 2.6.4.
PUBLISHED: 2020-06-05
In the cheetah free wifi 5.1 driver file liebaonat.sys, local users are allowed to cause a denial of service (BSOD) or other unknown impact due to failure to verify the value of a specific IOCTL.