Linux Foundation

00:25 – Welcome and introductions
01:05 – John’s open source journey and Root.io’s SIM Toolkit project
02:24 – How application development has evolved over 20 years
05:44 – The shift from engineering rigor to accessible coding with AI
08:29 – Balancing AI acceleration with security responsibilities
10:08 – Traditional vs. containerized vulnerability management approaches
13:18 – Leveraging AI and ML for modern vulnerability management
16:58 – The coming “remediation revolution” and fix-first approach
18:24 – Why “shift left” security isn’t working for developers
19:35 – Using AI as a cybernetic programming and analysis partner
20:02 – Call to action: Start using AI tools for security today
22:00 – Closing thoughts and wrap-up

• John Amaral’s LinkedIn page
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Intro Music & Promotional clip (00:00)

CRob (00:25)
Welcome, welcome, welcome to What’s in the SOSS, the OpenSSF’s podcast where I talk to upstream maintainers, industry professionals, educators, academics, and researchers all about the amazing world of upstream open source security and software supply chain security.

Today, we have a real treat. We have John from Root.io with us here, and we’re going to be talking a little bit about some of the new air quotes, “cutting edge” things going on in the space of containers and AI security. But before we jump into it, John, could maybe you share a little bit with the audience, like how you got into open source and what you’re doing upstream?

John (01:05)
First of all, great to be here. Thank you so much for taking the time at Black Hat to have a conversation. I really appreciate it. Open source, really great topic. I love it. Been doing stuff with open source for quite some time. How do I get into it? I’m a builder. I make things. I make software been writing software. Folks can’t see me, but you know, I’m gray and have no hair and all that sort of We’ve been doing this a while. And I think that it’s been a great journey and a pleasure in my life to work with software in a way that democratizes it, gets it out there. I’ve taken a special interest in security for a long time, 20 years of working in cybersecurity. It’s a problem that’s been near and dear to me since the first day I ever had my like first floppy disk, corrupted. I’ve been on a mission to fix that. And my open source journey has been diverse. My company, Root.io, we are the maintainers of an open source project called Slim SIM (or SUM) Toolkit, which is a pretty popular open source project that is about security and containers. And it’s been our goal, myself personally, and as in my latest company to really try to help make open source secure for the masses.

CRob (02:24)
Excellent. That is an excellent kind of vision and direction to take things. So from your perspective, I feel we’re very similar age and kind of came up maybe in semi-related paths. But from your perspective, how have you seen application development kind of transmogrify over the last 20 or so years? What has gotten better? What might’ve gotten a little worse?

John (02:51)
20 years, big time frame talking about modern open source software. I remember when Linux first came out. And I was playing with it. I actually ported it to a single board computer as one of my jobs as an engineer back in the day, which was super fun. Of course, we’ve seen what happened by making software available to folks. It’s become the foundation of everything.

Andreessen said software will eat the world while the teeth were open source. They really made software available and now 95 or more percent of everything we touch and do is open source software. I’ll add that in the grand scheme of things, it’s been tremendously secure, especially projects like Linux. We’re really splitting hairs, but security problems are real. as we’ve seen, proliferation of open source and proliferation of repos with things like GitHub and all that. Then today, proliferation of tooling and the ability to build software and then to build software with AI is just simply exponentiating the rate at which we can do things. Good people who build software for the right reasons can do things. Bad people who do things for the bad reasons can do things. And it’s an arms race.

And I think it’s really both benefiting software development, society, software builders with these tremendously powerful tools to do things that they want. A person in my career arc, today I feel like I have the power to write code at a rate that’s probably better than I ever have. I’ve always been hands on the keyboard, but I feel rejuvenated. I’ve become a business person in my life and built companies.

And I didn’t always have the time or maybe even the moment to do coding at the level I’d like. And today I’m banging out projects like I was 25 or even better. But at the same time that we’re getting all this leverage universally, we also noticed that there’s an impending kind of security risk where, yeah, we can find vulnerabilities and generate them faster than ever. And LLMs aren’t quite good yet at secure coding. I think they will be. But also attackers are using it for exploits and really as soon as a disclosed vulnerability comes out or even minutes later, they’re writing exploits that can target those. I love the fact that the pace and the leverage is high and I think the world’s going to do great things with it, the world of open source folks like us. At the same time, we’ve got to be more diligent and even better at defending.

CRob (05:44)
Right. I heard an interesting statement yesterday where folks were talking about software engineering as a discipline that’s maybe 40 to 60 years old. And engineering was kind of the core noun there. Where these people, these engineers were trained, they had a certain rigor. They might not have always enjoyed security, but they were engineers and there was a certain kind of elegance to the code and that was people much like artists where they took a lot of pride in their work and how the code you could understand what the code is. Today and especially in the last several years with the influx of AI tools especially that it’s a blessing and a curse that anybody can be a developer. Not just people that don’t have time that used to do it and now they get to of scratch that itch. But now anyone can write code and they may not necessarily have that same rigor and discipline that comes from like most of them engineering trades.

John (06:42)
I’m going to guess. I think it’s not walking out too far on limb that you probably coded in systems at some point in your life where you had a very small amount of memory to work with. You knew every line of code in the system. Like literally it was written. There might have been a shim operating system or something small, but I wrote embedded systems early in my career and we knew everything. We knew every line of code and the elegance and the and the efficiency of it and the speed of it. And we were very close to the CPU, very close to the hardware. It was slow building things because you had to handcraft everything, but it was very curated and very beautiful, so to speak. I find beauty in those things. You’re exactly right. I think I started to see this happen around the time when JVM started happening, Java Virtual Machines, where you didn’t have to worry about Java garbage collection. You didn’t have to worry about memory management.

And then progressively, levels of abstraction have changed right to to make coding faster and easier and I give it more you know more power and that’s great and we’ve built a lot more systems bigger systems open source helps. But now literally anyone who can speak cogently and describe what they want and get a system and. And I look at the code my LLM’s produce. I know what good code looks like. Our team is really good at engineering right?

Hmm, how did it think to do it that way? Then go back and we tell it what we want and you can massage it with some words. It’s really dangerous and if you don’t know how to look for security problems, that’s even more dangerous. Exactly, the level of abstraction is so high that people aren’t really curating code the way they might need to to build secure production grade systems.

CRob (08:29)
Especially if you are creating software with the intention of somebody else using it, probably in a business, then you’re not really thinking about all the extra steps you need to take to help protect yourself in your downstream.

John (08:44)
Yeah, yeah. think it’s an evolution, right? And where I think of it like these AI systems we’re working with are maybe second graders. When it comes to professional code authoring, they can produce a lot of good stuff, right? It’s really up to the user to discern what’s usable.

And we can get to prototypes very quickly, which I think is greatly powerful, which lets us iterate and develop. In my company, we use AI coding techniques for everything, but nothing gets into production, into customer hands that isn’t highly vetted and highly reviewed. So, the creation part goes much faster. The review part is still a human.

CRob (09:33)
Well, that’s good. Human on the loop is important.

John (09:35)
It is.

CRob (09:36)
So let’s change the topic slightly. Let’s talk a little bit more about vulnerability management. From your perspective, thinking about traditional brick and mortar organizations, how have you seen, what key differences do you see from someone that is more data center, server, VM focused versus the new generation of cloud native where we have containers and cloud?

What are some of the differences you see in managing your security profile and your vulnerabilities there?

John (10:08)
Yeah, so I’ll start out by a general statement about vulnerability management. In general, the way I observe current methodologies today are pretty traditional.

It’s scan, it’s inventory – What do I have for software? Let’s just focus on software. What do I have? Do I know what it is or not? Do I have a full inventory of it? Then you scan it and you get a laundry list of vulnerabilities, some false positives, false negatives that you’re able to find. And then I’ve got this long list and the typical pattern there is now triage, which are more important than others and which can I explain away. And then there’s a cycle of remediation, hopefully, a lot of times not, that you’re cycling work back to the engineering organization or to whoever is in charge of doing the remediation. And this is a very big loop, mostly starting with and ending with still long lists of vulnerabilities that need to be addressed and risk managed, right? It doesn’t really matter if you’re doing VMs or traditional software or containerized software. That’s the status quo, I would say, for the average company doing vulnerability maintenance. And vulnerability management, the remediation part of that ends up being some fractional work, meaning you just don’t have time to get to it all mostly, and it becomes a big tax on the development team to fix it. Because in software, it’s very difficult for DevSec teams to fix it when it’s actually a coding problem in the end.

In traditional VM world, I’d say that the potential impact and the velocity at which those move compared to containerized environments, where you have

Kubernetes and other kinds of orchestration systems that can literally proliferate containers everywhere in a place where infrastructure as code is the norm. I just say that the risk surface in these containerized environments is much more vast and oftentimes less understood. Whereas traditional VMs still follow a pattern of pretty prescriptive way of deployment. So I think in the end, the more prolific you can be with deploying code, the more likely you’ll have this massive risk surface and containers are so portable and easy to produce that they’re everywhere. You can pull them down from Docker Hub and these things are full of vulnerabilities and they’re sitting on people’s desks.

They’re sitting in staging areas or sitting in production. So proliferation is vast. And I think that in conjunction with really high vulnerability reporting rates, really high code production rates, vast consumption of open source, and then exploits at AI speed, we’re seeing this kind of almost explosive moment in risk from vulnerability management.

CRob (13:18)
So there’s been, over the last several, like machine intelligence, which has now transformed into artificial intelligence. It’s been around for several decades, but it seems like most recently, the last four years, two years, it has been exponentially accelerating. We have this whole spectrum of things, AI, ML, LLM, GenAI, now we have Agentic and MCP servers.

So kind of looking at all these different technologies, what recommendations do you have for organizations that are looking to try to manage their vulnerabilities and potentially leveraging some of this new intelligence, these new capabilities?

John (13:58)
Yeah, it’s amazing at the rate of change of these kinds of things.

CRob (14:02)
It’s crazy.

John (14:03)
I think there’s a massively accelerating, kind of exponentially accelerating feedback loop because once you have LLMs that can do work, they can help you evolve the systems that they manifest faster and faster and faster. It’s a flywheel effect. And that is where we’re going to get all this leverage in LLMs. At Root, we build an agentic platform that does vulnerability patching at scale. We’re trying to achieve sort of an open source scale level of that.

And I only said that because I believe that rapidly, not just us, but from an industry perspective, we’re evolving to have the capabilities through agentic systems based on modern LLMs to be able to really understand and modify code at scale. There’s a lot of investment going in by all the major players, whether it’s Google or Anthropic or OpenAI to make these LLM systems really good at understanding and generating code. At the heart of most vulnerabilities today, it’s a coding problem. You have vulnerable code.

And so, we’ve been able to exploit the coding capabilities to turn it into an expert security engineer and maintainer of any software system. And so I think what we’re on the verge of is this, I’ll call it remediation revolution. I mentioned that the status quo is typically inventory, scan, list, triage, do your best. That’s a scan for us kind of, you know, I’ll call it, it’s a mode where mostly you’re just trying to get a comprehensive list of the vulnerabilities you have. It’s going to get flipped on its head with this kind of technique where it’s going to be just fix everything first. And there’ll be outliers. There’ll be things that are kind of technically impossible to fix for a while. For instance, it could be a disclosure, but you really don’t know how it works. You don’t have CWEs. You don’t have all the things yet. So you can’t really know yet.

That gap will close very quickly once you know what code base it’s in and you understand it maybe through a POC or something like that. But I think we’re gonna enter into the remediation revolution of vulnerability management where at least for third party open source code, most of it will be fixed – a priority.

Now, zero days will start to happen faster, there’ll be all the things and there’ll be a long tail on this and certainly probably things we can’t even imagine yet. But generally, I think vulnerability management as we know it will enter into this phase of fix first. And I think that’s really exciting because in the end it creates a lot of work for teams to manage those lists, to deal with the re-engineering cycle. It’s basically latent rework that you have to do. You don’t really know what’s coming. And I think that can go away, which is exciting because it frees up security practitioners and engineers to focus on, I’d say more meaningful problems, less toil problems. And that’s good for software.

CRob (17:08)
It’s good for the security engineers.

John (17:09)
Correct.

CRob (17:10)
It’s good for the developers.

John (17:11)
It’s really good for developers. I think generally the shift left revolution in software really didn’t work the way people thought. Shifting that work left, it has two major frictions. One is it’s shifting new work to the engineering teams who are already maximally busy.

CRob (17:29)
Correct.

John (17:29)
I didn’t have time to do a lot of other things when I was an engineer. And the second is software engineers aren’t security engineers. They really don’t like the work and maybe aren’t good at the work. And so what we really want is to not have that work land on their plate. I think we’re entering into an age where, and this is a general statement for software, where software as a service and the idea of shift left is really going to be replaced with I call shift out, which is if you can have an agentic system do the work for you, especially if it’s work that is toilsome and difficult, low value, or even just security maintenance, right? Like lot of this work is hard. It’s hard. That patching things is hard, especially for the engineer who doesn’t know the code. If you can make that work go away and make it secure and agents can do that for you, I think there’s higher value work for engineers to be doing.

CRob (18:24)
Well, and especially with the trend with open source, kind of where people are assembling composing apps instead of creating them whole cloth. It’s a very rare engineer indeed that’s going to understand every piece of code that’s in there.

John (18:37)
And they don’t. I don’t think it’s feasible. don’t know one except the folks who write node for instance, Node works internally. They don’t know. And if there’s a vulnerability down there, some of that stuff’s really esoteric. You have to know how that code works to fix it. As I said, luckily, agent existing LLM systems with agents kind of powering them or using or exploiting them are really good at understanding big code bases. They have like almost a perfect memory for how the code fits together. Humans don’t, and it takes a long time to learn this code.

CRob (19:11)
Yeah, absolutely. And I’ve been using leveraging AI in my practice is there are certain specific tasks AI does very well. It’s great at analyzing large pools of data and providing you lists and kind of pointers and hints. Not so great making it up by its own, but generally it’s the expert system. It’s nice to have a buddy there to assist you.

John (19:35)
It’s a pair programmer for me, and it’s a pair of data analysts for you, and that’s how you use it. I think that’s a perfect. We effectively have become cybernetic organisms. Our organic capabilities augmented with this really powerful tool. I think it’s going to keep getting more and more excellent at the tasks that we need offloaded.

CRob (19:54)
That’s great. As we’re wrapping up here, do you have any closing thoughts or a call to action for the audience?

John (20:02)
Call to action for the audience – I think it’s again, passion play for me, vulnerability management, security of open source. A couple of things. same. Again, same cloth – I think again, we’re entering an age where think security, vulnerability management can be disrupted. I think anyone who’s struggling with kind of high effort work and that never ending list helps on the way techniques you can do with open source projects and that can get you started. Just for instance, researching vulnerabilities. If you’re not using LLMs for that, you should start tomorrow. It is an amazing buddy for digging in and understanding how things work and what these exploits are and what these risks are. There are tooling like mine and others out there that you can use to really take a lot of effort away from vulnerability management. I’d say that for any open source maintainers out there, I think you can start using these programming tools as pair programmers and security analysts for you. And they’re pretty good. And if you just learn some prompting techniques, you can probably secure your code at a level that you hadn’t before. It’s pretty good at figuring out where your security weaknesses are and telling you what to do about them. I think just these things can probably enhance security open source tremendously.

CRob (24:40)
That would be amazing to help kind of offload some of that burden from our maintainers and let them work on that excellent…

John (21:46)
Threat modeling, for instance, they’re actually pretty good at it. Yeah. Which is amazing. So start using the tools and make them your friend. And even if you don’t want to use them as a pair of programmer, certainly use them as a adjunct SecOps engineer.

CRob (22:00)
Well, excellent. John from Root.io. I really appreciate you coming in here, sharing your vision and your wisdom with the audience. Thanks for showing up.

John (22:10)
Pleasure was mine. Thank you so much for having me.

CRob (22:12)
And thank you everybody. That is a wrap. Happy open sourcing everybody. We’ll talk to you soon.