17 min read
A few weeks ago, we published our initial findings from Project Glasswing , looking at what happens when you point frontier security models at an enterprise codebase. We also explored how our defensive structures adapt to protect our infrastructure and customers from threats posed by frontier AI . Since then, the AI ecosystem has continued to shift rapidly — developers who've built tightly around a single model have already experienced what happens when that model is no longer available or gets superseded by a more capable one. These market shifts only reinforce our core thesis: no matter which underlying model is leading the pack on any given day, the future of agentic workflows will not be found in standalone models, prompts, or single-agent sessions.
Moving from a localized security "skill" to a continuous, fleet-wide scanning pipeline requires an architecture where models are treated as interchangeable components. Relying on a single model inherently limits defensive coverage, as the same system will tend to look at code paths through the exact same lens. To counter this, models should be frequently interchanged and cross-tested. By varying the models across the pipeline — such as using one model for initial discovery and an entirely different one for validation — we can ensure that vulnerabilities are cross-checked by distinct sets of logic. Furthermore, a true enterprise-scale harness must look beyond isolated repositories to trace vulnerabilities across cross-repo dependencies, ultimately filtering thousands of raw candidates down to a trusted, triaged queue of actionable fixes.
This post serves as a practical look at how to build that model-agnostic layer, focusing on how we manage state controls, eliminate false positives, and coordinate end-to-end triage at scale.
Two objections, up front
The first post made the case for why generic coding agents can't do this job. The main issue is that agents only hold one hypothesis at a time, fill their context window after covering a sliver of a real repo, and then lose information during context compaction. For more details, read that post .
Before we move forward, we would like to answer two likely questions.
"Why not use subagents instead of a harness?" Subagents are useful, and they are a good starting point. But security analysis needs hundreds of separate investigations that survive across runs, don't share a context window, and can be re-scoped and cross-referenced later. It needs persistence, deduplication, resumability, and eventually fleet-wide dependency tracing. That's an orchestration problem, and a prompt can't get you there.
"Is this blog post just an ad for frontier models?" No. Our approach centers on the harness, not the model. When it comes to vulnerability discovery, we run it with whatever frontier model is currently best at what we need. When we point different models at the same target, they each turn up a different share of the bugs. The harness is the bit that lasts. If you build your own system, design it to be model-agnostic from day one. This will allow you the freedom to use any model of choice without constraints.
It all starts with a skill
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