TL;DR - AI companies' boldest claims are under serious fire today, from disputed vulnerability-detection results to benchmark fraud to silent infrastructure downgrades that are quietly eroding user trust. - Apple's habit of restricting hardware you already own manifested in 2 separate stories — one from 2023 that still stings, and one from this week that literally locked a user out of their phone. - A searchable database of US presidential pardons sparked a civics debate about a power most people never think about until it's weaponized. - The SABRE airline reservation mainframe (60 years old, 50,000 transactions per second) and a $20/month indie stack both made the same argument: purposeful simplicity beats fashionable complexity.

This was the defining story arc of the day, and it played out across 3 interlocking threads.

First: a blog post from Aisle.com claimed that small, cheap AI models could reproduce many of the same security vulnerabilities that Anthropic's new "Mythos" model (a specialized AI security agent) had been celebrated for finding in FreeBSD and OpenBSD. 8 out of 8 small models tested detected the flagship exploit. Impressive headline — except the methodology was immediately torn apart in the comments. The researchers had isolated the relevant code snippet and handed it to the models with architectural context already filled in.

Commenter tptacek put it sharply: "If you cut out the vulnerable code from Heartbleed and just put it in front of a C programmer, they will immediately flag it. It's obvious. But it took Neel Mehta to discover it. What's difficult about finding vulnerabilities isn't properly identifying whether code is mishandling buffers... it's spotting that in the context of a large, complex program." Commenter chirau used a cleaner analogy: "It's like saying one dog walked into the Amazon jungle and found a tennis ball and then another team isolated a 1 square kilometer radius that they knew the ball was definitely in."

Nobody disputed that Anthropic's original Mythos claims had their own methodological gaps (commenter woodruffw flagged the absence of false-positive rates, and commenter antirez called the replication a "completely broken methodology with a big conflict of interest"). The net result: neither side looks rigorous, and the AI security research field looks like it's generating more heat than light.

Second: UC Berkeley researchers published a paper showing they achieved near-perfect scores on top AI agent benchmarks — without solving a single task. They found bugs ranging from trivially simple (sending an empty JSON object `{}` to one benchmark, which accepted it as a valid answer) to technically sophisticated (trojanizing binary wrappers). The paper's core indictment: "The benchmarks we rely on to measure AI capability are themselves vulnerable to the very capabilities they claim to measure." Commenter lukev offered a quietly devastating aside: "I think we should all consider the possibility that part of the reason Anthropic hasn't immediately released Mythos is that it would be slightly disappointing relative to the benchmark scores."

Third: a GitHub issue revealed that Anthropic silently downgraded its "prompt cache" time-to-live from 1 hour to 5 minutes on March 6th — with no announcement. (Prompt caching is a feature that stores recent context so users don't have to pay to re-send it every time; cutting it from 60 minutes to 5 means far more re-processing per session, meaning slower and more expensive interactions.) The comments were furious. "People are willing to pay extra if you want to make more money, just please stop doing this undermining, it decreases the trust of your platform," one user wrote. Commenter sunaurus noted a visible shift in sentiment: "I keep getting the sense that people feel like they have no idea if they are getting the product that they originally paid for, or something much weaker."

All 3 threads converge on the same anxiety: we have no reliable, independent way to verify what AI systems can actually do, and the companies building them have strong incentives to blur that line.

A 2023 blog post about beating Apple Silicon's 2-virtual-machine limit resurfaced with fresh discussion — and the frustration it generated felt very current. Apple limits Macs to running 2 simultaneous macOS virtual machines (a virtual machine is a software-based computer running inside your real computer), regardless of how powerful your hardware is. The limit isn't technical — it's a business decision, likely to prevent low-cost Mac cloud hosting. Commenter fortran77 noted the contrast: "I buy a $100 Windows 11 Pro license, and my limit is 1024 VMs."

Then came a fresher wound: an iOS update removed a diacritic character (the háček, written as ž or č) from Apple's Czech keyboard — and a user who had set that character as part of his passcode is now permanently locked out of his iPhone, with no recovery path. Every workaround fails because the phone is in a "Before First Unlock" state that blocks USB accessories until the passcode is entered. The passcode input requires the missing character. It's a perfect catch-22 built by Apple's own update.

Getting more traction this week (flagged as an update with growing discussion) is Advanced Mac Substitute, a project that reimplements 1980s Mac OS at the API level — essentially Wine for classic Macs. The comments were a mix of nostalgia and genuine technical appreciation, with a parallel thread in the Dark Castle story (the 1987 Mac game whose creator went on to build Flash). Preservation and emulation feel more urgent when the platform owner can remove a key from your keyboard and lock you out of your device.

A post about SABRE, the 60-year-old airline reservation mainframe, made a point that resonated with HN's skeptical-of-hype faction. Transaction Processing Facility (the OS it runs on) would fail every modern architectural review. It also handles 50,000 transactions per second with sub-100ms latency on hardware costing a fraction of cloud alternatives. Commenter zer00eyz pointed at the irony of modern web deployment: "cpu → hypervisor → vm → container → runtime → library code → your code. Do we really need to stack all these turtles just to get instructions to a CPU?"

That anti-complexity mood found a companion in a post about running multiple businesses on a $20/month stack — a single Hetzner server, SQLite with WAL mode (a lightweight database configuration that punches well above its weight), and Go. Comments were mixed on specifics (several pushed back on the anti-Python stance, others questioned using SQLite in production), but commenter firefoxd captured the spirit: "In the 2000s, we were bragging about how cheap our services are. Today, a graduate with an idea is paying $200 amounts in AWS after the student discounts."