thunderbird

Two weeks ago we announced that we had identified and fixed an unprecedented number of latent security bugs in Firefox with the help of Claude Mythos Preview and other AI models. In this post, we'll go into more detail about how we approached this work, what we found, and advice for other projects on making good use of emerging capabilities to harden themselves against attack.

Suddenly, the bugs are very good

Just a few months ago, AI-generated security bug reports to open source projects were mostly known for being unwanted slop. Dealing with reports that look plausibly correct but are wrong imposes an asymmetric cost on project maintainers: it's cheap and easy to prompt an LLM to find a "problem" in code, but slow and expensive to respond to it.

It is difficult to overstate how much this dynamic changed for us over a few short months. This was due to a combination of two main factors. First, the models got a lot more capable. Second, we dramatically improved our techniques for harnessing these models - steering them, scaling them, and stacking them to generate large amounts of signal and filter out the noise.

Ordinarily we keep detailed bug reports private for several months after shipping fixes and issuing security advisories, largely as a precaution to protect any users who, for whatever reason, were slow to update to the latest version of Firefox. Given the extraordinary level of interest in this topic and the urgency of action needed throughout the software ecosystem, we've made the calculated decision to unhide a small sample of the reports behind the fixes we recently shipped. We've attempted to draw them from a range of browser subsystems, but the selection process was still somewhat arbitrary. Nevertheless, we hope that the depth and diversity of these reports lends credence to our assessment of the capabilities and our calls for defenders to begin applying these techniques:

Bug ID	Description
2024918	An incorrect equality check can cause the JIT to optimize away the initialization of a live WebAssembly GC struct, creating a fake-object primitive with potential arbitrary read/write in code that had undergone extensive fuzzing by internal and external researchers.
2024437	A 15-year-old bug in the <legend> element triggered by meticulous orchestration of edge cases across distant parts of the browser, including recursion stack depth limits, expando properties, and cycle collection.
2021894	Reliably exploits a race condition over IPC, allowing a compromised content process to manipulate IndexedDB refcounts in the parent to trigger a UAF and potential sandbox escape.
2022034	A raw NaN crossing an IPC boundary can masquerade as a tagged JS object pointer, turning double deserialization into a parent-process fake-object primitive for a sandbox escape.
2024653	An intricate testcase weaving through nested event loops, pagehide listeners, and garbage collection to trigger a UAF in the attribute setter for <object> elements.
2022733	Triggers a parent UAF by flooding WebTransport with thousands of certificate hashes to stretch a race condition in a refcount-heavy copy loop, and exploits that race condition over IPC from a compromised content process.
2023958	Simulates a malicious DNS server by intercepting glibc DNS function calls in order to reproduce a UDP->TCP fallback edge case, triggering a buffer over-read and parent-process stack memory leak during HTTPS RR & ECH parsing.
2025977	20-year-old XSLT bug in which reentrant key() calls cause a hash table rehash that frees its backing store while a raw entry pointer is still in use (one of several sec-high issues we fixed involving XSLT).
2027298	Patches the color picker to simulate otherwise non-automatable user selection, then uses a synchronous input event to spin a nested event loop that re-enters actor teardown and frees the callback while it is still unwinding, triggering a content process UAF.
2023817	A compromised content process could send an arbitrary wallpaper image to be decoded in the parent process, which could be paired with a hypothetical vulnerability in an image decoder to escape the sandbox. This entailed difficult-to-automate reasoning about the trust-level of inputs in the parent process.
2029813	Escapes our in-process sandboxing technology for third-party libraries (RLBox) by leveraging a gap in the verification logic used to copy values from the untrusted to the trusted side of the sandbox boundary.
2026305	Extremely small testcase that exploits the special rowspan=0 semantics in HTML tables by appending >65535 rows to bypass clamping and overflow a 16-bit layout bitfield, which went undetected for years by fuzzers.

Note that a number of these bugs are sandbox escapes, which would need to be combined with other exploits to achieve a full-chain Firefox compromise. These reports presume that the sandboxed process that renders site content has already been compromised with some separate bug, and is now running attacker-controlled machine code attempting to escalate control into the privileged parent process. When crafting a sandbox escape, the model is permitted to patch the Firefox source code, so long as the modified code is restricted to run only in the sandboxed process^[1]. Such bugs are notoriously difficult to find with fuzzing, and while we've had some success developing new techniques to close this gap, AI analysis provides much more comprehensive coverage of this critical surface.

Just as interesting as what the models found is what they didn't find - not because they didn't try, but because they were unable to circumvent Firefox's layered defenses. For example, in recent years we received several clever reports from security researchers that managed to escape the process sandbox by triggering prototype pollution in the privileged parent process. Rather than fixing these problems one-by-one, we made an architectural change to freeze these prototypes by default. While auditing logs from the harness, we saw many attempts to pursue this line of escape that were thwarted by this design. Observing such direct payoff from previous hardening work was even more rewarding than finding and fixing more bugs.

Harnessing Models to Build a Hardening Pipeline

We've experimented internally with LLM code audits over the past few years, with early attempts using models like GPT 4 or Sonnet 3.5 to statically analyze high risk code for vulnerabilities. These experiments showed some promise, but the high rate of false positives made them impractical to scale.

The introduction of agentic harnesses that can reliably detect security issues has completely changed this. These can find real bugs and dismiss unreproducible speculation. The key feature of such a harness is that, given the right interfaces and instructions, it can create and run reproducible test cases to dynamically test hypotheses about bugs in code. After fixing the initial set of issues that Anthropic sent to us in February, we built our own harness atop our existing fuzzing infrastructure.

We began with small-scale experiments prompting the harness to look for sandbox escapes with Claude Opus 4.6. Even with this model, we identified an impressive amount of previously-unknown vulnerabilities which required complex reasoning over multiprocess browser engine code. At first, we supervised the process in the terminal to observe the process in real-time and tune the prompts and logic. Once this was working well, we parallelized the jobs across multiple ephemeral VMs, each tasked to hunt for bugs within a specific target file and write its findings back to a bucket.

A discovery subsystem is necessary but not sufficient. In order to scale the effort, we needed to integrate it with our full security bug lifecycle: determining what to look for, where to look, and how to handle what it produces. This last part includes deduplicating against known issues, tracking bugs, triaging them, and getting fixes shipped. While the model is the core primitive powering the harness, this full pipeline is necessary to make it useful at scale.

While harnesses may be reusable across projects, this pipeline is inherently project-specific, reflecting each codebase's semantics, tooling, and processes. Standing this up required significant iteration, with a tight feedback loop alongside the Firefox engineers who were fielding the incoming bugs.

Upgrading the Models

Once the end-to-end pipeline is in place, it's trivial to swap in different models when they become available. Building this pipeline early helped us find a number of serious bugs using publicly-available models, and it also helped us hit the ground running when we had the opportunity to evaluate Claude Mythos Preview. In our experience, model upgrades increase the effectiveness of the entire pipeline: the system gets simultaneously better at finding potential bugs, creating proof-of-concept test cases to demonstrate them, and articulating their pathology and impact.

In addition to fixing the 271 bugs identified by Claude Mythos Preview in the 150 release, we've shipped more of these fixes in 149.0.2, 150.0.1, and 150.0.2. We also continue to find bugs with other means internally, and, similar to other projects, we've seen a significant uptick in external reports in the last few months.

A graph showing the volume of Firefox security bug fixes shipped by month, trending in the 20-30 range throughout each month in 2025, with a spike to 60-70 in February and March 2026, up to 423 in April 2026

Ultimately, every bug requires care and attention to properly fix. Staying on top of this unprecedented volume has led to a lot of work and long days over the last few months, and we're extremely proud of how the team has stepped up to meet this challenge. Over 100 people contributed code to this effort to ship the most secure Firefox yet. In addition to writing and reviewing patches, others have been building and scaling this pipeline, triaging, testing the fixes, and managing the release process for each bug.

Takeaways

Anyone building software can start using a harness with a modern model to find bugs and harden their code today. We recommend getting started now. You will find bugs, and you will set yourself up to take advantage of new models as soon as they become available.

You can start with very simple prompting, then observe and iterate. Our initial prompts were not dissimilar from those described here. Through iteration we've built out a lot of orchestration and tooling to optimize and scale the pipeline, but the essence of the inner loop remains the same: there is a bug in this part of the code, please find it and build a testcase.

We haven't bottomed on all the latent bugs in Firefox, but are quite pleased with the trajectory. Today, our scanning is largely focused on specific areas of the code (files, functions) where we instruct the system to look, based on a mix of human judgement and automated signals. In the near future, we intend to integrate this analysis into our continuous integration system to scan patches as they land in the tree. Models are quite flexible with the form of context provided, and we expect patch-based scanning to work as well or even better than file-based scanning.

The current moment is a perilous one, but also full of opportunity. Let's work together to secure the internet.

FAQ

The announcement said "271 bugs", but I count something different. What's going on?

On the advisories web page we group all internally-reported bugs as "rollup" CVEs with multiple bugs underneath them. The web page is built from yaml in the foundation-security-advisories repo, the canonical location for our CVE assignments. While some browsers do not create CVE identifiers for internally-discovered issues at all, we provide this information in order to be as transparent as possible.

In Firefox 150, there were three internal rollups: CVE-2026-6784 (154 bugs), CVE-2026-6785 (55 bugs), and CVE-2026-6786 (107 bugs).

Astute readers will notice the number of bugs in those internal rollups adds up to 316, which is more than the 271 we announced finding with Claude Mythos Preview. That's because our security team hunts for new bugs every day by attacking Firefox with a combination of (a) fuzzing systems (b) manual inspection and (c) this new agentic pipeline across a variety of models.

We fixed a total of 423 security bugs in releases in April. In addition to the 271 bugs announced two weeks ago, there were 41 externally reported bugs, with the remaining 111 discovered internally and split roughly in third between:

Bugs found using this pipeline with Claude Mythos Preview but fixed in releases other than Firefox 150
Bugs found using this pipeline with other models
Bugs found with other techniques like fuzzing

Note that we also directly credited 3 CVEs to Anthropic separate from this latest effort (CVE-2026-6746, CVE-2026-6757, CVE-2026-6758). These were fixes for bugs sent to us by the outstanding Anthropic Frontier Red team a couple months ago and we assigned unique CVEs for each as per our normal process.

What do security ratings mean?

As additional context, we apply security severity ratings from critical to low to indicate the urgency of a bug:

sec-critical and sec-high are assigned to vulnerabilities that can be triggered with normal user behavior, like browsing to a web page. We make no technical difference between these, but sec-critical bugs are reserved for issues that are publicly disclosed or known to be exploited in the wild.
sec-moderate is assigned to vulnerabilities that would otherwise be rated sec-high but require unusual and complex steps from the victim.
sec-low is assigned to bugs that are annoying but far from causing user harm (e.g, a safe crash).

Of the 271 bugs we announced for Firefox 150: 180 were sec-high, 80 were sec-moderate, and 11 were sec-low.

While we care most about critical/high bugs, it's normal for us to prioritize moderate and low security bugs in order to fix correctness issues and as a defense-in-depth mechanism.

Is a sec-high or sec-critical bug the same as a practical exploit?

Not necessarily.

In most cases, a single critical/high bug is not actually enough to compromise Firefox. This is because Firefox has a defense-in-depth architecture, so for example exploiting a JIT bug only achieves remote code execution in a sandboxed and site-specific process. Real-world attackers generally need to chain multiple exploits together to escalate privileges through one or more layers of sandboxing along with OS-level mitigations like ASLR.

We also generally don't build exploits to see whether a bug could be used by an attacker in the real world. We classify sec-high based on predictable crash symptoms such as use-after-free or out-of-bounds memory issues being reported by AddressSanitizer, and our threat model assumes that any of them could be exploitable with sufficient effort. This reduces the risk of a false negative during exploitability analysis, and more importantly it allows us to focus our resources on finding and fixing more vulnerabilities.

[1] Our bug bounty program has similar rules.

The post Behind the Scenes Hardening Firefox with Claude Mythos Preview appeared first on Mozilla Hacks - the Web developer blog.

07 May 2026 4:01pm GMT

The latest version of the Firefox Profiler is now live! Check out the full changelog below to see what's changed:

Highlights:

[Markus Stange] Use custom splitter component (#4606)
[fatadel] Fix Download button text color when clicked (#5985)
[Nazım Can Altınova] Add profiler-cli for querying profiles (#5963)
- Firefiox Profiler now has a CLI! You can download it here: https://www.npmjs.com/package/@firefox-devtools/profiler-cli
[Nazım Can Altınova] Fix the unnecessary stringify of Uint8Array contents during zip profile extraction (#6004)

Other Changes:

[Samuel Glauser] Fix fullscreen icon size in bottom box (#5987)
[Nazım Can Altınova] Bump profiler cli version to 0.1.0 (#5996)
[Markus Stange] Switch from max-height to maxHeight in JSX style={{…}}. (#5990)
[carverdamien] Fix comment about how time and duration are stored (#5997)
[Nazım Can Altınova] Do not show console error when libnames are failed to parse as a URL (#5993)
[Nazım Can Altınova] Fix the unnecessary stringify of Uint8Array contents during zip profile extraction (#6004)

Big thanks to our amazing localizers for making this release possible:

en-CA: chutten
en-CA: Saurabh
en-GB: Ian Neal
es-CL: ravmn
fy-NL: Fjoerfoks
ia: Melo46
nl: Mark Heijl
ru: Valery Ledovskoy
sv-SE: Andreas Pettersson

Find out more about the Firefox Profiler on profiler.firefox.com! If you have any questions, join the discussion on our Matrix channel!

1 post - 1 participant

Read full topic

07 May 2026 2:59pm GMT

Hello and welcome to another issue of This Week in Rust! Rust is a programming language empowering everyone to build reliable and efficient software. This is a weekly summary of its progress and community. Want something mentioned? Tag us at @thisweekinrust.bsky.social on Bluesky or @ThisWeekinRust on mastodon.social, or send us a pull request. Want to get involved? We love contributions.

This Week in Rust is openly developed on GitHub and archives can be viewed at this-week-in-rust.org. If you find any errors in this week's issue, please submit a PR.

Want TWIR in your inbox? Subscribe here.

Updates from Rust Community

Official

Announcing Google Summer of Code 2026 selected projects

Newsletters

Rust Trends Issue 77 - Rust Sharpens the Craft

Project/Tooling Updates

Observations/Thoughts

Rust Walkthroughs

Miscellaneous

Awesome SQLx Resources

Crate of the Week

This week's crate is burn, a tensor and deep learning library.

Thanks to Jonas for the suggestion!

Please submit your suggestions and votes for next week!

Calls for Testing

An important step for RFC implementation is for people to experiment with the implementation and give feedback, especially before stabilization.

If you are a feature implementer and would like your RFC to appear in this list, add a call-for-testing label to your RFC along with a comment providing testing instructions and/or guidance on which aspect(s) of the feature need testing.

No calls for testing were issued this week by Rust, Cargo, Rustup or Rust language RFCs.

Let us know if you would like your feature to be tracked as a part of this list.

Call for Participation; projects and speakers

CFP - Projects

Always wanted to contribute to open-source projects but did not know where to start? Every week we highlight some tasks from the Rust community for you to pick and get started!

Some of these tasks may also have mentors available, visit the task page for more information.

No Calls for participation were submitted this week.

If you are a Rust project owner and are looking for contributors, please submit tasks here or through a PR to TWiR or by reaching out on Bluesky or Mastodon!

CFP - Events

Are you a new or experienced speaker looking for a place to share something cool? This section highlights events that are being planned and are accepting submissions to join their event as a speaker.

Scientific Computing in Rust 2026| 2026-06-05 | Virtual | 2026-07-08 - 2026-07-10

If you are an event organizer hoping to expand the reach of your event, please submit a link to the website through a PR to TWiR or by reaching out on Bluesky or Mastodon!

Cargo

Rustdoc

Clippy

Rust-Analyzer

Rust Compiler Performance Triage

This week's result is pretty much neutral. It looks negative in icount numbers, but that's spurious, wall time remained largely unchanged. Some big performance improvements landed in the new solver, which is not enabled by default, yet.

Triage done by @panstromek. Revision range: ca9a134e..1d72d7e8

Summary:

(instructions:u)	mean	range	count
Regressions ? (primary)	0.6%	[0.2%, 1.2%]	106
Regressions ? (secondary)	0.7%	[0.2%, 2.4%]	67
Improvements ? (primary)	-0.6%	[-1.7%, -0.2%]	66
Improvements ? (secondary)	-0.6%	[-2.8%, -0.0%]	60
All ?? (primary)	0.1%	[-1.7%, 1.2%]	172

1 Regression, 2 Improvements, 9 Mixed; 5 of them in rollups 34 artifact comparisons made in total

Full report here

Approved RFCs

Changes to Rust follow the Rust RFC (request for comments) process. These are the RFCs that were approved for implementation this week:

No RFCs were approved this week.

Final Comment Period

Every week, the team announces the 'final comment period' for RFCs and key PRs which are reaching a decision. Express your opinions now.

Tracking Issues & PRs

Rust

Compiler Team (MCPs only)

Rust RFCs

Propose the concept of a crates.io username for identity

Language Team

Revise decision process: champion vs FCP decisions

No Items entered Final Comment Period this week for Cargo, Language Reference, Leadership Council or Unsafe Code Guidelines. Let us know if you would like your PRs, Tracking Issues or RFCs to be tracked as a part of this list.

2026-05-06 | Virtual (Cardiff, UK) | Rust and C++ Cardiff
- Practical introduction to SIMD
2026-05-06 | Virtual (Girona, ES) | Rust Girona
- Weekly coding session
2026-05-06 | Virtual (Indianapolis, IN, US) | Indy Rust
- Indy.rs - with Social Distancing
2026-05-07 | Virtual (Berlin, DE) | Rust Berlin
- Rust Hack and Learn
2026-05-07 | Virtual (Nürnberg, DE) | Rust Nuremberg
- Rust Nürnberg online
2026-05-09 | Virtual (Girona, ES) | Rust Girona
- Learning Rust the Hard Way: Building a TUI Chess Game
2026-05-12 | Virtual (Dallas, TX, US) | Dallas Rust User Meetup
- Second Tuesday
2026-05-12 | Virtual (London, UK) | Women in Rust
- 👋 Community Catch Up
2026-05-12 | Virtual (Tel Aviv-yafo, IL) | Code Mavens 🦀 - 🐍 - 🐪
- Introduction to database access using Rust SQLx
2026-05-17 | Virtual (Dallas, TX, US) | Dallas Rust User Meetup
- Rust Deep Learning: Third Sunday
2026-05-19 | Virtual (Washington, DC, US) | Rust DC
- Mid-month Rustful
2026-05-20 | Hybrid (Vancouver, BC, CA) | Vancouver Rust
- Mouse Control with Rust
2026-05-20 | Virtual (Girona, ES) | Rust Girona
- Weekly coding session
2026-05-21 | Hybrid (Seattle, WA, US) | Seattle Rust User Group
- May, 2026 SRUG (Seattle Rust User Group) Meetup
2026-05-21 | Virtual (Berlin, DE) | Rust Berlin
- Rust Hack and Learn
2026-05-21 | Virtual (Charlottesville, VA, US) | Charlottesville Rust Meetup
- Tock OS Part #4 - Capsule coding in QEMU!
2026-05-26 | Virtual (Dallas, TX, US) | Dallas Rust User Meetup
- Fourth Tuesday
2026-05-26 | Virtual (London, UK) | Women in Rust
- Lunch & Learn: Seeing Into Your Code - A Practical Guide to Tracing in Rust
2026-05-27 | Virtual (Girona, ES) | Rust Girona
- Weekly coding session
2026-06-03 | Virtual (Indianapolis, IN, US) | Indy Rust
- Indy.rs - with Social Distancing

Africa

2026-05-12 | Johannesburg, ZA | Johannesburg Rust Meetup
- Rust by Example - Flow of Control

Asia

2026-05-13 | Malaysia, MY | Rust Meetup Malaysia
- Rust Meetup May 2026
2026-05-14 | Seoul, KR | Seoul Rust (Programming Language) Meetup
- Seoul Rust Meetup
2026-05-16 | Bangalore, IN | Rust Bangalore
- May 2026 Rustacean meetup

Europe

2026-05-06 | Köln, DE | Rust Cologne
- Rust in May: Rust for Starters, Part 2
2026-05-06 | Milano, MI, IT | Rust Language Milan
- Rust Milan @ Python Milano: Python or Rust? Yes!
2026-05-06 | Oxford, UK | Oxford ACCU/Rust Meetup.
- Building LLMs from scratch
2026-05-07 | Edinburgh, UK | Rust and Friends
- Rust May Talks: Aetherus + Bevy
2026-05-11 | Augsburg, DE | Rust Meetup Augsburg
- Rust Meetup #19: Tiago Manczak - Game On with Rust & Pico
2026-05-13 | Girona, ES | Rust Girona
- Rust Girona Hack & Learn 05 2026
2026-05-14 | Switzerland, CH | PostTenebrasLab
- Rust Meetup Geneva
2026-05-18 - 2026-05-23 | Amsterdam, NL | RustWeek 2026
- RustWeek 2026
2026-05-18 | Milano, MI, IT | Rust Language Milan
- RustWeek 2026
2026-05-19 | Aarhus, DK | Rust Aarhus
- Hack Night
2026-05-19 | Amsterdam, NL | RustNL
- RustWeek 2026 announcement
2026-05-19 | Leipzig, DE | Rust - Modern Systems Programming in Leipzig
- Cross-Building & Cross-Testing
2026-05-19 | London, UK | Women in Rust
- RustWeek lunch meetup
2026-05-21 | Amsterdam, NL | RustNL
- RustWeek Hackathon
2026-05-22 | Amsterdam, NL | RustNL
- Bike tour around Utrecht
2026-05-26 | Dortmund, DE | Rust Dortmund
- Rust Dortmund Meetup - Agentic Programming - May
2026-05-26 | Manchester, UK | Rust Manchester
- Rust Manchester May Code Night
2026-05-29 | Berlin, DE | Rust Berlin
- Rust Berlin Talks: The next generation

North America

2026-05-07 | New York, NY, US | Rust NYC
- Rust NYC: Reversing the Great Firewall and Geospatial Rust
2026-05-07 | Saint Louis, MO, US | STL Rust
- Open Project Night
2026-05-09 | Boston, MA, US | Boston Rust Meetup
- Back Bay Rust Lunch, May 9
2026-05-14 | Mountain View, CA, US | Hacker Dojo
- RUST MEETUP at HACKER DOJO
2026-05-14 | Portland, OR, US | PDXRust
- From Radio Waves to Pixels - Real-Time Visualizations with Rust and WebAssembly
2026-05-14 | San Diego, CA, US | San Diego Rust
- San Diego Rust May Meetup - Back in person!
2026-05-16 | Boston, MA, US | Boston Rust Meetup
- Lechmere Rust Lunch, May 16
2026-05-19 | San Francisco, CA, US | San Francisco Rust Study Group
- Rust Hacking in Person
2026-05-20 | Hybrid (Vancouver, BC, CA) | Vancouver Rust
- Mouse Control with Rust
2026-05-20 | San Francisco, CA, US | Bay Area Rust Meetup
- Bay Area Rust Meetup
2026-05-21 | Hybrid (Seattle, WA, US) | Seattle Rust User Group
- May, 2026 SRUG (Seattle Rust User Group) Meetup
2026-05-21 | Nashville, TN, US | Music City Rust Developers
- Community Meetup
2026-05-23 | Boston, MA, US | Boston Rust Meetup
- Allston Rust Lunch, May 23
2026-05-27 | Austin, TX, US | Rust ATX
- Rust Lunch - Fareground
2026-05-28 | Atlanta, GA, US | Rust Atlanta
- Rust-Atl
2026-05-28 | Los Angeles, CA, US | Rust Los Angeles
- Rust LA: Rust in Embedded & Autonomous Systems at Parallel Systems in DTLA
2026-05-30 | Boston, MA, US | Boston Rust Meetup
- Central Cambridge Rust Lunch, May 30

Oceania

2026-05-14 | Melbourne, AU | Rust Melbourne
- Rust Melbourne - May 2026
2026-05-26 | Barton, ACT, AU | Canberra Rust User Group
- May Meetup

South America

2026-05-13 | Montevideo, UY | Rust Meetup Uruguay
- Rust Uruguay meetup de Mayo

If you are running a Rust event please add it to the calendar to get it mentioned here. Please remember to add a link to the event too. Email the Rust Community Team for access.

Jobs

Please see the latest Who's Hiring thread on r/rust

Quote of the Week

From a business standpoint, we should have reasonable confidence that it'll stick around and be healthy for more than 10 years. We'd also like a robust ecosystem of code and tools that we can rely on, and experts we can hire.

- David Anderson on the tailscale blog

Thanks to Ivan Fraixedes for the suggestion!

Please submit quotes and vote for next week!

This Week in Rust is edited by:

Email list hosting is sponsored by The Rust Foundation

Discuss on r/rust

06 May 2026 4:00am GMT

fidzu : thunderbird

07 May 2026