fidzu : Mozilla

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.

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Updates from Rust Community

Official

• Switching to Rust's own mangling scheme on nightly | Rust Blog
• Interview with Jan David Nose | Rust Blog
• This Development-cycle in Cargo: 1.92 | Inside Rust Blog

Foundation

• [video] Interview: Christian Legnitto, Maintainer: rust-gpu, rust-cuda

Project/Tooling Updates

• SeaORM 2.0: Nested ActiveModel and Cascade Operations
• Symbolica 1.0: Symbolic mathematics in Rust
• APT Rust requirement raises questions

Observations/Thoughts

• Running real-time Rust
• A look at Rust from 2012
• Making the case that Cargo features could be improved to alleviate Rust compile times
• How Cloudflare uses Rust to serve (and break) millions of websites at 50+ millions requests per second
• [audio] Netstack.FM episode 15 - Pingora with Edward and Noah from Cloudflare
• [video] Grind: Java Deserves Modern Tooling*

Rust Walkthroughs

• Rust Unit Testing: File reading
• Practical Performance Lessons from Apache DataFusion
• Describing binary data with Deku

Miscellaneous

• Rust For Linux Kernel Co-Maintainer Formally Steps Down
• JetBrains supports the open source Rust projects Ratatui and Biome
• filtra.io | Toyota's "Tip Of The Spear" Is Choosing Rust

Crate of the Week

This week's crate is grapheme-utils, a library of functions to ergonomically work with UTF graphemes.

Thanks to rustkins for the self-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, Rust language RFCs or Rustup.

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

RFCs

Rust

Rustup

If you are a feature implementer and would like your RFC to appear on the above list, add the new 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.

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.

• Rustikon 2026 | CFP closes 2025-11-24 | Warsaw, Poland | 2025-03-19 - 2025-03-20 | Event Website
• TokioConf 2026 | CFP closes 2025-12-08 | Portland, Oregon, USA | 2026-04-20
• RustWeek 2026 | CFP closes 2025-12-31 | Utrecht, The Netherlands | 2026-05-19 - 2026-05-20

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!

Updates from the Rust Project

456 pull requests were merged in the last week

Compiler

• allow unnormalized types in drop elaboration
• avoid encoding non-constness or non-asyncness in metadata
• fix MaybeUninit codegen using GVN
• fix suggestion for the cfg! macro
• handle cycles when checking impl candidates for doc(hidden)
• inherent const impl
• recommend using a HashMap if a HashSet's second generic parameter doesn't implement BuildHasher
• reduce confusing unreachable_code lints
• replace OffsetOf by an actual sum of calls to intrinsic
• sess: default to v0 symbol mangling on nightly
• turn moves into copies after copy propagation
• warn against calls which mutate an interior mutable const-item

Library

• add bit_width for unsigned NonZero<T>
• alloc: fix Debug implementation of ExtractIf
• make SIMD intrinsics available in const-contexts
• match <OsString as Debug>::fmt to that of str
• see if this is the time we can remove layout::size_align
• unwrap ret ty of iter::ArrayChunks::into_remainder
• v0 mangling for std on nightly
• hashbrown: add HashTable methods related to the raw bucket index
• hashbrown: allow providing the key at insertion time for EntryRef

Cargo

• docs(guide): When suggesting alt dev profile, link to related issue
• feat(generate-lockfile): Add unstable --publish-time flag
• feat(tree): Add more native completions
• fix(bindeps): do not propagate artifact dependency to proc macro or build deps
• fix(config-include): disallow glob and template syntax
• fix(package): exclude target/package from backups
• refactor(timings): separate data collection and presentation
• test(config-include): include always relative to including config
• enable CARGO_CFG_DEBUG_ASSERTIONS in build scripts based on profile
• feat: emit a warning when both package.publish and --index are specified
• test: re-enable test since not flaky anymore

Rustdoc

• rustdoc-json: add rlib path to ExternalCrate to enable robust crate resolution
• rustdoc: make mergeable crate info more usable

Clippy

• explicit_deref_methods: don't lint in impl Deref(Mut)
• add large-error-ignored config-knob
• fix useless_asref suggests wrongly when used in ctor
• fix wrongly unmangled macros for transmute_ptr_to_ptr and transmute_bytes_to_str
• taking a raw pointer on a union field is a safe operation

Rust-Analyzer

• add unsafe(…) attribute completion
• add pretty number for add_explicit_enum_discriminant
• add semantic tokens for deprecated items
• add deprecated semantic token for extern crate shorthand
• add assist to convert char literal
• allow inferring array sizes
• basic support for declarative attribute/derive macros
• completion = $0 after keyval cfg predicate
• derive ParamEnv from GenericPredicates
• don't suggest duplicate const completions raw
• enhance remove_parentheses assist to handle return expressions
• extract function panics on more than one usage of variable in macro
• fix hit incorrect_case on no_mangle static items
• fix not applicable on and for replace_method_eager_lazy
• fix not fill guarded match arm for add_missing_match_arms
• fix trailing newline in tool_path
• fix field completion in irrefutable patterns
• fix formatting request blocking on crate_def_map query
• fix parameter info with missing arguments
• fix some inference of patterns
• include all target types with paths outside package root
• infer range patterns correctly
• make dyn inlay hints configurable
• make postfix completion handle all references correctly
• move visibility diagnostics for fields to correct location
• never remove parens from prefix ops with valueless return/break/continue
• parse cargo config files with origins
• remove some deep normalizations from infer
• rewrite method resolution to follow rustc more closely
• show no error when parameters match macro names
• implement precedence for print_hir
• improve assist qualified to top when on first segment
• infer range pattern fully
• integrate postcard support into proc-macro server CLI
• optimize SmolStr::clone 4-5x speedup inline, 0.5x heap (slow down)
• perf: improve start up time
• perf: prime trait impls in cache priming
• perf: produce less progress reports
• perf: reduce allocations in try_evaluate_obligations
• print more macro information in DefMap dumps
• proc-macro-srv: reimplement token trees via immutable trees
• support multiple variant for generate_from_impl_for_enum
• use inferred type in "extract type as type alias" assist and display inferred type placeholder _ inlay hints

Rust Compiler Performance Triage

Only a handful of performance-related changes landed this week. The largest one was changing the default name mangling scheme in nightly to the v0 version, which produces slightly larger symbol names, so it had a small negative effect on binary sizes and compilation time.

Triage done by @kobzol. Revision range: 6159a440..b64df9d1

Summary:

1 Regression, 2 Improvements, 5 Mixed; 1 of them in rollups 28 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:

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

• Make closure capturing have consistent and correct behaviour around patterns
• misc coercion cleanups and handle safety correctly
• Implement TryFrom<char> for usize.
• Contracts: primitive ownership assertions: owned and block
• const validation: remove check for mutable refs in final value of const

No Items entered Final Comment Period this week for Compiler Team (MCPs only), Cargo, Rust RFCs, Language Team, 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.

New and Updated RFCs

• RFC: Exhaustive traits. Traits that enable cross trait casting between trait objects.
• CMSE calling conventions
• RUSTC_ALLOW_UNSTABLE_<feature>: a RUSTC_BOOTSTRAP alternative
• Target Stages, an improvement of the incremental system

Upcoming Events

Rusty Events between 2025-11-26 - 2025-12-24 🦀

Virtual

• 2025-11-26 | Virtual (Girona, ES) | Rust Girona | Silicon Girona
  • Sessió setmanal de codificació / Weekly coding session
• 2025-11-27 | Virtual (Buenos Aires, AR) | Rust en Español
  • Meet de Noviembre - Async Runtimes, parte 2!
• 2025-11-30 | Virtual (Dallas, TX, US) | Dallas Rust User Meetup
  • Rust Readers Discord Discussion: Macros
• 2025-12-02 | Virtual (London, UK) | Women in Rust
  • Advent of Code - Kick Off!
• 2025-12-03 | Virtual (Buffalo, NY, US) | Buffalo Rust Meetup
  • Buffalo Rust User Group
• 2025-12-03 | Virtual (Indianapolis, IN, US) | Indy Rust
  • Indy.rs - with Social Distancing
• 2025-12-04 | Virtual (Berlin, DE) | Rust Berlin
  • Rust Hack and Learn
• 2025-12-05 | Virtual (Cardiff, UK) | Rust and C++ Cardiff
  • Rust & C++ Christmas Game Jam Kick-Off!
• 2025-12-06 | Virtual (Kampala, UG) | Rust Circle Meetup
  • Rust Circle Meetup
• 2025-12-07 | Virtual (Cardiff, UK) | Rust and C++ Cardiff
  • Rust & C++ Christmas Game Jam Finale
• 2025-12-09 | Virtual (Dallas, TX, US) | Dallas Rust User Meetup
  • Second Tuesday
• 2025-12-10 | Virtual (Girona, ES) | Rust Girona
  • Sessió setmanal de codificació / Weekly coding session
• 2025-12-11 | Hybrid (Seattle, WA, US) | Seattle Rust User Group
  • December, 2025 SRUG (Seattle Rust User Group) Meetup
• 2025-12-11 | Virtual (Nürnberg, DE) | Rust Nuremberg
  • Rust Nürnberg online
• 2025-12-16 | Virtual (Washington, DC, US) | Rust DC
  • Mid-month Rustful
• 2025-12-17 | Hybrid (Vancouver, BC, CA) | Vancouver Rust
  • Rust Study/Hack/Hang-out
• 2025-12-17 | Virtual (Girona, ES) | Rust Girona
  • Sessió setmanal de codificació / Weekly coding session
• 2025-12-18 | Virtual (Berlin, DE) | Rust Berlin
  • Rust Hack and Learn
• 2025-12-23 | Virtual (Dallas, TX, US) | Dallas Rust User Meetup
  • Fourth Tuesday

Asia

• 2025-12-08 | Tokyo, JP | Rust Global: Tokyo
  • Rust Global: Tokyo
• 2025-12-20 | Bangalore, IN | Rust Bangalore
  • December 2025 Rustacean meetup

Europe

• 2025-11-26 | Bern, CH | Rust Bern
  • 2025 Rust Talks Bern #5 @Source Engineers
• 2025-11-27 | Augsburg, DE | Rust Meetup Augsburg
  • Rust Meetup #16: Christian Meusel - Oxidizing Step by Step
• 2025-11-27 | Barcelona, ES | BcnRust
  • 19th BcnRust Meetup
• 2025-11-27 | Berlin, DE | Rust Berlin
  • Rust Berlin on location 🏳️‍🌈 - Edition 009
• 2025-11-27 | Copenhagen, DK | Copenhagen Rust Community
  • Rust meetup #63 sponsored by Adapt!
• 2025-11-27 | Edinburgh, UK | Rust and Friends
  • Exotically Sized Types, and Rust in Space at Spire!
• 2025-11-28 | Prague, CZ | Rust Prague
  • Rust Meetup Prague @ Barclays
• 2025-12-03 | Girona, ES | Rust Girona
  • Rust Girona Hack & Learn 12 2025
• 2025-12-03 | Oxford, UK | Oxford ACCU/Rust Meetup.
  • Rust/ACCU meetup.
• 2025-12-04 | Vienna, AT | Rust Vienna
  • Rust Vienna S2E2 - December | at metalab 🦀
• 2025-12-08 | Dortmund, DE | Rust Dortmund
  • Rust Dortmund Meetup - December 2025
• 2025-12-08 | Paris, FR | Rust Paris
  • Rust meetup #81
• 2025-12-10 | München, DE | Rust Munich
  • Rust Munich 2025 / 4 - Hacking Evening
• 2025-12-10 | Reading, UK | Reading Rust Workshop
  • Reading Rust Meetup
• 2025-12-16 | Bergen, NO | Rust Bergen
  • Rust Bergen #3 @ Zrch
• 2025-12-16 | Leipzig, SN, DE | Rust - Modern Systems Programming in Leipzig
  • Topic TBD

North America

• 2025-11-26 | Austin, TX, US | Rust ATX
  • Rust Lunch - Fareground
• 2025-11-26 | Phoenix, AZ, US | Desert Rust
  • Booze.rs
• 2025-11-27 | Mountain View, CA, US | Hacker Dojo
  • RUST MEETUP at HACKER DOJO
• 2025-11-29 | Boston, MA, US | Boston Rust Meetup
  • Harvard Square Rust Lunch, Nov 29
• 2025-12-02 | Chicago, IL, US | Chicago Rust Meetup
  • Rust Talk December
• 2025-12-04 | México City, MX | Rust MX
  • Optimizando rendimiento de Python con Rust
• 2025-12-04 | Saint Louis, MO, US | STL Rust
  • Actix Web Unleashed: Mastering State, Security, and Scalable Handlers in Rust
• 2025-12-05 | New York, NY, US | Rust NYC
  • Rust NYC Unconf 2025: Our Biggest Event Yet!
• 2025-12-06 | Boston, MA, US | Boston Rust Meetup
  • Downtown Rust Lunch, Dec 6
• 2025-12-11 | Hybrid (Seattle, WA, US) | Seattle Rust User Group
  • December, 2025 SRUG (Seattle Rust User Group) Meetup
• 2025-12-11 | Lehi, UT, US | Utah Rust
  • Competetive Robotics with Rust
• 2025-12-11 | Mountain View, CA, US | Hacker Dojo
  • RUST MEETUP at HACKER DOJO
• 2025-12-11 | San Diego, CA, US | San Diego Rust
  • San Diego Rust December Meetup - Back in person!
• 2025-12-13 | Boston, MA, US | Boston Rust Meetup
  • Alewife Rust Lunch, Dec 13
• 2025-12-16 | San Francisco, CA, US | San Francisco Rust Study Group
  • Rust Hacking in Person
• 2025-12-17 | Hybrid (Vancouver, BC, CA) | Vancouver Rust
  • Rust Study/Hack/Hang-out
• 2025-12-20 | Boston, MA, US | Boston Rust Meetup
  • Back Bay Rust Lunch, Dec 20
• 2025-12-24 | Austin, TX, US | Rust ATX
  • Rust Lunch - Fareground

Oceania

• 2025-12-11 | Brisbane City, QL, AU | Rust Brisbane
  • Rust Meetup Dec 2025

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

Also: a program written in Rust had a bug, and while it caused downtime, there was no security issue and nobody's data was compromised .

- Josh Triplett on /r/rust

Thanks to Michael Voelkl for the suggestion!

Please submit quotes and vote for next week!

This Week in Rust is edited by:

• nellshamrell
• llogiq
• ericseppanen
• extrawurst
• U007D
• mariannegoldin
• bdillo
• opeolluwa
• bnchi
• KannanPalani57
• tzilist

Email list hosting is sponsored by The Rust Foundation

Discuss on r/rust

26 Nov 2025 5:00am GMT

Every day, Firefox users around the world turn to Mozilla Support (SUMO) with a question, a hiccup or just a little curiosity. It's community-powered - contributors offer answers and support to make someone's day a little easier.

We celebrated this global community last month with Ask-A-Fox, a weeklong virtual event that brought together longtime contributors, newcomers and Mozilla staffers. The idea was simple: connect across time zones, trade tips and yes, answer questions.

Contributor appreciation, AMAs and an emoji hunt

For one lively week, contributors across Firefox and Thunderbird rallied together. Reply rates soared, response times dropped, and the forums buzzed with renewed energy. But the real story was the sense of connection.

There were live Ask Me Anything sessions with Mozilla's WebCompat, Web Performance, and Thunderbird teams. There was even a playful + emoji hunt through our Knowledge Base.

"That AMA was really interesting," said longtime Firefox contributor Paul. "I learned a lot and I recommend those that could not watch it live catch the recording as I am sure it will be very useful in helping users in SUMO."

Ask-A-Fox was a celebration of people: long-time contributors, brand-new faces and everyone in between. Here are just a few standout contributors:

• Firefox Desktop (including Enterprise)
  Paul, Denyshon, Jonz4SUSE, @next, jscher2000
• Firefox for Android
  Paul, TyDraniu, GerardoPcp04, Mad_Maks, sjohnn
• Firefox for iOS
  Paul, Simon.c.lord, TyDraniu, Mad_Maks, Mozilla-assistent
• Thunderbird (including Android)
  Davidsk, Sfhowes, Mozilla98, MattAuSupport, Christ1

Newcomers mozilla98, starretreat, sjohnn, Vexi, Mark, Mapenzi, cartdaniel437, hariiee1277, and thisisharsh7 also made a big impact.

New contributor Shirmaya John said, "I love helping people, and I'm passionate about computers, so assisting with bugs or other tech issues really makes my day. I'm excited to grow here!"

Contributor Vincent won our Staff Award for the highest number of replies during the week.

"Ask a Fox highlights the incredible collaborative spirit of our community. A reminder of what we can achieve when we unite around a shared goal," said Kiki Kelimutu, a senior community manager at Mozilla.

Firefox has been powered by community from the start

As Mozilla's communities program manager, I've seen firsthand how genuine connection fuels everything we do. Members of our community aren't just answering questions; they're about building relationships, learning together, and showing up for one another with authenticity and care.

Mozilla is built by people who believe the internet should be open and accessible to all, and our community is the heartbeat of that vision. What started back in 2007 (and found its online home in 2010 at support.mozilla.org) has grown into a global network of contributors helping millions of Firefox users find answers, share solutions and get back on their Firefox journey.

Every question answered not only helps a user, it helps us build a better Firefox. By surfacing real issues and feedback, our community shapes the course of our products and keeps the web stronger for everyone.

Join the next Ask-A-Fox

Ask-A-Fox is a celebration of what makes Mozilla unique: our people.

As someone who's spent years building communities, I know that lasting engagement doesn't come from numbers or dashboards. It comes from treating contributors as individuals - people who bring their own stories, skills, and care to the table.

When Mozillians come together to share knowledge, laughter or even a few emojis, the result is more than faster replies. It's a connection.

Two more Ask-A-Fox events are already planned for next year, continuing the work of building communities that make the web more open and welcoming.

If you've ever wanted to make the web a little more human, come join us. Because every answer, every conversation, and every connection helps keep Firefox thriving.

The post Celebrating the contributors that power Mozilla Support appeared first on The Mozilla Blog.

25 Nov 2025 6:02pm GMT

On the Content Team, we had our first whirlwind outing at RustConf 2025 in Seattle, Washington, USA. There we had a chance to speak with folks about interesting things happening in the Project and the wider community.

Jan David Nose, Infrastructure Team

In this interview, Xander Cesari sits down with Jan David Nose, then one of the full-time engineers on the Infrastructure Team, which maintains and develops the infrastructure upon which Rust is developed and deployed -- including CI/CD tooling and crates.io.

We released this video on an accelerated timeline, some weeks ago, in light of the recent software supply chain attacks, but the interview was conducted prior to the news of compromised packages in other languages and ecosystems.

Check out the interview here or click below.

Transcript

Xander Cesari: Hey, this is Xander Cesari with the Rust Project Content Team, recording on the last hour of the last day of RustConf 2025 here in Seattle. So it's been a long and amazing two days. And I'm sitting down here with a team member from the Rust Project Infra Team, the unsung heroes of the Rust language. Want to introduce yourself and kind of how you got involved?

Jan David Nose: Yeah, sure. I'm JD. Jan David is the full name, but especially in international contexts, I just go with JD. I've been working for the Rust Foundation for the past three years as a full-time employee and I essentially hit the jackpot to work full-time on open source and I've been in the Infra Team of the Rust Project for the whole time. For the past two years I've led the team together with Jake. So the Infra Team is kind of a thing that lets Rust happen and there's a lot of different pieces.

Xander Cesari: Could you give me an overview of the responsibility of the Infra Team?

Jan David Nose: Sure. I think on a high level, we think about this in terms of, we serve two different groups of people. On one side, we have users of the language, and on the other side, we really try to provide good tooling for the maintainers of the language.

Jan David Nose: Starting with the maintainer side, this is really everything about how Rust is built. From the moment someone makes a contribution or opens a PR, we maintain the continuous integration that makes sure that the PR actually works. There's a lot of bots and tooling helping out behind the scenes to kind of maintain a good status quo, a sane state. Lots of small things like triage tools on GitHub to set labels and ping people and these kinds of things. And that's kind of managed by the Infra Team at large.

Jan David Nose: And then on the user side, we have a lot of, or the two most important things are making sure users can actually download Rust. We don't develop crates.io, but we support the infrastructure to actually ship crates to users. All the downloads go through content delivery networks that we provide. The same for Rust releases. So if I don't do my job well, which has happened, there might be a global outage of crates.io and no one can download stuff. But those are kind of the two different buckets of services that we run and operate.

Xander Cesari: Gotcha. So on the maintainer side, the Rust organization on GitHub is a large organization with a lot of activity, a lot of code. There's obviously a lot of large code bases being developed on GitHub, but there are not that many languages the size of Rust being developed on GitHub. Are there unique challenges to developing a language and the tooling that's required versus developing other software projects?

Jan David Nose: I can think of a few things that have less to do with the language specifically, but with some of the architecture decisions that were made very early on in the life cycle of Rust. So one of the things that actually caused a lot of headache for mostly GitHub, and then when they complained to us, for us as well, is that for a long, long time, the index for crates.io was a Git repo on GitHub. As Rust started to grow, the activity on the repo became so big that it actually caused some issues, I would say, in a friendly way on GitHub, just in terms of how much resources that single repository was consuming. That then kind of started this work on a web-based, HTTP-based index to shift that away. That's certainly one area where we've seen how Rust has struggled a little bit with the platform, but also the platform provider struggled with us.

Jan David Nose: I think for Rust itself, especially when we look at CI, we really want to make sure that Rust works well on all of the targets and all the platforms we support. That means we have an extremely wide CI pipeline where, for every Tier 1 target, we want to run all the tests, we want to build the release artifacts, we want to upload all of that to S3. We want to do as much as we reasonably can for Tier 2 targets and, to a lesser extent, maybe even test some stuff on Tier 3. That has turned into a gigantic build pipeline. Marco gave a talk today on what we've done with CI over the last year. One of the numbers that came out of doing the research for this talk is that we accumulate over three million build minutes per month, which is about six years of CPU time every month.

Jan David Nose: Especially when it comes to open source projects, I think we're one of the biggest consumers of GitHub Actions in that sense. Not the biggest in total; there are definitely bigger commercial projects. But that's a unique challenge for us to manage because we want to provide as good a service as we can to the community and make sure that what we ship is high quality. That comes at a huge cost in terms of scaling. As Rust gets more popular and we want to target more and more platforms, this is like a problem that just continues to grow.

Jan David Nose: We'll probably never remove a lot of targets, so there's an interesting challenge to think about. If it's already big now, how does this look in 5 years, 10 years, 15 years, and how can we make sure we can maintain the level of quality we want to ship? When you build and run for a target in the CI pipeline, some of those Tier 1 targets you can just ask a cloud service provider to give you a VM running on that piece of hardware, but some of them are probably not things that you can just run in the cloud.

Xander Cesari: Is there some HIL (Hardware-In-the-Loop) lab somewhere?

Jan David Nose: So you're touching on a conversation that's happening pretty much as we speak. So far, as part of our target tier policy, there is a clause that says it needs to be able to run in CI. That has meant being very selective about only promoting things to Tier 1 that we can actually run and test. For all of this, we had a prerequisite that it runs on GitHub Actions. So far we've used very little hardware that is not natively supported or provided by GitHub.

Jan David Nose: But this is exactly the point with Rust increasing in popularity. We just got requests to support IBM platforms and RISC-V, and those are not natively supported on GitHub. That has kicked off an internal conversation about how we even support this. How can we as a project enable companies that can provide us hardware to test on? What are the implications of that?

Jan David Nose: On one side, there are interesting constraints and considerations. For example, you don't want your PRs to randomly fail because someone else's hardware is not available. We're already so resource-constrained on how many PRs we can merge each day that adding noise to that process would really slow down contributions to Rust. On the other side, there are security implications. Especially if we talk about promoting something to Tier 1 and we want to build release artifacts on that hardware, we need to make sure that those are actually secure and no one sneaks a back door into the Rust compiler target for RISC-V.

Jan David Nose: So there are interesting challenges for us, especially in the world we live in where supply chain security is a massive concern. We need to figure out how we can both support the growth of Rust and the growth of the language, the community, and the ecosystem at large while also making sure that the things we ship are reliable, secure, and performant. That is becoming an increasingly relevant and interesting piece to work on. So far we've gotten away with the platforms that GitHub supports, but it's really cool to see that this is starting to change and people approach us and are willing to provide hardware, provide sponsorship, and help us test on their platforms. But essentially we don't have a good answer for this yet. We're still trying to figure out what this means, what we need to take into consideration, and what our requirements are to use external hardware.

Xander Cesari: Yeah, everyone is so excited about Rust will run everywhere, but there's a maintenance cost there that is almost exponential in scope.

Jan David Nose: It's really interesting as well because there's a tension there. I think with IBM, for example, approaching us, it's an interesting example. Who has IBM platforms at home? The number of users for that platform is really small globally, but IBM also invests heavily in Rust, tries to make this happen, and is willing to provide the hardware.

Jan David Nose: For us, that leads to a set of questions. Is there a line? Is there a certain requirement? Is there a certain amount of usage that a platform would need for us to promote it? Or do we say we want to promote as much as we can to Tier 1? This is a conversation we haven't really had to have yet. It's only now starting to creep in as Rust is adopted more widely and companies pour serious money and resources into it. That's exciting to see.

Jan David Nose: In this specific case, companies approach the Infra Team to figure out how we can add their platforms to CI as a first step towards Tier 1 support. But it's also a broader discussion we need to have with larger parts of the Rust Project. For Tier 1 promotions, for example, the Compiler Team needs to sign off, Infra needs to sign off. Many more people need to be involved in this discussion of how we can support the growing needs of the ecosystem at large.

Xander Cesari: I get the feeling that's going to be a theme throughout this interview.

Jan David Nose: 100%.

Xander Cesari: So one other tool that's part of this pipeline that I totally didn't know about for a long time, and I think a talk at a different conference clued me into it, is Crater. It's a tool that attempts to run all of the Rust code it can find on the internet. Can you talk about what that tool does and how it integrates into the release process?

Jan David Nose: Whenever someone creates a pull request on GitHub to add a new feature or bug fix to the Rust compiler, they can start what's called a Crater run, or an experiment. Crater is effectively a large fleet of machines that tries to pull in as many crates as it can. Ideally, we would love to test all crates, but for a variety of reasons that's not possible. Some crates simply don't build reliably, so we maintain lists to exclude those. From the top of my head, I think we currently test against roughly 60% of crates.

Jan David Nose: The experiment takes the code from your pull request, builds the Rust compiler with it, and then uses that compiler to build all of these crates. It reports back whether there are any regressions related to the change you proposed. That is a very important tool for us to maintain backwards compatibility with new versions and new features in Rust. It lets us ask: does the ecosystem still compile if we add this feature to the compiler, and where do we run into issues? Then, and this is more on the Compiler Team side, there's a decision about how to proceed. Is the breakage acceptable? Do we need to adjust the feature? Having Crater is what makes that conversation possible because it gives us real data on the impact on the wider ecosystem.

Xander Cesari: I think that's so interesting because as more and more companies adopt Rust, they're asking whether the language is going to be stable and backward compatible. You hear about other programming languages that had a big version change that caused a lot of drama and code changes. The fact that if you have code on crates.io, the Compiler Team is probably already testing against it for backwards compatibility is pretty reassuring.

Jan David Nose: Yeah, the chances are high, I would say. Especially looking at the whole Python 2 to Python 3 migration, I think as an industry we've learned a lot from those big version jumps. I can't really speak for the Compiler Team because I'm not a member and I wasn't involved in the decision-making, but I feel this is one of the reasons why backwards compatibility is such a big deal in Rust's design. We want to make it as painless as possible to stay current, stay up to date, and make sure we don't accidentally break the language or create painful migration points where the entire ecosystem has to move at once.

Xander Cesari: Do you know if there are other organizations pulling in something like Crater and running it on their own internal crate repositories, maybe some of the big tech companies or other compiler developers or even other languages? Or is this really bespoke for the Rust compiler team?

Jan David Nose: I don't know of anyone who runs Crater itself as a tool. Crater is built on a sandboxing framework that we also use in other places. For example, docs.rs uses some of the same underlying infrastructure to build all of the documentation. We try to share as much as we can of the functionality that exists in Crater, but I'm not aware of anyone using Crater in the same way we do.

Xander Cesari: Gotcha. The other big part of your job is that the Infra Team works on supporting maintainers, but it also supports users and consumers of Rust who are pulling from crates.io. It sounds like crates.io is not directly within your team, but you support a lot of the backend there.

Jan David Nose: Yeah, exactly. crates.io has its own team, and that team maintains the web application and the APIs. The crates themselves, all the individual files that people download, are hosted within our infrastructure. The Infra Team maintains the content delivery network that sits in front of that. Every download of a crate goes through infrastructure that we maintain. We collaborate very closely with the crates.io team on this shared interface. They own the app and the API, and we make sure that the files get delivered to the end user.

Xander Cesari: So it sounds like there's a lot of verification of the files that get uploaded and checks every time someone pushes a new version to crates.io. That part all happens within crates.io as an application.

Jan David Nose: Cargo uses the crates.io API to upload the crate file. crates.io has a lot of internal logic to verify that it is valid and that everything looks correct. For us, as the Infra Team, we treat that as a black box. crates.io does its work, and if it is happy with the upload, it stores the file in S3. From that point onward, infrastructure makes sure that the file is accessible and can be downloaded so people can start using your crate.

Xander Cesari: In this theme of Rust being a bit of a victim of its own success, I assume all of the traffic graphs and download graphs are very much up and to the right.

Jan David Nose: On the Foundation side, one of our colleagues likes to check how long it takes for one billion downloads to happen on crates.io, and that number has been falling quickly. I don't remember what it was three years ago, but it has come down by orders of magnitude. In our download traffic we definitely see exponential growth. Our traffic tends to double year over year, and that trend has been pretty stable. It really seems like Rust is getting a lot of adoption in the ecosystem and people are using it for more and more things.

Xander Cesari: How has the Infra Team scaled with that? Are you staying ahead of it, or are there a lot of late nights?

Jan David Nose: There have definitely been late nights. In the three years I've been working in the Infra Team, every year has had a different theme that was essentially a fire to put out.

Jan David Nose: It changes because we fix one thing and then the next thing breaks. So far, luckily, those fires have been mostly sequential, not parallel. When I joined, bandwidth was the big topic. Over the last year, it has been more about CI. About three years ago, we hit this inflection point where traffic was doubling and the sponsorship capacity we had at the time was reaching its limits.

Jan David Nose: Two or three years ago, Fastly welcomed us into their Fast Forward program and has been sponsoring all of our bandwidth since then. That has mostly helped me sleep at night. It has been a very good relationship. They have been an amazing partner and have helped us at every step to remove the fear that we might hit limits. They are very active in the open source community at large; most famously they also sponsor PyPI and the Python ecosystem, compared to which we're a tiny fish in a very big pond. That gives us a lot of confidence that we can sustain this growth and keep providing crates and releases at the level of quality people expect.

Xander Cesari: In some ways, Rust did such a good job of making all of that infrastructure feel invisible. You just type Cargo commands into your terminal and it feels magical.

Jan David Nose: I'm really happy about that. It's an interesting aspect of running an infrastructure team in open source. If you look at the ten-year history since the first stable release, or even the fifteen years since Rust really started, infrastructure was volunteer-run for most of that time. I've been here for three years, and I was the first full-time infrastructure engineer. So for ten to twelve years, volunteers ran the infrastructure.

Jan David Nose: For them, it was crucial that things just worked, because you can't page volunteers in the middle of the night because a server caught fire or downloads stopped working. From the beginning, our infrastructure has been designed to be as simple and as reliable as possible. The same is true for our CDNs. I always feel a bit bad because Fastly is an amazing sponsor. Every time we meet them at conferences or they announce new features, they ask whether we want to use them or talk about how we use Fastly in production. And every time I have to say: we have the simplest configuration possible. We set some HTTP headers. That's pretty much it.

Jan David Nose: It's a very cool platform, but we use the smallest set of features because we need to maintain all of this with a very small team that is mostly volunteer-based. Our priority has always been to keep things simple and reliable and not chase every fancy new technology, so that the project stays sustainable.

Xander Cesari: Volunteer-based organizations seem to have to care about work-life balance, which is probably terrific, and there are lessons to be learned there.

Jan David Nose: Yeah, it's definitely a very interesting environment to work in. It has different rules than corporations or commercial teams. We have to think about how much work we can do in a given timeframe in a very different way, because it's unpredictable when volunteers have time, when they're around, and what is happening in their lives.

Jan David Nose: Over the last few years, we've tried to reduce the number of fires that can break out. And when they do happen, we try to shield volunteers from them and take that work on as full-time employees. That started with me three years ago. Last year Marco joined, which increased the capacity we have, because there is so much to do on the Infra side that even with me working full-time, we simply did not have enough people.

Xander Cesari: So you're two full-time and everything else is volunteer.

Jan David Nose: Exactly. The team is around eight people. Marco and I work full-time and are paid by the Rust Foundation to focus exclusively on infrastructure. Then we have a handful of volunteers who work on different things.

Jan David Nose: Because our field of responsibility is so wide, the Infra Team works more in silos than other teams might. We have people who care deeply about very specific parts of the infrastructure. Otherwise there is simply too much to know for any one person. It has been a really nice mix, and it's amazing to work with the people on the team.

Jan David Nose: As someone who is privileged enough to work full-time on this and has the time and resources, we try to bear the bigger burden and create a space that is fun for volunteers to join. We want them to work on exciting things where there is less risk of something catching fire, where it's easier to come in, do a piece of work, and then step away. If your personal life takes over for two weeks, that's okay, because someone is there to make sure the servers and the lights stay on.

Jan David Nose: A lot of that work lives more on the maintainer side: the GitHub apps, the bots that help with triage. It's less risky if something goes wrong there. On the user side, if you push the wrong DNS setting, as someone might have done, you can end up in a situation where for 30 minutes no one can download crates. And in this case, "no one" literally means no user worldwide. That's not an experience I want volunteers to have. It's extremely stressful and was ultimately one of the reasons I joined in the first place-there was a real feeling of burnout from carrying that responsibility.

Jan David Nose: It's easier to carry that as a full-timer. We have more time and more ways to manage the stress. I'm honestly extremely amazed by what the Infra Team was able to do as volunteers. It's unbelievable what they built and how far they pushed Rust to get to where we are now.

Xander Cesari: I think anyone who's managing web traffic in 2025 is talking about traffic skyrocketing due to bots and scrapers for AI or other purposes. Has that hit the Rust network as well?

Jan David Nose: Yeah, we've definitely seen that. It's handled by a slightly different team, but on the docs.rs side in particular we've seen crawlers hit us hard from time to time, and that has caused noticeable service degradation. We're painfully aware of the increase in traffic that comes in short but very intense bursts when crawlers go wild.

Jan David Nose: That introduces a new challenge for our infrastructure. We need to figure out how to react to that traffic and protect our services from becoming unavailable to real users who want to use docs.rs to look up something for their work. On the CDN side, our providers can usually handle the traffic. It is more often the application side where things hurt.

Jan David Nose: On the CDN side we also see people crawling crates.io, presumably to vacuum up the entire crates ecosystem into an LLM. Fortunately, over the last two years we've done a lot of work to make sure crates.io as an application is less affected by these traffic spikes. Downloads now bypass crates.io entirely and go straight to the CDN, so the API is not hit by these bursts. In the past, this would have looked like a DDoS attack, with so many requests from so many sources that we couldn't handle it.

Jan David Nose: We've done a lot of backend work to keep our stack reliable, but it's definitely something that has changed the game over the last year. We can clearly see that crawlers are much more active than before.

Xander Cesari: That makes sense. I'm sure Fastly is working on this as well. Their business has to adapt to be robust to this new internet.

Jan David Nose: Exactly. For example, one of the conversations we're having right now is about docs.rs. It's still hosted on AWS behind CloudFront, but we're talking about putting it behind Fastly because through Fastly we get features like bot protection that can help keep crawlers out.

Jan David Nose: This is a good example of how our conversations have changed in the last six months. At the start of the year I did not think this would be a topic we would be discussing. We were focused on other things. For docs.rs we have long-term plans to rebuild the infrastructure that powers it, and I expected us to spend our energy there. But with the changes in the industry and everyone trying to accumulate as much data as possible, our priorities have shifted. The problems we face and the order in which we tackle them have changed.

Xander Cesari: And I assume as one of the few paid members of a mostly volunteer team, you often end up working on the fires, not the interesting next feature that might be more fun.

Jan David Nose: That is true, although it sounds a bit negative to say I only get to work on fires. Sometimes it feels like that because, as with any technology stack, there is a lot of maintenance overhead. We definitely pay that price on the infrastructure side.

Jan David Nose: Marco, for example, spent time this year going through all the servers we run, cataloging them, and making sure they're patched and on the latest operating system version. We updated our Ubuntu machines to the latest LTS. It feels a bit like busy work-you just have to do it because it's important and necessary, but it's not the most exciting project.

Jan David Nose: On the other hand, when it comes to things like CDN configuration and figuring out how bot protection features work and whether they are relevant to us, that is also genuinely interesting work. It lets us play with new tools vendors provide, and we're working on challenges that the wider industry is facing. How do you deal with this new kind of traffic? What are the implications of banning bots? How high is the risk of blocking real users? Sometimes someone just misconfigures a curl script, and from the outside it looks like they're crawling our site.

Jan David Nose: So it's an interesting field to work in, figuring out how we can use new features and address new challenges. That keeps it exciting even for us full-timers who do more of the "boring" work. We get to adapt alongside how the world around us is changing. If there's one constant, it's change.

Xander Cesari: Another ripped-from-the-headlines change around this topic is software supply chain security, and specifically xz-utils and the conversation around open source security. How much has that changed the landscape you work in?

Jan David Nose: The xz-utils compromise was scary. I don't want to call it a wake-up call, because we've been aware that supply chain security is a big issue and this was not the first compromise. But the way it happened felt very unsettling. You saw an actor spend a year and a half building social trust in an open source project and then using that to introduce a backdoor.

Jan David Nose: Thinking about that in the context of Rust: every team in the project talks about how we need more maintainers, how there's too much workload on the people who are currently contributing, and how Rust's growth puts strain on the organization as a whole. We want to be an open and welcoming project, and right now we also need to bring new people in. If someone shows up and says, "I'm willing to help, please onboard me," and they stick around for a year and then do something malicious, we would be susceptible to that. I don't think this is unique to Rust. This is an inherent problem in open source.

Xander Cesari: Yeah, it's antithetical to the culture.

Jan David Nose: Exactly. So we're trying to think through how we, as a project and as an ecosystem, deal with persistent threat actors who have the time and resources to play a long game. Paying someone to work full-time on open source for a year is a very different threat model than what we used to worry about.

Jan David Nose: I used to joke that the biggest threat to crates.io was me accidentally pulling the plug on a CDN. I think that has changed. Today the bigger threat is someone managing to insert malicious code into our releases, our supply chain, or crates.io itself. They could find ways to interfere with our systems in ways we're simply not prepared for, where, as a largely volunteer organization, we might be too slow to react to a new kind of attack.

Jan David Nose: Looking back over the last three years, this shift became very noticeable, especially after the first year. Traffic was doubling, Rust usage was going up a lot, and there were news stories about Rust being used in the Windows kernel, in Android, and in parts of iOS. Suddenly Rust is everywhere. If you want to attack "everywhere," going after Rust becomes attractive. That definitely puts a target on our back and has changed the game.

Jan David Nose: I'm very glad the Rust Foundation has a dedicated security engineer who has done a lot of threat modeling and worked with us on infrastructure security. There's also a lot of work happening specifically around the crates ecosystem and preventing supply chain attacks through crates. Luckily, it's not something the Infra side has to solve alone. But it is getting a lot more attention, and I think it will be one of the big challenges for the future: how a mostly volunteer-run project keeps up with this looming threat.

Xander Cesari: And it is the industry at large. This is not a unique problem to the Rust package manager. All package registries, from Python to JavaScript to Nix, deal with this. Is there an industry-wide conversation about how to help each other out and share learnings?

Jan David Nose: Yeah, there's definitely a lot happening. I have to smile a bit because, with a lot of empathy but also a bit of relief, we sometimes share news when another package ecosystem gets compromised. It is a reminder that it's not just us, sometimes it's npm this time.

Jan David Nose: We really try to stay aware of what's happening in the industry and in other ecosystems: what new threats or attack vectors are emerging, what others are struggling with. Sometimes that is security; sometimes it's usability. A year and a half ago, for example, npm had the "everything" package where someone declared every package on npm as a dependency, which blew up the index. We look at incidents like that and ask whether crates.io would struggle with something similar and whether we need to make changes.

Jan David Nose: On the security side we also follow closely what others are doing. In the packaging community, the different package managers are starting to come together more often to figure out which problems everyone shares. There is a bit of a joke that we're all just shipping files over the internet. Whether it's an npm package or a crate, ultimately it's a bunch of text files in a zip. So from an infrastructure perspective the problems are very similar.

Jan David Nose: These communities are now talking more about what problems PyPI has, what problems crates.io has, what is happening in the npm space. One thing every ecosystem has seen-even the very established ones-is a big increase in bandwidth needs, largely connected to the emergence of AI. PyPI, for example, publishes download charts, and it's striking. Python had steady growth-slightly exponential, but manageable-for many years. Then a year or two ago you see a massive hockey stick. People discovered that PyPI was a great distribution system for their models. There were no file size limits at the time, so you could publish precompiled GPU models there.

Jan David Nose: That pattern shows up everywhere. It has kicked off a new era for packaging ecosystems to come together and ask: in a time where open source is underfunded and traffic needs keep growing, how can we act together to find solutions to these shared problems? crates.io is part of those conversations. It's interesting to see how we, as an industry, share very similar problems across ecosystems-Python, npm, Rust, and others.

Xander Cesari: With a smaller, more hobbyist-focused community, you can have relaxed rules about what goes into your package manager. Everyone knows the spirit of what you're trying to do and you can get away without a lot of hard rules and consequences. Is the Rust world going to have to think about much harder rules around package sizes, allowed files, and how you're allowed to distribute things?

Jan David Nose: Funnily enough, we're coming at this from the opposite direction. Compared to other ecosystems, we've always had fairly strict limits. A crate can be at most around ten megabytes in size. There are limits on what kinds of files you can put in there. Ironically, those limits have helped us keep traffic manageable in this period.

Jan David Nose: At the same time, there is a valid argument that these limits may not serve all Rust use cases. There are situations where you might want to include something precompiled in your crate because it is hard to compile locally, takes a very long time, or depends on obscure headers no one has. I don't think we've reached the final state of what the crates.io package format should look like.

Jan David Nose: That has interesting security implications. When we talk about precompiled binaries or payloads, we all have that little voice in our head every time we see a curl | sh command: can I trust this? The same is true if you download a crate that contains a precompiled blob you cannot easily inspect.

Jan David Nose: The Rust Foundation is doing a lot of work and research here. My colleague Adam, who works on the crates.io team, is working behind the scenes to answer some of these questions. For example: what kind of security testing can we do before we publish crates to make sure they are secure and don't contain malicious payloads? How do we surface this information? How do we tell a publisher that they included files that are not allowed? And from the user's perspective, when you visit crates.io, how can you judge how well maintained and how secure a crate is?

Jan David Nose: Those conversations are happening quite broadly in the ecosystem. On the Infra side we're far down the chain. Ultimately we integrate with whatever security scanning infrastructure crates.io builds. We don't have to do the security research ourselves, but we do have to support it.

Jan David Nose: There's still a lot that needs to happen. As awesome as Rust already is, and as much as I love using it, it's important to remember that we're still a very young ecosystem. Python is now very mature and stable, but it's more than 25 years old. Rust is about ten years old as a stable language. We still have a lot to learn and figure out.

Xander Cesari: Is the Rust ecosystem running into problems earlier than other languages because we're succeeding at being foundational software and Rust is used in places that are even more security-critical than other languages, so you have to hit these hard problems earlier than the Python world did?

Jan David Nose: I think that's true. Other ecosystems probably had more time to mature and answer these questions. We're operating on a more condensed timeline. There is also simply more happening now. Open source has been very successful; it's everywhere. That means there are more places where security is critical.

Jan David Nose: So this comes with the success of open source, with what is happening in the ecosystem at large, and with the industry we're in. It does mean we have less time to figure some things out. On the flip side, we also have less baggage. We have less technical debt and fifteen fewer years of accumulated history. That lets us be on the forefront in some areas, like how a package ecosystem can stay secure and what infrastructure a 21st century open source project needs.

Jan David Nose: Here I really want to call out the Rust Foundation. They actively support this work: hiring people like Marco and me to work full-time on infrastructure, having Walter and Adam focus heavily on security, and as an organization taking supply chain considerations very seriously. The Foundation also works with other ecosystems so we can learn and grow together and build a better industry.

Jan David Nose: Behind the scenes, colleagues constantly work to open doors for us as a relatively young language, so we can be part of those conversations and sit at the table with other ecosystems. That lets us learn from what others have already gone through and also help shape where things are going. Sustainability is a big part of that: how do we fund the project long term? How do we make sure we have the human resources and financial resources to run the infrastructure and support maintainers? I definitely underestimated how much of my job would be relationship management and budget planning, making sure credits last until new ones arrive.

Xander Cesari: Most open core business models give away the thing that doesn't cost much-the software-and charge for the thing that scales with use-the service. In Rust's case, it's all free, which is excellent for adoption, but it must require a very creative perspective on the business side.

Jan David Nose: Yeah, and that's where different forces pull in opposite directions. As an open source project, we want everyone to be able to use Rust for free. We want great user experience. When we talk about downloads, there are ways for us to make them much cheaper, but that might mean hosting everything in a single geographic location. Then everyone, including people in Australia, would have to download from, say, Europe, and their experience would get much worse.

Jan David Nose: Instead, we want to use services that are more expensive but provide a better experience for Rust users. There's a real tension there. On one side we want to do the best we can; on the other side we need to be realistic that this costs money.

Xander Cesari: I had been thinking of infrastructure as a binary: it either works or it doesn't. But you're right, it's a slider. You can pick how much money you want to spend and what quality of service you get. Are there new technologies coming, either for the Rust Infra Team or the packaging world in general, to help with these security problems? New sandboxing technologies or higher-level support?

Jan David Nose: A lot of people are working on this problem from different angles. Internally we've talked a lot about it, especially in the context of Crater. Crater pulls in all of those crates to build them and get feedback from the Rust compiler. That means if someone publishes malicious code, we will download it and build it.

Jan David Nose: In Rust this is a particular challenge because build scripts can essentially do anything on your machine. For us that means we need strong sandboxing. We've built our own sandboxing framework so every crate build runs in an isolated container, which prevents malicious code from escaping and messing with the host systems.

Jan David Nose: We feel that pain in Crater, but if we can solve it in a way that isn't exclusive to Crater-if it also protects user machines from the same vulnerabilities-that would be ideal. People like Walter on the Foundation side are actively working on that. I'm sure there are conversations in the Cargo and crates teams as well, because every team that deals with packages sees a different angle of the problem. We all have to come together to solve it, and there is a lot of interesting work happening in that area.

Xander Cesari: I hope help is coming.

Jan David Nose: I'm optimistic.

Xander Cesari: We have this exponential curve with traffic and everything else. It seems like at some point it has to taper off.

Jan David Nose: We'll see. Rust is a young language. I don't know when that growth will slow down. I think there's a good argument that it will continue for quite a while as adoption grows.

Jan David Nose: Being at a conference like RustConf, it's exciting to see how the mix of companies has changed over time. We had a talk from Rivian on how they use Rust in their cars. We've heard from other car manufacturers exploring it. Rust is getting into more and more applications that a few years ago would have been hard to imagine or where the language simply wasn't mature enough yet.

Jan David Nose: As that continues, I think we'll see new waves of growth that sustain the exponential curve we currently have, because we're moving into domains that are new for us. It's amazing to see who is talking about Rust and how they're using it, sometimes in areas like space that you wouldn't expect.

Jan David Nose: I'm very optimistic about Rust's future. With this increase in adoption, we'll see a lot of interesting lessons about how to use Rust and a lot of creative ideas from people building with it. With more corporate adoption, I also expect a new wave of investment into the ecosystem: companies paying people to work full-time on different parts of Rust, both in the ecosystem and in the core project. I'm very curious what the next ten years will look like, because I genuinely don't know.

Xander Cesari: The state of Rust right now does feel a bit like the dog that caught the car and now doesn't know what to do with it.

Jan David Nose: Yeah, I think that's a good analogy. Suddenly we're in a situation where we realize we haven't fully thought through every consequence of success. It's fascinating to see how the challenges change every year. We keep running into new growing pains where something that wasn't an issue a year ago suddenly becomes one because growth keeps going up.

Jan David Nose: We're constantly rebuilding parts of our infrastructure to keep up with that growth, and I don't see that stopping soon. As a user, that makes me very excited. With the language and the ecosystem growing at this pace, there are going to be very interesting things coming that I can't predict today.

Jan David Nose: For the project, it also means there are real challenges: financing the infrastructure we need, finding maintainers and contributors, and creating a healthy environment where people can work without burning out. There is a lot of work to be done, but it's an exciting place to be.

Xander Cesari: Well, thank you for all your work keeping those magic Cargo commands I can type into my terminal just working in the background. If there's any call to action from this interview, it's that if you're a company using Rust, maybe think about donating to keep the Infra Team working.

Jan David Nose: We always love new Rust Foundation members. Especially if you're a company, that's one of the best ways to support the work we do. Membership gives us a budget we can use either to fund people who work full-time on the project or to fill gaps in our infrastructure sponsorship where we don't get services for free and have to pay real money.

Jan David Nose: And if you're not a company, we're always looking for people to help out. The Infra Team has a lot of Rust-based bots and other areas where people can contribute relatively easily.

Xander Cesari: Small scoped bots that you can wrap your head around and help out with.

Jan David Nose: Exactly. It is a bit harder on the Infra side because we can't give people access to our cloud infrastructure. There are areas where it's simply not possible to contribute as a volunteer because you can't have access to the production systems. But there is still plenty of other work that can be done.

Jan David Nose: Like every other team in the project, we're a bit short-staffed. So when you're at conferences, come talk to me or Marco. We have work to do.

Xander Cesari: Well, thank you for doing the work that keeps Rust running.

Jan David Nose: I'm happy to.

Xander Cesari: Awesome. Thank you so much.

25 Nov 2025 12:00am GMT

Highlights

• Collapsed tab group hover preview is going live in Firefox 145!
  • 
• Nicolas Chevobbe added a feature that collapses unreferenced CSS variables declarations in the Rules view (#1719461)
  • 
• Alexandre Poirot [:ochameau] added a setting to enable automatic pretty printing in the Debugger (#1994128)
  • 
• Improved performance on pages making heavy usage of CSS variables
  • 
• Jared H added a "copy this profile" button to the app menu (bug 1992199)
  • 

Friends of the Firefox team

Resolved bugs (excluding employees)

Volunteers that fixed more than one bug

• Khalid AlHaddad
• Kyler Riggs [:kylr]

New contributors (🌟 = first patch)

• Alex Stout
• Khalid AlHaddad
• Jim Gong
• Mason Abbruzzese
• PhuongNam
• Thomas J Faughnan Jr
• Mingyuan Zhao [:MagentaManifold]

Project Updates

Add-ons / Web Extensions

WebExtensions Framework

• Fixed an issue that was preventing dynamic import from resolving moz-extensions ES modules when called from content scripts attached to sandboxed sub frames - Bug 1988419
  • Thanks to Yoshi Cheng-Hao Huang from the Spidermonkey Team for looking into and fixing this issue hitting dynamic imports usage from content scripts

Addon Manager & about:addons

• As a followup to the work to improve the extensions button panel's empty states, starting from Nightly 146 Firefox Desktop will be showing a message bar notice in both the extensions button panel and about:addons to highlight to the users when Firefox is running in Troubleshoot mode (also known as Safe mode) and all add-ons are expected to be disabled, along with a "Learn more link" pointing the user to the SUMO page describing Troubleshoot mode in more details - Bug 1992983 / Bug 1994074 / Bug 1727828
  • 

DevTools

• gopi made the Rule view format grid-template-areas even when the value is invalid (#1940198)
  • 
• Emilio Cobos Álvarez fixed an issue where editing constructed Rule in the shadow DOM would make them disappear (#1986702)
• Nicolas Chevobbe fixed a bug that would render erroneous data in the var() tooltip for variables defined in :host rule on shared stylesheet (#1995943)
• Julian Descottes improved inspector reload time when shadow DOM element was selected (#1986704)
• Hubert Boma Manilla fixed an issue where we could have duplicated inline preview when paused in the Debugger (#1994114)
• Nicolas Chevobbe [:nchevobbe] exposed devtools.inspector.showAllAnonymousContent in the settings panel (#1995333)
  • 

WebDriver

• Khalid added a dedicated switch_to_parent_frame method to the WebDriver Classic Python client, and renamed the existing switch_frame method to switch_to_frame for consistency with the WebDriver specification.
• Julian updated the network.getData command to return response bodies for requests using the data: scheme.
• Julian fixed a bug where different requests would reuse the same id, which could lead to unexpected behaviours when using commands targeting specific requests (e.g. network.provideResponse, network.getData etc…).
• Sasha updated the reset behaviour of "emulation.setLocaleOverride" and "emulation.setTimezoneOverride" commands to align with the spec changes. With this update, when calling these command to reset the override for e.g. a browsing context, only this override will be reset and if there is an override set for a user context, related to this browsing context, this override will be applied instead.

Lint, Docs and Workflow

• ESLint
  • We are working on rolling out automatically fixable JSDoc rules across the whole tree. The aim being to reduce the amount of disabled rules in roll-outs, and make it simpler for enabling JSDDoc rules on new areas.
    • jsdoc/no-bad-blocks has now been enabled.
      • jsdoc comments are required to have two stars at the start, this will raise an issue if it looks like it should be a jsdoc comment (e.g. has an @ symbol) but only one star.
    • jsdoc/multiline-blocks has also been enabled.
      • This is being used mainly for layout consistency of multi-line comments, so that the text of the comment does not start on the first line, nor ends on the last line. This also helps with automatically fixing other rules.
• StyleLint
  • More rules have been enabled - background-color tokens, space tokens, text-color tokens, box-shadow tokens
  • A new rule has been added to prevent using browser/ css files in toolkit/

Migration Improvements

• We've disabled the IE migrator by default now, since IE (the separate browser, not the compatibility mode) stopped being supported by Microsoft in 2022. We will let this ride to release, and then begin the work of removing support entirely.
• To help users migrate their data off of Windows 10, we've revived the Backup effort, and have landed a number of fixes:
  • Restores now preserve the user's default profile if it was default pre‑backup, and the prior profile is renamed to old-[profile name] for clarity. This prevents unexpected startup profiles after a restore and makes rollback obvious in Profile Manager.
  • The restore file picker (restore modal and about:welcome restore) now opens at the detected backup location, cutting navigation friction and errors.
  • The primary CTA label in about:preferences updates correctly ("Manage backup" → "Turn off backup") immediately after enabling, aligning UI state with functionality.
  • The "Backup now" button is hidden until backup is enabled, avoiding a dead‑end action and guiding users through the correct setup sequence.
  • Enterprise policy prefs were added for fxbackup, enabling admins on Windows/macOS/Linux to enforce/lock backup availability and behavior for managed users.
  • Error and warning banners in about:preferences were updated to match spec for clearer state and failure messaging.
  • The backup HTML archive support link now points to the correct documentation.
  • Copy updates clarify what cookie data is included in backups, improving user expectations and privacy transparency.

New Tab Page

• We successfully train-hopped New Tab version 145.1.20251009.134757 to 100% of the release channel on October 20th!
• New Tab defaults and freshness: DiscoveryStream cache now expires when browser.newtabpage.activity-stream.discoverystream.sections.enabled changes, so toggling layouts updates content immediately. First‑run shows far fewer placeholders, improving perceived load. Startup correctness improves by keying the about:home startup cache on the newtab add-on version.
• Accessibility, keyboard, and RTL: Fixed a broken focus order where Settings jumped ahead of Weather. For Windows High Contrast Mode, story cards no longer disappear on hover and get clearer visuals. RTL locales now get intuitive reversed arrow-key navigation across story cards.
• Weather opt-in and reach: Opt-in flow now surfaces "Enable current location" and adds a "Detect my location" context-menu action; availability expands to more regions, reducing setup friction and increasing coverage.
• Visual polish and correctness: Standardized opacity plus hover/blur effects make story cards feel more responsive; made sure the search bar stays vertically centered while scrolling. Medium refined cards now show longer publisher names without affecting small cards.
• Wallpaper and language fixes: Missing custom wallpaper thumbnails now load reliably, and a friendly error state appears if Remote Settings wallpapers fail. The language switcher no longer lists add-on locales, restoring expected language selection.

Performance Tools (aka Firefox Profiler)

• Marker tooltips now have a 'filter' button to quickly filter the marker chart to similar markers:
  • 
  • Link to the profile in the screenshot: https://share.firefox.dev/42kDTuf (and after filtering: https://share.firefox.dev/4gQHPsx)
  • This is a resource usage profile of an xpcshell test job. To see them, select a test job in treeherder and press 'g'.

Profile Management

• Profiles is rolling out to all non-win10 users in 144, looking healthy so far
• Niklas refactored the BackupService to support using it to copy profiles (bug 1992203)
• Jared H added per-profile desktop shortcuts on Windows (bug 1958955), available via a toggle on the about:editprofile page
• Dave fixed an intermittent test crash in debug builds (bug 1994849) caused by a race between deleting a directory and attempting to open a lock file. nsProfileLock::LockWithFcntl now returns a warning instead of an error in this case.

Search and Navigation

• New Features
  • We are working on enabling better search suggestions in the address bar (link to blog post).
  • Mandy has rolled out Perplexity as a new engine to all users
  • Google Lens is being rolled out to users in 144 with additional in-product demoing.
• Address Bar
  • Daisuke has implemented a prototype for flight status suggestions @ 1990951 + 1994317
  • Dale has been working on enabling the unified trust panel @ 1992940 + 1979713
  • Dale introduced Option + Up / Down as a keyboard shortcut to open the unified search panel @ 1962200
  • Moritz removed the code for "Add a keyword for this search" as it was deprecated functionality @ 1995002
• Search
  • Mandy and Drew have been working on releasing the visual search + messaging @ 1995645

Storybook/Reusable Components/Acorn Design System

• <moz-message-bar> now supports arbitrary content with slot="message" elements
  • Ideally this is still something short, like a message as opposed to inputs, etc
  • <moz-message-bar><span slot="message" data-l10n-id="my-message"><a data-l10n-name="link"></a></span></moz-message-bar>
  • Note: if you're using Lit, @click listeners etc set on Fluent elements (data-l10n-name) won't work, you'll need to attach it to the data-l10n-id element or another parent

24 Nov 2025 8:26pm GMT

This post explores another proposal in the space of ergonomic ref-counting that I am calling move expressions. To my mind, these are an alternative to explicit capture clauses, one that addresses many (but not all) of the goals from that design with improved ergonomics and readability.

TL;DR

The idea itself is simple, within a closure (or future), we add the option to write move($expr). This is a value expression ("rvalue") that desugars into a temporary value that is moved into the closure. So

|| something(&move($expr))

is roughly equivalent to something like:

{ 
    let tmp = $expr;
    || something(&{tmp})
}

How it would look in practice

Let's go back to one of our running examples, the "Cloudflare example", which originated in this excellent blog post by the Dioxus folks. As a reminder, this is how the code looks today - note the let _some_value = ... lines for dealing with captures:

// task:  listen for dns connections
let _some_a = self.some_a.clone();
let _some_b = self.some_b.clone();
let _some_c = self.some_c.clone();
tokio::task::spawn(async move {
       do_something_else_with(_some_a, _some_b, _some_c)
});

Under this proposal it would look something like this:

tokio::task::spawn(async {
    do_something_else_with(
        move(self.some_a.clone()),
        move(self.some_b.clone()),
        move(self.some_c.clone()),
    )
});

There are times when you would want multiple clones. For example, if you want to move something into a FnMut closure that will then give away a copy on each call, it might look like

data_source_iter
    .inspect(|item| {
        inspect_item(item, move(tx.clone()).clone())
        //                      ----------  -------
        //                           |         |
        //                   move a clone      |
        //                   into the closure  |
        //                                     |
        //                             clone the clone
        //                             on each iteration
    })
    .collect();

// some code that uses `tx` later...

Credit for this idea

This idea is not mine. It's been floated a number of times. The first time I remember hearing it was at the RustConf Unconf, but I feel like it's come up before that. Most recently it was proposed by Zachary Harrold on Zulip, who has also created a prototype called soupa. Zachary's proposal, like earlier proposals I've heard, used the super keyword. Later on @simulacrum proposed using move, which to me is a major improvement, and that's the version I ran with here.

This proposal makes closures more "continuous"

The reason that I love the move variant of this proposal is that it makes closures more "continuous" and exposes their underlying model a bit more clearly. With this design, I would start by explaining closures with move expressions and just teach move closures at the end, as a convenient default:

A Rust closure captures the places you use in the "minimal way that it can" - so || vec.len() will capture a shared reference to the vec, || vec.push(22) will capture a mutable reference, and || drop(vec) will take ownership of the vector.

You can use move expressions to control exactly what is captured: so || move(vec).push(22) will move the vector into the closure. A common pattern when you want to be fully explicit is to list all captures at the top of the closure, like so:

|| {
    let vec = move(input.vec); // take full ownership of vec
    let data = move(&cx.data); // take a reference to data
    let output_tx = move(output_tx); // take ownership of the output channel

    process(&vec, &mut output_tx, data)
}

As a shorthand, you can write move || at the top of the closure, which will change the default so that closures > take ownership of every captured variable. You can still mix-and-match with move expressions to get more control. > So the previous closure might be written more concisely like so:

move || {
    process(&input.vec, &mut output_tx, move(&cx.data))
    //       ---------       ---------       --------      
    //           |               |               |         
    //           |               |       closure still  
    //           |               |       captures a ref
    //           |               |       `&cx.data`        
    //           |               |                         
    //       because of the `move` keyword on the clsoure,
    //       these two are captured "by move"
    //       
}

This proposal makes move "fit in" for me

It's a bit ironic that I like this, because it's doubling down on part of Rust's design that I was recently complaining about. In my earlier post on Explicit Capture Clauses I wrote that:

To be honest, I don't like the choice of move because it's so operational. I think if I could go back, I would try to refashion our closures around two concepts

• Attached closures (what we now call ||) would always be tied to the enclosing stack frame. They'd always have a lifetime even if they don't capture anything.
• Detached closures (what we now call move ||) would capture by-value, like move today.

I think this would help to build up the intuition of "use detach || if you are going to return the closure from the current stack frame and use || otherwise".

move expressions are, I think, moving in the opposite direction. Rather than talking about attached and detached, they bring us to a more unified notion of closures, one where you don't have "ref closures" and "move closures" - you just have closures that sometimes capture moves, and a "move" closure is just a shorthand for using move expressions everywhere. This is in fact how closures work in the compiler under the hood, and I think it's quite elegant.

Why not suffix?

One question is whether a move expression should be a prefix or a postfix operator. So e.g.

|| something(&$expr.move)

instead of &move($expr).

My feeling is that it's not a good fit for a postfix operator because it doesn't just take the final value of the expression and so something with it, it actually impacts when the entire expression is evaluated. Consider this example:

|| process(foo(bar()).move)

When does bar() get called? If you think about it, it has to be closure creation time, but it's not very "obvious".

We reached a similar conclusion when we were considering .unsafe operators. I think there is a rule of thumb that things which delineate a "scope" of code ought to be prefix - though I suspect unsafe(expr) might actually be nice, and not just unsafe { expr }.

Edit: I added this section after-the-fact in response to questions.

Conclusion

I'm going to wrap up this post here. To be honest, what this design really has going for it, above anything else, is its simplicity and the way it generalizes Rust's existing design. I love that. To me, it joins the set of "yep, we should clearly do that" pieces in this puzzle:

• Add a Share trait (I've gone back to preferring the name share 😁)
• Add move expressions

These both seem like solid steps forward. I am not yet persuaded that they get us all the way to the goal that I articulated in an earlier post:

"low-level enough for a Kernel, usable enough for a GUI"

but they are moving in the right direction.

21 Nov 2025 10:45am GMT

The Servo project is happy to announce the following new sponsorship tiers to encourage more donations to the project:

• Platinum: 10,000 USD/month
• Gold: 5,000 USD/month
• Silver: 1,000 USD/month
• Bronze: 100 USD/month

Organizations and individual sponsors donating in these tiers will be acknowledged on the servo.org homepage with their logo or name. Please note that such donations should come with no obligations to the project i.e they should be "no strings attached" donations. All the information about these new tiers is available at the Sponsorship page on this website.

Please contact us at join@servo.org if you are interested in sponsoring the project through one of these tiers.

Use of donations is decided transparently via the Technical Steering Committee's public funding request process, and active proposals are tracked in servo/project#187.

Last, but not least, we're excited to welcome our first bronze sponsor LambdaTest who has recently started donating to the Servo project. Thank you very much!

21 Nov 2025 12:00am GMT

About You

My profile in Pontoon is robbp, but I go by Robb. I'm based in Romania and have been contributing to Mozilla localization since 2018 - first between 2018 and 2020, and now again after a break. I work mainly on Firefox (desktop and mobile), Thunderbird, AMO, and SUMO. When I'm not volunteering for open-source projects, I work as a professional translator in Romanian, English, and Italian.

Getting Started

Q: How did you first get interested in localization? Do you remember how you got involved in Mozilla localization?

A: I've used Thunderbird for many years, and I never changed the welcome screen. I'd always see that invitation to contribute somehow.

Back in 2018, I was using freeware only - including Thunderbird - and I started feeling guilty that I wasn't giving back. I tried donating, but online payments seemed shady back then, and I thought a small, one-time donation wouldn't make a difference.

Around the same time, my mother kept asking questions like, "What is this trying to do on my phone? I think they're asking me something, but it's in English!" My generation learned English from TV, Cartoon Network, and software, but when the internet reached the older generation, I realized how big of a problem language barriers could be. I wasn't even aware that there was such a big wave of localizing everything seen on the internet. I was used to having it all in English (operating system, browser, e-mail client, etc.).

After translating for my mom for a year, I thought, why not volunteer to localize, too? Mozilla products were the first choice - Thunderbird was "in my face" all day, all night, telling me to go and localize. I literally just clicked the button on Thunderbird's welcome page - that's where it all started.

I had also tried contributing to other open-source projects, but Mozilla's Pontoon just felt more natural to me. The interface is very close to the CAT tools I am used to.

Your Localization Journey

Q: What do you do professionally? How does that experience influence your Mozilla work and motivate you to contribute to open-source localization?

A: I've been a professional translator since 2012. I work in English, Romanian, and Italian - so yes, I type all the time.

In Pontoon, I treat the work as any professional project. I check for quality, consistency, and tone - just like I would for a client.

I was never a writer. I love translating. That's why I became a translator (professionally). And here… I actually got more feedback here than in my professional translation projects. I think that's why I stayed for so long, that's why I came back.

It is a change of scenery when I don't localize professionally, a long way from the texts I usually deal with. This is where I unwind, where I translate for the joy of translation, where I find my translator freedom.

Q: At what moment did you realize that your work really mattered?

A: When my mom stopped asking me what buttons to click! Now she just uses her phone in Romanian. I can't help but smile when I see that. It makes me think I'm a tiny little part of that confidence she has now.

Community & Collaboration

Q: Since your return, Romanian coverage has risen from below 70% to above 90%. You translate, review suggestions, and comment on other contributors' work. What helps you stay consistent and motivated?

A: I set small goals - I like seeing the completion percentage climb. I celebrate every time I hit a milestone, even if it's just with a cup of coffee.

I didn't realize it was such a big deal until the localization team pointed it out. It's hard to see the bigger picture when you work in isolation. But it's the same motivation that got me started and brought me back - you just need to find what makes you hum.

Q: Do you conduct product testing after you localize the strings or do you test them by being an active user?

A: I'm an active user of both Firefox and Thunderbird - I use them daily and quite intensely. I also have Firefox Nightly installed in Romanian, and I like to explore it to see what's changed and where. But I'll admit, I'm not as thorough as I should be! Our locale manager gives me a heads-up about things to check which helps me stay on top of updates. I need to admit that the testing part is done by the team manager. He is actively monitoring everything that goes on in Pontoon and checks how strings in Pontoon land in the products and to the end users.

Q: How do you collaborate with other contributors and support new ones?

A: I'm more of an independent worker, but in Pontoon, I wanted to use the work that was already done by the "veterans" and see how I could fit in. We had email conversations over terms, their collaboration, their contributions, personal likes and dislikes etc. I think they actually did me a favor with the email conversations, given I am not active on any channels or social media and email was my only way of talking to them.

This year I started leaving comments in Pontoon - it's such an easy way to communicate directly on specific strings. Given I was limited to emails until now, I think comments will help me reach out to other members of the team and start collaborating with them, too.

I keep in touch with the Romanian managers by email or Telegram. One of them helps me with technical terms, he helped get the Firefox project to 100% before the deadline. He contacts me with information on how to use options (I didn't know about) in Pontoon and ideas on wording (after he tests and reviews strings). Collaboration doesn't always mean meetings; sometimes it's quiet cooperation over time.

Mentoring is a big word, but I'm willing for the willing. If someone reaches out, I'll always try to help.

Q: Have you noticed improvements in Pontoon since 2020? How does it compare to professional tools you use, and what features do you wish it had?

A: It's fast - and I love that.

There's no clutter - and that's a huge plus. Some of the "much-tooted" professional tools are overloaded with features and menus that slow you down instead of helping. Pontoon keeps things simple and focused.

I also appreciate being able to see translations in other languages. I often check the French and Italian versions, just to compare terms.

The comments section is another great feature - it makes collaboration quick and to the point, perfect for discussing terms or string-specific questions. Machine translation has also improved a lot across the board, and Pontoon is keeping pace.

As for things that could be better - I'd love to try the pre-translation feature, but I've noticed that some imported strings confirm the wrong suggestion out of several options. That's when a good translation-memory cleanup becomes necessary. It would be helpful if experienced contributors could trim the TM, removing obsolete or outdated terms so new contributors won't accidentally use them.

Pontoon sometimes lags when I move too quickly through strings - like when approving matches or applying term changes across projects. And, unlike professional CAT tools, it doesn't automatically detect repeated strings or propagate translations for identical text. That's a small but noticeable gap compared to professional tools.

Personal Reflections

Q: Professional translators often don't engage in open-source projects because their work is paid elsewhere. What could attract more translators - especially women - to contribute?

A: It's tricky. Translation is a profession, not a hobby, and people need to make a living.

But for me, working on open-source projects is something different - a way to learn new things, use different tools, and have a different mindset. Maybe if more translators saw it as a creative outlet instead of extra work, they'd give it a try.

Involvement in open source is a personal choice. First, one has to hear about it, understand it, and realize that the software they use for free is made by people - then decide they want to be part of that.

I don't think it's a women's thing. Many come and many go. Maybe it's just the thrill at the beginning. Some try, but maybe translation is not for them…

Q: What does contributing to Mozilla mean to you today?

A: It's my way of giving back - and of helping people like my mom, who just want to understand new technology without fear or confusion. That thought makes me smile every time I open Firefox or Thunderbird.

Q: Any final words…

A: I look forward to more blogs featuring fellow contributors and learning and being inspired from their personal stories.

20 Nov 2025 6:46pm GMT

AI isn't just another tech trend - it's at the heart of most apps, tools and technology we use today. It enables remarkable things: new ways to create and collaborate and communicate. But AI is also letting us down, filling the internet with slop, creating huge social and economic risks - and further concentrating power over how tech works in the hands of a few.

This leaves us with a choice: push the trajectory of AI in a direction that's good for humanity - or just let the slop pour out and the monopolies grow. For Mozilla, the choice is clear. We choose humanity.

Mozilla has always been focused on making the internet a better place. Which is why pushing AI in a different direction than it's currently headed is the core focus of our strategy right now. As AI becomes a fundamental component of everything digital - everything people build on the internet - it's imperative that we step in to shape where it goes.

This post is the first in a series that will lay out Mozilla's evolving strategy to do for AI what we did for the web.

What did we do for the web?

Twenty five years ago, Microsoft Internet Explorer had 95% browser market share - controlling how most people saw the internet, and who could build what and on what terms. Mozilla was born to change this. Firefox challenged Microsoft's monopoly control of the web, and dropped Internet Explorer's market share to 55% in just a few short years.

The result was a very different internet. For most people, the internet was different because Firefox made it faster and richer - and blocked the annoying pop up ads that were pervasive at the time. It did even more for developers: Firefox was a rocketship for the growth of open standards and open source, decentralizing who controlled the technology used to build things on the internet. This ushered in the web 2.0 era.

How did Mozilla do this? By building a non-profit tech company around the values in the Mozilla Manifesto - values like privacy, openness and trust. And by gathering a global community of tens of thousands - a rebel alliance of sorts - to build an alternative to the big tech behemoth of the time.

What does success look like?

This is what we intend to do again: grow an alliance of people, communities, companies who envision - and want to build - a different future for AI.

What does 'different' look like? There are millions of good answers to this question. If your native tongue isn't a major internet language like English or Chinese, it might be AI that has nuance in the language you speak. If you are a developer or a startup, it might be having open source AI building blocks that are affordable, flexible and let you truly own what you create. And if you are, well, anyone, it's probably apps and services that become more useful and delightful as they add AI - and that are genuinely trustworthy and respectful of who we are as humans. The common threads: agency, diversity, choice.

Our task is to create a future for AI that is built around these values. We've started to rewire Mozilla to take on this task - and developed a new strategy focused just as much on AI as it is on the web. At the heart of this strategy is a double bottom line framework - a way to measure our progress against both mission and money:

Mozilla has always had an implicit double bottom line. The strategy we developed this year makes this double bottom line explicit - and ties it back to making AI more open and trustworthy. Over the next three years, all of the organizations in Mozilla's portfolio will design their strategies - and measure their success - against this double bottom line.

What will we build?

As we've rewired Mozilla, we've not only laid out a new strategy - we have also brought in new leaders and expanded our portfolio of responsible tech companies. This puts us on a strong footing. The next step is the most important one: building new things - real technology and products and services that start to carve a different path for AI.

While it is still early days, all of the organizations across Mozilla are well underway with this piece of the puzzle. Each is focused on at least one of three areas of focus in our strategy:

The classic versions of Firefox and Thunderbird are still at the heart of what Mozilla does. These remain our biggest areas of investment - and neither of these products will force you to use AI. At the same time, you will see much more from Mozilla on the AI front in coming years. And, you will see us invest in other double bottom line companies trying to point AI in a better direction.

We need to do this - together

These are the stakes: if we can't push AI in a better direction, the internet - a place where 6 billion of us now spend much of our lives - will get much much worse. If we want to shape the future of the web and the internet, we also need to shape the future of AI.

For Mozilla, whether or not to tackle this challenge isn't a question anymore. We need to do this. The question is: how? The high level strategy that I've laid out is our answer. It doesn't prescribe all the details - but it does give us a direction to point ourselves and our resources. Of course, we know there is still a HUGE amount to figure out as we build things - and we know that we can't do this alone.

Which means it's incredibly important to figure out: who can we walk beside? Who are our allies? The there is a growing community of people who believe the internet is alive and well - and who are dedicating themselves to bending the future of AI to keep it that way. They may not all use the same words or be building exactly the same thing, but a rebel alliance of sorts is gathering. Mozilla sees itself as part of this alliance. Our plan is to work with as many of you as possible. And to help the alliance grow - and win - just as we did in the web era.

You can read the full strategy document here. Next up in this series: Building A LAMP Stack for AI. Followed by: A Double Bottom Line for Tech and The Mozilla Manifesto in the Era of AI.

The post Rewiring Mozilla: Doing for AI what we did for the web appeared first on The Mozilla Blog.

20 Nov 2025 3:00pm GMT

Welcome back to the latest update on our progress with Thunderbird Pro, a set of additional subscription services designed to enhance the email client you know, while providing a powerful open-source alternative to many of the big tech offerings available today. These services include Appointment, an easy to use scheduling tool; Send, which offers end-to-end encrypted file sharing; and Thundermail, an email service from the Thunderbird team. If you'd like more information on the broader details of each service and the road to getting here you can read our past series of updates here. Do you want to receive these and other updates and be the first to know when Thunderbird Pro is available? Be sure to sign up for the waitlist.

With that said, here's how progress has shaped up on Thunderbird Pro since the last update.

Current Progress

Thundermail

It took a lot of work to get here, but Thundermail accounts are now in production testing. Internal testing with our own team members has begun, ensuring everything is in place for support and onboarding of the Early Bird wave of users. On the visual side, we've implemented improved designs for the new Thundermail dashboard, where users can view and edit their settings, including adding custom domains and aliases.

The new Thunderbird Pro add-on now features support for Thundermail, which will allow future users who sign-up through the add-on to automatically add their Thundermail account in Thunderbird. Work to boost infrastructure and security has also continued, and we've migrated our data hosting from the Americas to Germany and the EU where possible. We've also been improving our email delivery to reduce the chances of Thundermail messages landing in spam folders.

Appointment

The team has been busy with design work, getting Zoom and CalDAV better integrated, and addressing workflow, infrastructure, and bugs. Appointment received a major visual update in the past few months, which is being applied across all of Thunderbird Pro. While some of these updates have already been implemented, there's still lots of remodelling happening and under discussion - all in preparation for the Early Bird beta release.

Send

One of the main focuses for Send has been migrating it from its own add-on to the new Thunderbird Pro add-on, which will make using it in Thunderbird desktop much smoother. Progress continues on improving file safety through better reporting and prevention of illegal uploads. Our security review is now complete, with an external assessor validating all issues scheduled for fixing and once finalized, this report will be shared publicly with our community. Finally, we've refined the Send user experience by optimizing mobile performance, improving upload and download speeds, enhancing the first-time user flow, and much more.

Bringing it all together

Our new Thunderbird Pro website is now live, marking a major milestone in bringing the project to life. The website offers more details about Thunderbird Pro and serves as the first step for users to sign up, sign in and access their accounts.

Our initial subscription tier, the Early Bird Plan, priced at $9 per month, will include all three services: Thundermail, Send, and Appointment. Email hosting, file storage, and the security behind all of this come at a cost, and Thunderbird Pro will never be funded by selling user data, showing ads, or compromising its independence. This introductory rate directly supports Thunderbird Pro's early development and growth, positioning it for long-term sustainability. We will also be actively listening to your feedback and reviewing the pricing and plans we offer. Once the rough edges are smoothed out and we're ready to open the doors to everyone, we plan to introduce additional tiers to better meet the needs of all our users.

What's next

Thunderbird Pro is now awaiting its initial closed test run which will include a core group of community contributors. This group will help conduct a broader test and identify critical issues before we gradually open Early Bird access to our waitlist subscribers in waves. While these services will still be considered under active development, with your help this early release will continue to test and refine them for all future users.
Be sure you sign up for our Early Bird waitlist at tb.pro and help us shape the future of Thunderbird Pro. See you soon!

The post Thunderbird Pro November 2025 Update appeared first on The Thunderbird Blog.

20 Nov 2025 12:00pm GMT

TL;DR: rustc will use its own "v0" mangling scheme by default on nightly versions instead of the previous default, which re-used C++'s mangling scheme, starting in nightly-2025-11-21

Context

When Rust is compiled into object files and binaries, each item (functions, statics, etc) must have a globally unique "symbol" identifying it.

In C, the symbol name of a function is just the name that the function was defined with, such as strcmp. This is straightforward and easy to understand, but requires that each item have a globally unique name that doesn't overlap with any symbols from libraries that it is linked against. If two items had the same symbol then when the linker tried to resolve a symbol to an address in memory (of a function, say), then it wouldn't know which symbol is the correct one.

Languages like Rust and C++ define "symbol mangling schemes", leveraging information from the type system to give each item a unique symbol name. Without this, it would be possible to produce clashing symbols in a variety of ways - for example, every instantiation of a generic or templated function (or an overload in C++), which all have the same name in the surface language would end up with clashing symbols; or the same name in different modules, such as a::foo and b::foo would have clashing symbols.

Rust originally used a symbol mangling scheme based on the Itanium ABI's name mangling scheme used by C++ (sometimes). Over the years, it was extended in an inconsistent and ad-hoc way to support Rust features that the mangling scheme wasn't originally designed for. Rust's current legacy mangling scheme has a number of drawbacks:

• Information about generic parameter instantiations is lost during mangling
• It is internally inconsistent - some paths use an Itanium ABI-style encoding but some don't
• Symbol names can contain . characters which aren't supported on all platforms
• Symbol names include an opaque hash which depends on compiler internals and can't be easily replicated by other compilers or tools
• There is no straightforward way to differentiate between Rust and C++ symbols

If you've ever tried to use Rust with a debugger or a profiler and found it hard to work with because you couldn't work out which functions were which, it's probably because information was being lost in the mangling scheme.

Rust's compiler team started working on our own mangling scheme back in 2018 with RFC 2603 (see the "v0 Symbol Format" chapter in rustc book for our current documentation on the format). Our "v0" mangling scheme has multiple advantageous properties:

• An unambiguous encoding for everything that can end up in a binary's symbol table
• Information about generic parameters are encoded in a reversible way
• Mangled symbols are decodable such that it should be possible to identify concrete instances of generic functions
• It doesn't rely on compiler internals
• Symbols are restricted to only A-Z, a-z, 0-9 and _, helping ensure compatibility with tools on varied platforms
• It tries to stay efficient and avoid unnecessarily long names and computationally-expensive decoding

However, rustc is not the only tool that interacts with Rust symbol names: the aforementioned debuggers, profilers and other tools all need to be updated to understand Rust's v0 symbol mangling scheme so that Rust's users can continue to work with Rust binaries using all the tools they're used to without having to look at mangled symbols. Furthermore, all of those tools need to have new releases cut and then those releases need to be picked up by distros. This takes time!

Fortunately, the compiler team now believe that support for our v0 mangling scheme is now sufficiently widespread that it can start to be used by default by rustc.

Benefits

Reading Rust backtraces, or using Rust with debuggers, profilers and other tools that operate on compiled Rust code, will be able to output much more useful and readable names. This will especially help with async code, closures and generic functions.

It's easy to see the new mangling scheme in action, consider the following example:

fn foo<T>() {
    panic!()
}

fn main() {
    foo::<Vec<(String, &[u8; 123])>>();
}

With the legacy mangling scheme, all of the useful information about the generic instantiation of foo is lost in the symbol f::foo..

thread 'main' panicked at f.rs:2:5:
explicit panic
stack backtrace:
  0: std::panicking::begin_panic
    at /rustc/d6c...582/library/std/src/panicking.rs:769:5
  1: f::foo
  2: f::main
  3: core::ops::function::FnOnce::call_once
note: Some details are omitted, run with `RUST_BACKTRACE=full` for a verbose backtrace.

..but with the v0 mangling scheme, the useful details of the generic instantiation are preserved with f::foo::<alloc::vec::Vec<(alloc::string::String, &[u8; 123])>>:

thread 'main' panicked at f.rs:2:5:
explicit panic
stack backtrace:
  0: std::panicking::begin_panic
    at /rustc/d6c...582/library/std/src/panicking.rs:769:5
  1: f::foo::<alloc::vec::Vec<(alloc::string::String, &[u8; 123])>>
  2: f::main
  3: <fn() as core::ops::function::FnOnce<()>>::call_once
note: Some details are omitted, run with `RUST_BACKTRACE=full` for a verbose backtrace.

Possible drawbacks

Symbols using the v0 mangling scheme can be larger than symbols with the legacy mangling scheme, which can result in a slight increase in linking times and binary sizes if symbols aren't stripped (which they aren't by default). Fortunately this impact should be minor, especially with modern linkers like lld, which Rust will now default to on some targets.

Some old versions of tools/distros or niche tools that the compiler team are unaware of may not have had support for the v0 mangling scheme added. When using these tools, the only consequence is that users may encounter mangled symbols. rustfilt can be used to demangle Rust symbols if a tool does not.

In any case, using the new mangling scheme can be disabled if any problem occurs: use the -Csymbol-mangling-version=legacy -Zunstable-options flag to revert to using the legacy mangling scheme.

Explicitly enabling the legacy mangling scheme requires nightly, it is not intended to be stabilised so that support can eventually be removed.

Adding v0 support in your tools

If you maintain a tool that interacts with Rust symbols and does not support the v0 mangling scheme, there are Rust and C implementations of a v0 symbol demangler available in the rust-lang/rustc-demangle repository that can be integrated into your project.

Summary

rustc will use our "v0" mangling scheme on nightly for all targets starting in tomorrow's rustup nightly (nightly-2025-11-21).

Let us know if you encounter problems, by opening an issue on GitHub.

If that happens, you can use the legacy mangling scheme with the -Csymbol-mangling-version=legacy -Zunstable-options flag. Either by adding it to the usual RUSTFLAGS environment variable, or to a project's .cargo/config.toml configuration file, like so:

[build]
rustflags = ["-Csymbol-mangling-version=legacy", "-Zunstable-options"]

If you like the sound of the new symbol mangling version and would like to start using it on stable or beta channels of Rust, then you can similarly use the -Csymbol-mangling-version=v0 flag today via RUSTFLAGS or .cargo/config.toml:

[build]
rustflags = ["-Csymbol-mangling-version=v0"]

20 Nov 2025 12:00am GMT

Note: I cross-posted this to the Bytecode Alliance blog.

Function inlining is one of the most important compiler optimizations, not because of its direct effects, but because of the follow-up optimizations it unlocks. It may reveal, for example, that an otherwise-unknown function parameter value is bound to a constant argument, which makes a conditional branch unconditional, which in turn exposes that the function will always return the same value. Inlining is the catalyst of modern compiler optimization.

Wasmtime is a WebAssembly runtime that focuses on safety and fast Wasm execution. But despite that focus on speed, Wasmtime has historically chosen not to perform inlining in its optimizing compiler backend, Cranelift. There were two reasons for this surprising decision: first, Cranelift is a per-function compiler designed such that Wasmtime can compile all of a Wasm module's functions in parallel. Inlining is inter-procedural and requires synchronization between function compilations; that synchronization reduces parallelism. Second, Wasm modules are generally produced by an optimizing toolchain, like LLVM, that already did all the beneficial inlining. Any calls remaining in the module will not benefit from inlining - perhaps they are on slow paths marked [[unlikely]] or the callee is annotated with #[inline(never)]. But WebAssembly's component model changes this calculus.

With the component model, developers can compose multiple Wasm modules - each produced by different toolchains - into a single program. Those toolchains only had a local view of the call graph, limited to their own module, and they couldn't see cross-module or fused adapter function definitions. None of them, therefore, had an opportunity to inline calls to such functions. Only the Wasm runtime's compiler, which has the final, complete call graph and function definitions in hand, has that opportunity.

Therefore we implemented function inlining in Wasmtime and Cranelift. Its initial implementation landed in Wasmtime version 36, however, it remains off-by-default and is still baking. You can test it out via the -C inlining=y command-line flag or the wasmtime::Config::compiler_inlining method. The rest of this article describes function inlining in more detail, digs into the guts of our implementation and rationale for its design choices, and finally looks at some early performance results.

Function Inlining

Function inlining is a compiler optimization where a call to a function f is replaced by a copy of f's body. This removes function call overheads (spilling caller-save registers, setting up the call frame, etc…) which can be beneficial on its own. But inlining's main benefits are indirect: it enables subsequent optimization of f's body in the context of the call site. That context is important - a parameter's previously unknown value might be bound to a constant argument and exposing that to the optimizer might cascade into a large code clean up.

Consider the following example, where function g calls function f:

fn f(x: u32) -> bool {
    return x < u32::MAX / 2;
}

fn g() -> u32 {
    let a = 42;
    if f(a) {
        return a;
    } else {
        return 0;
    }
}

After inlining the call to f, function g looks something like this:

fn g() -> u32 {
    let a = 42;

    let x = a;
    let f_result = x < u32::MAX / 2;

    if f_result {
        return a;
    } else {
        return 0;
    }
}

Now the whole subexpression that defines f_result only depends on constant values, so the optimizer can replace that subexpression with its known value:

fn g() -> u32 {
    let a = 42;

    let f_result = true;
    if f_result {
        return a;
    } else {
        return 0;
    }
}

This reveals that the if-else conditional will, in fact, unconditionally transfer control to the consequent, and g can be simplified into the following:

fn g() -> u32 {
    let a = 42;
    return a;
}

In isolation, inlining f was a marginal transformation. When considered holistically, however, it unlocked a plethora of subsequent simplifications that ultimately led to g returning a constant value rather than computing anything at run-time.

Implementation

Cranelift's unit of compilation is a single function, which Wasmtime leverages to compile each function in a Wasm module in parallel, speeding up compile times on multi-core systems. But inlining a function at a particular call site requires that function's definition, which implies parallelism-hurting synchronization or some other compromise, like additional read-only copies of function bodies. So this was the first goal of our implementation: to preserve as much parallelism as possible.

Additionally, although Cranelift is primarily developed for Wasmtime by Wasmtime's developers, it is independent from Wasmtime. It is a reusable library and is reused, for example, by the Rust project as an alternative backend for rustc. But a large part of inlining, in practice, are the heuristics for deciding when inlining a call is likely beneficial, and those heuristics can be domain specific. Wasmtime generally wants to leave most calls out-of-line, inlining only cross-module calls, while rustc wants something much more aggressive to boil away its Iterator combinators and the like. So our second implementation goal was to separate how we inline a function call from the decision of whether to inline that call.

These goals led us to a layered design where Cranelift has an optional inlining pass, but the Cranelift embedder (e.g. Wasmtime) must provide a callback to it. The inlining pass invokes the callback for each call site, the callback returns a command of either "leave the call as-is" or "here is a function body, replace the call with it". Cranelift is responsible for the inlining transformation and the embedder is responsible for deciding whether to inline a function call and, if so, getting that function's body (along with whatever synchronization that requires).

The mechanics of the inlining transformation - wiring arguments to parameters, renaming values, and copying instructions and basic blocks into the caller - are, well, mechanical. Cranelift makes extensive uses of arenas for various entities in its IR, and we begin by appending the callee's arenas to the caller's arenas, renaming entity references from the callee's arena indices to their new indices in the caller's arenas as we do so. Next we copy the callee's block layout into the caller and replace the original call instruction with a jump to the caller's inlined version of the callee's entry block. Cranelift uses block parameters, rather than phi nodes, so the call arguments simply become jump arguments. Finally, we translate each instruction from the callee into the caller. This is done via a pre-order traversal to ensure that we process value definitions before value uses, simplifying instruction operand rewriting. The changes to Wasmtime's compilation orchestration are more interesting.

The following pseudocode describes Wasmtime's compilation orchestration before Cranelift gained an inlining pass and also when inlining is disabled:

// Compile each function in parallel.
let objects = parallel map for func in wasm.functions {
    compile(func)
};

// Combine the functions into one region of executable memory, resolving
// relocations by mapping function references to PC-relative offsets.
return link(objects)

The naive way to update that process to use Cranelift's inlining pass might look something like this:

// Optionally perform some pre-inlining optimizations in parallel.
parallel for func in wasm.functions {
    pre_optimize(func);
}

// Do inlining sequentially.
for func in wasm.functions {
    func.inline(|f| if should_inline(f) {
        Some(wasm.functions[f])
    } else {
        None
    })
}

// And then proceed as before.
let objects = parallel map for func in wasm.functions {
    compile(func)
};
return link(objects)

Inlining is performed sequentially, rather than in parallel, which is a bummer. But if we tried to make that loop parallel by logically running each function's inlining pass in its own thread, then a callee function we are inlining might or might not have had its transitive function calls inlined already depending on the whims of the scheduler. That leads to non-deterministic output, and our compilation must be deterministic, so it's a non-starter.¹ But whether a function has already had transitive inlining done or not leads to another problem.

With this naive approach, we are either limited to one layer of inlining or else potentially duplicating inlining effort, repeatedly inlining e into f each time we inline f into g, h, and i. This is because f may come before or after g in our wasm.functions list. We would prefer it if f already contained e and was already optimized accordingly, so that every caller of f didn't have to redo that same work when inlining calls to f.

This suggests we should topologically sort our functions based on their call graph, so that we inline in a bottom-up manner, from leaf functions (those that do not call any others) towards root functions (those that are not called by any others, typically main and other top-level exported functions). Given a topological sort, we know that whenever we are inlining f into g either (a) f has already had its own inlining done or (b) f and g participate in a cycle. Case (a) is ideal: we aren't repeating any work because it's already been done. Case (b), when we find cycles, means that f and g are mutually recursive. We cannot fully inline recursive calls in general (just as you cannot fully unroll a loop in general) so we will simply avoid inlining these calls.² So topological sort avoids repeating work, but our inlining phase is still sequential.

At the heart of our proposed topological sort is a call graph traversal that visits callees before callers. To parallelize inlining, you could imagine that, while traversing the call graph, we track how many still-uninlined callees each caller function has. Then we batch all functions whose associated counts are currently zero (i.e. they aren't waiting on anything else to be inlined first) into a layer and process them in parallel. Next, we decrement each of their callers' counts and collect the next layer of ready-to-go functions, continuing until all functions have been processed.

let call_graph = CallGraph::new(wasm.functions);

let counts = { f: call_graph.num_callees_of(f) for f in wasm.functions };

let layer = [ f for f in wasm.functions if counts[f] == 0 ];
while layer is not empty {
    parallel for func in layer {
        func.inline(...);
    }

    let next_layer = [];
    for func in layer {
        for caller in call_graph.callers_of(func) {
            counts[caller] -= 1;
            if counts[caller] == 0 {
                next_layer.push(caller)
            }
        }
    }
    layer = next_layer;
}

This algorithm will leverage available parallelism, and it avoids repeating work via the same dependency-based scheduling that topological sorting did, but it has a flaw. It will not terminate when it encounters recursion cycles in the call graph. If function f calls function g which also calls f, for example, then it will not schedule either of them into a layer because they are both waiting for the other to be processed first. One way we can avoid this problem is by avoiding cycles.

If you partition a graph's nodes into disjoint sets, where each set contains every node reachable from every other node in that set, you get that graph's strongly-connected components (SCCs). If a node does not participate in a cycle, then it will be in its own singleton SCC. The members of a cycle, on the other hand, will all be grouped into the same SCC, since those nodes are all reachable from each other.

In the following example, the dotted boxes designate the graph's SCCs:

Ignoring edges between nodes within the same SCC, and only considering edges across SCCs, gives us the graph's condensation. The condensation is always acyclic, because the original graph's cycles are "hidden" within the SCCs.

Here is the condensation of the previous example:

We can adapt our parallel-inlining algorithm to operate on strongly-connected components, and now it will correctly terminate because we've removed all cycles. First, we find the call graph's SCCs and create the reverse (or transpose) condensation, where an edge a→b is flipped to b→a. We do this because we will query this graph to find the callers of a given function f, not the functions that f calls. I am not aware of an existing name for the reverse condensation, so, at Chris Fallin's brilliant suggestion, I have decided to call it an evaporation. From there, the algorithm largely remains as it was before, although we keep track of counts and layers by SCC rather than by function.

let call_graph = CallGraph::new(wasm.functions);
let components = StronglyConnectedComponents::new(call_graph);
let evaoporation = Evaporation::new(components);

let counts = { c: evaporation.num_callees_of(c) for c in components };

let layer = [ c for c in components if counts[c] == 0 ];
while layer is not empty {
    parallel for func in scc in layer {
        func.inline(...);
    }

    let next_layer = [];
    for scc in layer {
        for caller_scc in evaporation.callers_of(scc) {
            counts[caller_scc] -= 1;
            if counts[caller_scc] == 0 {
                next_layer.push(caller_scc);
            }
        }
    }
    layer = next_layer;
}

This is the algorithm we use in Wasmtime, modulo minor tweaks here and there to engineer some data structures and combine some loops. After parallel inlining, the rest of the compiler pipeline continues in parallel for each function, yielding unlinked machine code. Finally, we link all that together and resolve relocations, same as we did previously.

Heuristics are the only implementation detail left to discuss, but there isn't much to say that hasn't already been said. Wasmtime prefers not to inline calls within the same Wasm module, while cross-module calls are a strong hint that we should consider inlining. Beyond that, our heuristics are extremely naive at the moment, and only consider the code sizes of the caller and callee functions. There is a lot of room for improvement here, and we intend to make those improvements on-demand as people start playing with the inliner. For example, there are many things we don't consider in our heuristics today, but possibly should:

• Hints from WebAssembly's compilation-hints proposal
• The number of edges to a callee function in the call graph
• Whether any of a call's arguments are constants
• Whether the call is inside a loop or a block marked as "cold"
• Etc…

Some Initial Results

The speed up you get (or don't get) from enabling inlining is going to vary from program to program. Here are a couple synthetic benchmarks.

First, let's investigate the simplest case possible, a cross-module call of an empty function in a loop:

(component
  ;; Define one module, exporting an empty function `f`.
  (core module $M
    (func (export "f")
      nop
    )
  )

  ;; Define another module, importing `f`, and exporting a function
  ;; that calls `f` in a loop.
  (core module $N
    (import "m" "f" (func $f))
    (func (export "g") (param $counter i32)
      (loop $loop
        ;; When counter is zero, return.
        (if (i32.eq (local.get $counter) (i32.const 0))
          (then (return)))
        ;; Do our cross-module call.
        (call $f)
        ;; Decrement the counter and continue to the next iteration
        ;; of the loop.
        (local.set $counter (i32.sub (local.get $counter)
                                     (i32.const 1)))
        (br $loop))
    )
  )

  ;; Instantiate and link our modules.
  (core instance $m (instantiate $M))
  (core instance $n (instantiate $N (with "m" (instance $m))))

  ;; Lift and export the looping function.
  (func (export "g") (param "n" u32)
    (canon lift (core func $n "g"))
  )
)

We can inspect the machine code that this compiles down to via the wasmtime compile and wasmtime objdump commands. Let's focus only on the looping function. Without inlining, we see a loop around a call, as we would expect:

00000020 wasm[1]::function[1]:
        ;; Function prologue.
        20: pushq   %rbp
        21: movq    %rsp, %rbp

        ;; Check for stack overflow.
        24: movq    8(%rdi), %r10
        28: movq    0x10(%r10), %r10
        2c: addq    $0x30, %r10
        30: cmpq    %rsp, %r10
        33: ja      0x89

        ;; Allocate this function's stack frame, save callee-save
        ;; registers, and shuffle some registers.
        39: subq    $0x20, %rsp
        3d: movq    %rbx, (%rsp)
        41: movq    %r14, 8(%rsp)
        46: movq    %r15, 0x10(%rsp)
        4b: movq    0x40(%rdi), %rbx
        4f: movq    %rdi, %r15
        52: movq    %rdx, %r14

        ;; Begin loop.
        ;;
        ;; Test our counter for zero and break out if so.
        55: testl   %r14d, %r14d
        58: je      0x72
        ;; Do our cross-module call.
        5e: movq    %r15, %rsi
        61: movq    %rbx, %rdi
        64: callq   0
        ;; Decrement our counter.
        69: subl    $1, %r14d
        ;; Continue to the next iteration of the loop.
        6d: jmp     0x55

        ;; Function epilogue: restore callee-save registers and
        ;; deallocate this functions's stack frame.
        72: movq    (%rsp), %rbx
        76: movq    8(%rsp), %r14
        7b: movq    0x10(%rsp), %r15
        80: addq    $0x20, %rsp
        84: movq    %rbp, %rsp
        87: popq    %rbp
        88: retq

        ;; Out-of-line traps.
        89: ud2
            ╰─╼ trap: StackOverflow

When we enable inlining, then M::f gets inlined into N::g. Despite N::g becoming a leaf function, we will still push %rbp and all that in the prologue and pop it in the epilogue, because Wasmtime always enables frame pointers. But because it no longer needs to shuffle values into ABI argument registers or allocate any stack space, it doesn't need to do any explicit stack checks, and nearly all the rest of the code also goes away. All that is left is a loop decrementing a counter to zero:³

00000020 wasm[1]::function[1]:
        ;; Function prologue.
        20: pushq   %rbp
        21: movq    %rsp, %rbp

        ;; Loop.
        24: testl   %edx, %edx
        26: je      0x34
        2c: subl    $1, %edx
        2f: jmp     0x24

        ;; Function epilogue.
        34: movq    %rbp, %rsp
        37: popq    %rbp
        38: retq

With this simplest of examples, we can just count the difference in number of instructions in each loop body:

• 12 without inlining (7 in N::g and 5 in M::f which are 2 to push the frame pointer, 2 to pop it, and 1 to return)
• 4 with inlining

But we might as well verify that the inlined version really is faster via some quick-and-dirty benchmarking with hyperfine. This won't measure only Wasm execution time, it also measures spawning a whole Wasmtime process, loading code from disk, etc…, but it will work for our purposes if we crank up the number of iterations:

$ hyperfine \
    "wasmtime run --allow-precompiled -Cinlining=n --invoke 'g(100000000)' no-inline.cwasm" \
    "wasmtime run --allow-precompiled -Cinlining=y --invoke 'g(100000000)' yes-inline.cwasm"

Benchmark 1: wasmtime run --allow-precompiled -Cinlining=n --invoke 'g(100000000)' no-inline.cwasm
  Time (mean ± σ):     138.2 ms ±   9.6 ms    [User: 132.7 ms, System: 6.7 ms]
  Range (min … max):   128.7 ms … 167.7 ms    19 runs

Benchmark 2: wasmtime run --allow-precompiled -Cinlining=y --invoke 'g(100000000)' yes-inline.cwasm
  Time (mean ± σ):      37.5 ms ±   1.1 ms    [User: 33.0 ms, System: 5.8 ms]
  Range (min … max):    35.7 ms …  40.8 ms    77 runs

Summary
  'wasmtime run --allow-precompiled -Cinlining=y --invoke 'g(100000000)' yes-inline.cwasm' ran
    3.69 ± 0.28 times faster than 'wasmtime run --allow-precompiled -Cinlining=n --invoke 'g(100000000)' no-inline.cwasm'

Okay so if we measure Wasm doing almost nothing but empty function calls and then we measure again after removing function call overhead, we get a big speed up - it would be disappointing if we didn't! But maybe we can benchmark something a tiny bit more realistic.

A program that we commonly reach for when benchmarking is a small wrapper around the pulldown-cmark markdown library that parses the CommonMark specification (which is itself written in markdown) and renders that to HTML. This is Real World™ code operating on Real World™ inputs that matches Real World™ use cases people have for Wasm. That is, good benchmarking is incredibly difficult, but this program is nonetheless a pretty good candidate for inclusion in our corpus. There's just one hiccup: in order for our inliner to activate normally, we need a program using components and making cross-module calls, and this program doesn't do that. But we don't have a good corpus of such benchmarks yet because this kind of component composition is still relatively new, so let's keep using our pulldown-cmark program but measure our inliner's effects via a more circuitous route.

Wasmtime has tunables to enable the inlining of intra-module calls⁴ and rustc and LLVM have tunables for disabling inlining⁵. Therefore we can roughly estimate the speed ups our inliner might unlock on a similar, but extensively componentized and cross-module calling, program by:

• Disabling inlining when compiling the Rust source code to Wasm

• Compiling the resulting Wasm binary to native code with Wasmtime twice: once with inlining disabled, and once with intra-module call inlining enabled

• Comparing those two different compilations' execution speeds

Running this experiment with Sightglass, our internal benchmarking infrastructure and tooling, yields the following results:

execution :: instructions-retired :: pulldown-cmark.wasm

  Δ = 7329995.35 ± 2.47 (confidence = 99%)

  with-inlining is 1.26x to 1.26x faster than without-inlining!

  [35729153 35729164.72 35729173] without-inlining
  [28399156 28399169.37 28399179] with-inlining

Conclusion

Wasmtime and Cranelift now have a function inliner! Test it out via the -C inlining=y command-line flag or via the wasmtime::Config::compiler_inlining method. Let us know if you run into any bugs or whether you see any speed-ups when running Wasm components containing multiple core modules.

Thanks to Chris Fallin and Graydon Hoare for reading early drafts of this piece and providing valuable feedback. Any errors that remain are my own.

19 Nov 2025 8:00am 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.

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Updates from Rust Community

Official

• Launching the 2025 State of Rust Survey
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• Project goals update - October 2025
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Newsletters

• Scientific Computing in Rust #12 (November 2025)
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Project/Tooling Updates

• GuardianDB v0.11.28
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Observations/Thoughts

• [audio] Netstack.FM Episode 14 - Roto And Cascade with Terts and Arya from NLnet Labs
• Improving the Incremental System in the Rust Compiler
• Truly First-Class Custom Smart Pointers
• Pinning is a kind of static borrow
• Rust in Android: move fast and fix things
• Match it again Sam
• Humanity is stained by the sins of C and no LLM can rewrite them away to Rust
• UV and Ruff: Turbocharging Python Development with Rust-Powered Tools
• A Function Inliner for Wasmtime and Cranelift

Rust Walkthroughs

• Rust Unit Tests: Assertion libraries
• Rust Unit Tests: Using a mocking library
• A Practical Guide to Transitioning to Memory-Safe Languages
• Building WebSocket Protocol in Apache Iggy using io_uring and Completion Based I/O Architecture
• Building serverless applications with Rust on AWS Lambda
• Disallow code usage with a custom clippy.toml

Miscellaneous

• Absurd Rust? Never!
• [video] Linus Torvalds - Speaks up on the Rust Divide and saying NO
• October 2025 Rust Jobs Report
• Rust's Strategic Advantage

Crate of the Week

This week's crate is cargo cat, a cargo-subcommand to put a random ascii cat face on your terminal.

Thanks to Alejandra Gonzáles for the self-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, Rust language RFCs or Rustup.

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

RFCs

Rust

Rustup

If you are a feature implementer and would like your RFC to appear on the above list, add the new 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.

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.

• GuardianDB - Create and translate documentation to English
• GuardianDB - Increase test coverage (currently 13%)
• GuardianDB - Create cohesive usage examples
• GuardianDB - Backend Iroh IPFS Node

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.

• Rustikon 2026| CFP closes 2025-11-24 | Warsaw, Poland | 2025-03-19 - 2025-03-20 | Event Website
• TokioConf 2026| CFP closes 2025-12-08 | Portland, Oregon, USA | 2026-04-20
• RustWeek 2026| CFP closes 2025-12-31 | Utrecht, The Netherlands | 2026-05-19 - 2026-05-20

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!

Updates from the Rust Project

427 pull requests were merged in the last week

Compiler

• add new function_casts_as_integer lint
• miri: initial implementation of wildcard provenence for tree borrows

Library

• new format_args!() and fmt::Arguments implementation
• vec_recycle: implementation
• implement Read::read_array
• stabilize char_max_len
• stabilize duration_from_nanos_u128
• stabilize extern_system_varargs
• stabilize vec_into_raw_parts
• constify ManuallyDrop::take
• constify mem::take
• remove rustc_inherit_overflow_checks from position() in slice iterators

Cargo

• cli: add support for completing --config values in Bash
• tree: support long forms for --format variables
• config: fallback to non-canonical path for workspace-path-hash
• manifest: point out when a key belongs to config
• package: all tar entries timestamp be the same
• do not lock the artifact-dir for check builds
• add unstable rustc-unicode flag

Rustdoc

• Fix invalid jump to def macro link generation
• don't ignore path distance for doc aliases
• don't pass RenderOptions to DocContext
• microoptimize render_item, move stuff out of common path
• quality of life changes

Clippy

• ok_expect: add autofix
• {unnecessary, panicking}_unwrap: lint field accesses
• equatable_if_let: don't suggest = in const context
• rc_buffer: don't touch the path to Rc/Arc in the suggestion
• incompatible_msrv: don't check the contents of any std macro
• add a doc_paragraphs_missing_punctuation lint
• fix single_range_in_vec_init false positive for explicit Range
• fix sliced_string_as_bytes false positive with a RangeFull
• fix website history interactions
• rework missing_docs_in_private_items

Rust-Analyzer

• fix removed feature doc_auto_cfg for smol_str lib

Rust Compiler Performance Triage

Positive week, most notably because of the new format_args!() and fmt::Arguments implementation from #148789. Another notable improvement came from moving some computations from one compiler stage to another to save memory and unnecessary tree traversals in #148706

Triage done by @panstromek. Revision range: 055d0d6a..6159a440

Summary:

2 Regressions, 4 Improvements, 10 Mixed; 4 of them in rollups 48 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

• Stabilize -Zremap-path-scope
• misc coercion cleanups and handle safety correctly

Compiler Team (MCPs only)

• Contracts: primitive ownership assertions: owned and block

No Items entered Final Comment Period this week for Cargo, Rust RFCs, Language Team, 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.

New and Updated RFCs

• No New or Updated RFCs were created this week.

Upcoming Events

Rusty Events between 2025-11-19 - 2025-12-17 🦀

Virtual

• 2025-11-19 | Hybrid (Vancouver, BC, CA) | Vancouver Rust
  • Rust Study/Hack/Hang-out
• 2025-11-19 | Virtual (Girona, ES) | Rust Girona
  • Sessió setmanal de codificació / Weekly coding session
• 2025-11-20 | Hybrid (Seattle, WA, US) | Seattle Rust User Group
  • November, 2025 SRUG (Seattle Rust User Group) Meetup
• 2025-11-20 | Virtual (Berlin, DE) | Rust Berlin
  • Rust Hack and Learn
• 2025-11-20 | Virtual (Charlottesville, VA, US) | Charlottesville Rust Meetup
  • Tock, a Rust based Operating System Part #1
• 2025-11-23 | Virtual (Dallas, TX, US) | Dallas Rust User Meetup
  • Rust Readers Discord Discussion: Macros
• 2025-11-25 | Virtual (Boulder, CO, US) | Boulder Elixir
  • Integrating Elixir and Apache DataFusion with Rustler
• 2025-11-25 | Virtual (Dallas, TX, US) | Dallas Rust User Meetup
  • Fourth Tuesday
• 2025-11-25 | Virtual (London, UK) | Women in Rust
  • Data-Intensive Systems in Rust: Safety, Speed, Concurrency
• 2025-11-26 | Virtual (Girona, ES) | Rust Girona | Silicon Girona
  • Sessió setmanal de codificació / Weekly coding session
• 2025-11-27 | Virtual (Buenos Aires, AR) | Rust en Español
  • Meet de Noviembre - Async Runtimes, parte 2!
• 2025-11-30 | Virtual (Dallas, TX, US) | Dallas Rust User Meetup
  • Rust Readers Discord Discussion: Macros
• 2025-12-02 | Virtual (London, UK) | Women in Rust
  • Advent of Code - Kick Off!
• 2025-12-03 | Virtual (Buffalo, NY, US) | Buffalo Rust Meetup
  • Buffalo Rust User Group
• 2025-12-03 | Virtual (Indianapolis, IN, US) | Indy Rust
  • Indy.rs - with Social Distancing
• 2025-12-04 | Virtual (Berlin, DE) | Rust Berlin
  • Rust Hack and Learn
• 2025-12-05 | Virtual (Cardiff, UK) | Rust and C++ Cardiff
  • Rust & C++ Christmas Game Jam Kick-Off!
• 2025-12-06 | Virtual (Kampala, UG) | Rust Circle Meetup
  • Rust Circle Meetup
• 2025-12-07 | Virtual (Cardiff, UK) | Rust and C++ Cardiff
  • Rust & C++ Christmas Game Jam Finale
• 2025-12-09 | Virtual (Dallas, TX, US) | Dallas Rust User Meetup
  • Second Tuesday
• 2025-12-10 | Virtual (Girona, ES) | Rust Girona
  • Sessió setmanal de codificació / Weekly coding session
• 2025-12-11 | Hybrid (Seattle, WA, US) | Seattle Rust User Group
  • December, 2025 SRUG (Seattle Rust User Group) Meetup
• 2025-12-11 | Virtual (Nürnberg, DE) | Rust Nuremberg
  • Rust Nürnberg online
• 2025-12-16 | Virtual (Washington, DC, US) | Rust DC
  • Mid-month Rustful
• 2025-12-17 | Hybrid (Vancouver, BC, CA) | Vancouver Rust
  • Rust Study/Hack/Hang-out
• 2025-12-17 | Virtual (Girona, ES) | Rust Girona
  • Sessió setmanal de codificació / Weekly coding session

Asia

• 2025-11-20 | Tokyo, JP | Tokyo Rust Meetup
  • Tracing Rust at Scale

Europe

• 2025-11-19 | Ostrava, CZ | TechMeetup Ostrava
  • QA Circle
• 2025-11-20 | Aarhus, DK | Rust Aarhus
  • Social Night
• 2025-11-20 | Amsterdam, NL | Rust Developers Amsterdam Group
  • Rust Meetup @ Monumental X Zed
• 2025-11-20 | Luzern, CH | Rust Luzern
  • 2025 Rust Talks Luzern #3: Crate Walkthroughs @ Noser Engineering AG
• 2025-11-26 | Bern, CH | Rust Bern
  • 2025 Rust Talks Bern #5 @Source Engineers
• 2025-11-27 | Augsburg, DE | Rust Meetup Augsburg
  • Rust Meetup #16: Christian Meusel - Oxidizing Step by Step
• 2025-11-27 | Barcelona, ES | BcnRust
  • 19th BcnRust Meetup
• 2025-11-27 | Edinburgh, UK | Rust and Friends
  • Exotically Sized Types, and Rust in Space at Spire!
• 2025-11-28 | Prague, CZ | Rust Prague
  • Rust Meetup Prague @ Barclays
• 2025-12-03 | Girona, ES | Rust Girona
  • Rust Girona Hack & Learn 12 2025
• 2025-12-03 | Oxford, UK | Oxford ACCU/Rust Meetup.
  • Rust/ACCU meetup.
• 2025-12-08 | Paris, FR | Rust Paris
  • Rust meetup #81
• 2025-12-10 | München, DE | Rust Munich
  • Rust Munich 2025 / 4 - Hacking Evening
• 2025-12-10 | Reading, UK | Reading Rust Workshop
  • Reading Rust Meetup
• 2025-12-16 | Leipzig, SN, DE | Rust - Modern Systems Programming in Leipzig
  • Topic TBD

North America

• 2025-11-19 | Hybrid (Vancouver, BC, CA) | Vancouver Rust
  • Rust Study/Hack/Hang-out
• 2025-11-20 | Hybrid (Seattle, WA, US) | Seattle Rust User Group
  • November, 2025 SRUG (Seattle Rust User Group) Meetup
• 2025-11-20 | Spokane, WA, US | Spokane Rust
  • Monthly Rust Meetup: Embedded Primer & Free-Coding
• 2025-11-23 | Boston, MA, US | Boston Rust Meetup
  • Inman Rust Lunch & Hackathon, Nov 23
• 2025-11-26 | Austin, TX, US | Rust ATX
  • Rust Lunch - Fareground
• 2025-11-26 | Phoenix, AZ, US | Desert Rust
  • Booze.rs
• 2025-11-27 | Mountain View, CA, US | Hacker Dojo
  • RUST MEETUP at HACKER DOJO
• 2025-11-29 | Boston, MA, US | Boston Rust Meetup
  • Harvard Square Rust Lunch, Nov 29
• 2025-12-02 | Chicago, IL, US | Chicago Rust Meetup
  • Rust Talk December
• 2025-12-04 | México City, MX | Rust MX
  • Optimizando rendimiento de Python con Rust
• 2025-12-04 | Saint Louis, MO, US | STL Rust
  • Actix Web Unleashed: Mastering State, Security, and Scalable Handlers in Rust
• 2025-12-05 | New York, NY, US | Rust NYC
  • Rust NYC Unconf 2025: Our Biggest Event Yet!
• 2025-12-06 | Boston, MA, US | Boston Rust Meetup
  • Downtown Rust Lunch, Dec 6
• 2025-12-11 | Hybrid (Seattle, WA, US) | Seattle Rust User Group
  • December, 2025 SRUG (Seattle Rust User Group) Meetup
• 2025-12-11 | Lehi, UT, US | Utah Rust
  • Competetive Robotics with Rust
• 2025-12-11 | San Diego, CA, US | San Diego Rust
  • San Diego Rust December Meetup - Back in person!
• 2025-12-13 | Boston, MA, US | Boston Rust Meetup
  • Alewife Rust Lunch, Dec 13
• 2025-12-16 | San Francisco, CA, US | San Francisco Rust Study Group
  • Rust Hacking in Person
• 2025-12-17 | Hybrid (Vancouver, BC, CA) | Vancouver Rust
  • Rust Study/Hack/Hang-out

Oceania

• 2025-12-11 | Brisbane City, QL, AU | Rust Brisbane
  • Rust Meetup Dec 2025

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

We adopted Rust for its security and are seeing a 1000x reduction in memory safety vulnerability density compared to Android's C and C++ code. But the biggest surprise was Rust's impact on software delivery. With Rust changes having a 4x lower rollback rate and spending 25% less time in code review, the safer path is now also the faster one.

- Jeff Vander Stoep on the Google Android blog

Thanks to binarycat for the suggestion!

Please submit quotes and vote for next week!

This Week in Rust is edited by:

• nellshamrell
• llogiq
• ericseppanen
• extrawurst
• U007D
• mariannegoldin
• bdillo
• opeolluwa
• bnchi
• KannanPalani57
• tzilist

Email list hosting is sponsored by The Rust Foundation

Discuss on r/rust

19 Nov 2025 5:00am GMT

The Rust project is currently working towards a slate of 41 project goals, with 13 of them designated as Flagship Goals. This post provides selected updates on our progress towards these goals (or, in some cases, lack thereof). The full details for any particular goal are available in its associated tracking issue on the rust-project-goals repository.

Flagship goals

"Beyond the `&`"

"Flexible, fast(er) compilation"

"Higher-level Rust"

"Unblocking dormant traits"

trait Subtrait: Supertrait {
    auto impl Supertrait {
        // Supertrait items defined in terms of Subtrait items, if any
    }
}

impl Supertrait for MyType {}
impl Subtrait for MyType {
    // Required in order to manually write `Supertrait` for MyType.
    extern impl Supertrait;
}

Goals looking for help

No goals listed.

Other goal updates

19 Nov 2025 12:00am GMT

The Rust project is currently working towards a slate of 41 project goals, with 13 of them designated as Flagship Goals. This post provides selected updates on our progress towards these goals (or, in some cases, lack thereof). The full details for any particular goal are available in its associated tracking issue on the rust-project-goals repository.

Flagship goals

"Beyond the `&`"

fn project_free_standing<F: Field>(_: Field, r: &F::Base) -> &F::Type { ... }

// can now call the function without turbofish:
let my_field = project_free_standing(field_of!(MyStruct, my_field), &my_struct);

fn add(x: cell::RefMut<'_, i32>, step: i32) {
    *x = *x + step;
}

struct Point {
    x: i32,
    y: i32,
}

fn example(p: cell::RefMut<'_, Point>) {
    let y: cell::Ref<'_, i32> = coerce_shared!(p.[@y][]);
    let y2 = coerce_shared!(p.[@y][]); // can project twice if both are coerced
    add(p.[Devon Peticolas][], *y);
    add(p.[Devon Peticolas][], *y2);
    assert_eq!(*y, *y2); // can still use them afterwards
}

// still need a common super trait for `Project` & `ProjectMut`
pub trait Projectable {
    type Target: ?Sized;
}

pub unsafe trait Project: Projectable {
    type Output<F: Field<Base = Self::Target>>;

    unsafe fn project<F: Field<Base = Self::Target>>(
        this: *const Self,
    ) -> Self::Output<F>;
}

pub unsafe trait Project: Projectable {
    type Output<F>;

    unsafe fn project<const OFFSET: usize, F>(
        this: *const Self,
    ) -> Self::Output<F>;
}

pub struct Work<T, const ID: u64> { ... }

struct MyDriver {
    data: Arc<MyData>,
    main_work: Work<Self, 0>,
    aux_work: Work<Self, 1>,
    // more fields ...
}

// Then you call a macro to implement the unsafe `HasWork` trait safely.
// It asserts that there is a field of type `Work<MyDriver, 0>` at the given field
// (and also exposes its offset).
impl_has_work!(impl HasWork<MyDriver, 0> for MyDriver { self.main_work });
impl_has_work!(impl HasWork<MyDriver, 1> for MyDriver { self.aux_work });

// Then you implement `WorkItem` twice:

impl WorkItem<0> for MyDriver {
    type Pointer = Arc<Self>;

    fn run(this: Self::Pointer) {
        println!("doing the main work here");
    }
}

impl WorkItem<1> for MyDriver {
    type Pointer = Arc<Self>;

    fn run(this: Self::Pointer) {
        println!("doing the aux work here");
    }
}

// And finally you can call `enqueue` on a `Queue`:

let my_driver = Arc::new(MyDriver::new());
let queue: &'static Queue = kernel::workqueue::system_highpri();
queue.enqueue::<_, 0>(my_driver.clone()).expect("my_driver is not yet enqueued for id 0");

// there are different queues
let queue = kernel::workqueue::system_long();
queue.enqueue::<_, 1>(my_driver.clone()).expect("my_driver is not yet enqueued for id 1");

// cannot insert multiple times:
assert!(queue.enqueue::<_, 1>(my_driver.clone()).is_err());

struct MyDriver {
    data: Arc<MyData>,
    main_work: Work<field_of!(Self, main_work)>,
    aux_work: Work<field_of!(Self, aux_work)>,
    // more fields ...
}

impl WorkItem<field_of!(MyDriver, main_work)> for MyDriver {
    type Pointer = Arc<Self>;

    fn run(this: Self::Pointer) {
        println!("doing the main work here");
    }
}

impl WorkItem<field_of!(MyDriver, aux_work)> for MyDriver {
    type Pointer = Arc<Self>;

    fn run(this: Self::Pointer) {
        println!("doing the aux work here");
    }
}

let my_driver = Arc::new(MyDriver::new());
let queue: &'static Queue = kernel::workqueue::system_highpri();
queue
    .enqueue(my_driver.clone(), field_of!(MyDriver, main_work))
    //                          ^ using Gary's idea to avoid turbofish
    .expect("my_driver is not yet enqueued for main_work");

let queue = kernel::workqueue::system_long();
queue
    .enqueue(my_driver.clone(), field_of!(MyDriver, aux_work))
    .expect("my_driver is not yet enqueued for aux_work");

assert!(queue.enqueue(my_driver.clone(), field_of!(MyDriver, aux_work)).is_err());

// governs conversion of `Self` to `Narrowed<F>` & replaces Projectable
pub unsafe trait NarrowPointee {
    type Target;

    type Narrowed<F: Field<Base = Self::Target>>;
}

pub trait Project: NarrowPointee {
    type Output<F: Field<Base = Self::Type>>;

    fn project(narrowed: Self::Narrowed<F>) -> Self::Output<F>;
}

unsafe impl<'a, T> NarrowPointee for RefMut<'a, T> {
    type Target = T;
    type Narrowed<F: Field<Base = T>> = RefMut<'a, T.F>;
}

"Flexible, fast(er) compilation"

"Higher-level Rust"

let actor1 = async move(reply_tx.handle()) {
    reply_tx.send(...);
};
let actor2 = async move(reply_tx.handle()) {
    reply_tx.send(...);
};

let actor1 = {
    let reply_tx = reply_tx.handle();
    async move(reply_tx.handle()) {
        reply_tx.send(...);
    }
};

let actor1 = async move {
    reply_tx.handle().send(...);
    //       -------- due to optimizations, this would capture the handle creation to happen only when future is *created*
};

let actor1 = async move {
    reply_tx.handle().send(some_id.clone());
    //                     -------- the `some_id.clone()` would occur at future creation time
};

"Unblocking dormant traits"

Goals looking for help

Other goal updates

    use crate::{
        fmt,
        page::AsPageIter,
    };

    use crate::{fmt, page::AsPageIter};

    use crate::{
        fmt,
        page::AsPageIter, //
    };

trait Marker {} // cannot be implemented by extern types

trait NotQuiteMarker {
    fn dummy(&self) {
        let s = size_of_val(self);
    }
}

19 Nov 2025 12:00am GMT

If your organization uses Microsoft Exchange-based email, you'll be happy to hear that Thunderbird's latest monthly Release version 145, now officially supports native access via the Exchange Web Services (EWS) protocol. With EWS now built directly into Thunderbird, a third-party add-on is no longer required for email functionality. Calendar and address book support for Exchange accounts remain on the roadmap, but email integration is here and ready to use!

What changes for Thunderbird users

Until now, Thunderbird users in Exchange hosted environments often relied on IMAP/POP protocols or third-party extensions. With full native Exchange support for email, Thunderbird now works more seamlessly in Exchange environments, including full folder listings, message synchronization, folder management both locally and on the server, attachment handling, and more. This simplifies life for users who depend on Exchange for email but prefer Thunderbird as their client.

How to get started

For many people switching from Outlook to Thunderbird, the most common setup involves Microsoft-hosted Exchange accounts such as Microsoft 365 or Office 365. Thunderbird now uses Microsoft's standard sign-in process (OAuth2) and automatically detects your account settings, so you can start using your email right away without any extra setup.

If this applies to you, setup is straightforward:

1. Create a new account in Thunderbird 145 or newer.
2. In the new Account Hub, select Exchange (or Exchange Web Services in legacy setup).
3. Let Thunderbird handle the rest!

Important note: If you see something different, or need more details or advice, please see our support page and wiki page. Also, some authentication configurations are not supported yet and you may need to wait for a further update that expands compatibility, please refer to the table below for more details.

What functionality is supported now and what's coming soon

As mentioned earlier, EWS support in version 145 currently enables email functionality only. Calendar and address book integration are in active development and will be added in future releases. The chart below provides an at-a-glance view of what's supported today.

Feature area	Supported now	Not yet supported
Email - account setup & folder access	Creating accounts via auto-config with EWS, server-side folder manipulation	-
Email - message operations	Viewing messages, sending, replying/forwarding, moving/copying/deleting	-
Email - attachments	Attachments can be saved and displayed with detach/delete support.	-
Search & filtering	Search subject and body, quick filtering	Filter actions requiring full body content are not yet supported.
Accounts hosted on Microsoft 365	Domains using the standard Microsoft OAuth2 endpoint	Domains requiring custom OAuth2 application and tenant IDs will be supported in the future.
Accounts hosted on-premise	Password-based Basic authentication	Password-based NTLM authentication and OAuth2 for on-premise servers are on the roadmap.
Calendar support	-	Not yet implemented - calendar syncing is on the roadmap.
Address book / contacts support	-	Not yet implemented - address book support is on the roadmap.
Microsoft Graph support	-	Not yet implemented - Microsoft Graph integration will be added in the future.