Arti is a project to produce an embeddable, production-quality implementation of the Tor anonymity protocols in the Rust programming language.
This is the README for the Arti project as a whole. If you want find more practical information you might want to check out these links:
-
The README for the
arti
binary crate, which includes instructions for how to run Arti with Tor Browser.
Rust is more secure than C. Despite our efforts, it's all too simple to mess up when using a language that does not enforce memory safety. We estimate that at least half of our tracked security vulnerabilities would have been impossible in Rust, and many of the others would have been very unlikely.
Rust enables faster development than C. Because of Rust's expressiveness and strong guarantees, we've found that we can be far more efficient and confident writing code in Rust. We hope that in the long run this will improve the pace of our software development.
Arti is more flexible than our C tor implementation. Unlike our C tor
,
which was designed as SOCKS proxy originally, and whose integration features
were later "bolted on", Arti is designed from the ground up to work as a
modular, embeddable library that other applications can use.
Arti is cleaner than our C tor implementation. Although we've tried to develop C tor well, we've learned a lot since we started it back in 2002. There are lots of places in the current C codebase where complicated "spaghetti" relationships between different pieces of code make our software needlessly hard to understand and improve.
Arti can connect to the Tor network, bootstrap a view of the Tor directory, and make anonymized connections over the network. Now that Arti has reached version 1.0.0, we believe it is suitable for actual use to anonymise connections.
There are a number of areas (especially at the lower layers) where APIs
(especially internal APIs) are not stable,
and are likely to change them.
Right now that includes the command line interface to the arti
program.
And of course it's still very new so there are likely to be bugs.
Arti can act as a SOCKS proxy that uses the Tor network.
We expect to be providing official binaries soon. But, for now, you need to obtain a Rust development environment, and build it yourself.
To try it out, compile and run the arti
binary using the below. It will open a
SOCKS proxy on port 9150.
$ cargo run -p arti --locked --release -- proxy
You can build a binary (but not run it) with:
$ cargo build -p arti --locked --release
The result can be found as target/release/arti
.
⚠ Safety Note: if you are using the default build options,
the compiler will include filesystem path information in the
binary that it generates. If your path is sensitive (for example,
because it includes your username), you will want to take steps
to prevent this. See doc/safer-build.md
for more information.
If you run into any trouble building the program, please have a look at the troubleshooting guide.
Arti has a number of configurable Cargo features that, among other things, can affect which asynchronous runtime to use.
See in the Arti crate-level docs for details.
The arti
command line utility is built on top of the
arti_client
library (and its dependencies).
That library's API will allow you to make connections over the Tor network, and obtain streams/sinks usable from async Rust.
We make fairly frequent semver bumps the Arti library API,
and to our lower-level crates.
However, in practice, we don't often make disruptive changes
that aren't easy to sort out in a dependency.
When using Arti as a library, you should be prepared to make regular updates,
bumping your versions requirement, not just cargo update
.
cargo upgrade
can help with this.
See our version update and API compatibility policy for more details.
Our current Minimum Supported Rust Version (MSRV) is 1.77.
When increasing this MSRV, we won't require any Rust version released in the last six months. (That is, we'll only require Rust versions released at least six months ago.)
We will not increase MSRV on PATCH releases, though our dependencies might.
We won't increase MSRV just because we can: we'll only do so when we have a reason. (We don't guarantee that you'll agree with our reasoning; only that it will exist.)
Have a look at our contributor guidelines.
Thanks to a generous grant from Zcash Open Major Grants (ZOMG), we're able to devote some significant time to Arti in the years 2021-2022. Here is our rough set of plans for what we hope to deliver when.
The goal times below are complete imagination, based on broad assumptions about developer availability. Please don't take them too seriously until we can get our project manager to sign off on them.
-
Arti 0.0.1: Minimal Secure Client (Goal: end of October 2021??)
- Target audience: developers
- Guard support
- Stream Isolation
- High test coverage
- Draft APIs for basic usage
- Code cleanups
- and more...
-
Arti 0.1.0: Okay for experimental embedding (Goal: Mid March, 2022??)
- Target audience: beta testers
- Performance: preemptive circuit construction
- Performance: circuit build timeout inference
- API support for embedding
- API support for status reporting
- Correct timeout behavior
- and more...
-
Arti 1.0.0: Initial stable release (Goal: Mid September, 2022??)
- Target audience: initial users
- Stable API (mostly)
- Stable CLI
- Stable configuration format
- Automatic detection and response of more kinds of network problems
- At least as secure as C Tor
- Client performance similar to C Tor
- More performance work
- and more...
-
Arti 1.1.0: Anti-censorship features (Goal: End of October, 2022?)
- Target audience: censored users
- Bridges
- Pluggable transports
- and more...?
-
Arti ~1.2.0: Onion service support (Goal: End of 2023)
- Client support (for connecting to onion services)
- Service support (for running onion services)
- Full security features (for production-ready quality)
-
Arti ~2.0.0: Feature parity with C tor as a client (Goal: Mid 2024)
-
Arti ?.?.?: Relay support
When you find bugs, please report them on our bugtracker. If you don't already have an account there, you can either request an account or report a bug anonymously.
See CONTRIBUTING.md
for a few ideas for how to get
started.
This code is licensed under either of
at your option.
However, some optional parts are licensed under the GNU Lesser General
Public License, version 3.0,
as indicated in the Cargo.toml
.
This applies to crates/equix
and crates/hashx
.
See LGPL-and-rust.md
for discussion of issues concerning redistributing binaries
containing these crates.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.
(The above notice, or something like it, seems to be pretty standard in Rust projects, so I'm using it here too. This instance of it is copied from the RustCrypto project's README.md file.)