6.2 KiB
Hacking on Rust in Tor
Getting Started
Please read or review our documentation on Rust coding standards
(.../doc/HACKING/CodingStandardsRust.md
) before doing anything.
Please also read the Rust Code of Conduct. We aim to follow the good example set by the Rust community and be excellent to one another. Let's be careful with each other, so we can be memory-safe together!
Next, please contact us before rewriting anything! Rust in Tor is still an experiment. It is an experiment that we very much want to see succeed, so we're going slowly and carefully. For the moment, it's also a completely volunteer-driven effort: while many, if not most, of us are paid to work on Tor, we are not yet funded to write Rust code for Tor. Please be patient with the other people who are working on getting more Rust code into Tor, because they are graciously donating their free time to contribute to this effort.
Resources for learning Rust
Beginning resources
The primary resource for learning Rust is The Book. If you'd like to start writing Rust immediately, without waiting for anything to install, there is an interactive browser-based playground.
Advanced resources
If you're interested in playing with various Rust compilers and viewing a very nicely displayed output of the generated assembly, there is the Godbolt compiler explorer
For learning how to write unsafe Rust, read The Rustonomicon.
For learning everything you ever wanted to know about Rust macros, there is The Little Book of Rust Macros.
For learning more about FFI and Rust, see Jake Goulding's Rust FFI Omnibus.
Compiling Tor with Rust enabled
You will need to run the configure
script with the --enable-rust
flag to
explicitly build with Rust. Additionally, you will need to specify where to
fetch Rust dependencies, as we allow for either fetching dependencies from Cargo
or specifying a local directory.
Fetch dependencies from Cargo
./configure --enable-rust --enable-cargo-online-mode
Using a local dependency cache
You'll need the following Rust dependencies (as of this writing):
libc==0.2.22
We vendor our Rust dependencies in a separate repo using cargo-vendor. To use them, do:
git submodule init
git submodule update
To specify the local directory containing the dependencies, (assuming you are in the top level of the repository) configure tor with:
TOR_RUST_DEPENDENCIES='path_to_dependencies_directory' ./configure --enable-rust
(Note that RUST_DEPENDENCIES must be the full path to the directory; it cannot be relative.)
Assuming you used the above git submodule
commands and you're in the topmost
directory of the repository, this would be:
TOR_RUST_DEPENDENCIES=`pwd`/src/ext/rust/crates ./configure --enable-rust
Identifying which modules to rewrite
The places in the Tor codebase that are good candidates for porting to Rust are:
- loosely coupled to other Tor submodules,
- have high test coverage, and
- would benefit from being implemented in a memory safe language.
Help in either identifying places such as this, or working to improve existing areas of the C codebase by adding regression tests and simplifying dependencies, would be really helpful.
Furthermore, as submodules in C are implemented in Rust, this is a good opportunity to refactor, add more tests, and split modules into smaller areas of responsibility.
A good first step is to build a module-level callgraph to understand how interconnected your target module is.
git clone https://git.torproject.org/user/nickm/calltool.git
cd tor
CFLAGS=0 ./configure
../calltool/src/main.py module_callgraph
The output will tell you each module name, along with a set of every module that the module calls. Modules which call fewer other modules are better targets.
Writing your Rust module
Strive to change the C API as little as possible.
We are currently targeting Rust nightly, for now. We expect this to change
moving forward, as we understand more about which nightly features we need. It
is on our TODO list to try to cultivate good standing with various distro
maintainers of rustc
and cargo
, in order to ensure that whatever version we
solidify on is readily available.
If parts of your Rust code needs to stay in sync with C code (such as handling enums across the FFI boundary), annonotate these places in a comment structured as follows:
/// C_RUST_COUPLED: <path_to_file> <name_of_c_object>
Where <name_of_c_object> can be an enum, struct, constant, etc. Then, do the same in the C code, to note that rust will need to be changed when the C does.
Adding your Rust module to Tor's build system
- Your translation of the C module should live in its own crate(s)
in the
.../tor/src/rust/
directory. - Add your crate to
.../tor/src/rust/Cargo.toml
, in the[workspace.members]
section. - Add your crate's files to src/rust/include.am
If your crate should be available to C (rather than just being included as a
dependency of other Rust modules):
0. Declare the crate as a dependency of tor_rust in
src/rust/tor_util/Cargo.toml
and include it in
src/rust/tor_rust/lib.rs
How to test your Rust code
Everything should be tested full stop. Even non-public functionality.
Be sure to edit .../tor/src/test/test_rust.sh
to add the name of your crate to
the crates
variable! This will ensure that cargo test
is run on your crate.
Configure Tor's build system to build with Rust enabled:
./configure --enable-fatal-warnings --enable-rust --enable-cargo-online-mode
Tor's test should be run by doing:
make check
Tor's integration tests should also pass:
make test-stem
Submitting a patch
Please follow the instructions in .../doc/HACKING/GettingStarted.md
.