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Contributing to rust-bitcoin
👍🎉 First off, thanks for taking the time to contribute! 🎉👍
The following is a set of guidelines for contributing to Rust Bitcoin implementation and other Rust Bitcoin-related projects, which are hosted in the Rust Bitcoin Community on GitHub. These are mostly guidelines, not rules. Use your best judgment, and feel free to propose changes to this document in a pull request.
Table Of Contents
- General
- Communication channels
- Asking questions
- Contribution workflow
- Coding conventions
- Security
- Testing
- Going further
General
The Rust Bitcoin project operates an open contributor model where anyone is welcome to contribute towards development in the form of peer review, documentation, testing and patches.
Anyone is invited to contribute without regard to technical experience, "expertise", OSS experience, age, or other concern. However, the development of standards & reference implementations demands a high-level of rigor, adversarial thinking, thorough testing and risk-minimization. Any bug may cost users real money. That being said, we deeply welcome people contributing for the first time to an open source project or pick up Rust while contributing. Don't be shy, you'll learn.
Communication channels
Communication about Rust Bitcoin happens primarily in #bitcoin-rust IRC chat on Libera with the logs available at https://gnusha.org/bitcoin-rust/ (starting from Jun 2021 and now on) and https://gnusha.org/rust-bitcoin/ (historical archive before Jun 2021).
Discussion about code base improvements happens in GitHub issues and on pull requests.
Major projects are tracked here. Major milestones are tracked here.
Asking questions
Note: Please don't file an issue to ask a question. You'll get faster results by using the resources below.
We have a dedicated developer channel on IRC, #bitcoin-rust@libera.chat where you may get helpful advice if you have questions.
Contribution workflow
The codebase is maintained using the "contributor workflow" where everyone without exception contributes patch proposals using "pull requests". This facilitates social contribution, easy testing and peer review.
To contribute a patch, the workflow is a as follows:
- Fork Repository
- Create topic branch
- Commit patches
Please keep commits should atomic and diffs easy to read. For this reason do not mix any formatting fixes or code moves with actual code changes. Further, each commit, individually, should compile and pass tests, in order to ensure git bisect and other automated tools function properly.
Please cover every new feature with unit tests.
When refactoring, structure your PR to make it easy to review and don't hesitate to split it into multiple small, focused PRs.
Commits should cover both the issue fixed and the solution's rationale. Please keep these guidelines in mind.
To facilitate communication with other contributors, the project is making use of GitHub's "assignee" field. First check that no one is assigned and then comment suggesting that you're working on it. If someone is already assigned, don't hesitate to ask if the assigned party or previous commenters are still working on it if it has been awhile.
Preparing PRs
The main library development happens in the master
branch. This branch must
always compile without errors (using GitHub CI). All external contributions are
made within PRs into this branch.
Prerequisites that a PR must satisfy for merging into the master
branch:
- each commit within a PR must compile and pass unit tests with no errors, with every feature combination (including compiling the fuzztests) on some reasonably recent compiler (this is partially automated with CI, so the rule is that we will not accept commits which do not pass GitHub CI);
- the tip of any PR branch must also compile and pass tests with no errors on MSRV (check [README.md] on current MSRV requirements) and pass fuzz tests on nightly rust;
- contain all necessary tests for the introduced functional (either as a part of commits, or, more preferably, as separate commits, so that it's easy to reorder them during review and check that the new tests fail without the new code);
- contain all inline docs for newly introduced API and pass doc tests;
- be based on the recent
master
tip from the original repository at https://github.com/rust-bitcoin/rust-bitcoin.
NB: reviewers may run more complex test/CI scripts, thus, satisfying all the
requirements above is just a preliminary, but not necessary sufficient step for
getting the PR accepted as a valid candidate PR for the master
branch.
PR authors may also find it useful to run the following script locally in order to check that each of the commits within the PR satisfies the requirements above, before submitting the PR to review:
RUSTUP_TOOLCHAIN=1.41.1 ./contrib/test.sh
Please replace the value in RUSTUP_TOOLCHAIN=1.41.1
with the current MSRV from
[README.md].
NB: Please keep in mind that the script above replaces Cargo.lock
file, which
is necessary to support current MSRV, incompatible with stable
and newer cargo
versions.
Peer review
Anyone may participate in peer review which is expressed by comments in the pull request. Typically, reviewers will review the code for obvious errors, as well as test out the patch set and opine on the technical merits of the patch. Please, first review PR on the conceptual level before focusing on code style or grammar fixes.
Repository maintainers
Pull request merge requirements:
- all CI test should pass,
- at least two "accepts"/ACKs from the repository maintainers (see "refactor carve-out").
- no reasonable "rejects"/NACKs from anybody who reviewed the code.
Current list of the project maintainers:
- Andrew Poelstra
- Steven Roose
- Matt Corallo
- Elichai Turkel
- Sanket Kanjalkar
- Martin Habovštiak
- Riccardo Casatta
- Tobin Harding
Refactor carve-out
The repository is going through heavy refactoring and "trivial" API redesign
(eg, rename Foo::empty
to Foo::new
) as we push towards API stabilization. As
such reviewers are either bored or overloaded with notifications, hence we have
created a carve out to the 2-ACK rule.
A PR may be considered for merge if it has a single ACK and has sat open for at least two weeks with no comments, questions, or NACKs.
One ACK carve-out
We reserve the right to merge PRs with a single ACK [0], at any time, if they match any of the following conditions:
- PR only touches CI i.e, only changes any of the
test.sh
scripts and/or stuff in.github/workflows
. - Non-content changing documentation fixes i.e., grammar/typos, spelling, full stops, capital letters. Any change with more substance must still get two ACKs.
- Code moves that do not change the API e.g., moving error types to a private submodule and re-exporting them from the original module. Must not include any code changes except to import paths. This rule is more restrictive than the refactor carve-out. It requires absolutely no change to the public API.
[0] - Obviously author and ACK'er must not be the same person.
Coding conventions
Library reflects Bitcoin Core approach whenever possible.
Naming conventions
Naming of data structures/enums and their fields/variants must follow names used in Bitcoin Core, with the following exceptions:
- the case should follow Rust standards (i.e. PascalCase for types and snake_case for fields and variants);
- omit
C
-prefixes.
Upgrading dependencies
If your change requires a dependency to be upgraded you must do the following:
- Modify
Cargo.toml
- Copy
Cargo-minimal.lock
toCargo.lock
- Trigger cargo to update the required entries in the lock file - use
--precise
using the minimum version number that works - Test your change
- Copy
Cargo.lock
toCargo-minimal.lock
- Update
Cargo-recent.lock
if it is also behind - Commit both lock files together with
Cargo.toml
and your code changes
Unsafe code
Use of unsafe
code is prohibited unless there is a unanimous decision among
library maintainers on the exclusion from this rule. In such cases there is a
requirement to test unsafe code with sanitizers including Miri.
Policy
We have various rust-bitcoin
specific coding styles and conventions that are
grouped here loosely under the term 'policy'. These are things we try to adhere
to but that you should not need to worry too much about if you are a new
contributor. Think of this as a place to collect group knowledge that exists in
the various PRs over the last few years.
Import statements
We use the following style for import statements, see (https://github.com/rust-bitcoin/rust-bitcoin/discussions/2088) for the discussion that led to this.
// Modules first, as they are part of the project's structure.
pub mod aa_this;
mod bb_private;
pub mod cc_that;
// Private imports, rustfmt will sort and merge them correctly.
use crate::aa_this::{This, That};
use crate::bb_that;
// Public re-exports.
#[rustfmt::skip] // Keeps public re-exports separate, because of this we have to sort manually.
pub use {
crate::aa_aa_this,
crate::bb_bb::That,
}
Return Self
Use Self
as the return type instead of naming the type. When constructing the return value use
Self
or the type name, whichever you prefer.
/// A counter that is always smaller than 100.
pub struct Counter(u32);
impl Counter {
/// Constructs a new `Counter`.
pub fn new() -> Self { Self(0) }
/// Returns a counter if it is possible to create one from x.
pub fn maybe(x: u32) -> Option<Self> {
match x {
x if x >= 100 => None,
c => Some(Counter(c)),
}
}
}
impl TryFrom<u32> for Counter {
type Error = TooBigError;
fn try_from(x: u32) -> Result<Self, Self::Error> {
if x >= 100 {
return Err(TooBigError);
}
Ok(Counter(x))
}
}
When constructing the return value for error enums use Self
.
impl From<foo::Error> for LongDescriptiveError {
fn from(e: foo::Error) -> Self { Self::Foo(e) }
}
Errors
Return as much context as possible with errors e.g., if an error was encountered parsing a string include the string in the returned error type. If a function consumes costly-to-compute input (allocations are also considered costly) it should return the input back in the error type.
More specifically an error should
- be
non_exhaustive
unless we really never want to change it. - have private fields unless we are very confident they won't change.
- derive
Debug, Clone, PartialEq, Eq
(andCopy
iff notnon_exhaustive
). - implement Display using
write_err!()
macro if a variant contains an inner error source. - have
Error
suffix - implement
std::error::Error
if they are public (feature gated on "std").
/// Documentation for the `Error` type.
#[derive(Debug, Clone, PartialEq, Eq)]
#[non_exhaustive] // Add liberally; if the error type may ever have new variants added.
pub enum Error {
/// Documentation for variant A.
A,
/// Documentation for variant B.
B,
}
Rustdocs
Be liberal with references to BIPs or other documentation; the aim is that devs can learn about Bitcoin by hacking on this codebase as opposed to having to learn about Bitcoin first and then start hacking on this codebase. Consider the following format, not all sections will be required for all types.
/// The Bitcoin foobar.
///
/// Contains all the data used when passing a foobar around the Bitcoin network.
///
/// <details>
/// <summary>FooBar Original Design</summary>
///
/// The foobar was introduced in Bitcoin x.y.z to increase the amount of foo in bar.
///
/// </details>
///
/// ### Relevant BIPs
///
/// * [BIP X - FooBar in Bitcoin](https://github.com/bitcoin/bips/blob/master/bip-0000.mediawiki)
pub struct FooBar {
/// The version in use.
pub version: Version
}
Do use rustdoc subheadings. Do put an empty newline below each heading e.g.,
impl FooBar {
/// Constructs a `FooBar` from a [`Baz`].
///
/// # Errors
///
/// Returns an error if `Baz` is not ...
///
/// # Panics
///
/// If the `Baz`, converted to a `usize`, is out of bounds.
pub fn from_baz(baz: Baz) -> Result<Self, Error> {
...
}
}
Add Panics section if any input to the function can trigger a panic.
Generally we prefer to have non-panicking APIs but it is impractical in some cases. If you're not sure, feel free to ask. If we determine panicking is more practical it must be documented. Internal panics that could theoretically occur because of bugs in our code must not be documented.
Attributes
-
#[track_caller]
: Used on functions that panic on invalid arguments (see https://rustc-dev-guide.rust-lang.org/backend/implicit-caller-location.html) -
#[cfg(rust_v_1_60)]
: Used to guard code that should only be built in if the toolchain is compatible. These configuration conditionals are set at build time inbitcoin/build.rs
. New version attributes may be added as needed.
Licensing
We use SPDX license tags, all files should start with
// SPDX-License-Identifier: CC0-1.0
Security
Security is the primary focus for this library; disclosure of security vulnerabilities helps prevent user loss of funds. If you believe a vulnerability may affect other implementations, please disclose this information according to the security guidelines, work on which is currently in progress. Before it is completed, feel free to send disclosure to Andrew Poelstra, apoelstra@wpsoftware.net, encrypted with his public key from https://www.wpsoftware.net/andrew/andrew.gpg.
Testing
Related to the security aspect, rust bitcoin developers take testing very seriously. Due to the modular nature of the project, writing new test cases is easy and good test coverage of the codebase is an important goal. Refactoring the project to enable fine-grained unit testing is also an ongoing effort.
Various methods of testing are in use (e.g. fuzzing, mutation), please see the readme for more information.
Going further
You may be interested in the guide by Jon Atack on How to review Bitcoin Core PRs and How to make Bitcoin Core PRs. While there are differences between the projects in terms of context and maturity, many of the suggestions offered apply to this project.
Overall, have fun :)