The Dash Core project operates an open contributor model where anyone is welcome to contribute towards development in the form of peer review, testing and patches. This document explains the practical process and guidelines for contributing.
First, in terms of structure, there is no particular concept of "Dash Core developers" in the sense of privileged people. Open source often naturally revolves around a meritocracy where contributors earn trust from the developer community over time. Nevertheless, some hierarchy is necessary for practical purposes. As such, there are repository "maintainers" who are responsible for merging pull requests, as well as a "lead maintainer" who is responsible for the release cycle as well as overall merging, moderation and appointment of maintainers.
New contributors are very welcome and needed.
Reviewing and testing is highly valued and the most effective way you can contribute as a new contributor. It also will teach you much more about the code and process than opening pull requests. Please refer to the peer review section below.
Before you start contributing, familiarize yourself with the Dash Core build system and tests. Refer to the documentation in the repository on how to build Dash Core and how to run the unit and functional tests.
There are many open issues of varying difficulty waiting to be fixed. If you're looking for somewhere to start contributing, check out the good first issue list. Some of them might no longer be applicable. So if you are interested, but unsure, you might want to leave a comment on the issue first.
The purpose of the good first issue
label is to highlight which issues are
suitable for a new contributor without a deep understanding of the codebase.
However, good first issues can be solved by anyone. If they remain unsolved for a longer time, a frequent contributor might address them.
You do not need to request permission to start working on an issue. However, you are encouraged to leave a comment if you are planning to work on it. This will help other contributors monitor which issues are actively being addressed and is also an effective way to request assistance if and when you need it.
Most communication about Dash Core development happens on Discord Server.
Discussion about codebase improvements happens in GitHub issues and pull requests.
The codebase is maintained using the "contributor workflow" where everyone without exception contributes patch proposals using "pull requests" (PRs). This facilitates social contribution, easy testing and peer review.
To contribute a patch, the workflow is as follows:
- Fork repository (only for the first time)
- Create topic branch
- Commit patches
The project coding conventions in the developer notes must be followed.
In general, commits should be atomic and diffs should be easy to read. For this reason, do not mix any formatting fixes or code moves with actual code changes.
Make sure each individual commit is hygienic: that it builds successfully on its own without warnings, errors, regressions, or test failures.
Commit messages should be verbose by default consisting of a short subject line (50 chars max), a blank line and detailed explanatory text as separate paragraph(s), unless the title alone is self-explanatory (like "Correct typo in init.cpp") in which case a single title line is sufficient. Commit messages should be helpful to people reading your code in the future, so explain the reasoning for your decisions. Further explanation here.
If a particular commit references another issue, please add the reference. For
example: refs #1234
or fixes #4321
. Using the fixes
or closes
keywords
will cause the corresponding issue to be closed when the pull request is merged.
Commit messages should never contain any @
mentions (usernames prefixed with "@").
Please refer to the Git manual for more information about Git.
- Push changes to your fork
- Create pull request
Pull request titles should follow the Conventional Commits specification which
uses the <type>(optional scope): <description>
scheme. Please see the
specification linked below for valid types. When making a change to a specific
component, please specify the name of the component inside the scope. For
example, if you are developing a new feature related to consensus, the PR title
should look like this: feat(consensus): amazing new feature
. Breaking changes
should be designated by appending an exclamation point after <type>(scope)
like this: feat(rpc)!: remove deprecated rpc
.
For more details on allowed types and more information about Conventional
Commits, please see the Conventional Commits
specification. In addition to
typical types, the backport
type should be used for bitcoin backport PRs. For
all available types and scopes, please see the
.github/semantic.yml file. Commonly used scopes ones
include:
- consensus for changes to consensus critical code
- log Changes to log messages
- mining for changes to the mining code
- net for changes to the peer-to-peer network code
- qt for changes to dash-qt
- rest for changes to the REST APIs
- rpc for changes to the RPC APIs
- scripts for changes to the scripts and tools
- utils for changes to the utils and libraries
- wallet for changes to the wallet code
- zmq for changes to the ZMQ APIs
- guix for changes to the GUIX reproducible builds
Examples:
feat(consensus): add new opcode for BIP-XXXX OP_CHECKAWESOMESIG
feat(net): automatically create onion service, listen on Tor
feat(qt): add feed bump button
fix(log): fix typo in log message
feat(rpc)!: modify gettransaction parameter type
The body of the pull request should contain sufficient description of what the patch does, and even more importantly, why, with justification and reasoning. You should include references to any discussions (for example, other issues or mailing list discussions).
The description for a new pull request should not contain any @
mentions. The
PR description will be included in the commit message when the PR is merged and
any users mentioned in the description will be annoyingly notified each time a
fork of Dash Core copies the merge. Instead, make any username mentions in a
subsequent comment to the PR.
Note that translations should not be submitted as pull requests. Please see Translation Process for more information on helping with translations.
If a pull request is not to be considered for merging (yet), please prefix the title with [WIP] or use Tasks Lists in the body of the pull request to indicate tasks are pending.
At this stage, one should expect comments and review from other contributors. You can add more commits to your pull request by committing them locally and pushing to your fork until you have satisfied all feedback.
Note: Code review is a burdensome but important part of the development process, and as such, certain types of pull requests are rejected. In general, if the improvements do not warrant the review effort required, the PR has a high chance of being rejected. It is up to the PR author to convince the reviewers that the changes warrant the review effort, and if reviewers are "Concept NACK'ing" the PR, the author may need to present arguments and/or do research backing their suggested changes.
If your pull request contains fixup commits (commits that change the same line of code repeatedly) or too fine-grained commits, you may be asked to squash your commits before it will be reviewed. The basic squashing workflow is shown below.
git checkout your_branch_name
git rebase -i HEAD~n
# n is normally the number of commits in the pull request.
# Set commits (except the one in the first line) from 'pick' to 'squash', save and quit.
# On the next screen, edit/refine commit messages.
# Save and quit.
git push -f # (force push to GitHub)
Please update the resulting commit message, if needed. It should read as a coherent message. In most cases, this means not just listing the interim commits.
If your change contains a merge commit, the above workflow may not work and you will need to remove the merge commit first. See the next section for details on how to rebase.
Please refrain from creating several pull requests for the same change. Use the pull request that is already open (or was created earlier) to amend changes. This preserves the discussion and review that happened earlier for the respective change set.
The length of time required for peer review is unpredictable and will vary from pull request to pull request.
When a pull request conflicts with the target branch, you may be asked to rebase it on top of the current target branch.
git fetch https://github.com/bitcoin/bitcoin # Fetch the latest upstream commit
git rebase FETCH_HEAD # Rebuild commits on top of the new base
Avoid rebasing a non-conflicting pull request on top of the updated target branch if you requested a review already. If you need to tweak some commit in the middle, please rebase your branch on top of the same commit it was originally based on. Non-conflicting pull requests should be rebased on top of the current target branch by maintainers only.
This project aims to have a clean git history, where code changes are only made in non-merge commits. This simplifies auditability because merge commits can be assumed to not contain arbitrary code changes. Merge commits should be signed, and the resulting git tree hash must be deterministic and reproducible. The script in /contrib/verify-commits checks that.
After a rebase, reviewers are encouraged to sign off on the force push. This should be relatively straightforward with
the git range-diff
tool explained in the productivity
notes. To avoid needless review churn, maintainers will
generally merge pull requests that received the most review attention first.
Patchsets should always be focused. For example, a pull request could add a feature, fix a bug, or refactor code; but not a mixture. Please also avoid super pull requests which attempt to do too much, are overly large, or overly complex as this makes review difficult.
When adding a new feature, thought must be given to the long term technical debt and maintenance that feature may require after inclusion. Before proposing a new feature that will require maintenance, please consider if you are willing to maintain it (including bug fixing). If features get orphaned with no maintainer in the future, they may be removed by the Repository Maintainer.
Refactoring is a necessary part of any software project's evolution. The following guidelines cover refactoring pull requests for the project.
There are three categories of refactoring: code-only moves, code style fixes, and code refactoring. In general, refactoring pull requests should not mix these three kinds of activities in order to make refactoring pull requests easy to review and uncontroversial. In all cases, refactoring PRs must not change the behaviour of code within the pull request (bugs must be preserved as is).
Project maintainers aim for a quick turnaround on refactoring pull requests, so where possible keep them short, uncomplex and easy to verify.
The following applies to code changes to the Dash Core project (and related projects such as libsecp256k1), and is not to be confused with overall Dash Network Protocol consensus changes.
Whether a pull request is merged into Dash Core rests with the project merge maintainers and ultimately the project lead.
Maintainers will take into consideration if a patch is in line with the general principles of the project; meets the minimum standards for inclusion; and will judge the general consensus of contributors.
In general, all pull requests must:
- Have a clear use case, fix a demonstrable bug or serve the greater good of the project (for example refactoring for modularisation);
- Be well peer-reviewed;
- Have unit tests, functional tests, and fuzz tests, where appropriate;
- Follow code style guidelines (C++, functional tests);
- Not break the existing test suite;
- Where bugs are fixed, where possible, there should be unit tests demonstrating the bug and also proving the fix. This helps prevent regression.
- Change relevant comments and documentation when behaviour of code changes.
Patches that change Dash consensus rules are considerably more involved than normal because they affect the entire ecosystem and so must be preceded by extensive mailing list discussions and have a numbered BIP. While each case will be different, one should be prepared to expend more time and effort than for other kinds of patches because of increased peer review and consensus building requirements.
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. Project maintainers take into account the peer review when determining if there is consensus to merge a pull request (remember that discussions may have been spread out over GitHub, mailing list and IRC discussions).
A review can be a conceptual review, where the reviewer leaves a comment
Concept (N)ACK
, meaning "I do (not) agree with the general goal of this pull request",Approach (N)ACK
, meaningConcept ACK
, but "I do (not) agree with the approach of this change".
After conceptual agreement on the change, code review can be provided. A review
begins with ACK BRANCH_COMMIT
, where BRANCH_COMMIT
is the top of the PR
branch, followed by a description of how the reviewer did the review. The
following language is used within pull request comments:
- (t)ACK means "I have tested the code and I agree it should be merged", involving change-specific manual testing in addition to running the unit, functional, or fuzz tests, and in case it is not obvious how the manual testing was done, it should be described;
- NACK means "I disagree this should be merged", and must be accompanied by sound technical justification (or in certain cases of copyright/patent/licensing issues, legal justification). NACKs without accompanying reasoning may be disregarded;
- utACK means "I have not tested the code, but I have reviewed it and it looks OK, I agree it can be merged";
- A "nit" refers to a trivial, often non-blocking issue.
Project maintainers reserve the right to weigh the opinions of peer reviewers using common sense judgement and may also weigh based on merit. Reviewers that have demonstrated a deeper commitment and understanding of the project over time or who have clear domain expertise may naturally have more weight, as one would expect in all walks of life.
Where a patch set affects consensus-critical code, the bar will be much higher in terms of discussion and peer review requirements, keeping in mind that mistakes could be very costly to the wider community. This includes refactoring of consensus-critical code.
Where a patch set proposes to change the Dash consensus, it must have been discussed extensively on the mailing list and IRC, be accompanied by a widely discussed BIP and have a generally widely perceived technical consensus of being a worthwhile change based on the judgement of the maintainers.
When someone rebases their PR, it can often be very difficult to ensure that
extra changes were not included in that force push. This changes could be anything
from merge conflicts to someone attempting to sneak something into the PR.
In order for git range-diff
to work, both the before and after commits must be
present locally. See chapter rebasing changes
The review process is normally fairly responsive on the Dash Core repository, however this might not always be the case. If you find that you've been waiting for a pull request to be given attention for several months, there may be a number of reasons for this, some of which you can do something about:
- It may be because of a feature freeze due to an upcoming release. During this time, only bug fixes are taken into consideration. If your pull request is a new feature, it will not be prioritized until after the release. Wait for the release.
- It may be because the changes you are suggesting do not appeal to people. Rather than nits and critique, which require effort and means they care enough to spend time on your contribution, thundering silence is a good sign of widespread (mild) dislike of a given change (because people don't assume others won't actually like the proposal). Don't take that personally, though! Instead, take another critical look at what you are suggesting and see if it: changes too much, is too broad, doesn't adhere to the developer notes, is dangerous or insecure, is messily written, etc. Identify and address any of the issues you find. Then ask e.g. on the forum or on a community discord if someone could give their opinion on the concept itself.
- It may be because your code is too complex for all but a few people, and those people may not have realized your pull request even exists. A great way to find people who are qualified and care about the code you are touching is the Git Blame feature. Simply look up who last modified the code you are changing and see if you can find them and give them a nudge. Don't be incessant about the nudging, though.
- Finally, if all else fails, ask on discord or elsewhere for someone to give your pull request a look. If you think you've been waiting for an unreasonably long time (say, more than a month) for no particular reason (a few lines changed, etc.), this is totally fine. Try to return the favor when someone else is asking for feedback on their code, and the universe balances out.
- Remember that the best thing you can do while waiting is give review to others!
Security and bug fixes can be backported from master
to release
branches.
If the backport is non-trivial, it may be appropriate to open an
additional PR to backport the change, but only after the original PR
has been merged.
Otherwise, backports will be done in batches and
the maintainers will use the proper Needs backport (...)
labels
when needed (the original author does not need to worry about it).
A backport should contain the following metadata in the commit body:
Github-Pull: #<PR number>
Rebased-From: <commit hash of the original commit>
Have a look at an example backport PR.
Also see the backport.py script.
Bitcoin Backports are an incredibly valuable part of Dash's development. Backporting allows us to easily implement new features, improvements and fixes as bitcoin implements them.
To see detailed statistics & progress see Google Sheet tracker: Bitcoin backports for Dash. You should use this sheet to find what PRs to backport and its commit.
To keep the spreadsheet up to date we need to pull merges made to Bitcoin for each version.
If you have not already, add the bitcoin repo as a remote:
git remote add bitcoin [email protected]:bitcoin/bitcoin.git
This allows you to easily cherry-pick merges and look into logs of bitcoin without switching directories.
To pull the most up-to-date merges first make sure bitcoin is up-to-date:
git fetch bitcoin
To create a text file with all the merges between two versions, use:
git log --first-parent --oneline bitcoin/<version_start>..bitcoin/<version_end> >> <filename>.txt
This will pull all the backports for <version_start>
up until <version_end>
.
<filename>
will be the name of the file the where all the merges are written to.
The command
git log --first-parent --oneline bitcoin/0.14..bitcoin/0.15 >> backports_0.14-0.15.txt
will pull all merges made to Bitcoin version 0.14 until the start of version 15 and write to backports_0.14-0.15.txt
.
In order to pull the most recent merges, that is, for a version that is not yet released, run:
git log --first-parent --oneline bitcoin/<cur_ver>..bitcoin/master >> <filename>.txt
this will pull all the merges made to Bitcoin since the release of the current version.
Opening the text file, you will notice that the merges are in ascending order with the most recent at the top. We need to reverse this order to allow us to merge them in order. Simply run:
tail -r <filename>.txt >> <filename>_rev.text
This will create a text file with all the original file's lines in descending order. We can now copy this file and paste the contents onto the Tracker.
When pasting the contents, make sure to split the values into the cells so every line is not present under commit hash.
The project leader is the release manager for each Dash Core release.
By contributing to this repository, you agree to license your work under the
MIT license unless specified otherwise in contrib/debian/copyright
or at
the top of the file itself. Any work contributed where you are not the original
author must contain its license header with the original author(s) and source.