The XRP Ledger has many and diverse stakeholders, and everyone deserves a chance to contribute meaningful changes to the code that runs the XRPL.
Contributing
We assume you are familiar with the general practice of making contributions on GitHub. This file includes only special instructions specific to this project.
Before you start
The following branches exist in the main project repository:
develop: The latest set of unreleased features, and the most common starting point for contributions.release: The latest beta release or release candidate.master: The latest stable release.gh-pages: The documentation for this project, built by Doxygen.
The tip of each branch must be signed. In order for GitHub to sign a squashed commit that it builds from your pull request, GitHub must know your verifying key. Please set up signature verification.
In general, external contributions should be developed in your personal fork. Contributions from developers with write permissions should be done in the main repository in a branch with a permitted prefix. Permitted prefixes are:
- XLS-[a-zA-Z0-9]+/.+
- e.g. XLS-0033d/mpt-clarify-STEitherAmount
- [GitHub username]/.+
- e.g. JoelKatz/fix-rpc-webhook-queue
- [Organization name]/.+
Regardless of where the branch is created, please open a draft pull request as soon as possible after pushing the branch to Github, to increase visibility, and ease feedback during the development process.
Major contributions
If your contribution is a major feature or breaking change, then you must first write an XRP Ledger Standard (XLS) describing it. Go to XRPL-Standards, choose the next available standard number, and open a discussion with an appropriate title to propose your draft standard.
When you submit a pull request, please link the corresponding XLS in the description. An XLS still in draft status is considered a work-in-progress and open for discussion. Please allow time for questions, suggestions, and changes to the XLS draft. It is the responsibility of the XLS author to update the draft to match the final implementation when its corresponding pull request is merged, unless the author delegates that responsibility to others.
Before making a pull request
(Or marking a draft pull request as ready.)
Changes that alter transaction processing must be guarded by an Amendment. All other changes that maintain the existing behavior do not need an Amendment.
Ensure that your code compiles according to the build instructions in `BUILD.md`.
Please write tests for your code. If your test can be run offline, in under 60 seconds, then it can be an automatic test run by rippled --unittest. Otherwise, it must be a manual test.
If you create new source files, they must be organized as follows:
- If the files are in any of the
libxrpl modules, the headers (.h) must go under include/xrpl, and source (.cpp) files must go under src/libxrpl.
- All other non-test files must go under
src/xrpld.
- All test source files must go under
src/test.
The source must be formatted according to the style guide below.
Header includes must be levelized.
Changes should be usually squashed down into a single commit. Some larger or more complicated change sets make more sense, and are easier to review if organized into multiple logical commits. Either way, all commits should fit the following criteria:
- Changes should be presented in a single commit or a logical sequence of commits. Specifically, chronological commits that simply reflect the history of how the author implemented the change, "warts and all", are not useful to reviewers.
- Every commit should have a good message. to explain a specific aspects of the change.
- Every commit should be signed.
- Every commit should be well-formed (builds successfully, unit tests passing), as this helps to resolve merge conflicts, and makes it easier to use
git bisect to find bugs.
Good commit messages
Refer to "How to Write a Git Commit Message" for general rules on writing a good commit message.
tl;dr
1. Separate subject from body with a blank line.
- Limit the subject line to 50 characters.
- [...]shoot for 50 characters, but consider 72 the hard limit.
- Capitalize the subject line.
- Do not end the subject line with a period.
- Use the imperative mood in the subject line.
- A properly formed Git commit subject line should always be able to complete the following sentence: "If applied, this commit will
_your subject line here_".
- Wrap the body at 72 characters.
- Use the body to explain what and why vs. how.
In addition to those guidelines, please add one of the following prefixes to the subject line if appropriate.
fix: - The primary purpose is to fix an existing bug.perf: - The primary purpose is performance improvements.refactor: - The changes refactor code without affecting functionality.test: - The changes only affect unit tests.docs: - The changes only affect documentation. This can include code comments in addition to .md files like this one.build: - The changes only affect the build process, including CMake and/or Conan settings.chore: - Other tasks that don't affect the binary, but don't fit any of the other cases. e.g. formatting, git settings, updating Github Actions jobs.
Whenever possible, when updating commits after the PR is open, please add the PR number to the end of the subject line. e.g. test: Add unit tests for Feature X (#1234).
Pull requests
In general, pull requests use develop as the base branch. The exceptions are
- Fixes and improvements to a release candidate use
release as the base.
- Hotfixes use
master as the base.
If your changes are not quite ready, but you want to make it easily available for preliminary examination or review, you can create a "Draft" pull request. While a pull request is marked as a "Draft", you can rebase or reorganize the commits in the pull request as desired.
Github pull requests are created as "Ready" by default, or you can mark a "Draft" pull request as "Ready". Once a pull request is marked as "Ready", any changes must be added as new commits. Do not force-push to a branch in a pull request under review. (This includes rebasing your branch onto the updated base branch. Use a merge operation, instead or hit the "Update branch" button at the bottom of the Github PR page.) This preserves the ability for reviewers to filter changes since their last review.
A pull request must obtain approvals from at least two reviewers before it can be considered for merge by a Maintainer. Maintainers retain discretion to require more approvals if they feel the credibility of the existing approvals is insufficient.
Pull requests must be merged by squash-and-merge to preserve a linear history for the develop branch.
"Ready to merge"
A pull request should only have the "Ready to merge" label added when it meets a few criteria:
- It must have two approving reviews as described above. (Exception: PRs that are deemed "trivial" only need one approval.)
- All CI checks must be complete and passed. (One-off failures may be acceptable if they are related to a known issue.)
- The PR must have a good commit message.
- If the PR started with a good commit message, and it doesn't need to be updated, the author can indicate that in a comment.
- Any contributor, preferably the author, can leave a comment suggesting a commit message.
- If the author squashes and rebases the code in preparation for merge, they should also ensure the commit message(s) are updated as well.
- The PR branch must be up to date with the base branch (usually
develop). This is usually accomplished by merging the base branch into the feature branch, but if the other criteria are met, the changes can be squashed and rebased on top of the base branch.
- Finally, and most importantly, the author of the PR must positively indicate that the PR is ready to merge. That can be accomplished by adding the "Ready to merge" label if their role allows, or by leaving a comment to the effect that the PR is ready to merge.
Once the "Ready to merge" label is added, a maintainer may merge the PR at any time, so don't use it lightly.
Style guide
This is a non-exhaustive list of recommended style guidelines. These are not always strictly enforced and serve as a way to keep the codebase coherent rather than a set of thou shalt not commandments.
Formatting
All code must conform to clang-format version 18, according to the settings in .clang-format, unless the result would be unreasonably difficult to read or maintain. To demarcate lines that should be left as-is, surround them with comments like this:
// clang-format off
...
// clang-format on
You can format individual files in place by running clang-format -i <file>... from any directory within this project.
There is a Continuous Integration job that runs clang-format on pull requests. If the code doesn't comply, a patch file that corrects auto-fixable formatting issues is generated.
To download the patch file:
- Next to
clang-format / check (pull_request) Failing after #s -> click Details to open the details page.
- Left menu -> click Summary
- Scroll down to near the bottom-right under
Artifacts -> click clang-format.patch
- Download the zip file and extract it to your local git repository. Run
git apply [patch-file-name].
- Commit and push.
You can install a pre-commit hook to automatically run clang-format before every commit:
pip3 install pre-commit
pre-commit install
Contracts and instrumentation
We are using Antithesis for continuous fuzzing, and keep a copy of Antithesis C++ SDK in external/antithesis-sdk. One of the aims of fuzzing is to identify bugs by finding external conditions which cause contracts violations inside rippled. The contracts are expressed as XRPL_ASSERT or UNREACHABLE (defined in include/xrpl/beast/utility/instrumentation.h), which are effectively (outside of Antithesis) wrappers for assert(...) with added name. The purpose of name is to provide contracts with stable identity which does not rely on line numbers.
When rippled is built with the Antithesis instrumentation enabled (using voidstar CMake option) and ran on the Antithesis platform, the contracts become test properties; otherwise they are just like a regular assert. To learn more about Antithesis, see How Antithesis Works and C++ SDK
We continue to use the old style assert or assert(false) in certain locations, where the reporting of contract violations on the Antithesis platform is either not possible or not useful.
For this reason:
- The locations where
assert or assert(false) contracts should continue to be used:
constexpr functions- unit tests i.e. files under
src/test
- unit tests-related modules (files under
beast/test and beast/unit_test)
- Outside of the listed locations, do not use
assert; use XRPL_ASSERT instead, giving it unique name, with the short description of the contract.
- Outside of the listed locations, do not use
assert(false); use UNREACHABLE instead, giving it unique name, with the description of the condition being violated
- The contract name should start with a full name (including scope) of the function, optionally a named lambda, followed by a colon
: and a brief (typically at most five words) description. UNREACHABLE contracts can use slightly longer descriptions. If there are multiple overloads of the function, use common sense to balance both brevity and unambiguity of the function name. NOTE: the purpose of name is to provide stable means of unique identification of every contract; for this reason try to avoid elements which can change in some obvious refactors or when reinforcing the condition.
- Contract description typically (except for
UNREACHABLE) should describe the expected condition, as in "I assert that _expected_ is true".
- Contract description for
UNREACHABLE should describe the unexpected situation which caused the line to have been reached.
- Example good name for an
UNREACHABLE macro "Json::operator==(Value, Value) : invalid type"; example good name for an XRPL_ASSERT macro "Json::Value::asCString : valid type".
- Example bad name
"RFC1751::insert(char* s, int x, int start, int length) : length is greater than or equal zero" (missing namespace, unnecessary full function signature, description too verbose). Good name: "ripple::RFC1751::insert : minimum length".
- In few well-justified cases a non-standard name can be used, in which case a comment should be placed to explain the rationale (example in
contract.cpp)
- Do not rename a contract without a good reason (e.g. the name no longer reflects the location or the condition being checked)
- Do not use
std::unreachable
- Do not put contracts where they can be violated by an external condition (e.g. timing, data payload before mandatory validation etc.) as this creates bogus bug reports (and causes crashes of Debug builds)
Unit Tests
To execute all unit tests:
(Note: Using multiple cores on a Mac M1 can cause spurious test failures. The
cause is still under investigation. If you observe this problem, try specifying fewer jobs.)
To run a specific set of test suites:
rippled –unittest TestSuiteName
Note: In this example, all tests with prefix `TestSuiteName` will be run, so if
`TestSuiteName1` and `TestSuiteName2` both exist, then both tests will run.
Alternatively, if the unit test name finds an exact match, it will stop
doing partial matches, i.e. if a unit test with a title of `TestSuiteName`
exists, then no other unit test will be executed, apart from `TestSuiteName`.
## Avoid
1. Proliferation of nearly identical code.
2. Proliferation of new files and classes.
3. Complex inheritance and complex OOP patterns.
4. Unmanaged memory allocation and raw pointers.
5. Macros and non-trivial templates (unless they add significant value).
6. Lambda patterns (unless these add significant value).
7. CPU or architecture-specific code unless there is a good reason to
include it, and where it is used, guard it with macros and provide
explanatory comments.
8. Importing new libraries unless there is a very good reason to do so.
## Seek to
9. Extend functionality of existing code rather than creating new code.
10. Prefer readability over terseness where important logic is
concerned.
11. Inline functions that are not used or are not likely to be used
elsewhere in the codebase.
12. Use clear and self-explanatory names for functions, variables,
structs and classes.
13. Use TitleCase for classes, structs and filenames, camelCase for
function and variable names, lower case for namespaces and folders.
14. Provide as many comments as you feel that a competent programmer
would need to understand what your code does.
# Maintainers
Maintainers are ecosystem participants with elevated access to the repository.
They are able to push new code, make decisions on when a release should be
made, etc.
## Adding and removing
New maintainers can be proposed by two existing maintainers, subject to a vote
by a quorum of the existing maintainers.
A minimum of 50% support and a 50% participation is required.
In the event of a tie vote, the addition of the new maintainer will be
rejected.
Existing maintainers can resign, or be subject to a vote for removal at the
behest of two existing maintainers.
A minimum of 60% agreement and 50% participation are required.
The XRP Ledger Foundation will have the ability, for cause, to remove an
existing maintainer without a vote.
## Current Maintainers
Maintainers are users with maintain or admin access to the repo.
* [bthomee](https://github.com/bthomee) (Ripple)
* [intelliot](https://github.com/intelliot) (Ripple)
* [JoelKatz](https://github.com/JoelKatz) (Ripple)
* [nixer89](https://github.com/nixer89) (XRP Ledger Foundation)
* [RichardAH](https://github.com/RichardAH) (XRP Ledger Foundation)
* [Silkjaer](https://github.com/Silkjaer) (XRP Ledger Foundation)
* [WietseWind](https://github.com/WietseWind) (XRPL Labs + XRP Ledger Foundation)
* [ximinez](https://github.com/ximinez) (Ripple)
## Current Code Reviewers
Code Reviewers are developers who have the ability to review, approve, and
in some cases merge source code changes.
* [HowardHinnant](https://github.com/HowardHinnant) (Ripple)
* [scottschurr](https://github.com/scottschurr) (Ripple)
* [seelabs](https://github.com/seelabs) (Ripple)
* [Ed Hennis](https://github.com/ximinez) (Ripple)
* [mvadari](https://github.com/mvadari) (Ripple)
* [thejohnfreeman](https://github.com/thejohnfreeman) (Ripple)
* [Bronek](https://github.com/Bronek) (Ripple)
* [manojsdoshi](https://github.com/manojsdoshi) (Ripple)
* [godexsoft](https://github.com/godexsoft) (Ripple)
* [mDuo13](https://github.com/mDuo13) (Ripple)
* [ckniffen](https://github.com/ckniffen) (Ripple)
* [arihantkothari](https://github.com/arihantkothari) (Ripple)
* [pwang200](https://github.com/pwang200) (Ripple)
* [sophiax851](https://github.com/sophiax851) (Ripple)
* [shawnxie999](https://github.com/shawnxie999) (Ripple)
* [gregtatcam](https://github.com/gregtatcam) (Ripple)
* [mtrippled](https://github.com/mtrippled) (Ripple)
* [ckeshava](https://github.com/ckeshava) (Ripple)
* [nbougalis](https://github.com/nbougalis) None
* [RichardAH](https://github.com/RichardAH) (XRPL Labs + XRP Ledger Foundation)
* [dangell7](https://github.com/dangell7) (XRPL Labs)
Developers not on this list are able and encouraged to submit feedback
on pending code changes (open pull requests).
## Instructions for maintainers
These instructions assume you have your git upstream remotes configured
to avoid accidental pushes to the main repo, and a remote group
specifying both of them. e.g.
$ git remote -v | grep upstream upstream https://github.com/XRPLF/rippled.git (fetch) upstream https://github.com/XRPLF/rippled.git (push) upstream-push git@g.nosp@m.ithu.nosp@m.b.com:XRPLF/rippled.git (fetch) upstream-push git@g.nosp@m.ithu.nosp@m.b.com:XRPLF/rippled.git (push)
$ git config remotes.upstreams upstream upstream-push
You can use the [setup-upstreams] script to set this up.
It also assumes you have a default gpg signing key set up in git. e.g.
$ git config user.signingkey 968479A1AFF927E37D1A566BB5690EEEBB952194
(This is github's key. Use your own.)
### When and how to merge pull requests
The maintainer should double-check that the PR has met all the
necessary criteria, and can request additional information from the
owner, or additional reviews, and can always feel free to remove the
"Ready to merge" label if appropriate. The maintainer has final say on
whether a PR gets merged, and are encouraged to communicate and issues
or concerns to other maintainers.
#### Most pull requests: "Squash and merge"
Most pull requests don't need special handling, and can simply be
merged using the "Squash and merge" button on the Github UI. Update
the suggested commit message, or modify it as needed.
#### Slightly more complicated pull requests
Some pull requests need to be pushed to `develop` as more than one
commit. A PR author may *request* to merge as separate commits. They
must *justify* why separate commits are needed, and *specify* how they
would like the commits to be merged. If you disagree with the author,
discuss it with them directly.
If the process is reasonable, follow it. The simplest option is to do a
fast forward only merge (`--ff-only`) on the command line and push to
`develop`.
Some examples of when separate commits are worthwhile are:
1. PRs where source files are reorganized in multiple steps.
2. PRs where the commits are mostly independent and *could* be separate
PRs, but are pulled together into one PR under a commit theme or
issue.
3. PRs that are complicated enough that `git bisect` would not be much
help if it determined this PR introduced a problem.
Either way, check that:
* The commits are based on the current tip of `develop`.
* The commits are clean: No merge commits (except when reverse
merging), no "[FOLD]" or "fixup!" messages.
* All commits are signed. If the commits are not signed by the author, use
`git commit --amend -S` to sign them yourself.
* At least one (but preferably all) of the commits has the PR number
in the commit message.
The "Create a merge commit" and "Rebase and merge" options should be
disabled in the Github UI, but if you ever find them available **Do not
use them!**
### Releases
All releases, including release candidates and betas, are handled
differently from typical PRs. Most importantly, never use
the Github UI to merge a release.
Rippled uses a linear workflow model that can be summarized as:
1. In between releases, developers work against the `develop` branch.
2. Periodically, a maintainer will build and tag a beta version from
`develop`, which is pushed to `release`.
* Betas are usually released every two to three weeks, though that
schedule can vary depending on progress, availability, and other
factors.
3. When the changes in `develop` are considered stable and mature enough
to be ready to release, a release candidate (RC) is built and tagged
from `develop`, and merged to `release`.
* Further development for that release (primarily fixes) then
continues against `release`, while other development continues on
`develop`. Effectively, `release` is forked from `develop`. Changes
to `release` must be reverse merged to `develop`.
4. When the candidate has passed testing and is ready for release, the
final release is merged to `master`.
5. If any issues are found post-release, a hotfix / point release may be
created, which is merged to `master`, and then reverse merged to
`develop`.
#### Betas, and the first release candidate
##### Preparing the `develop` branch
1. Optimally, the `develop` branch will be ready to go, with all
relevant PRs already merged.
2. If there are any PRs pending, merge them **BEFORE** preparing the beta.
1. If only one or two PRs need to be merged, merge those PRs [as
normal](#when-and-how-to-merge-pull-requests), updating the second
one, and waiting for CI to finish in between.
2. If there are several pending PRs, do not use the Github UI,
because the delays waiting for CI in between each merge will be
unnecessarily onerous. (Incidentally, this process can also be
used to merge if the Github UI has issues.) Merge each PR branch
directly to a `release-next` on your local machine and create a single
PR, then push your branch to `develop`.
1. Squash the changes from each PR, one commit each (unless more
are needed), being sure to sign each commit and update the
commit message to include the PR number. You may be able to use
a fast-forward merge for the first PR.
2. Push your branch.
3. Continue to [Making the release](#making-the-release) to update
the version number, etc.
The workflow may look something like:
git fetch –multiple upstreams user1 user2 user3 [...] git checkout -B release-next –no-track upstream/develop
Only do an ff-only merge if prbranch1 is either already
squashed, or needs to be merged with separate commits,
and has no merge commits.
Use -S on the ff-only merge if prbranch1 isn't signed.
git merge [-S] –ff-only user1/prbranch1
git merge –squash user2/prbranch2 git commit -S # Use the commit message provided on the PR
git merge –squash user3/prbranch3 git commit -S # Use the commit message provided on the PR
[...]
Make sure the commits look right
git log –show-signature "upstream/develop..HEAD"
git push –set-upstream origin
Continue to "Making the release" to update the version number, so
everything can be done in one PR.
You can also use the [squash-branches] script.
You may also need to manually close the open PRs after the changes are
merged to `develop`. Be sure to include the commit ID.
##### Making the release
This includes, betas, and the first release candidate (RC).
1. If you didn't create one [preparing the `develop`
branch](#preparing-the-develop-branch), Ensure there is no old
`release-next` branch hanging around. Then make a `release-next`
branch that only changes the version number. e.g.
git fetch upstreams
git checkout –no-track -B release-next upstream/develop
v="A.B.C-bD" build=$( find -name BuildInfo.cpp ) sed 's/(^.*versionString =).*$/\1 "'${v}'"/' ${build} > version.cpp && mv -vi version.cpp ${build}
git diff
git add ${build}
git commit -S -m "Set version to ${v}"
You could use your "origin" repo, but some CI tests work better on upstream.
git push upstream-push git fetch upstreams git branch –set-upstream-to=upstream/release-next
You can also use the [update-version] script.
2. Create a Pull Request for `release-next` with **`develop`** as
the base branch.
1. Use the title "[TRIVIAL] Set version to X.X.X-bX".
2. Instead of the default description template, use the following:
High Level Overview of Change
This PR only changes the version number. It will be merged as soon as Github CI actions successfully complete.
3. Wait for CI to successfully complete, and get someone to approve
the PR. (It is safe to ignore known CI issues.)
4. Push the updated `develop` branch using your `release-next`
branch. **Do not use the Github UI. It's important to preserve
commit IDs.**
git push upstream-push release-next:develop
5. In the unlikely event that the push fails because someone has merged
something else in the meantime, rebase your branch onto the updated
`develop` branch, push again, and go back to step 3.
6. Ensure that your PR against `develop` is closed. Github should do it
automatically.
7. Once this is done, forward progress on `develop` can continue
(other PRs may be merged).
8. Now create a Pull Request for `release-next` with **`release`** as
the base branch. Instead of the default template, reuse and update
the message from the previous release. Include the following verbiage
somewhere in the description:
The base branch is release. All releases (including betas) go in release. This PR branch will be pushed directly to release (not squashed or rebased, and not using the GitHub UI).
7. Sign-offs for the three platforms (Linux, Mac, Windows) usually occur
offline, but at least one approval will be needed on the PR.
* If issues are discovered during testing, simply abandon the
release. It's easy to start a new release, it should be easy to
abandon one. **DO NOT REUSE THE VERSION NUMBER.** e.g. If you
abandon 2.4.0-b1, the next attempt will be 2.4.0-b2.
8. Once everything is ready to go, push to `release`.
git fetch upstreams
Just to be safe, do a dry run first:
git push –dry-run upstream-push release-next:release
If everything looks right, push the branch
git push upstream-push release-next:release
Check that all of the branches are updated
git fetch upstreams git log -1 –oneline
The output should look like:
0123456789 (HEAD -> upstream/release-next, upstream/release,
upstream/develop) Set version to 2.4.0-b1
Note that upstream/develop may not be on this commit, but
upstream/release must be.
Other branches, including some from upstream-push, may also be
present.
git tag <version number> git push upstream-push <version number>
10. Delete the `release-next` branch on the repo. Use the Github UI or:
git push –delete upstream-push release-next
11. Finally [create a new release on
Github](https://github.com/XRPLF/rippled/releases).
#### Release candidates after the first
Once the first release candidate is [merged into
release](#making-the-release), then `release` and `develop` *are allowed
to diverge*.
If a bug or issue is discovered in a version that has a release
candidate being tested, any fix and new version will need to be applied
against `release`, then reverse-merged to `develop`. This helps keep git
history as linear as possible.
A `release-next` branch will be created from `release`, and any further
work for that release must be based on `release-next`. Specifically,
PRs must use `release-next` as the base, and those PRs will be merged
directly to `release-next` when approved. Changes should be restricted
to bug fixes, but other changes may be necessary from time to time.
1. Open any PRs for the pending release using `release-next` as the base,
so they can be merged directly in to it. Unlike `develop`, though,
`release-next` can be thrown away and recreated if necessary.
2. Once a new release candidate is ready, create a version commit as in
step 1 [above](#making-the-release) on `release-next`. You can use
the [update-version] script for this, too.
3. Jump to step 8 ("Now create a Pull Request for `release-next` with
**`release`** as the base") from the process
[above](#making-the-release) to merge `release-next` into `release`.
##### Follow up: reverse merge
Once the RC is merged and tagged, it needs to be reverse merged into
`develop` as soon as possible.
1. Create a branch, based on `upstream/develop`.
The branch name is not important, but could include "mergeNNNrcN".
E.g. For release A.B.C-rcD, use `mergeABCrcD`.
git fetch upstreams
git checkout –no-track -b mergeABCrcD upstream/develop
2. Merge `release` into your branch.
I like the "--edit --log --verbose" parameters, but they are
not required.
git merge upstream/release
3. `BuildInfo.cpp` will have a conflict with the version number.
Resolve it with the version from `develop` - the higher version.
4. Push your branch to your repo (or `upstream` if you have permission),
and open a normal PR against `develop`. The "High level overview" can
simply indicate that this is a merge of the RC. The "Context" should
summarize the changes from the RC. Include the following text
prominently:
This PR must be merged manually using a push. Do not use the Github UI.
5. Depending on the complexity of the changes, and/or merge conflicts,
the PR may need a thorough review, or just a sign-off that the
merge was done correctly.
6. If `develop` is updated before this PR is merged, do not merge
`develop` back into your branch. Instead rebase preserving merges,
or do the merge again. (See also the `rerere` git config setting.)
git rebase –rebase-merges upstream/develop
OR
git reset –hard upstream/develop git merge upstream/release
7. When the PR is ready, push it to `develop`.
git fetch upstreams
Make sure the commits look right
git log –show-signature "upstream/develop^..HEAD"
git push upstream-push mergeABCrcD:develop
git fetch upstreams
Development on `develop` can proceed as normal.
#### Final releases
A final release is any release that is not a beta or RC, such as 2.2.0.
Only code that has already been tested and vetted across all three
platforms should be included in a final release. Most of the time, that
means that the commit immediately preceding the commit setting the
version number will be an RC. Occasionally, there may be last-minute bug
fixes included as well. If so, those bug fixes must have been tested
internally as if they were RCs (at minimum, ensuring unit tests pass,
and the app starts, syncs, and stops cleanly across all three
platforms.)
*If in doubt, make an RC first.*
The process for building a final release is very similar to [the process
for building a beta](#making-the-release), except the code will be
moving from `release` to `master` instead of from `develop` to
`release`, and both branches will be pushed at the same time.
1. Ensure there is no old `master-next` branch hanging around.
Then make a `master-next` branch that only changes the version
number. As above, or using the
[update-version] script.
2. Create a Pull Request for `master-next` with **`master`** as
the base branch. Instead of the default template, reuse and update
the message from the previous final release. Include the following verbiage
somewhere in the description:
The base branch is master. This PR branch will be pushed directly to release and master (not squashed or rebased, and not using the GitHub UI).
7. Sign-offs for the three platforms (Linux, Mac, Windows) usually occur
offline, but at least one approval will be needed on the PR.
* If issues are discovered during testing, close the PR, delete
`master-next`, and move development back to `release`, [issuing
more RCs as necessary](#release-candidates-after-the-first)
8. Once everything is ready to go, push to `release` and `master`.
git fetch upstreams
Just to be safe, do dry runs first:
git push –dry-run upstream-push master-next:release git push –dry-run upstream-push master-next:master
If everything looks right, push the branch
git push upstream-push master-next:release git push upstream-push master-next:master
Check that all of the branches are updated
git fetch upstreams git log -1 –oneline
The output should look like:
0123456789 (HEAD -> upstream/master-next, upstream/master,
upstream/release) Set version to A.B.0
Note that both upstream/release and upstream/master must be on this
commit.
Other branches, including some from upstream-push, may also be
present.
git tag <version number> git push upstream-push <version number>
10. Delete the `master-next` branch on the repo. Use the Github UI or:
git push –delete upstream-push master-next
11. [Create a new release on
Github](https://github.com/XRPLF/rippled/releases). Be sure that
"Set as the latest release" is checked.
12. Finally [reverse merge the release into `develop`](#follow-up-reverse-merge).
#### Special cases: point releases, hotfixes, etc.
On occassion, a bug or issue is discovered in a version that already
had a final release. Most of the time, development will have started
on the next version, and will usually have changes in `develop`
and often in `release`.
Because git history is kept as linear as possible, any fix and new
version will need to be applied against `master`.
The process for building a hotfix release is very similar to [the
process for building release candidates after the
first](#release-candidates-after-the-first) and [for building a final
release](#final-releases), except the changes will be done against
`master` instead of `release`.
If there is only a single issue for the hotfix, the work can be done in
any branch. When it's ready to merge, jump to step 3 using your branch
instead of `master-next`.
1. Create a `master-next` branch from `master`.
git checkout –no-track -b master-next upstream/master git push upstream-push git fetch upstreams
2. Open any PRs for the pending hotfix using `master-next` as the base,
so they can be merged directly in to it. Unlike `develop`, though,
`master-next` can be thrown away and recreated if necessary.
3. Once the hotfix is ready, create a version commit using the same
steps as above, or use the
[update-version] script.
4. Create a Pull Request for `master-next` with **`master`** as
the base branch. Instead of the default template, reuse and update
the message from the previous final release. Include the following verbiage
somewhere in the description:
The base branch is master. This PR branch will be pushed directly to master (not squashed or rebased, and not using the GitHub UI).
7. Sign-offs for the three platforms (Linux, Mac, Windows) usually occur
offline, but at least one approval will be needed on the PR.
* If issues are discovered during testing, update `master-next` as
needed, but ensure that the changes are properly squashed, and the
version setting commit remains last
8. Once everything is ready to go, push to `master` **only**.
git fetch upstreams
Just to be safe, do a dry run first:
git push –dry-run upstream-push master-next:master
If everything looks right, push the branch
git push upstream-push master-next:master
Check that all of the branches are updated
git fetch upstreams git log -1 –oneline
The output should look like:
0123456789 (HEAD -> upstream/master-next, upstream/master) Set version
to 2.4.1
Note that upstream/master must be on this commit. upstream/release and
upstream/develop should not.
Other branches, including some from upstream-push, may also be
present.
git tag <version number> git push upstream-push <version number>
9. Delete the `master-next` branch on the repo.
git push –delete upstream-push master-next
10. [Create a new release on
Github](https://github.com/XRPLF/rippled/releases). Be sure that
"Set as the latest release" is checked.
Once the hotfix is released, it needs to be reverse merged into
`develop` as soon as possible. It may also need to be merged into
`release` if a release candidate is under development.
1. Create a branch in your own repo, based on `upstream/develop`.
The branch name is not important, but could include "mergeNNN".
E.g. For release 2.2.3, use `merge223`.
git fetch upstreams
git checkout –no-track -b merge223 upstream/develop
2. Merge master into your branch.
I like the "--edit --log --verbose" parameters, but they are
not required.
git merge upstream/master
3. `BuildInfo.cpp` will have a conflict with the version number.
Resolve it with the version from `develop` - the higher version.
4. Push your branch to your repo, and open a normal PR against
`develop`. The "High level overview" can simply indicate that this
is a merge of the hotfix version. The "Context" should summarize
the changes from the hotfix. Include the following text
prominently:
This PR must be merged manually using a –ff-only merge. Do not use the Github UI.
5. Depending on the complexity of the hotfix, and/or merge conflicts,
the PR may need a thorough review, or just a sign-off that the
merge was done correctly.
6. If `develop` is updated before this PR is merged, do not merge
`develop` back into your branch. Instead rebase preserving merges,
or do the merge again. (See also the `rerere` git config setting.)
git rebase –rebase-merges upstream/develop
OR
git reset –hard upstream/develop git merge upstream/master
7. When the PR is ready, push it to `develop`.
git fetch upstreams
Make sure the commits look right
git log –show-signature "upstream/develop..HEAD"
git push upstream-push HEAD:develop
Development on `develop` can proceed as normal. It is recommended to
create a beta (or RC) immediately to ensure that everything worked as
expected.
##### An even rarer scenario: A hotfix on an old release
Historically, once a final release is tagged and packages are released,
versions older than the latest final release are no longer supported.
However, there is a possibility that a very high severity bug may occur
in a non-amendment blocked version that is still being run by
a significant fraction of users, which would necessitate a hotfix / point
release to that version as well as any later versions.
This scenario would follow the same basic procedure as above,
except that *none* of `develop`, `release`, or `master`
would be touched during the release process.
In this example, consider if version 2.1.1 needed to be patched.
1. Create two branches in the main (`upstream`) repo.
git fetch upstreams
Create a base branch off the tag
git checkout –no-track -b master-2.1.2 2.1.1 git push upstream-push
Create a working branch
git checkout –no-track -b master212-next master-2.1.2 git push upstream-push
git fetch upstreams ``
- Work continues as above, except usingmaster-2.1.2`as the base branch for any merging, packaging, etc.
- After the release is tagged and packages are built, you could potentially delete both branches, e.g.
master-2.1.2 and master212-next. However, it may be useful to keep master-2.1.2 around indefinitely for reference.
- Assuming that a hotfix is also released for the latest version in parallel with this one, or if the issue is already fixed in the latest version, do no do any reverse merges. However, if it is not, it probably makes sense to reverse merge
master-2.1.2 into master, release a hotfix for that version, then reverse merge from master to develop. (Please don't do this unless absolutely necessary.)
