Unity builds were intended to speed up builds, by bundling multiple files into compilation units. However, now that ccache is available on all platforms, there is no need for unity builds anymore, as ccache stores compiled individual build objects for reuse. This change therefore removes the ability to make unity builds.
Currently we're passing the `Application` object around, whereby the `Application` class acts more like a service registry that gives other classes access to other services. In order to allow modularization, we should replace `Application` with a service registry class so that modules depending on `Application` for other services can be moved easily. This change adds the `ServiceRegistry` class.
To allow developers to consume the latest unstable and (near-)stable versions of our `xrpl` Conan recipe, we should export and upload it whenever a push occurs to the corresponding branch or a release tag has been created. This way, developers do not have to figure out themselves what the most recent shortened commit hash was to determine the latest unstable recipe version (e.g. `3.2.0-b0+a1b2c3d`) or what the most recent release (candidate) was to determine the latest (near-)stable recipe version (e.g. `3.1.0-rc2`).
Now, pushes to the `develop` branch will produce the `develop` recipe version, pushes to the `release` branch will produce the `rc` recipe version, and creation of versioned tags will produce the `release` recipe version.
The `upload-conan-deps` workflow that's triggered on push is supposed to upload the Conan dependencies to our remote, so future PR commits can pull those dependencies from the remote. However, as the `sanitize` argument is missing, it was building different dependencies than what the PRs are building for the asan/tsan/ubsan job, so the latter would not find anything in the remote that they could use. This change sets the missing `sanitizers` input variable when running the `build-deps` action.
Separately, the `setup-conan` action showed the default profile, while we are using the `ci` profile. To ensure the profile is correctly printed when sanitizers are enabled, the environment variable the profile uses is set before calling the action.
The export and upload steps were initially in a separate action, where GitHub Actions does not support the `secrets` keyword, but only `inputs` for the credentials. After they were moved to a reusable workflow, only part of the references to the credentials were updated. This change correctly references to the Conan credentials via `secrets` instead of `inputs`.
By default the Conan recipe extracts the version from `BuildInfo.cpp`, but in some of the cases we want to upload a recipe with a suffix derived from the commit hash. This currently then results in the uploading to fail, since there is a version mismatch.
Here we explicitly set the version, and then simplify the steps in the upload workflow since we now need the recipe name (embedded within the conanfile.py but also needed when uploading), the recipe version, and the recipe ref (name/version).
Conan recipes use semantic versioning, and since our version already contains a hyphen the second hyphen causes Conan to ignore it. The plus sign is a valid separator we can use instead, so this change uses a `+` to separate a version suffix (commit hash) instead of a `-`.
During several iterations of development of https://github.com/XRPLF/rippled/pull/6235, the commit hash was supposed to be moved into the `run:` statement, but it slipped through the cracks and did not get added. This change adds the commit hash as suffix to the Conan recipe version.
This change uploads the `libxrpl` library as a Conan recipe to our remote when (i) merging into the `develop` branch, (ii) committing to a PR that targets a `release*` branch, and (iii) a versioned tag is applied. Clio is only notified in the second case. The user and channel are no longer used when uploading the recipe.
Specific changes are:
* A `generate-version` action is added, which extracts the build version from `BuildInfo.cpp` and appends the short 7-character commit hash to it for merges into the `develop` branch and for commits to a PR that targets a `release*` branch. When a tag is applied, however, the tag itself is used as the version. This functionality has been turned into a separate action as we will use the same versioning logic for creating .rpm and .deb packages, as well as Docker images.
* An `upload-recipe` action is added, which calls the `generate-version` action and further handles the uploading of the recipe to Conan.
* This action is called by both the `on-pr` and `on-trigger` workflows, and a new `on-tag` workflow.
The reason for this change is that we have downstream uses for the `libxrpl` library, but currently only upload the recipe to check for compatibility with Clio when making commits to a PR that targets the release branch.
`PeerImp` processes `TMGetObjectByHash` queries with an unbounded per-request loop, which performs a `NodeStore` fetch and then appends retrieved data to the reply for each queried object without a local count cap or reply-byte budget. However, the `Nodestore` fetches are expensive when high in numbers, which might slow down the process overall. Hence this code change adds an upper cap on the response size.
This change removes the `master` branch as a trigger for the CI pipelines, and updates comments accordingly. It also fixes the pre-commit workflow, so it will run on all release branches.
This change adds support for sanitizer build options in CI builds workflow. Currently `asan+ubsan` is enabled, while `tsan+ubsan` is left disabled as more changes are required.
This change updates the XRPLF pre-commit workflow and prepare-runner action to their latest versions. For naming consistency the prepare-runner action changed the disable_ccache variable into enable_ccache, which matches our naming.
This change fixes the last of the spelling issues, and enables the pre-commit (and CI) check for spelling. There are no functionality changes, but it does rename some enum values.
Right now, each pipeline invocation builds the source code from scratch. Although compiled Conan dependencies are cached in a remote server, the source build objects are not. We are able to further speed up our builds by leveraging `ccache`. This change enables caching of build objects using `ccache` on Linux, macOS, and Windows.
This change renames all occurrences of `rippled.cfg` to `xrpld.cfg`. It also provides a script to allow developers to replicate the changes in their local branch or fork to avoid conflicts. For the time being it maintains support for `rippled.cfg` as config file, if `xrpld.cfg` does not exist.
This change modifies the build directory structure from `build/build/xxx` or `.build/build/xxx` to just `build/xxx`. Namely, the `conanfile.py` has the CMake generators build directory hardcoded to `build/generators`. We may as well leverage the top-level build directory without introducing another layer of directory nesting.
The latest update to `cleanup-workspace`, `get-nproc`, and `prepare-runner` moved the action to the repository root directory, and also includes some ccache changes. In response, this change updates the various shared actions to the latest commit hash.
This change renames all occurrences of `namespace ripple` and `ripple::` to `namespace xrpl` and `xrpl::`, respectively, as well as the names of test suites. It also provides a script to allow developers to replicate the changes in their local branch or fork to avoid conflicts.
Per [XLS-0095](https://xls.xrpl.org/xls/XLS-0095-rename-rippled-to-xrpld.html), we are taking steps to rename ripple(d) to xrpl(d).
This change modifies the binary name from `rippled` to `xrpld`, and creates a symlink named `rippled` that points to the `xrpld` binary.
Note that https://github.com/XRPLF/rippled/pull/5975 renamed any references to `rippled` in the CMake files and their contents, but explicitly maintained the `rippled` binary name by adding an exception. This change now undoes this exception and adds an explicit symlink instead.
This change substitutes the secp256k1 source code copy by the Conan recipe added in XRPLF/conan-center-index#24, which updates the version of the library to 0.7.0.
This change triggers the Clio pipeline on PRs that target any of the `release*` branches (in addition to the `master` branch), as opposed to only the `release` branch.
This updates the CI image hashes after following change: https://github.com/XRPLF/ci/pull/81. And, since we use latest Conan, we can have `conan.lock` with a newline at the end, and we don't need to exclude it from `pre-commit` hooks any longer.
This change unifies the build and test jobs into a single job, and adds `ctest` to coverage reporting.
The mechanics of coverage reporting is slightly complex and most of it is encapsulated in the `coverage` target. The status quo way of preparing coverage reports involves running a single target `cmake --build . --target coverage`, which does three things:
* Build the `rippled` binary (via target dependency)
* Prepare coverage reports:
* Run `./rippled -u` unit tests.
* Gather test output and build reports.
This makes it awkward to add an additional `ctest` step between build and coverage reporting steps. The better solution is to split `coverage` target into separate build, followed by `ctest`, followed by test generation. Luckily, the `coverage` target has been designed specifically to support such case; it does not need to build `rippled`, it's just a dependency. Similarly it allows additional tests to be run before gathering test outputs; in principle we could even strip it from running tests and run them separately instead. This means we can keep build, `ctest` and generation of coverage reports as separate steps, as long as the state of build directory is fully (including file timestamps, additional coverage files etc.) preserved between the steps. This means that in order to run `ctest` for coverage reporting we need to integrate build and test into a single job, which this change does.
As part of renaming ripple(d) to xrpl(d), the xrpld symlink was made to point to itself instead of to the rippled binary. This change fixes the symlink.
Per XLS-0095, we are taking steps to rename ripple(d) to xrpl(d).
This change updates the CMake files and definitions therein, plus a handful of related modifications. Specifically, the compiler files are renamed from `RippleXXX.cmake` or `RippledXXX.cmake` to `XrplXXX.cmake`, and any references to `ripple` and `rippled` (with or without capital letters) are renamed to `xrpl` and `xrpld`, respectively. The name of the binary, currently `rippled`, remains unchanged and will be updated in a separate PR. This change is purely cosmetic and does not affect the functioning of the binary.
Per XLS-0095, we are taking steps to rename ripple(d) to xrpl(d).
This change specifically removes all copyright notices referencing Ripple, XRPLF, and certain affiliated contributors upon mutual agreement, so the notice in the LICENSE.md file applies throughout. Copyright notices referencing external contributions remain as-is. Duplicate verbiage is also removed.
Per XLS-0095, we are taking steps to rename ripple(d) to xrpl(d).
C++ include guards are used to prevent the contents of a header file from being included multiple times in a single compilation unit. This change renames all `RIPPLE_` and `RIPPLED_` definitions, primarily include guards, to `XRPL_`. It also provides a script to allow developers to replicate the changes in their local branch or fork to avoid conflicts.
To debug test failures we would like to use `netstat`, but that package wasn't installed yet in the CI images. This change uses the new CI images created by https://github.com/XRPLF/ci/pull/79.
This change adds an extra step to the CI test job that outputs network info, which may allow us to confirm whether random test failures are caused by port exhaustion.
