The rdb module was not properly designed, which is fixed in this change. The module had three classes:
1) The abstract class `RelationalDB`.
2) The abstract class `SQLiteDatabase`, which inherited from `RelationalDB` and added some pure virtual methods.
3) The concrete class `SQLiteDatabaseImp`, which inherited from `SQLiteDatabase` and implemented all methods.
The updated code simplifies this as follows:
* The `SQLiteDatabaseImp` has become `SQLiteDatabase`, and
* The former `SQLiteDatabase `has merged with `RelationalDatabase`.
This change modularizes the `WalletDB` and `Manifest`. Note that the wallet db has nothing to do with account wallets and it stores node configuration, which is why it depends on the manifest code.
This change removes the cache in `DatabaseNodeImp` and simplifies the caching logic in `SHAMapStoreImp`. As NuDB and RocksDB internally already use caches, additional caches in the code are not very valuable or may even be unnecessary, as also confirmed during preliminary performance analyses.
In certain cases, such as when modifying headers used by many compilation units, performing a unity build is slower than when performing a regular build with `ccache` enabled. There is also a benefit to a unity build in that it can detect things such as macro redefinitions within the group of files that are compiled together as a unit. This change therefore restores the ability to perform unity builds. However, instead of running every configuration with and without unity enabled, it is now only enabled for a single configuration to maintain lower computational use.
As part of restoring the code, it became clear that currently two configurations have coverage enabled, since the check doesn't focus specifically on Debian Bookworm so it also applies to Debian Trixie. This has been fixed too in this change.
The `ManifestCache::applyManifest` function was returning early without incrementing `seq_`. `OverlayImpl `uses this sequence to identify/invalidate a cached `TMManifests` message, which is exchanged with peers on connection. Depending on network size, startup sequencing, and topology, this can cause syncing issues. This change therefore increments `seq_` when a new manifest is accepted.
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.
This change introduces the `fixExpiredNFTokenOfferRemoval` amendment that allows expired offers to pass through `preclaim()` and be deleted in `doApply()`, following the same pattern used for expired credentials.
When support was added for `xrpld.cfg` in addition to `rippled.cfg` in https://github.com/XRPLF/rippled/pull/6098, as part of an effort to rename occurrences of ripple(d) to xrpl(d), the clearing and creation of the data directory were modified for what, at the time, seemed to result in an equivalent code flow. This has turned out to not be true, which is why this change restores two modifications to `Config.cpp` that currently break running the binary in standalone mode.
This change adds `cmake-format` as. a pre-commit hook. The style file closely matches that in Clio, and they will be made to be equivalent over time. For now, some files have been excluded, as those need some manual adjustments, which will be done in future changes.
This change makes the `read` function call in `handleConnection` async, adds a new class `TestSink` to help debugging, and adds a new target `xrpl.tests.helpers` to put the helper class in.
This change replaces the mutex `stoppingMutex_`, the `atomic_bool` variable `isTimeToStop`, and the conditional variable `stoppingCondition_` with an `atomic_flag` variable.
When `xrpld` is running the embedded tests as a child process, it has a control thread (the app bundle thread) that starts the application, and an application thread (the thread that executes `app_->run()`). Due to the relaxed memory ordering on ARM, it's not guaranteed that the application thread can see the change of the value resulting from the `isTimeToStop.exchange(true)` call before it is notified by `stoppingCondition_.notify_all()`, even though they do happen in the right order in the app bundle thread in `ApplicationImp::signalStop`. We therefore often get into the situation where `isTimeToStop` is `true`, but the application thread is waiting for `stoppingCondition_` to notify, because the app bundle thread may have already notified before the application thread actually starts waiting.
Switching to a single `atomic_flag` variable makes sure that there's only one synchronisation object and then the memory order guarantee provided by c++ can make sure that `notify_all` gets synchronised after `test_and_set` does.
Fixing this issue will stop the unit tests hanging forever and then we should see less (or hopefully no) time out errors in daily github action runs
