Add unknownCommand and wsUpgrade span name constants to RpcSpanNames.h,
fix SpanGuardFactory tests to use the 3-argument SpanGuard::span() API,
update levelization results, and apply rename script to docs.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
Instrument the consensus subsystem with OpenTelemetry spans covering
the full round lifecycle: round start, establish phase, proposal send,
ledger close, position updates, consensus check, accept, validation
send, and mode changes.
Key design choices adapted from the original Phase 4 implementation
to the new SpanGuard factory pattern introduced in Phase 3:
- Add SpanGuard::hashSpan() for category-gated hash-derived trace IDs
(consensus round spans share trace_id across validators via ledger hash)
- Add SpanGuard::addEvent() overload with key-value attribute pairs
(used for dispute.resolve events during position updates)
- Add ConsensusSpanNames.h with compile-time span name constants
following the colocated *SpanNames.h pattern from Phase 3
- Add consensusTraceStrategy config option ("deterministic"/"attribute")
for cross-node trace correlation strategy selection
- Use SpanGuard::linkedSpan() for follows-from relationships between
consecutive rounds and cross-thread validation spans
- Use SpanGuard::captureContext() for thread-safe context propagation
from consensus thread to jtACCEPT worker thread
Spans produced: consensus.round, consensus.proposal.send,
consensus.ledger_close, consensus.establish, consensus.update_positions,
consensus.check, consensus.accept, consensus.accept.apply,
consensus.validation.send, consensus.mode_change
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
- Move node health attribute strings to compile-time constants in
SpanNames.h (attr::nodeAmendmentBlocked, attr::nodeServerState)
- Add Tempo search filters for node health attributes
- Remove unnecessary .c_str() on strOperatingMode() return
- Add samplingRatio clamping test (values > 1.0 and < 0.0)
- Fix Task 2.3 status: delivered in Phase 1c, not Phase 2
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
- serviceName default is "xrpld" not "rippled"
- Remove references to nonexistent exporterType field
- Pass networkId (4th param) to setup_Telemetry()
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
- Grafana Tempo datasource: add rpc-command, rpc-status, rpc-role
search filters for the Explore UI
- Unit tests: TelemetryConfig (config parsing defaults and sections),
SpanGuardFactory (null guard safety, move semantics, discard, all
factory methods)
- Test CMake registration with optional OTel linking
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
The `HTTPClient` class initializes a global SSL context via `initializeSSLContext()`. However, it had no way to release it, which caused memory leaks flagged by the LeakSanitizer. Multiple LSAN suppressions in the sanitizers' suppressions file were masking these leaks. Our test code also manually called `initializeSSLContext()` in each test without guaranteed cleanup on failure paths.
This change fixes these memory leaks by adding a `cleanupSSLContext()` method to properly release the global SSL context, and removes the corresponding LSAN suppressions. The change further refactors the `HTTPClient` tests to use a Google Test fixture (`HTTPClientTest`) that manages the SSL context lifecycle via RAII (SetUp/TearDown), making it impossible for tests to leak the context.
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 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.
This change fixes JSON parsing of negative `int` input in `STNumber` and `STAmount`. The conversion of JSON to `STNumber` or `STAmount` may trigger a condition where we negate smallest possible `int` value, which is undefined behaviour. We use a temporary storage as `int64_t` to avoid this bug. Note that this only affects RPC, because we do not parse JSON in the protocol layer, and hence no amendment is needed.
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.
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.
This change makes the regex in `HttpClient.cpp` that matches the content-length http header case insensitive to improve compatibility, as http headers are case insensitive.
