Bring the hardened OTel naming check (Rule E fix + 71 tests) and the phase 1-6
convention work forward into phase 7 (native metrics).
Conflict resolution:
- 05-configuration-reference.md: kept phase-7's native-OTLP metrics story
(server=otel, /v1/metrics) over phase-6's superseded StatsD scrape job, in
prose form (no code block).
- ordering.txt/loops.txt: regenerated via generate.py (not hand-edited).
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Bring phase-2 forward into phase 3 (transaction tracing). Phase 3 introduces
TxSpanNames.h, TxQSpanNames.h, and TxApplySpanNames.h.
Conflict resolution:
- TxQ.cpp: kept phase-3's txq_span-based instrumentation (phase-2 had none).
Dropped the orphaned `NumberSO{... fixUniversalNumber}` line — develop's
#5962 (Retire fixUniversalNumber) removed that symbol repo-wide; the
conflict block had carried one stale copy that would not compile.
- 05/08/OpenTelemetryPlan.md: dropped the deleted 04-code-samples / POC_taskList
references (carried from phase-2), kept phase-3's new secure-OTel.md doc rows,
section, and Mermaid node/edge/style. Config code block -> prose; merged the
secure-OTel hardening pointer with the authoritative-config prose.
- Phase3_taskList.md: removed the "dotted keys for readability" note that came
from phase-2 — phase 3 already uses the underscore keys.
Reviewed by code-review agents: telemetry instrumentation intact, naming check
green (47 keys across 7 *SpanNames.h headers), no conflict markers.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
The xrpl_tests target links only xrpl.libxrpl and cannot include the
xrpld-level ConsensusSpanNames.h / RpcSpanNames.h (CI build failure on
ubuntu-gcc-debug-arm64). Revert the test to underscore-form attribute
literals, restore the SpanNames.h include for seg::consensus, and drop
the now-unused tests.libxrpl -> xrpld.* levelization entries.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
- tempo.yaml: align consensus filter tags with emitted keys
(consensus_mode, consensus_round, ledger_seq) instead of dotted form
- haveConsensus(): set span attributes before early-return paths so the
consensus.check span carries diagnostics even when consensus is not reached
- replace hardcoded consensus phase/result/vote literals with
ConsensusSpanNames.h val constants; add val::phaseOpen/Establish/Accepted
- ConsensusReceiveTracing.h: use canonical consensus::span constants instead
of duplicate inline detail:: names
- SpanGuardFactory test: use rpc_span / consensus::span constants now that
levelization permits the dependency
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
The tx.transactor span covered only the apply stage; preflight and
preclaim had no telemetry, so a transaction that hard-failed those
stages produced no apply-pipeline span and per-stage latency/failure
was invisible.
Add tx.preflight and tx.preclaim spans in applySteps.cpp via a
makeStageSpan() helper using SpanGuard::hashSpan, so all three stages
share a deterministic trace_id derived from txID[0:16] even though they
run sequentially and often cross-thread. Each span carries stage,
tx_type, and ter_result; exceptions are recorded as tefEXCEPTION before
the public wrappers map them. The type lookup is guarded behind the
span-active check so it costs nothing when tracing is off.
Add a stage="apply" attribute to the tx.transactor span and move its
three hardcoded attribute strings to a new library-safe header
include/xrpl/tx/detail/TxApplySpanNames.h, which mirrors the daemon-side
TxSpanNames.h strings so the collector spanmetrics connector aggregates
both span sets under one dimension set.
A constants-contract test pins the span-name, attribute-key, and
stage-value strings; span content stays covered by the docker
integration test, as the rest of the telemetry suite is.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Wraps Transactor::operator() with a span that captures tx_type,
ter_result, and applied. This is the universal dispatch point — every
transaction flows through it, giving per-type latency breakdown.
Adds libxrpl.tx > xrpl.telemetry levelization dependency.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
Wraps Transactor::operator() with a span that captures tx_type,
ter_result, and applied. This is the universal dispatch point — every
transaction flows through it, giving per-type latency breakdown.
Adds libxrpl.tx > xrpl.telemetry levelization dependency.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>