Files
openclaw/scripts/check-protocol-event-coverage.d.mts
Peter Steinberger fe261b0f59 chore(tooling): typecheck root test/** with a dedicated tsgo lane (#104475)
* chore(types): add declaration files for scripts/lib and scripts/e2e modules

* chore(types): add declaration files for top-level script modules (a-m)

* chore(types): add declaration files for top-level script modules (n-z)

* test: use a non-secret-shaped gateway token fixture

* test: type ci workflow guard helpers for the root test lane

* chore(tooling): typecheck root test/** with a dedicated tsgo lane

- test/tsconfig/tsconfig.test.root.json: root-test program (strict unused checks,
  fixtures excluded; two Docker E2E clients that import built dist/** stay out,
  same rationale as the scripts/e2e exclusion in tsconfig.scripts.json)
- tsgo:test:root wired into tsgo:test, check:test-types, scripts/check.mjs, and
  the ci.yml test-types shard, mirroring the tsgo:scripts lane (#104348)
- changed-lane routing: test/**/*.ts (excluding fixtures) and the lane tsconfig
  now trigger 'typecheck test root' in check:changed; previously test/ paths ran
  lint only, so harness type errors surfaced first in CI (#104287 envDir case)
- burn down all 1071 latent type errors in the program: precise param/local
  types across test/scripts, test/vitest, test/e2e, and transitive scripts/e2e
  program members; 205 sibling .d.mts declaration files for imported .mjs
  modules (committed separately); zero any, zero ts-expect-error
- resolve the pre-existing testing star-export ambiguity in
  scripts/e2e/parallels/common.ts with an explicit re-export

Closes #104388

* chore(types): correct declaration fidelity per structured review

- re-derive 51 .d.mts files from implementation data flow instead of
  initializers: fix a wrong never return (runTestProjectsDelegation returns
  the child), add encoding-sensitive exec/spawn overloads (plain-gh), restore
  the full release profile union, make parsed paths string | null, add missing
  parseArgs fields via help/non-help unions, add a missing sibling declaration
  (budget-number-args), drop 15 unused lint directives
- precise install-record/tuple typing removes the type-aware oxlint
  regressions the first declarations caused in scripts/e2e implementations
- route .mts declaration edits under test/ to the testRoot lane and reference
  the test-root project from tsconfig.projects.json so tsgo:all covers it
  (closes both review findings against the lane wiring)

* chore(scripts): keep telegram runner dist typing structural for the boundary guard

* chore(types): declare runtime pack and gateway readiness exports added on main

* test: pin the importTargetPlan form of the plugin-contract plan import

The guard expectation still referenced the raw await import( form that
7ae5996bb3 (#103975) replaced with the importTargetPlan fallback helper;
the assertion fails on current main.
2026-07-11 06:15:41 -07:00

37 lines
1.8 KiB
TypeScript

#!/usr/bin/env node
/**
* Extracts the gateway event name list from server-methods-list.ts source.
* Bare identifiers in the array (e.g. GATEWAY_EVENT_UPDATE_AVAILABLE) are
* resolved against constantsSource (src/gateway/events.ts).
*/
export function extractGatewayEventNames(listSource: unknown, constantsSource: unknown): string[];
/**
* Extracts qualified static string constants declared at Swift type scope.
* Type qualification avoids resolving unrelated constants that share a short
* member name elsewhere in the app.
*/
export function extractSwiftStaticStringConstants(source: unknown): Map<unknown, unknown>;
/** Extracts Swift gateway-event case labels, including qualified constants. */
export function extractSwiftHandledEvents(
source: unknown,
constants?: Map<unknown, unknown>,
): Set<unknown>;
/**
* Extracts event names a Kotlin source handles: string-literal case labels of
* `when (event)` blocks plus `event == "..."` comparisons, both scoped to
* `fun handle*Event(...)` bodies. Scoping matters: bare `event == "..."`
* literals also appear in predicate helpers that are not called from the
* dispatch path (e.g. gatewayEventInvalidatesNodesDevices in NodeRuntime.kt),
* and counting those would silently mark events as covered. Swift extraction
* stays tree-wide because Swift consumption always reads `.event` off a
* received EventFrame, which does not have that false-positive shape.
*/
export function extractKotlinHandledEvents(source: unknown): Set<unknown>;
/**
* Compares a client's handled events against the gateway catalog and its
* allowlist. Returns human-readable error strings. Client-only names (e.g. the
* client-synthesized "seqGap" pseudo-event) are intentionally ignored; this
* check only guards the server->client direction.
*/
export function compareEventCoverage(params: unknown): string[];