mirror of
https://github.com/garrytan/gstack.git
synced 2026-06-10 20:07:49 +02:00
Garry Tan
d8c91c6267
* fix(ship): restore always-loaded PR-title-version invariant to skeleton
The v1.54.0.0 carve moved the 'PR title MUST start with v$NEW_VERSION' rule
out of the always-loaded ship skeleton and entirely into the lazily-loaded
pr-body.md section. The agent only set the version prefix if it happened to
read that section before creating the PR, so PRs landed with bare titles.
Restore a one-line invariant (+ helper reference) to ship/SKILL.md.tmpl right
before the {{SECTION:pr-body}} pointer, mirroring the AUQ always-loaded
precedent. Full procedure stays sectioned. Regenerated all hosts.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
* test(ship): guard PR-title-version rule + pull_request_target safety
Two free gate tests so a future carve or workflow refactor can't silently
regress:
- ship-pr-title-version-always-loaded: asserts the invariant lives in the
always-loaded ship/SKILL.md skeleton (not only sections/), and that the
skeleton+sections union keeps BOTH the create and the existing-PR update
title paths. Modeled on test/auq-format-always-loaded.test.ts.
- pr-title-sync-workflow-safety: static tripwire that fails CI if
pr-title-sync.yml checks out PR-head code or inlines an attacker-controlled
${{ github.event.pull_request.* }} field inside a run: block (the two
pull_request_target footguns actionlint cannot catch).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
* fix(ci): pr-title-sync covers fork PRs via hardened pull_request_target
Under plain pull_request the GITHUB_TOKEN is read-only on fork PRs, so the
title-sync backstop could never edit a fork/agent PR title. Switch to
pull_request_target (write token in base context) and make it safe:
- Check out the base repo only (no ref:) — execute trusted infra, never
fork-head code.
- All attacker-controlled PR fields (title, head repo, head sha) pass via
env: and are referenced as shell-quoted "$VAR", never inlined into run:.
- Read the PR-head VERSION as data (raw media type) from the head repo at the
head sha; guard the assignment under set -e.
- Same-repo read failure fails loudly; fork miss warns and skips (the backstop
stays green without going silently optional).
- Never echo the raw fork title (Actions parses ::workflow-command:: from stdout).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
* fix(ship): expand binDir path in pr-body Linked Spec block
ship/sections/pr-body.md.tmpl:98-99 used ${ctx.paths.binDir}, but the
gen-skill-docs generator only resolves {{TOKEN}} syntax in .tmpl files — the
${...} JS-template-literal form is substituted only inside .ts resolver files.
So the token passed through literally into the generated pr-body.md, leaving the
agent with an unexpandable ${ctx.paths.binDir}/gstack-paths command in the
Linked Spec auto-detect block. Use the hardcoded helper path, consistent with
every other path reference in this section.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
* refactor(test): fold ship PR-title skeleton guard into carve-guard registry
main shipped a generalized carve-guard system (PR #1907) that is now the single
source of truth for carved-skill skeleton invariants. Register the PR-title rule
there instead of a standalone test: ship's mustStayInSkeleton asserts v$NEW_VERSION
+ the rewrite helper stay always-loaded, and mustMoveToSection asserts both the
create and update PR paths stay carved into pr-body.md (present in the union, out of
the skeleton). Delete the standalone ship-pr-title-version-always-loaded test it
replaces. The CI-workflow safety tripwire stays standalone (not a carve concern).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
* chore: bump version and changelog (v1.57.3.0)
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
---------
Co-authored-by: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
291 lines
13 KiB
TypeScript
291 lines
13 KiB
TypeScript
/**
|
|
* Canonical carved-skill guard registry — the single source of truth for which
|
|
* skills are carved (skeleton SKILL.md + on-demand sections/*.md) and what each
|
|
* carve must guarantee.
|
|
*
|
|
* PURE LEAF DATA MODULE (codex outside-voice #1, refined-plan pass): this file
|
|
* has NO runtime imports — `import type` only. parity-harness.ts and
|
|
* skill-size-budget.test.ts derive their carved-skill lists FROM here (no
|
|
* parallel hand-maintained lists), so a runtime import back into either of them
|
|
* would create a cycle. Keep it data.
|
|
*
|
|
* Consumers:
|
|
* - test/carve-section-ordering.test.ts (E2, gate) → staticInvariants
|
|
* - test/carve-section-loading.test.ts (T2, periodic) → requiredReads + scenario
|
|
* - test/carve-guard-completeness.test.ts (E1, gate) → the set must equal the
|
|
* filesystem carved set
|
|
* - test/carve-guards-negative.test.ts (ET1, gate) → injects a broken fixture
|
|
* - test/helpers/parity-harness.ts → sectioned/maxSkeletonBytes/minBytes/mustContain
|
|
* - test/skill-size-budget.test.ts → SECTIONS_EXTRACTED = CARVED_SKILLS
|
|
*
|
|
* Adding a carve = add one entry here (atomically, in the same commit as the
|
|
* skeleton + manifest + sections — codex #4 — so E1's bidirectional parity never
|
|
* false-positives mid-commit).
|
|
*/
|
|
|
|
/** Static (skeleton-shape) invariants the per-PR ordering guard (E2) asserts. */
|
|
export interface CarveStaticInvariants {
|
|
/**
|
|
* Substrings that MUST remain in the always-loaded skeleton. Empty = skip
|
|
* (the skill has no distinctive pre-STOP anchor worth pinning beyond the
|
|
* universal STOP/section-index checks E2 already runs).
|
|
*/
|
|
mustStayInSkeleton: string[];
|
|
/**
|
|
* Substrings that MUST appear in the skeleton BEFORE the first STOP-Read
|
|
* (earliest-use, codex #6). For cso: mode-dispatch directives (## Arguments,
|
|
* ## Mode Resolution) must be resolved before any section is read — a dispatch
|
|
* directive stranded after the STOP can't govern which sections to read.
|
|
* Empty/undefined = skip (most skills).
|
|
*/
|
|
mustPrecedeStop?: string[];
|
|
/**
|
|
* Substrings that MUST be in the union (skeleton + sections) but MUST NOT be in
|
|
* the skeleton — i.e. the heavy body that the carve relocated. Empty = skip.
|
|
*/
|
|
mustMoveToSection: string[];
|
|
/**
|
|
* If set, this marker must appear in the skeleton AFTER the last STOP-Read
|
|
* directive (e.g. the EXIT PLAN MODE GATE that fires once section work returns).
|
|
* Undefined = the skill has no post-STOP gate (operational/conversational carve).
|
|
*/
|
|
gateAfterStop?: string;
|
|
}
|
|
|
|
export interface CarveGuard {
|
|
skill: string;
|
|
/** Section .md filenames the manifest lists and the skeleton must STOP-Read. */
|
|
expectedSections: string[];
|
|
/**
|
|
* Sections the behavioral test (T2) asserts the agent actually Read when driven
|
|
* by `scenario`. A non-empty subset of expectedSections — the ones the scenario
|
|
* is built to require. The registry owns this so "registered ⇒ asserted" is
|
|
* structural (codex #2), not policed.
|
|
*/
|
|
requiredReads: string[];
|
|
/**
|
|
* Fixture prompt that drives a real `claude -p` run down the STOP-Read path for
|
|
* this skill (codex #7). The behavioral test asserts the run reached the STOP
|
|
* (read requiredReads), not merely that nothing was read.
|
|
*/
|
|
scenario: string;
|
|
staticInvariants: CarveStaticInvariants;
|
|
/**
|
|
* How the behavioral guard (T2) exercises this skill:
|
|
* - 'plan' → write a PLAN.md fixture, run the review against it
|
|
* - 'prompt' → no fixture file; the scenario prompt alone drives the run
|
|
* - 'external' → covered by a dedicated bespoke test (complex fixtures, e.g.
|
|
* ship's git/VERSION/CHANGELOG state). The data-driven loop
|
|
* skips it; E1 asserts `externalTest` exists instead.
|
|
*/
|
|
behavioral: 'plan' | 'prompt' | 'external';
|
|
/** Required when behavioral === 'external': path (repo-relative) to the dedicated test. */
|
|
externalTest?: string;
|
|
/** Parity: max bytes for the always-loaded skeleton (asserts the carve shrank it). */
|
|
maxSkeletonBytes: number;
|
|
/** Parity: min bytes for the skeleton+sections union (total behavior preserved). */
|
|
minUnionBytes: number;
|
|
/** Parity: content phrases the union must preserve. */
|
|
mustContain: string[];
|
|
/**
|
|
* Parity: optional per-skill override for the union size-growth ceiling vs the
|
|
* v1.53.0.0 baseline (default 1.05). Bumped only when a deliberate cross-cutting
|
|
* preamble feature legitimately grows a smaller carved skeleton past 5%.
|
|
*/
|
|
maxSizeRatio?: number;
|
|
}
|
|
|
|
export const CARVE_GUARDS: Record<string, CarveGuard> = {
|
|
ship: {
|
|
skill: 'ship',
|
|
expectedSections: [
|
|
'tests.md',
|
|
'test-coverage.md',
|
|
'plan-completion.md',
|
|
'review-army.md',
|
|
'greptile.md',
|
|
'adversarial.md',
|
|
'changelog.md',
|
|
'pr-body.md',
|
|
],
|
|
requiredReads: ['review-army.md', 'changelog.md'],
|
|
scenario:
|
|
'This is a FRESH version-changing ship: the branch has a real code change, VERSION still equals the base version (needs a bump), and CHANGELOG.md needs a new entry. Follow the skill flow for a version-changing ship: run the pre-landing review and prepare the CHANGELOG entry. Produce the ship plan / review report. Do NOT actually commit, push, or open a PR.',
|
|
staticInvariants: {
|
|
// The PR-title-version invariant MUST stay always-loaded: the v1.54.0.0
|
|
// carve stranded it in pr-body.md and PRs started landing with bare titles
|
|
// (CI backstop: test/pr-title-sync-workflow-safety.test.ts).
|
|
mustStayInSkeleton: ['v$NEW_VERSION', 'gstack-pr-title-rewrite'],
|
|
// ...while the full create/update procedure stays carved into pr-body.md
|
|
// (out of the skeleton, present in the union). Asserts BOTH PR paths
|
|
// survive: the create path and the idempotent update path.
|
|
mustMoveToSection: ['gh pr create --base', 'gh pr edit --title'],
|
|
// ship is operational (multi-STOP, not a plan review); no single post-STOP gate.
|
|
gateAfterStop: undefined,
|
|
},
|
|
behavioral: 'external',
|
|
externalTest: 'test/skill-e2e-ship-section-loading.test.ts',
|
|
maxSkeletonBytes: 90_000,
|
|
minUnionBytes: 120_000,
|
|
mustContain: ['VERSION', 'CHANGELOG', 'review', 'merge', 'PR'],
|
|
},
|
|
'plan-ceo-review': {
|
|
skill: 'plan-ceo-review',
|
|
expectedSections: ['review-sections.md'],
|
|
requiredReads: ['review-sections.md'],
|
|
scenario:
|
|
'Review the plan in PLAN.md. Hold the current scope (HOLD SCOPE mode) — do not challenge or expand scope. Run the full CEO review and produce the review report.',
|
|
staticInvariants: {
|
|
mustStayInSkeleton: ['## Step 0: Nuclear Scope Challenge'],
|
|
mustMoveToSection: ['### Section 1: Architecture Review', '## Mode Quick Reference'],
|
|
gateAfterStop: 'EXIT PLAN MODE GATE',
|
|
},
|
|
behavioral: 'external',
|
|
externalTest: 'test/skill-e2e-plan-ceo-review-section-loading.test.ts',
|
|
maxSkeletonBytes: 90_000,
|
|
minUnionBytes: 80_000,
|
|
mustContain: ['SCOPE EXPANSION', 'SELECTIVE EXPANSION', 'HOLD SCOPE', 'SCOPE REDUCTION'],
|
|
},
|
|
'plan-eng-review': {
|
|
skill: 'plan-eng-review',
|
|
expectedSections: ['review-sections.md'],
|
|
requiredReads: ['review-sections.md'],
|
|
scenario:
|
|
'Review the plan in PLAN.md. Accept the current scope. Run the full engineering review (architecture, code quality, tests, performance) and produce the review report.',
|
|
staticInvariants: {
|
|
mustStayInSkeleton: ['### Step 0: Scope Challenge'],
|
|
mustMoveToSection: ['### 1. Architecture review'],
|
|
gateAfterStop: 'EXIT PLAN MODE GATE',
|
|
},
|
|
behavioral: 'plan',
|
|
maxSkeletonBytes: 62_000,
|
|
minUnionBytes: 70_000,
|
|
mustContain: ['Architecture', 'Code Quality', 'Test', 'Performance'],
|
|
},
|
|
'plan-design-review': {
|
|
skill: 'plan-design-review',
|
|
expectedSections: ['review-sections.md'],
|
|
requiredReads: ['review-sections.md'],
|
|
scenario:
|
|
'Review the plan in PLAN.md for design and UX. Accept the current scope. Run the full design review passes and produce the review report.',
|
|
staticInvariants: {
|
|
mustStayInSkeleton: [],
|
|
mustMoveToSection: ['### Pass 1: Information Architecture'],
|
|
gateAfterStop: 'EXIT PLAN MODE GATE',
|
|
},
|
|
behavioral: 'plan',
|
|
maxSkeletonBytes: 82_000,
|
|
minUnionBytes: 70_000,
|
|
mustContain: ['design', 'visual'],
|
|
},
|
|
'plan-devex-review': {
|
|
skill: 'plan-devex-review',
|
|
expectedSections: ['review-sections.md'],
|
|
requiredReads: ['review-sections.md'],
|
|
scenario:
|
|
'Review the plan in PLAN.md for developer experience. Accept the current scope. Run the full DX review passes and produce the review report.',
|
|
staticInvariants: {
|
|
mustStayInSkeleton: [],
|
|
mustMoveToSection: ['### Pass 1: Getting Started Experience'],
|
|
gateAfterStop: 'EXIT PLAN MODE GATE',
|
|
},
|
|
behavioral: 'plan',
|
|
maxSkeletonBytes: 76_000,
|
|
minUnionBytes: 70_000,
|
|
mustContain: ['developer experience', 'Getting Started'],
|
|
},
|
|
'office-hours': {
|
|
skill: 'office-hours',
|
|
expectedSections: ['design-and-handoff.md'],
|
|
requiredReads: ['design-and-handoff.md'],
|
|
scenario:
|
|
'Run office hours for this product idea through to the end: have the diagnostic conversation, explore alternatives, then write the design doc and run the relationship handoff (Phases 5-6).',
|
|
staticInvariants: {
|
|
mustStayInSkeleton: [],
|
|
mustMoveToSection: [],
|
|
// office-hours is conversational; the design-doc/handoff section has no
|
|
// post-STOP review gate in the skeleton.
|
|
gateAfterStop: undefined,
|
|
},
|
|
behavioral: 'prompt',
|
|
maxSkeletonBytes: 96_000,
|
|
minUnionBytes: 70_000,
|
|
mustContain: ['design doc', 'problem statement'],
|
|
},
|
|
'document-release': {
|
|
skill: 'document-release',
|
|
expectedSections: ['release-body.md'],
|
|
requiredReads: ['release-body.md'],
|
|
scenario:
|
|
'A PR has shipped a new CLI flag and touched README.md and CHANGELOG.md. Skip the git pre-flight shell commands (assume the diff adds --new-flag and updates those two docs). Run the documentation workflow: build the coverage map, then audit the docs, apply updates, and polish the CHANGELOG voice. Produce the documentation health summary.',
|
|
staticInvariants: {
|
|
mustStayInSkeleton: ['## Step 1: Pre-flight', '## Step 1.5: Coverage Map'],
|
|
mustMoveToSection: ['## Step 2: Per-File Documentation Audit', '## Step 5: CHANGELOG Voice Polish'],
|
|
// Operational skill (no plan-mode review gate).
|
|
gateAfterStop: undefined,
|
|
},
|
|
behavioral: 'prompt',
|
|
maxSkeletonBytes: 50_000,
|
|
minUnionBytes: 55_000,
|
|
mustContain: ['CHANGELOG', 'Diataxis', 'coverage'],
|
|
// The AUQ-failure prose fallback (v1.57.2.0) adds ~2KB to every skill's
|
|
// always-loaded preamble; on this small carved skeleton that lands at ~5.9%
|
|
// over the pre-carve/pre-AUQ v1.53.0.0 baseline. Headroom for the
|
|
// cross-cutting addition; all other skills keep the strict 1.05 ceiling.
|
|
maxSizeRatio: 1.08,
|
|
},
|
|
'design-consultation': {
|
|
skill: 'design-consultation',
|
|
expectedSections: ['proposal-and-preview.md'],
|
|
requiredReads: ['proposal-and-preview.md'],
|
|
scenario:
|
|
'The user gave product context (a B2B analytics dashboard for ops teams) and declined the research phase. Skip browser/design tool setup. Proceed to build the complete design-system proposal, then write DESIGN.md. Produce the proposal and the DESIGN.md content.',
|
|
staticInvariants: {
|
|
mustStayInSkeleton: ['## Phase 0: Pre-checks', '## Phase 1: Product Context', '## Phase 2: Research'],
|
|
mustMoveToSection: ['## Phase 3: The Complete Proposal', '## Phase 6: Write DESIGN.md'],
|
|
gateAfterStop: undefined,
|
|
},
|
|
behavioral: 'prompt',
|
|
maxSkeletonBytes: 64_000,
|
|
minUnionBytes: 72_000,
|
|
mustContain: ['Typography', 'Color', 'Aesthetic Direction'],
|
|
},
|
|
cso: {
|
|
skill: 'cso',
|
|
expectedSections: ['audit-phases.md'],
|
|
requiredReads: ['audit-phases.md'],
|
|
scenario:
|
|
'Run a security audit on this repository in --owasp mode (OWASP Top 10 only). Resolve the mode, do the Phase 0 stack detection and Phase 1 attack-surface census, then run the scoped audit phases and produce the findings report. Skip any step that needs network access.',
|
|
staticInvariants: {
|
|
// Dispatch + always-run + FP-filtering phases are ALWAYS loaded (security).
|
|
mustStayInSkeleton: [
|
|
'## Arguments',
|
|
'## Mode Resolution',
|
|
'### Phase 0',
|
|
'### Phase 1',
|
|
'### Phase 12',
|
|
'### Phase 13',
|
|
'### Phase 14',
|
|
],
|
|
// Earliest-use: mode must be resolvable before any section is read (codex #6).
|
|
mustPrecedeStop: ['## Arguments', '## Mode Resolution'],
|
|
// Scope-dependent audit detail moved to the section.
|
|
mustMoveToSection: [
|
|
'### Phase 2: Secrets Archaeology',
|
|
'### Phase 9: OWASP Top 10 Assessment',
|
|
'### Phase 10: STRIDE Threat Model',
|
|
],
|
|
gateAfterStop: undefined,
|
|
},
|
|
behavioral: 'prompt',
|
|
maxSkeletonBytes: 70_000,
|
|
minUnionBytes: 72_000,
|
|
mustContain: ['OWASP', 'STRIDE', 'daily', 'comprehensive', 'verif'],
|
|
},
|
|
};
|
|
|
|
/** Sorted carved-skill names. Consumers derive their lists from this — no parallel lists. */
|
|
export const CARVED_SKILLS: readonly string[] = Object.freeze(
|
|
Object.keys(CARVE_GUARDS).sort(),
|
|
);
|