# Description of Changes
Adds a cancel button to the AI chat to allow the user to abort
long-running AI tasks. Just disconnects the SSE stream (all the backend
code already interrupts when it notices the stream is dead).
# Description of Changes
## What & why
Customers using ADFS (or any generic OIDC provider that doesn't emit
`email`) hit `Attribute value for 'email' cannot be null` during OAuth2
login with no visibility into what claims the provider actually sent.
The only available remedy was guessing at
`security.oauth2.useAsUsername` until something worked.
This PR adds a new opt-in `security.oauth2.debugLogging` flag (default
`false`). When enabled, `CustomOAuth2UserService` logs:
- All ID token claims (sorted, with values)
- All UserInfo endpoint claims (if any)
- The merged attribute key set Spring exposes to `getAttribute()`
- The value the configured `useAsUsername` actually resolved to
- A **`Hint:`** line listing the claim keys present in the token that
map to a valid `UsernameAttribute` enum value — i.e. exactly what the
operator could put in `useAsUsername` to make login work
Logged at `INFO` on the success path and `ERROR` on failure (inside the
existing `catch (IllegalArgumentException)` block that throws
`OAuth2AuthenticationException`). The block is wrapped with a `[OAUTH2
DEBUG] ... [/OAUTH2 DEBUG]` banner and ends with a PII warning so
operators don't leave it on in production.
Default off → zero observable change for anyone not actively
troubleshooting.
## Files changed
| File | Why |
|---|---|
| `app/common/.../ApplicationProperties.java` | New `debugLogging` field
on the `OAUTH2` config class with javadoc warning about PII |
| `app/core/src/main/resources/settings.yml.template` | Documents
`oauth2.debugLogging` so it appears on next startup |
| `app/proprietary/.../security/service/CustomOAuth2UserService.java` |
Emits the claim dump + suggestion hint when the flag is on |
|
`app/proprietary/.../security/service/CustomOAuth2UserServiceDebugLoggingTest.java`
(new) | Unit test: mocks the OIDC delegate, asserts off-path is silent
and on-path emits the dump with the right Hint contents |
## End-to-end verification
Ran the bundled `testing/compose/docker-compose-keycloak-oauth.yml`
Keycloak realm, configured `security.oauth2.useAsUsername: mail`
(Keycloak emits `email`, not `mail`) and `provider: demarest` (matches
the original customer bug report). Triggered the OAuth flow at
`http://localhost:8080/oauth2/authorization/demarest` and confirmed:
- The ERROR-level dump fires with the full 19-claim ID token decoded
- `-- Value at 'mail' : <NULL — this is why login fails>` correctly
identifies the missing claim
- `-- Hint:` correctly suggests `[email, family_name, given_name,
preferred_username]` (the four keys present that map to valid
`UsernameAttribute` values)
- Auth still fails with the original `OAuth2AuthenticationException` —
no change to control flow, just added diagnostic logging
Unit test (`CustomOAuth2UserServiceDebugLoggingTest`) covers both
branches.
## Reviewer notes
- **No new public APIs.** The flag is config-only; no servlet endpoints
exposed.
- **PII is logged when the flag is on.** This is the whole point —
operators need to see the claims to fix their config — but it's gated,
defaults off, and the dump self-documents with a `WARNING: ... Set
security.oauth2.debugLogging=false once troubleshooting is complete.`
footer.
- **Why log everything, not just sub/email?** Because the operator
doesn't know in advance which claim they actually want. ADFS uses `upn`
in some configs and `preferred_username` in others; Azure AD uses `oid`;
the customer here had neither. Dumping the full set is the only way to
make the diagnostic self-service.
- **Out of scope for this PR (follow-ups):**
- The `UsernameAttribute` enum doesn't include `upn` / `unique_name`
(common ADFS claims). If the customer's token only has `upn`, the Hint
will be empty even though the operator can see `upn` in the dump. Worth
a separate PR to extend the enum.
- The known-provider validator in `Provider.java` (rejects e.g.
`useAsUsername: mail` for `provider: keycloak` at startup) bypasses our
diagnostic for those provider names. ADFS customers using `provider:
<name>` fall into the `default` branch so are not affected — but it's a
sharp edge worth documenting.
---
## Checklist
### General
- [x] I have read the [Contribution
Guidelines](https://github.com/Stirling-Tools/Stirling-PDF/blob/main/CONTRIBUTING.md)
- [x] I have read the [Stirling-PDF Developer
Guide](https://github.com/Stirling-Tools/Stirling-PDF/blob/main/DeveloperGuide.md)
(if applicable)
- [ ] I have read the [How to add new languages to
Stirling-PDF](https://github.com/Stirling-Tools/Stirling-PDF/blob/main/devGuide/HowToAddNewLanguage.md)
(if applicable) — N/A, backend-only change
- [x] I have performed a self-review of my own code
- [x] My changes generate no new warnings
### Documentation
- [ ] Doc-repo update (if functionality has heavily changed) —
diagnostic flag is self-documenting via the `settings.yml.template`
comment and the in-log warning; happy to add a doc-repo entry if
reviewers want one
- [ ] Translation tags — N/A
### UI Changes (if applicable)
- [ ] N/A — backend-only
### Testing (if applicable)
- [x] Unit test added (`CustomOAuth2UserServiceDebugLoggingTest`)
covering on/off paths and Hint correctness
- [x] End-to-end verified locally against bundled Keycloak compose with
intentionally misconfigured `useAsUsername`
- [x] Full `:proprietary:test` suite passes
Bumps the pip group with 1 update in the /testing/cucumber directory:
[idna](https://github.com/kjd/idna).
Updates `idna` from 3.12 to 3.15
<details>
<summary>Changelog</summary>
<p><em>Sourced from <a
href="https://github.com/kjd/idna/blob/master/HISTORY.md">idna's
changelog</a>.</em></p>
<blockquote>
<h2>3.15 (2026-05-12)</h2>
<ul>
<li>Enforce DNS-length cap on individual labels early in
<code>check_label</code>,
short-circuiting contextual-rule processing for oversized input
while staying compatible with UTS 46 usage.</li>
<li>Tidy core helpers: hoist bidi category sets to module-level
frozensets (avoiding per-codepoint list construction), simplify
length checks, and reuse the shared <code>_unicode_dots_re</code> from
<code>idna.core</code> in the codec module.</li>
<li>Use <code>raise ... from err</code> for proper exception chaining
and
switch internal string formatting to f-strings.</li>
<li>Allow <code>flit_core</code> 4.x in the build backend.</li>
<li>Expand the ruff lint set (flake8-bugbear, flake8-simplify,
pyupgrade, perflint) and apply the surfaced fixes; pin lint CI
to Python 3.14.</li>
<li>Add Dependabot configuration for GitHub Actions.</li>
<li>Convert README and HISTORY from reStructuredText to Markdown.</li>
<li>Reference CVE-2026-45409 for the 3.14 advisory in place of the
initial GHSA identifier.</li>
</ul>
<p>Thanks to Felix Yan, Stan Ulbrych, and metsw24-max for
contributions to this release.</p>
<h2>3.14 (2026-05-10)</h2>
<ul>
<li>Removed opportunity to process long inputs into quadratic
time by rejecting oversize inputs up-front. Closes a bypass
of the CVE-2024-3651 mitigation. [CVE-2026-45409]</li>
</ul>
<p>Thanks to Stan Ulbrych for reporting the issue.</p>
<h2>3.13 (2026-04-22)</h2>
<ul>
<li>Correct classification error for codepoint U+A7F1</li>
</ul>
</blockquote>
</details>
<details>
<summary>Commits</summary>
<ul>
<li><a
href="https://github.com/kjd/idna/commit/af30a092e158181d0b35ac66dfa813788126bdd8"><code>af30a09</code></a>
Release 3.15</li>
<li><a
href="https://github.com/kjd/idna/commit/30314d4628744ca14cf2b5820564e5127a9f86f2"><code>30314d4</code></a>
Pre-release 3.15rc0</li>
<li><a
href="https://github.com/kjd/idna/commit/05d4b219aa9eddc47371fcbd2000f0301016f3e9"><code>05d4b21</code></a>
Merge pull request <a
href="https://redirect.github.com/kjd/idna/issues/237">#237</a> from
kjd/convert-docs-to-markdown</li>
<li><a
href="https://github.com/kjd/idna/commit/2987fdba1962bbb2358399e0084ba062b98a0bee"><code>2987fdb</code></a>
Convert README and HISTORY from reStructuredText to Markdown</li>
<li><a
href="https://github.com/kjd/idna/commit/59fa8002d514bf4a5ce7b58f67b9ec587d53fa9c"><code>59fa800</code></a>
Merge pull request <a
href="https://redirect.github.com/kjd/idna/issues/236">#236</a> from
kjd/dependabot/github_actions/actions-f3e34333ea</li>
<li><a
href="https://github.com/kjd/idna/commit/def69834ced5d4b3c50439d8b99c4c856ec19ca2"><code>def6983</code></a>
Merge branch 'master' into
dependabot/github_actions/actions-f3e34333ea</li>
<li><a
href="https://github.com/kjd/idna/commit/bbd8004a797185d8c56bb555cd5c88fde05e0631"><code>bbd8004</code></a>
Merge pull request <a
href="https://redirect.github.com/kjd/idna/issues/234">#234</a> from
StanFromIreland/patch-1</li>
<li><a
href="https://github.com/kjd/idna/commit/edd07c05024344a6ccb517414ccb36683aee99fc"><code>edd07c0</code></a>
Bump github/codeql-action from 3.35.2 to 4.35.2 in the actions
group</li>
<li><a
href="https://github.com/kjd/idna/commit/5557db030c11bdec50d62aa5f631d705d33ba123"><code>5557db0</code></a>
Merge branch 'master' into patch-1</li>
<li><a
href="https://github.com/kjd/idna/commit/f11746cf4981d25123ef7830d3ee60f07de8ae3d"><code>f11746c</code></a>
Merge pull request <a
href="https://redirect.github.com/kjd/idna/issues/235">#235</a> from
StanFromIreland/patch-2</li>
<li>Additional commits viewable in <a
href="https://github.com/kjd/idna/compare/v3.12...v3.15">compare
view</a></li>
</ul>
</details>
<br />
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Dependabot will resolve any conflicts with this PR as long as you don't
alter it yourself. You can also trigger a rebase manually by commenting
`@dependabot rebase`.
[//]: # (dependabot-automerge-start)
[//]: # (dependabot-automerge-end)
---
<details>
<summary>Dependabot commands and options</summary>
<br />
You can trigger Dependabot actions by commenting on this PR:
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You can disable automated security fix PRs for this repo from the
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Signed-off-by: dependabot[bot] <[email protected]>
Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com>
Co-authored-by: Anthony Stirling <[email protected]>
## Summary
Adds a new AI specialist that finds **textual contradictions** across
one or more PDFs — conflicting claims, recommendations, points of view,
contested facts — built entirely in Python on top of the new
`DocumentService` + `ChunkedReasoner` stack from #6314. Replaces the
closed#6304, which was started before #6314 landed and therefore
over-engineered (Java orchestrator, two-round handshake, resume
artifact, discriminated-union lift).
Two commits:
1. **`refactor(engine): extract ChunkedMapper[T] from ChunkedReasoner`**
— pure refactor, public API of ChunkedReasoner unchanged. New
`ChunkedMapper[T: BaseModel]` is a generic parallel-chunk primitive
(slicing, semaphore, time-bounded extraction, cancellation drain,
progress events) that's now a peer to ChunkedReasoner rather than locked
inside it. The compression loop stays on ChunkedReasoner where it
belongs.
2. **`feat(ai): add Contradiction Agent on ChunkedMapper`** — the agent
itself, plus integrations into `PdfReviewAgent` and `PdfQuestionAgent`.
## Architecture
- **Python-only.** No Java code. No `AgentToolId.CONTRADICTION_AGENT`.
No dedicated HTTP endpoint. No resume artifact, no discriminated-union
lift in `contracts/common.py`. Detector runs inside the Python engine
and the Python engine alone.
- **Review path** (`PdfReviewAgent`): a new
`ContradictionIntentClassifier` fires on contradiction-flavoured
prompts; agent runs detection synchronously and emits a single
`EditPlanResponse(steps=[ADD_COMMENTS])`. Single-turn flow — no resume.
- **Question path** (`PdfQuestionAgent`): a new
`ContradictionCapability` joins `RagCapability` and
`WholeDocReaderCapability` in the smart-model toolset, exposing
`find_contradictions(query)`. The smart model picks it from the toolset
alongside `search_knowledge` and `read_full_document`.
## Inside `ContradictionDetector.detect()`
1. `DocumentService.read_pages(file_id)` → ordered `list[Page]`.
2. `ChunkedMapper[_ExtractedClaims].map_pages(...)` — char-budgeted
multi-page slicing; each slice runs the claim-extractor LLM in parallel
under a semaphore.
3. Page-traceability: the extractor returns `_ExtractedClaim.page`
(which `[Page N]` marker the claim came from). The wrapper validates
`page ∈ chunk.pages`; if not, mechanical fallback searches the chunk's
page text for the verbatim quote and reassigns. If still no match, drop
the claim.
4. `Claim.anchor_quality: Literal[\"verbatim\", \"paraphrased\"]` is set
by a substring check against the declared page's text. Verbatim quotes
feed `anchor_text` for snap-to-quote add-comments placement; paraphrased
ones fall back to margin geometry.
5. Subject canonicalisation: ONE fast-model LLM call collapses synonyms
across the document. Fails open to lexical bucketing.
6. Pre-filters: drop identical-quote pairs; drop same-page same-polarity
paraphrases.
7. Per-bucket pair detection in parallel (separate semaphore, cap 5).
Buckets > 12 claims chunk into windows of 12 with overlap 2; pairs
deduped across overlapping windows by frozen `(i, j)` index pair.
8. Summary fast-model call with fallback string on error.
## Prompt-injection hardening
Every prompt that interpolates user-supplied or PDF-extracted text wraps
content in `<user_message>` / `<verdict>` / `<content>` tags with an
explicit SECURITY preamble instructing the model to treat tagged content
as data only.
## Limitations
- **Combined math + contradiction intent**: when both intent classifiers
fire on the same prompt, contradiction takes precedence and the math
intent is silently dropped. Documented in the Review module docstring
and pinned by
`test_review_integration.py::test_contradiction_precedence_over_math`.
- **Cross-window contradiction reach**: within a subject bucket, pairs
more than ~10 claim indices apart in the same chunked window may be
missed by the overlap-2 strategy. Documented in `test_detector.py`.
Acceptable for v1.
## Settings (engine/src/stirling/config/settings.py)
```python
contradiction_detect_concurrency = 5 # per-bucket detector semaphore
contradiction_bucket_chunk_size = 12 # max claims per detector call
contradiction_bucket_chunk_overlap = 2 # overlap for >threshold buckets
```
`chars_per_slice` and extraction concurrency are reused from the
existing `chunked_reasoner_*` settings.
## Test plan
- [x] `uv run pytest tests/ -v` — **245/245 pass** (210 pre-existing +
35 new)
- [x] `uv run ruff check src/ tests/` — clean
- [x] `uv run pyright src/stirling/agents/contradiction/
src/stirling/contracts/contradiction.py` — 0 errors
- [x] `./gradlew :proprietary:test` — green; no Java was touched, but
verified untouched
- [x] Page-traceability tests cover: valid page kept, hallucinated page
dropped, mechanical-reassign on misattribution, anchor-quality verbatim
vs paraphrased
- [x] Review integration: ADD_COMMENTS plan with two paired CommentSpecs
per contradiction; NeedIngestResponse precheck; precedence vs math
intent pinned
- [x] Question integration: all three capabilities wired into
smart-model toolset; `find_contradictions` returns formatted report text
- [x] ChunkedMapper standalone: slicing, multi-chunk ordering, worker
failures, timeouts, cancellation drain, semaphore saturation
- [x] ChunkedReasoner regression: all pre-existing tests pass unchanged
after the internal split
## Relationship to closed#6304#6304 was closed in favour of this PR. The closed PR predated #6314 and
modelled the agent as a Java-orchestrated two-round examine/deliberate
flow with its own HTTP endpoint and a discriminated-union resume
artifact. With #6314 making full ordered page text available to the
engine via `DocumentService.read_pages`, none of that is needed. Net
effect: drop ~600 lines of Java, drop the two-round handshake, drop the
`ToolReportArtifact` lift, while ending up with a more scalable agent
(chunk-based instead of page-based extraction; tested to
ChunkedReasoner-equivalent scale).
## Summary
`#6145` (port picker) and `#6244` (gradle unification) combined to break
`task dev` / `task dev:all` on Windows. Two independent regressions,
both addressed here.
### 1. `find-free-port.ps1` panic (`#6145`)
```
$ task --dry dev
The argument 'scriptsfind-free-port.ps1' to the -File parameter does not exist.
panic: ended up with a non-nil exitStatus.err but a zero exitStatus.code
```
- **Backslash stripped.** `Taskfile.yml` had
`scripts\find-free-port.ps1`. go-task pipes the `sh:` block through
mvdan/sh, which treats `\` as a POSIX escape and silently drops it,
leaving `scriptsfind-free-port.ps1`. PowerShell can't find the file,
exits non-zero, mvdan/sh panics on the inconsistent exit status.
Switched to a forward slash.
- **`-Preferred 8080,5173` is brittle.** Relies on PowerShell parsing
the comma-list into `[int[]]`. Dropped the named flag; switched the
script's `param` to `[Parameter(ValueFromRemainingArguments =
$true)][int[]]$Preferred`; pass each port as its own positional token
(matching how the bash variant is called).
### 2. `bash gradlew` can't find Java on Windows (`#6244`)
```
[backend:dev] ERROR: JAVA_HOME is not set and no 'java' command could be found in your PATH.
```
`#6244` unified all gradle invocations under `bash gradlew` on the
assumption that Git-Bash inherits Windows-side env. It doesn't (and
neither does WSL bash, which can also shadow `bash` on a developer's
PATH). The standard Adoptium/Temurin installer sets `JAVA_HOME` in the
Windows env only, so `bash gradlew` fails before Spring Boot even loads.
Restored the per-platform branch for every backend task: `cmd /c
".\gradlew.bat ..."` on Windows, `./gradlew ...` on Linux/macOS. Two
Windows-specific gotchas to be aware of for future edits:
- mvdan/sh strips `\` outside of double quotes, so `cmd /c
.\gradlew.bat` ends up as `.gradlew.bat`. The entire payload must be
wrapped in double quotes (`cmd /c "..."`).
- Modern Windows excludes cwd from cmd.exe's search path, so the leading
`.\` is required — bare `cmd /c gradlew.bat` errors with "is not
recognized" even from the repo root.
## Test plan
- [x] `task --dry dev` / `task --dry dev:all` on Windows resolve ports
cleanly and dispatch the inner tasks
- [x] `powershell -NoProfile -File scripts/find-free-port.ps1 8080 5173
5001` prints three ports
- [x] `task backend:dev PORT=8081` on Windows starts Spring Boot in ~9s;
`/api/v1/info/status` returns `{"status":"UP"}`
- [x] `task dev:all` on Windows brings up all three services healthy:
backend `/api/v1/info/status` 200, engine `/health` 200, frontend `/`
200
- [ ] Linux / macOS path unaffected (only the Windows branches changed
in behaviour)
## Summary
The frontend was rerendering excessively across many interactions —
typing, clicking tools, opening modals, toggling the sidebar — because
**multiple compounding ref-instability cascades defeated `memo()` checks
in hot paths**. This PR fixes the cascades structurally.
Seven focused commits, low-to-high blast radius:
1. `perf(contexts): memoize BannerContext provider value`
2. `perf(contexts): memoize CommentAuthor and ActiveDocument provider
values`
3. `perf(contexts): memoize AppConfigContext provider value`
4. `perf(useToolManagement): stop spreading tool entries to keep refs
stable` — **root-cause fix**
5. `refactor(ToolPicker): hoist module-scope styles and helpers`
6. `feat(ToolWorkflowContext): add ref-stable Actions and Data subset
contexts` — additive
7. `perf(tools): migrate hot consumers to slim contexts and wrap in
memo()`
(Plus `style: apply prettier formatting` for CI.)
## What was wrong
Whenever something high-up in the tree caused a render, a chain of
unstable references propagated downward and forced every `ToolButton` to
re-execute its full body (hooks, derived computations, hook
subscriptions to other contexts). The chain:
- **4 unstable Context providers** (`Banner`, `CommentAuthor`,
`ActiveDocument`, `AppConfig`) were passing fresh `value={{ … }}`
objects on every render. Every consumer rerendered on every ancestor
render.
- **`useToolManagement.toolRegistry`** spread `{...baseTool, name,
description}` — a no-op spread that manufactured a new tool object
identity on every memo recompute.
- **The big `ToolWorkflowContext`** (25+ fields including
`state.searchQuery`) rebuilt its entire value on every
keystroke/click/toggle, forcing every `useToolWorkflow()` consumer (~36
files) to rerender.
- **`useToolNavigation`** transitively subscribed every `ToolButton` to
the full workflow context.
- **`ToolButton` & `ToolPicker`** weren't `memo()`-wrapped, so nothing
checked.
- **`ToolPanel`** passed inline `onSelect={(id) =>
handleToolSelect(...)}` — fresh ref every render, defeats child
memoization.
- **`ToolPicker`** allocated inline styles / `[]` / `toTitleCase` inside
the function body — churned `useToolSections`'s internal memo.
## Interaction matrix — what improves
The PR fixes the underlying ref-stability problem; the same fix benefits
*every* interaction that previously triggered the cascade:
| Interaction | Before | After |
|---|---|---|
| **Typing in tool search** | All visible buttons rerender per keystroke
| Only buttons whose matched-text changes rerender |
| **Clicking a tool** | All 36 `useToolWorkflow()` consumers rerender |
Only previously-selected and newly-selected buttons rerender (via
`isSelected` prop) |
| **Toggling sidebar / panel mode / reader mode** | Every tool button
rerenders | Tool components stay still (slim context doesn't see UI
state) |
| **Switching workbench / navigation** | `handleToolSelect` identity
changes → cascades through `onSelect` props | Ref-stabilized in Actions
context. Identity stable. Children's memo bails |
| **Modal/dialog open/close** | AppConfig churns → every `useAppConfig`
consumer rerenders (ToolButton reads `premiumEnabled`) | AppConfig
memoized; consumers rerender only when config changes |
| **Banner show/hide** | BannerProvider value churns → every consumer
rerenders on any ancestor render | Memoized; AppLayout rerenders only
when banner content changes |
| **Any state update high in the tree** | Compounding cascade defeats
memo everywhere | Stable subscriptions; memo bails out |
## Evidence
Per-keystroke prop instability on `ToolButton` (cleanest measurable
signal, captured via custom memo comparators logging which prop refs
differ):
| | `tool` ref diffs | `onSelect` ref diffs | `matchedSynonym` value
diffs | Total |
|---|---|---|---|---|
| Before | 18 | 18 | 6 | **42** |
| After | 0 | 0 | 6 | **6 (all legitimate)** |
→ **86% reduction** in spurious per-keystroke prop instability. The 6
remaining matched-synonym diffs are correct (different substring
highlighted per keystroke).
Context value rebuild counts during a keystroke (verified with
instrumented `useMemo` factories): `useToolWorkflowData=0`,
`useToolWorkflowActions=0`, `AppConfigContext=0`.
The same stabilization applies to click/toggle/modal interactions — they
were all driven by the same cascading invalidations.
## Honest caveat on render-count metrics
`React.Profiler` counts and function-body execution counts in **dev
mode** came back identical before vs after (StrictMode + concurrent
rendering + Mantine internal commits dominate the numbers). The PR's
value is measured against the **prop-stability signal** above, not
Profiler counts. Production builds — where StrictMode doesn't
double-render and Mantine internals aren't constantly committing — will
show memo bail out properly.
## Risk × benefit
| # | Commit | Risk | Benefit |
|---|--------|------|---------|
| 1 | BannerContext memo | ⬛ Trivial | 🟦 Small |
| 2 | CommentAuthor + ActiveDocument memo | ⬛ Trivial | 🟦 Small |
| 3 | AppConfig memo | ⬛ Trivial | 🟦 Moderate (wide consumer base) |
| 4 | useToolManagement spread removal | ⬛ Trivial | 🟥 **High (root
cause)** |
| 5 | ToolPicker hoist | ⬛ Trivial | 🟦 Small |
| 6 | ToolWorkflowContext split | 🟧 Low-Med | 🟥 **High (foundation)** |
| 7 | Hot consumer migration + memo | 🟧 Low-Med | 🟥 **High
(actualization)** |
Commit 6 introduces an invariant: ref-stabilized callbacks in the
Actions context must only be invoked from event handlers (post-commit),
never during render. All current call sites comply.
## Test plan
- [x] `npx playwright test --project=stubbed` — 145 / 6 skipped / 0
failed before and after.
- [x] Targeted regression: `main-dashboard`, `tool-search`, `navigation`
— 11/11 passing.
- [x] CI passing on commits (one infrastructure flake on
`docker-compose-tests` — "No space left on device" — unrelated;
rerunning).
- [ ] Manual sanity check in a dev build after merge.
## What this enables
The same Actions + Data subset-context pattern can be applied to
`FileContext`, `NavigationContext`, and other big contexts. The
foundation is in place.