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gstack/sync-gbrain/SKILL.md.tmpl
Garry Tan e362b0ae2f v1.37.0.0 feat: split-engine gbrain (remote MCP brain + local PGLite for code) (#1500) 
* feat(gbrain): add lib/gbrain-local-status classifier with 5-state engine status + 60s cache

Foundation for split-engine gbrain: shared classifier used by both
bin/gstack-gbrain-detect (preamble probe) and bin/gstack-gbrain-sync.ts
(orchestrator SKIP-when-not-ok). Single source of truth.

Probes via `gbrain sources list --json` and classifies stderr against the
same patterns lib/gbrain-sources.ts:66-67 already uses ("Cannot connect to
database", "config.json"). Returns one of: ok, no-cli, missing-config,
broken-config, broken-db. Defensive default: unrecognized failures
classify as broken-config so the raw stderr can be surfaced upstream.

Cache at ~/.gstack/.gbrain-local-status-cache.json keyed on
{home, path_hash, gbrain_bin_path, gbrain_version, config_mtime, config_size}
with 60s TTL. Cache invalidates on any invariant change. --no-cache option
busts the cache for callers that just mutated state (/setup-gbrain,
/sync-gbrain after init/migration).

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* refactor(gbrain): rewrite gstack-gbrain-detect bash→TS + add gbrain_local_status field

Replaces the bash detect helper with a bun shebang script sharing the
gbrain_local_status classifier from lib/gbrain-local-status.ts with the
sync orchestrator. Single source of truth for engine-status classification
between preamble-probe and orchestrator-skip paths.

Filename stays gstack-gbrain-detect (no .ts extension) so existing skill
preamble callers shell out unchanged. Shebang `#!/usr/bin/env -S bun run`
resolves bun at runtime.

Output is key/type backward-compatible with the bash version per plan
codex #5: the 9 pre-existing keys (gbrain_on_path, gbrain_version,
gbrain_config_exists, gbrain_engine, gbrain_doctor_ok, gbrain_mcp_mode,
gstack_brain_sync_mode, gstack_brain_git, gstack_artifacts_remote) stay
identical in name + type + value semantics. One new key added:
gbrain_local_status (5-state string enum).

Updates the existing schema regression at test/gstack-gbrain-detect-mcp-mode.test.ts
to include the new key. Adds test/gbrain-detect-shape.test.ts asserting
the regression contract for future changes.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* feat(gbrain): orchestrator SKIP when local engine not ok + remote-http transcripts via artifacts pipeline

Two changes in the sync orchestrator, both per plan D11/D12:

1. bin/gstack-gbrain-sync.ts: runCodeImport + runMemoryIngest call
   localEngineStatus() (shared classifier from lib/gbrain-local-status.ts).
   When status is not 'ok', return a SKIP stage result with a clear reason
   instead of crashing with "source registration failed: gbrain not
   configured". Brain-sync stage runs regardless — it doesn't depend on
   local engine. dry-run preview path is gated above the check so it
   continues to show would-do steps even when the engine is broken.

2. bin/gstack-memory-ingest.ts: when gbrain MCP is registered as
   remote-http (Path 4), persist staged transcripts to
   ~/.gstack/transcripts/run-<pid>-<ts>/ instead of the ephemeral
   ~/.gstack/.staging-ingest-<pid>-<ts>/ tmp dir, and SKIP the local
   `gbrain import` call entirely. The artifacts pipeline (gstack-brain-sync
   push to git, brain admin pulls and indexes) handles routing to the
   remote brain. Local PGLite (when present via Step 4.5) stays code-only.

State recording still happens — prepared pages get their mtime+sha256
stamped under remote-http mode so the next /sync-gbrain doesn't
re-stage them. Cleanup is skipped intentionally so the persisted dir
survives until gstack-brain-sync moves it.

Adds test/gbrain-sync-skip.test.ts covering 5 SKIP scenarios (broken-db,
broken-config, no-cli, missing-config, ok pass-through). All 25
sync-related unit tests pass.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* feat(gbrain): v1.34.0.0 migration notice + transcripts allowlist for artifacts pipeline

Per plan D5 + D11. Two pieces of the split-engine rollout:

1. gstack-upgrade/migrations/v1.34.0.0.sh — prints a one-time
   discoverability notice for existing Path 4 (remote-http MCP) users
   whose machine has no local engine yet. Tells them about /setup-gbrain
   Step 4.5 (the new local-PGLite opt-in). Silent for everyone else.
   User can suppress permanently via `gstack-config set
   local_code_index_offered true`. Touchfile at
   ~/.gstack/.migrations/v1.34.0.0.done makes it idempotent.

2. bin/gstack-artifacts-init — adds `transcripts/run-*/*.md` and
   `transcripts/run-*/**/*.md` to the managed allowlist so the
   gstack-memory-ingest persistent staging dir (used in remote-http
   mode per D11) gets pushed to the artifacts repo. Brain admin's
   pull job then indexes transcripts into the remote brain.
   Privacy class: behavioral (matches transcript content).

Adds test/gstack-upgrade-migration-v1_34_0_0.test.ts with 5 cases:
state match, no-MCP, local-config-present, opt-out, and idempotency.
All 5 pass.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* feat(gbrain): /setup-gbrain Step 1.5/4.5 + /sync-gbrain Step 1.5 templates

Per plan D4, D10, D11, D12. Wires the skill prose to the new
split-engine flow + classifier introduced in earlier commits.

setup-gbrain/SKILL.md.tmpl:
  - Step 1: detect output description now includes the v1.34.0.0
    gbrain_local_status field (5 values).
  - Step 1.5 (NEW): broken-db / broken-config remediation. AskUserQuestion
    with 4 options — Retry / Switch to PGLite / Switch brain mode / Quit
    (plan D4). Retry is recommended first since broken-db often = transient
    Postgres outage. PGLite is explicitly one-way + destructive (moves
    existing config to ~/.gbrain/config.json.gstack-bak-<ts>); rollback on
    init failure restores the .bak (plan D7).
  - Step 4d → Step 4.5 (NEW): in Path 4, after the verify step, offer
    local PGLite for code search. AskUserQuestion Yes/No (plan D10/D11).
    Yes path runs gstack-gbrain-install + `gbrain init --pglite --json`
    with the same rollback-safe sequence. No path skips Steps 3/4/5/7.5.
  - Step 10 verdict (Path 4): adds "Code search" row reflecting Step 4.5
    choice. Updates "Transcripts" row to describe the new D11 routing
    (artifacts repo → remote brain).

sync-gbrain/SKILL.md.tmpl:
  - Step 1 split-engine prose: corrects the prior misleading claim that
    "memory routes through whatever setup-gbrain configured, including
    remote-MCP" (codex finding #3). Memory stage shells out to local
    `gbrain import` in local-stdio mode; in remote-http mode it persists
    to ~/.gstack/transcripts/ for the artifacts pipeline.
  - Step 1.5 (NEW): local-engine pre-flight. STOP on no-cli, broken-config,
    broken-db. Soft skip (continue with code+memory SKIP) on
    missing-config + remote-http per plan D12. Surfaces actionable user
    remediation message instead of the orchestrator crashing two stages
    with ERR.

Regenerated SKILL.md for all hosts (claude, kiro, opencode, slate,
cursor, openclaw, hermes, gbrain). All 712 skill-validation + gen-skill-docs
tests pass.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* test(gbrain): .bak-rollback contract for Step 1.5 / 4.5 init failure path

Per plan D7 (rollback semantics) and codex #10 (rollback scope). The
/setup-gbrain skill instructs the model to follow a specific shell
sequence when running `gbrain init --pglite` against an existing
config:

  1. mv ~/.gbrain/config.json ~/.gbrain/config.json.gstack-bak-<ts>
  2. gbrain init --pglite --json
  3. on non-zero exit: mv .bak back; surface error

This test verifies that contract using a fake `gbrain` binary that
fails on init. Three cases:

  - FAILURE: gbrain init exits non-zero → broken config restored to
    original path, no leftover .bak.
  - SUCCESS: gbrain init exits 0 → new config in place, .bak survives
    for audit (user reviews + deletes manually).
  - SCOPE: any partial PGLite directory at ~/.gbrain/pglite/ is NOT
    auto-cleaned. We only promise to restore config.json; PGLite
    cleanup is the user's call (codex #10).

If the skill template rewrites this sequence in a future change, this
test should fail until the test's shell is updated too. That's the
point — keep the test and the skill template aligned.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* test(gbrain): periodic E2E for /setup-gbrain Path 4 + Step 4.5 Yes flow

End-to-end coverage of the new opt-in question via runAgentSdkTest.
Stubs the MCP endpoint at /tools/list with a 200 response carrying a
fake gbrain v0.32.3.0 serverInfo, and fakes the gbrain + claude CLIs
so init writes a PGLite config and mcp add succeeds. Asserts the model:

  1. invokes gstack-gbrain-install (Step 4.5 Yes branch)
  2. invokes `gbrain init --pglite --json`
  3. writes a working ~/.gbrain/config.json with engine=pglite
  4. registers the remote MCP via `claude mcp add --transport http`
  5. never leaks the bearer token to CLAUDE.md

Classified as periodic-tier per plan D6 (codex #12 flagged AgentSDK
flakiness; gate-tier coverage of the split-engine behavior lives in the
deterministic unit tests at gbrain-local-status.test.ts and
gbrain-sync-skip.test.ts). Touchfile fires the test when the skill
template, install/verify/init helpers, the local-status classifier, or
the agent-sdk-runner harness changes.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* chore(gbrain): bump migration to v1.35.0.0 after main merge

main shipped v1.34.0.0 (factory-export submodule) + v1.34.1.0 (update-check
hardening) while this branch was in flight. The migration file I named
v1.34.0.0.sh now belongs at v1.35.0.0 — the next minor on top of main,
matching the scale of split-engine work (new lib + orchestrator skip +
template overhaul + transcripts routing).

Renames the migration script and its test file; updates all internal
version references in both files. Behavior unchanged.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* perf(gbrain): memoize gbrain resolution + use --fast doctor in detect

Cuts detect's wall time substantially by sharing fork-exec results
between the helper that walks the JSON output and the localEngineStatus
classifier from lib/gbrain-local-status.ts.

Before: detect made 2x `command -v gbrain` calls (one in detect's
detectGbrain, one in the classifier's resolveGbrainBin) and 2x
`gbrain --version` calls. With memoization keyed on PATH, both
collapse to one fork each (~400ms saved per skill preamble).

Also adds `--fast` to the `gbrain doctor --json` call in detect so a
broken-db config (Garry's repro) doesn't burn a full 5s timeout on the
doctor's DB-connection check. The classifier still probes the DB
directly via `gbrain sources list --json` for engine reachability —
that's `gbrain_local_status`, separate from the coarse
`gbrain_doctor_ok` summary flag.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* test(gbrain): relax E2E assertions to smoke-test contract

Per codex #12 (AgentSDK harness is non-deterministic): the E2E now
asserts the model followed the split-engine path WITHOUT requiring a
specific subcommand sequence. Three assertions:

  1. AskUserQuestion was called (model reached interactive branches)
  2. At least one of {gstack-gbrain-install, `gbrain init --pglite`,
     `claude mcp add`} fired (model followed the skill, not a no-op)
  3. The fake bearer token never leaked to CLAUDE.md (security regression)

Deterministic per-step coverage of the same flow lives in the gate-tier
unit tests (gbrain-local-status, gbrain-sync-skip, init-rollback,
upgrade-migration). The E2E exists to catch the "model can't follow
the skill at all" regression class, not to pin the exact tool sequence.

Test passes in 280s against the live Agent SDK.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* test(version): bump CLI smoke-test timeout to 15s (flaky at 5s under load)

The gstack-next-version integration smoke test spawns a child process
that does git operations + sibling-worktree probing. Wall time hovers
4-5s on M-series Macs; flakes at exactly 5001-5002ms when the test
suite runs under load (bun's parallel scheduling). Bumping per-test
timeout to 15s eliminates the flake without changing test logic.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* chore: bump version and changelog (v1.37.0.0)

Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>

---------

Co-authored-by: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-14 17:20:48 -07:00

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---
name: sync-gbrain
preamble-tier: 2
version: 1.0.0
description: |
Keep gbrain current with this repo's code and refresh agent search
guidance in CLAUDE.md. Wraps the gstack-gbrain-sync orchestrator with
state probing, native code-surface registration, capability checks,
and a verdict block. Re-runnable, idempotent. Use when: "sync gbrain",
"refresh gbrain", "re-index this repo", "gbrain search isn't finding
things". (gstack)
triggers:
- sync gbrain
- refresh gbrain
- reindex repo
- update gbrain
allowed-tools:
- Bash
- Read
- Write
- Edit
- Glob
- Grep
- AskUserQuestion
---
{{PREAMBLE}}
# /sync-gbrain — Keep gbrain current and teach the agent to use it
You are running the canonical "keep this brain up to date" verb. /setup-gbrain
installs gbrain once; /sync-gbrain runs every time the user wants the brain
refreshed against this repo's current state, and refreshes the agent-side
guidance in CLAUDE.md so the coding agent knows when to prefer `gbrain`
search over Grep.
**Architecture (post-codex review):** This skill uses gbrain v0.20.0+'s
**native code surfaces** (`gbrain sources add`, `gbrain sync --strategy code`,
`gbrain reindex-code`, `gbrain code-def/code-refs/code-callers/code-callees`).
It does NOT use `gbrain import` (that path is for markdown directories).
It does NOT touch `~/.gstack/` indexing (the existing `gstack-gbrain-source-wireup`
owns that — never double-store).
## User-invocable
When the user types `/sync-gbrain`, run this skill. Argument modes (parsed by
the skill itself, not a dispatcher binary):
- `/sync-gbrain` — incremental sync (default; mtime fast-path; ~50ms steady-state)
- `/sync-gbrain --full` — full code reindex via `gbrain reindex-code` (~25-35 min on a big repo)
- `/sync-gbrain --code-only` — only run the code stage; skip memory + brain-sync
- `/sync-gbrain --dry-run` — preview what would sync; no writes anywhere
- `/sync-gbrain --no-memory` / `--no-brain-sync` — selectively skip stages
- `/sync-gbrain --quiet` — suppress per-stage output
Pass-through args go straight to the orchestrator at
`{{BIN_DIR}}/gstack-gbrain-sync.ts`.
---
## Step 1: State probe
Before doing anything, check that /setup-gbrain has been run on this Mac.
```bash
~/.claude/skills/gstack/bin/gstack-gbrain-detect 2>/dev/null
```
**Split-engine model (v1.34.0.0+).** Code stage runs locally against the
per-machine gbrain engine (PGLite or whatever `gbrain config` points to),
with each worktree of a repo registered as its own source. **Memory stage
also runs locally** in local-stdio MCP mode — `gstack-memory-ingest` shells
out to `gbrain import` against the same local engine. In remote-http MCP
mode (Path 4), the memory stage instead persists staged markdown to
`~/.gstack/transcripts/<run-id>/` and the artifacts pipeline pushes it to
the brain admin's pull job (plan D11). Brain-sync (the `gstack-brain-sync`
push to git) is the one stage that never touches local engine and runs
regardless of mode.
Practically: local PGLite stays code-only on remote-http machines; the
remote brain holds everything else. Local-stdio machines mix code +
transcripts in one local engine, as they always have.
Also check the per-repo trust policy. If `gstack-gbrain-repo-policy get` for
this repo returns `deny`, STOP:
> "This repo's gbrain trust policy is `deny`. Run `/setup-gbrain --repo` to
> change it before syncing."
---
## Step 1.5: Local engine pre-flight (plan D12)
Read `gbrain_local_status` from the Step 1 detect output. Branch as follows
BEFORE invoking the orchestrator:
- **`ok`**: proceed to Step 2 normally.
- **`no-cli`**: STOP. "Local gbrain CLI not installed. Run `/setup-gbrain`
first."
- **`missing-config`** AND `gbrain_mcp_mode == "remote-http"`: tell the user
"Your brain queries (the `mcp__gbrain__*` tools) work via remote MCP, but
symbol code search needs a local PGLite. Run `/setup-gbrain` and pick
'Yes' at the new 'local code index' prompt (Step 4.5), or run
`gbrain init --pglite --json` directly. Continuing without code stage."
Then proceed to Step 2 — the orchestrator's `runCodeImport()` and
`runMemoryIngest()` will return SKIP per plan D12; only `runBrainSyncPush()`
will run. Do NOT abort.
- **`missing-config`** AND `gbrain_mcp_mode != "remote-http"`: STOP. "Local
gbrain CLI is installed but no engine config. Run `/setup-gbrain` first."
- **`broken-config`** OR **`broken-db`**: STOP with a clear message:
```
Local gbrain config at ~/.gbrain/config.json points at an unreachable
engine (status: {gbrain_local_status}). Two options:
1. Re-run /setup-gbrain — Step 1.5 offers Retry / Switch to PGLite /
Switch brain mode / Quit (plan D4).
2. Repair manually: mv ~/.gbrain/config.json ~/.gbrain/config.json.bak
&& gbrain init --pglite --json
Re-run /sync-gbrain after.
```
Do NOT continue — the orchestrator would skip code+memory and only run
brain-sync, which is a degraded state the user should fix explicitly.
This pre-flight short-circuits the orchestrator before it spends ~80ms
probing the engine again. The orchestrator independently runs the same
classifier for defense-in-depth, but Step 1.5's STOP is where the user
gets the actionable remediation message.
---
## Step 2: Run the orchestrator
Pass user args to the orchestrator. Do not paraphrase them — pass through
as-is.
```bash
bun run ~/.claude/skills/gstack/bin/gstack-gbrain-sync.ts <user-args>
```
The orchestrator runs three stages: code → memory → brain-sync (per the
plan's storage tiering). Each stage failure is non-fatal; subsequent stages
still run. State is persisted to `~/.gstack/.gbrain-sync-state.json` via
tmp-file + atomic rename. Concurrent runs are blocked by a lock file at
`~/.gstack/.sync-gbrain.lock` (5-min stale-takeover).
---
## Step 3: Code-index health check
After the sync run, query gbrain for the cwd source's page_count:
```bash
SOURCE_ID=$(grep -o '"source_id":"[^"]*"' ~/.gstack/.gbrain-sync-state.json 2>/dev/null \
| head -1 | sed 's/.*"source_id":"//;s/".*//')
PAGES=$(gbrain sources list --json 2>/dev/null \
| jq -r --arg id "$SOURCE_ID" '.sources[] | select(.id==$id) | .page_count' 2>/dev/null \
|| echo 0)
echo "cwd source: $SOURCE_ID, page_count: $PAGES"
```
If `PAGES` is 0 or empty AND the user did NOT pass `--no-code` AND mode was
not `--full`, AskUserQuestion via the format in the preamble:
> D1 — This repo has 0 indexed pages in gbrain. Run a full code reindex now?
>
> ELI10: gbrain hasn't indexed this repo's code yet. The semantic search
> tools (`gbrain search`, `code-def`, `code-refs`) will return nothing
> until we run a full pass. Takes ~25-35 minutes on a big Mac.
>
> Recommendation: A — the brain is unusable for code search until indexed,
> and Step 2 of this skill already verified gbrain is configured correctly.
>
> Note: options differ in kind, not coverage — no completeness score.
>
> A) Run /sync-gbrain --full now (recommended)
> B) Skip — I'll run it later
If A: re-invoke the orchestrator with `--full --code-only`.
If B: continue to Step 4 with the empty-corpus state recorded.
---
## Step 4: Refresh `## GBrain Search Guidance` block in CLAUDE.md
Capability check (per /plan-eng-review §6):
```bash
SLUG="_capability_check_$$"
if [ -f ~/.gbrain/config.json ] && \
gbrain --version 2>/dev/null | grep -q '^gbrain ' && \
echo "ping" | gbrain put "$SLUG" >/dev/null 2>&1 && \
gbrain search "ping" 2>/dev/null | grep -q "$SLUG"; then
CAPABILITY_OK=1
else
CAPABILITY_OK=0
fi
gbrain delete "$SLUG" 2>/dev/null || true
```
Then update CLAUDE.md based on capability state:
**If `CAPABILITY_OK=1`** — write or update the block. Idempotent: find the
HTML-comment-delimited block; replace its body if it exists; append at the
end of CLAUDE.md if it doesn't. NEVER duplicate. Block is machine-AGNOSTIC
(no engine, no page counts, no last-sync time — those are in the existing
`## GBrain Configuration` block).
Verbatim block content (copy exactly):
```markdown
## GBrain Search Guidance (configured by /sync-gbrain)
<!-- gstack-gbrain-search-guidance:start -->
GBrain is set up and synced on this machine. The agent should prefer gbrain
over Grep when the question is semantic or when you don't know the exact
identifier yet.
**This worktree is pinned to a worktree-scoped code source** via the
`.gbrain-source` file in the repo root (kubectl-style context). Any
`gbrain code-def`, `code-refs`, `code-callers`, `code-callees`, or `query`
call from anywhere under this worktree routes to that source by default —
no `--source` flag needed. Conductor sibling worktrees of the same repo
each have their own pin and their own indexed pages, so semantic results
match the actual code on disk in this worktree.
Two indexed corpora available via the `gbrain` CLI:
- This worktree's code (auto-pinned via `.gbrain-source`).
- `~/.gstack/` curated memory (registered as `gstack-brain-<user>` source via
the existing federation pipeline).
Prefer gbrain when:
- "Where is X handled?" / semantic intent, no exact string yet:
`gbrain search "<terms>"` or `gbrain query "<question>"`
- "Where is symbol Y defined?" / symbol-based code questions:
`gbrain code-def <symbol>` or `gbrain code-refs <symbol>`
- "What calls Y?" / "What does Y depend on?":
`gbrain code-callers <symbol>` / `gbrain code-callees <symbol>`
- "What did we decide last time?" / past plans, retros, learnings:
`gbrain search "<terms>" --source gstack-brain-<user>`
Grep is still right for known exact strings, regex, multiline patterns, and
file globs. Run `/sync-gbrain` after meaningful code changes; for ongoing
auto-sync across all worktrees, run `gbrain autopilot --install` once per
machine — gbrain's daemon handles incremental refresh on a schedule.
<!-- gstack-gbrain-search-guidance:end -->
```
Use the Read + Edit tools. The find-and-replace target is the entire region
from `<!-- gstack-gbrain-search-guidance:start -->` through
`<!-- gstack-gbrain-search-guidance:end -->`. If those markers are missing,
search for `## GBrain Search Guidance (configured by /sync-gbrain)` heading
and replace from there to the next `## ` or EOF. If no heading exists, append
the entire block at the end of CLAUDE.md.
**Atomic write:** write the new CLAUDE.md content to a tmp file alongside it
(e.g., `CLAUDE.md.sync-gbrain.tmp`) then `mv` to atomic-rename, so a crash
mid-write never leaves the file half-modified.
**If `CAPABILITY_OK=0`** — REMOVE the block entirely if present. Use the same
Edit tool to strip the start/end-marker region. The `## GBrain Configuration`
block stays in place (it's a record of the install, not a capability claim).
Do NOT crash if CLAUDE.md is missing or unwritable — log a warning and
continue.
---
## Step 5: Verdict block (idempotent doctor output)
Print a status block matching `/setup-gbrain` Step 10 conventions. Each row
is `[OK]/[FIX]/[WARN]/[ERR]`. Reuse `gbrain doctor --json --fast` for
informational rows but DO NOT gate the guidance block on doctor (per
/plan-eng-review §6 — doctor is too strict for unrelated reasons).
```
gbrain status: GREEN
CLI ............. OK <gbrain version>
Engine .......... OK <pglite|supabase>
Capability ...... OK write+search round-trip
CWD source ...... OK <gstack-code-{repo_slug}> (page_count=<N>)
~/.gstack source. OK <gstack-brain-{user}> (page_count=<N>) — managed by /setup-gbrain
Memory sync ..... OK <artifacts_sync_mode>
CLAUDE.md ....... OK ## GBrain Search Guidance present
Last sync ....... OK <last_sync from state file>
Run `/sync-gbrain` again any time gbrain feels off; safe and idempotent.
```
If any row is YELLOW or RED, the verdict line says so and the failing rows
surface a one-line "next action" (e.g., `Capability ...... ERR capability
check failed; CLAUDE.md guidance block REMOVED — run /setup-gbrain to repair`).
---
## Concurrency note
This skill is safe to run concurrently from multiple terminals on the same
Mac. The orchestrator acquires a lock at `~/.gstack/.sync-gbrain.lock` before
any state-file or CLAUDE.md mutation and exits with code 2 if another sync is
in flight. Stale locks (process died) auto-clear after 5 minutes.
## Cross-machine note
The `## GBrain Search Guidance` block is committed to the repo's CLAUDE.md
and travels with `git push`/`git pull` — NOT through `~/.gstack/.brain-allowlist`
(which is for `~/.gstack/` brain-sync only). On a different Mac with a synced
CLAUDE.md but no local gbrain, /sync-gbrain detects the mismatch via the
capability check and REMOVES the block (the local agent shouldn't be told to
use a tool that isn't installed).
## Status reporting
End with a Completion Status (per the preamble protocol):
- **DONE** — all stages green, CLAUDE.md guidance block present, verdict GREEN.
- **DONE_WITH_CONCERNS** — sync ran but at least one stage failed or capability
check failed. List which.
- **BLOCKED** — could not acquire lock, gbrain not on PATH, or per-repo policy
is deny. State the blocker.
- **NEEDS_CONTEXT** — /setup-gbrain has not been run, or `gbrain doctor` shows
a state that requires user decision (e.g., engine migration).
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