| name | doctor |
| description | Diagnose why pi-flows, the Anthropic-messages bridge, model resolution, a pi install, a peer, a plugin/bridge, or a build/reload is broken in the pi-agent-dashboard. Derives every fact live (works with the server down), reports pi across ALL install locations, detects peer name-skew, and routes each failure to the topology-correct fix. Use on "flow won't show", "bridge waiting_peers", "pi version mismatch", "I built it but it's still broken", "which pi is this using", "agent model fails at spawn", "diagnose the dashboard", "doctor". |
| license | MIT |
doctor — modular diagnostic skill
This SKILL.md is a thin router. It owns NO capability knowledge. Every
diagnostic fact lives in a self-contained capability module under modules/,
read on demand. The router derives its symptom map and sweep order from each
module's front-matter (symptoms:, depends-on:) — so adding a module MD
auto-registers it with no edit here.
Modules
Each modules/<id>.md follows a uniform 5-part contract: SCOPE · KNOWLEDGE ·
CHECKS · FIX ROUTING · DERIVES-FROM (+ a <id>.knowledge.hash sidecar).
| id | scope |
|---|
env-node | Node runtime + OS/platform baseline |
pi-resolution | every pi install location, divergence + floor |
peers | pi-flows + anthropic peer, tier-1/tier-2, name-skew |
plugins-bridges | bridge registration (packages[] vs dashboardPluginBridges) + activation |
build-reload | three-component rebuild/reload gaps |
install-topology | npm-global / Electron / Docker / dev + topology fixes |
model-resolution | model:resolve handler, roles/preset, @role resolvability |
How to route
The router logic lives in _lib/router.ts (load modules, build the symptom
map, topo-sort the sweep DAG, plan short-circuit). Use it — do not hand-keep a
catalog.
- Symptom phrase (e.g. "flow won't show") →
routeSymptom(modules, phrase)
returns exactly one module id. Read that module MD and run its CHECKS.
- Named capability (e.g. "check peers") → read
modules/peers.md directly.
- Full sweep (no hint, or "full") →
buildSweepOrder(modules) orders
modules env → pi → peers → plugins → build → runtime. Run in order; when a
module fails, planSweep(modules, failed) marks every dependent module
suppressed so a lower-layer failure (missing pi) is reported as the ROOT
CAUSE and NOT re-reported as a broken bridge.
Fact provenance (server up or down)
Checks are shell-first: they read files + createRequire and work with the
dashboard server DOWN. When the server is reachable, _lib/server-tier.ts
(fetchHealth, fetchPiCoreVersions) enriches the report as an ADDITIVE tier.
Every reported fact is labelled file-derived or server-enriched
(_lib/provenance.ts) so a partial (server-down) run is never mistaken for a
clean bill.
Two-tier self-update
- Tier 1 (derive-on-run) — versions, peer names, resolved paths, the
recommended set are read from live sources every run; they can never rot.
- Tier 2 (knowledge-hash) — each module stores
<id>.knowledge.hash over
the semantic tokens of its derives-from sources (_lib/knowledge-hash.ts).
On run, checkDrift(id, liveTokens, hashPath) compares live vs stored; a
mismatch flags that module's authored prose as possibly stale.
--regenerate <module>
When a module's hash drifts:
- Re-derive the module's tables from its live
derives-from sources.
- Propose edits to the module's authored prose for confirmation — never
overwrite silently.
- After confirmation,
writeStoredHash(hashPath, liveHash) to clear the drift.
Regeneration is always confirmed. The AGENTS.md Documentation Update Protocol
maps each source-of-truth change to the single module to regenerate (peer
rename → peers; pi floor bump → pi-resolution; new install platform →
install-topology; new bridge slot → plugins-bridges).
Report format
For each module report: PASS / FAIL, the resolved path(s) + version(s) per
tier, the provenance of each fact, and — on FAIL — the matching FIX ROUTING
remediation for the detected install topology. Never report a version without
the resolved path it came from.