7c6c5619a7
* docs(sidebar): collapse exploding skills tree to a single Skills node
The Skills sub-tree in the left sidebar expanded to 200+ entries
(22 bundled categories + 15 optional categories, every skill a page).
That's most of the nav on a first visit — docs for the actual product
get drowned in it.
Collapse the sidebar to:
Skills
godmode (hand-written spotlight)
google-workspace (hand-written spotlight)
Bundled catalog (reference/skills-catalog — table of all bundled)
Optional catalog (reference/optional-skills-catalog — table of all optional)
Per-skill pages still generate and are still reachable at their URLs;
they're linked from the two catalog tables and from the Skills overview
page. They just don't appear in the left nav anymore.
sidebars.ts goes from 649 lines to 247. generate-skill-docs.py loses
the bundled/optional sidebar render helpers.
Also picks up incidental generator output drift on current main
(comfyui skill content refresh; 4 new skill pages for
devops-kanban-orchestrator, devops-kanban-worker,
productivity-here-now, productivity-shopify; two catalog refreshes).
These are what the generator produces on main today — keeping them
committed avoids the next docs build showing 'working tree dirty'.
* docs(sidebar): drop godmode and google-workspace spotlight pages
Keep the Skills sidebar node strictly principled: two catalog links,
nothing else. There was no rule for which skills got spotlight pages
and which got auto-generated pages — just that these two happened to
be hand-written first.
Both pages still build and are still reachable at
/docs/user-guide/skills/godmode and
/docs/user-guide/skills/google-workspace. They're linked from the
catalog tables and the Skills overview page.
Sidebar Skills node now:
Skills
├── Bundled catalog
└── Optional catalog
8.5 KiB
title, sidebar_label, description
| title | sidebar_label | description |
|---|---|---|
| Kanban Orchestrator | Kanban Orchestrator | Decomposition playbook + specialist-roster conventions + anti-temptation rules for an orchestrator profile routing work through Kanban |
{/* This page is auto-generated from the skill's SKILL.md by website/scripts/generate-skill-docs.py. Edit the source SKILL.md, not this page. */}
Kanban Orchestrator
Decomposition playbook + specialist-roster conventions + anti-temptation rules for an orchestrator profile routing work through Kanban. The "don't do the work yourself" rule and the basic lifecycle are auto-injected into every kanban worker's system prompt; this skill is the deeper playbook when you're specifically playing the orchestrator role.
Skill metadata
| Source | Bundled (installed by default) |
| Path | skills/devops/kanban-orchestrator |
| Version | 2.0.0 |
| Tags | kanban, multi-agent, orchestration, routing |
| Related skills | kanban-worker |
Reference: full SKILL.md
:::info The following is the complete skill definition that Hermes loads when this skill is triggered. This is what the agent sees as instructions when the skill is active. :::
Kanban Orchestrator — Decomposition Playbook
The core worker lifecycle (including the
kanban_createfan-out pattern and the "decompose, don't execute" rule) is auto-injected into every kanban process via theKANBAN_GUIDANCEsystem-prompt block. This skill is the deeper playbook when you're an orchestrator profile whose whole job is routing.
When to use the board (vs. just doing the work)
Create Kanban tasks when any of these are true:
- Multiple specialists are needed. Research + analysis + writing is three profiles.
- The work should survive a crash or restart. Long-running, recurring, or important.
- The user might want to interject. Human-in-the-loop at any step.
- Multiple subtasks can run in parallel. Fan-out for speed.
- Review / iteration is expected. A reviewer profile loops on drafter output.
- The audit trail matters. Board rows persist in SQLite forever.
If none of those apply — it's a small one-shot reasoning task — use delegate_task instead or answer the user directly.
The anti-temptation rules
Your job description says "route, don't execute." The rules that enforce that:
- Do not execute the work yourself. Your restricted toolset usually doesn't even include terminal/file/code/web for implementation. If you find yourself "just fixing this quickly" — stop and create a task for the right specialist.
- For any concrete task, create a Kanban task and assign it. Every single time.
- If no specialist fits, ask the user which profile to create. Do not default to doing it yourself under "close enough."
- Decompose, route, and summarize — that's the whole job.
The standard specialist roster (convention)
Unless the user's setup has customized profiles, assume these exist. Adjust to whatever the user actually has — ask if you're unsure.
| Profile | Does | Typical workspace |
|---|---|---|
researcher |
Reads sources, gathers facts, writes findings | scratch |
analyst |
Synthesizes, ranks, de-dupes. Consumes multiple researcher outputs |
scratch |
writer |
Drafts prose in the user's voice | scratch or dir: into their Obsidian vault |
reviewer |
Reads output, leaves findings, gates approval | scratch |
backend-eng |
Writes server-side code | worktree |
frontend-eng |
Writes client-side code | worktree |
ops |
Runs scripts, manages services, handles deployments | dir: into ops scripts repo |
pm |
Writes specs, acceptance criteria | scratch |
Decomposition playbook
Step 1 — Understand the goal
Ask clarifying questions if the goal is ambiguous. Cheap to ask; expensive to spawn the wrong fleet.
Step 2 — Sketch the task graph
Before creating anything, draft the graph out loud (in your response to the user). Example for "Analyze whether we should migrate to Postgres":
T1 researcher research: Postgres cost vs current
T2 researcher research: Postgres performance vs current
T3 analyst synthesize migration recommendation parents: T1, T2
T4 writer draft decision memo parents: T3
Show this to the user. Let them correct it before you create anything.
Step 3 — Create tasks and link
t1 = kanban_create(
title="research: Postgres cost vs current",
assignee="researcher",
body="Compare estimated infrastructure costs, migration costs, and ongoing ops costs over a 3-year window. Sources: AWS/GCP pricing, team time estimates, current Postgres bills from peers.",
tenant=os.environ.get("HERMES_TENANT"),
)["task_id"]
t2 = kanban_create(
title="research: Postgres performance vs current",
assignee="researcher",
body="Compare query latency, throughput, and scaling characteristics at our expected data volume (~500GB, 10k QPS peak). Sources: benchmark papers, public case studies, pgbench results if easy.",
)["task_id"]
t3 = kanban_create(
title="synthesize migration recommendation",
assignee="analyst",
body="Read the findings from T1 (cost) and T2 (performance). Produce a 1-page recommendation with explicit trade-offs and a go/no-go call.",
parents=[t1, t2],
)["task_id"]
t4 = kanban_create(
title="draft decision memo",
assignee="writer",
body="Turn the analyst's recommendation into a 2-page memo for the CTO. Match the tone of previous decision memos in the team's knowledge base.",
parents=[t3],
)["task_id"]
parents=[...] gates promotion — children stay in todo until every parent reaches done, then auto-promote to ready. No manual coordination needed; the dispatcher and dependency engine handle it.
Step 4 — Complete your own task
If you were spawned as a task yourself (e.g. planner profile was assigned T0: "investigate Postgres migration"), mark it done with a summary of what you created:
kanban_complete(
summary="decomposed into T1-T4: 2 researchers parallel, 1 analyst on their outputs, 1 writer on the recommendation",
metadata={
"task_graph": {
"T1": {"assignee": "researcher", "parents": []},
"T2": {"assignee": "researcher", "parents": []},
"T3": {"assignee": "analyst", "parents": ["T1", "T2"]},
"T4": {"assignee": "writer", "parents": ["T3"]},
},
},
)
Step 5 — Report back to the user
Tell them what you created in plain prose:
I've queued 4 tasks:
- T1 (researcher): cost comparison
- T2 (researcher): performance comparison, in parallel with T1
- T3 (analyst): synthesizes T1 + T2 into a recommendation
- T4 (writer): turns T3 into a CTO memo
The dispatcher will pick up T1 and T2 now. T3 starts when both finish. You'll get a gateway ping when T4 completes. Use the dashboard or
hermes kanban tail <id>to follow along.
Common patterns
Fan-out + fan-in (research → synthesize): N researcher tasks with no parents, one analyst task with all of them as parents.
Pipeline with gates: pm → backend-eng → reviewer. Each stage's parents=[previous_task]. Reviewer blocks or completes; if reviewer blocks, the operator unblocks with feedback and respawns.
Same-profile queue: 50 tasks, all assigned to translator, no dependencies between them. Dispatcher serializes — translator processes them in priority order, accumulating experience in their own memory.
Human-in-the-loop: Any task can kanban_block() to wait for input. Dispatcher respawns after /unblock. The comment thread carries the full context.
Pitfalls
Reassignment vs. new task. If a reviewer blocks with "needs changes," create a NEW task linked from the reviewer's task — don't re-run the same task with a stern look. The new task is assigned to the original implementer profile.
Argument order for links. kanban_link(parent_id=..., child_id=...) — parent first. Mixing them up demotes the wrong task to todo.
Don't pre-create the whole graph if the shape depends on intermediate findings. If T3's structure depends on what T1 and T2 find, let T3 exist as a "synthesize findings" task whose own first step is to read parent handoffs and plan the rest. Orchestrators can spawn orchestrators.
Tenant inheritance. If HERMES_TENANT is set in your env, pass tenant=os.environ.get("HERMES_TENANT") on every kanban_create call so child tasks stay in the same namespace.