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docs(path-b): execution plan + vibn-dev image scaffold

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- AI_PATH_B_EXECUTION_PLAN.md: add 3 safety nets (auto-push, kill
  switch, hard tool removal), tighten 4 risks (network policy week 1,
  HMR spike day 1, lean image + lazy mise, random preview suffix).
- AI_CAPABILITIES_ROADMAP.md: pointer note already in place.
- vibn-dev/Dockerfile + supervisord.conf + mise.default.toml + README:
  scaffold for the per-project dev container image. Ubuntu 24.04 +
  git + ripgrep + python3 + mise. Toolchains lazy-install on first
  `mise install`. Container runs as uid 1000 vibn (sudo available).

Frontend wiring lives in vibn-frontend (separate commit).

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AI_CAPABILITIES_ROADMAP.md
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# Vibn AI Capability Roadmap
> **⚠ See also:** [`AI_PATH_B_EXECUTION_PLAN.md`](./AI_PATH_B_EXECUTION_PLAN.md)
> — proposed pivot to a Claude-Code-style persistent dev container per
> project. Once approved, that doc supersedes any "code authoring" item
> in this roadmap; this file remains the source of truth for
> infrastructure primitives (P5.x, P6.x, P7.x).
>
> The ordered plan for closing the gap between what the Vibn agent can do
> today and what it needs to do for a real customer to ship, operate, and
> scale a SaaS through it.

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# Path B Execution Plan — Persistent Dev Container Architecture
> The plan to replace Vibn's current "API-wrap-every-Coolify-action" agent
> surface with a Claude-Code-style architecture: one persistent dev
> container per Vibn project, ~10 composable tools, sub-15-second
> iteration, and Coolify only touched at "ship it" time.
>
> **Companion to:** [`AI_CAPABILITIES.md`](./AI_CAPABILITIES.md) (current
> state) and [`AI_CAPABILITIES_ROADMAP.md`](./AI_CAPABILITIES_ROADMAP.md)
> (everything else).
>
> **Status:** proposed. Not started. Decision document.
>
> **Why this exists:** today's AI loop is *37 min to first preview, 24
> min per iteration*, because every change goes through a Coolify nixpacks
> build. That UX cannot host the marketplace / SaaS / iterative-build
> stories Vibn is selling. Path B fixes the floor.
---
## 1. The user experience this unlocks
Reference scenario: a non-technical founder chats *"build me a
two-sided marketplace for handmade ceramics."*
| Phase | Path A (today) | Path B (target) |
|---|---|---|
| Discovery & OSS pick | OK | OK |
| Fork an OSS base (e.g. Sharetribe, 800 files) | ~15 min of single-file commits, 800 webhook fires | `git clone` in 8s |
| First live preview | 37 min (Coolify build) | ~30s (Vite HMR in dev container) |
| Each iteration | 24 min (rebuild) | 315s (HMR / process restart) |
| User makes 10 small decisions | ~40 min of staring at spinners | ~3 min of conversation |
| "Ship it" → real domain | already 3 min | 3 min (unchanged — this is the only Coolify build) |
| Total time to live, polished marketplace | 3060 min, often abandoned | ~20 min, mostly the user thinking |
The asymmetry is structural, not optimisable inside Path A.
---
## 2. Architecture overview
```
┌──────────────────────────┐ ┌────────────────────────────────┐
│ vibnai.com chat (user) │ ←→ │ /api/mcp │
└──────────────────────────┘ │ ├ shell.exec │
│ ├ fs.read / fs.edit / fs.glob │
│ ├ dev_server.start │
│ ├ ship │
│ └ apps.* / databases.* / ... │
└────────────┬───────────────────┘
▼ (workspace-scoped)
┌────────────────────────────────────┐
│ Per-Vibn-project Coolify project │
│ ├ vibn-dev ← dev container │
│ ├ web ← prod app │
│ ├ db │
│ └ ... │
└────────────────────────────────────┘
```
### Per-project dev container — the only new piece
For every active Vibn project, we run **one long-lived Coolify
service named `vibn-dev`** inside that project's dedicated Coolify
project (Stage 2/3 of per-project isolation already shipped).
| Property | Value |
|---|---|
| **Image** | `ghcr.io/vibnai/vibn-dev:latest` (we build & maintain) |
| **Base** | Ubuntu 24.04 |
| **Pre-installed** | Node 20, bun, pnpm, Python 3.12 + uv, Go 1.23, Rust, git, gh, `tea` (Gitea CLI), ripgrep, fd, jq, curl, tar, openvscode-server |
| **Default `cwd`** | `/workspace` (persistent volume containing the Gitea working tree) |
| **Persistent volumes** | `/workspace` (git tree), `/cache/{npm,pip,go,cargo}` (package caches) |
| **Resource floor** | 512 MB / 0.25 CPU when idle |
| **Resource ceiling** | 4 GB / 2 CPU during builds (configurable per workspace plan) |
| **Idle suspend** | After 30 min no `shell.exec` activity |
| **Re-wake** | Any `shell.exec` / `fs.*` / `dev_server.*` call |
| **Ports** | 30009999 reserved for the AI's dev server, exposed at `https://preview-{ws}-{project}.vibnai.com` via Traefik wildcard |
| **Tenancy** | Inherits per-project Coolify isolation — workspace can never reach into another's dev container |
### Why this shape (and not e2b / Cloud Run / VM-per-task)
- We already have Coolify, per-project Coolify projects, and Coolify
exec primitives. Adding one service per project is zero new infra.
- Persistence (workspace state, package cache, git working tree)
matters more than per-task isolation for our user. Founders return
to projects across sessions.
- Tenant safety is already solved at the Coolify-project layer.
- Cost stays bounded: one container per *active* project, idle-suspended.
- Upgrade path to e2b / Firecracker exists later if needed (replace the
executor, keep the tool surface).
---
## 3. Tool surface
### New tools (the AI's primary working set)
| Tool | Signature | Purpose |
|---|---|---|
| `shell.exec` | `{ cmd, cwd?, timeoutSec?, env? }` | Run any shell command in the dev container. Streams stdout/stderr back. Capped 15 min. |
| `fs.read` | `{ path, ref? }` | Read a file (or directory listing) from `/workspace`. |
| `fs.write` | `{ path, content }` | Create/overwrite a file. |
| `fs.edit` | `{ path, oldString, newString, replaceAll? }` | Aider-style search/replace. Fails if `oldString` not found / not unique. |
| `fs.glob` | `{ pattern, cwd? }` | List files matching a pattern (e.g. `**/*.tsx`). |
| `fs.grep` | `{ pattern, glob?, contextLines? }` | ripgrep-backed code search. |
| `fs.delete` | `{ path }` | Delete a file or directory. |
| `dev_server.start` | `{ cmd, port, name? }` | Start a long-running process (e.g. `npm run dev`). Returns a public preview URL. |
| `dev_server.stop` | `{ id }` | Kill a dev server. |
| `dev_server.list` | — | What's running, on what URL. |
| `ship` | `{ projectId, commitMsg, deploy? }` | `git add . && git commit && git push` to Gitea, then trigger Coolify deploy of the prod app. The "graduate to production" tool. |
### Kept (orchestration — these are correctly modeled as APIs)
- `apps.*` — Coolify app CRUD, logs, domains, env vars, etc.
- `databases.*`, `auth.*`, `domains.*`, `storage.*` — infrastructure primitives.
- `projects_get`, `projects_list`, `workspace_describe` — context.
- `github_search`, `github_file`, `http_fetch` — external lookup.
### Deprecated (kept for back-compat, banner in docs)
- `gitea_file_read`, `gitea_file_write`, `gitea_file_delete`,
`gitea_branches_list`, `gitea_branch_create`,
`gitea_repo_create`, `gitea_repo_get`, `gitea_repos_list` — the
AI uses `shell.exec` (`git`/`tea` CLI) and `fs.*` instead.
- `apps.exec` — kept (it's still useful for prod-container debugging),
but deprecated for *dev-time* code work.
**Net change:** 53 tools → ~30 tools, but the new ones compose to do
everything the old ones did and more.
---
## 4. The system prompt rewrite
The AI's prompt today says *"call gitea_file_write to push code."* It
becomes:
> You have a real Linux dev environment for this project at `/workspace`.
> Use `shell.exec` to run any command (npm, git, tea, python, anything).
> Use `fs.edit` for surgical changes, `fs.write` for new files.
>
> Standard loop:
> 1. `shell.exec { cmd: "git status" }` to see what's there.
> 2. Edit / create files via `fs.edit` / `fs.write`.
> 3. `shell.exec { cmd: "npm test" }` (or relevant test runner).
> 4. `dev_server.start` to give the user a live preview URL.
> 5. When the user says "ship it", call `ship` — that pushes and
> triggers the production Coolify deploy.
>
> NEVER call `apps_create` to deploy code that hasn't been tested via
> `shell.exec` first. The dev container is your safety net.
---
## 5. Week-by-week execution
### Week 1 — Foundations (dev container + shell)
**Goal:** AI can clone a repo, install deps, run a script.
- [ ] Build `ghcr.io/vibnai/vibn-dev:latest` Docker image (Ubuntu 24.04 + toolchains). Push to a registry the Coolify host can pull from.
- [ ] Add `lib/dev-container.ts`: helpers to mint, locate, ensure-running, suspend, resume the per-project `vibn-dev` Coolify service.
- [ ] Add MCP tool `dev_container.ensure { projectId }` — internal/auto, spins up the container if not present. Returns its UUID + status.
- [ ] Add MCP tools: `shell.exec`, `fs.read`, `fs.write`, `fs.list`, `fs.delete`, `fs.glob`, `fs.grep`. All proxy through Coolify's exec API to the dev container.
- [ ] Smoke test (`scripts/smoke-path-b.ts`): boots a dev container, clones a Gitea repo, runs `npm init -y && npm install lodash`, reads `package.json`, succeeds.
- [ ] Update `vibn-tools.ts` and ship a chat UI that streams `shell.exec` stdout to the user as it happens (existing terminal-style component if we have one, or a new one).
**Exit criteria:** an internal user can chat *"clone the express hello-world repo and run it"* and see the output stream live.
### Week 2 — Preview URLs + iteration
**Goal:** AI starts a dev server, user clicks a preview URL, sees their app.
- [ ] Traefik wildcard rule on the Coolify host: `*.preview.vibnai.com` → terminates TLS, forwards to dev container based on subdomain (`preview-{ws}-{project}.vibnai.com``vibn-dev` of that project's Coolify project).
- [ ] Add MCP tools: `dev_server.start`, `dev_server.stop`, `dev_server.list`. Implementation: starts the process inside the dev container under a small supervisor (e.g. `tini` / `supervisord`), tracks PID/port, registers a Traefik label on the dev container.
- [ ] Add `fs.edit` (Aider-format search/replace, with explicit error when `oldString` not found / ambiguous).
- [ ] Per-workspace plan-tier resource caps on the dev container (free tier: 1 GB / 0.5 CPU; paid: 4 GB / 2 CPU).
- [ ] System prompt rewrite (see §4). Update the AI's deploy recipes to start with `shell.exec` and `dev_server.start` rather than `apps_create`.
**Exit criteria:** the marketplace scenario from §1 works end-to-end up through "user makes 5 styling changes in 3 minutes."
### Week 3 — Ship-it path + cleanup
**Goal:** the dev container's working tree graduates to production.
- [ ] Add `ship` tool: runs `git add . && git commit -m {msg} && git push` inside the container, then either calls `apps_deploy { uuid }` (if a prod app exists) or `apps_create { projectId, repo }` (first ship).
- [ ] Auto-link the prod app to `fs_project_resources` so the existing project-isolation accounting stays consistent.
- [ ] Idle-suspend logic: cron job every 5 min checks last `shell.exec` timestamp per dev container; suspends after 30 min idle. Auto-resume on next call.
- [ ] Deprecation pass: mark `gitea_file_*` tools as deprecated in `vibn-tools.ts` (keep working, add a banner in their description).
- [ ] Update `AI_CAPABILITIES.md` to reflect the new architecture and tool surface.
**Exit criteria:** end-to-end clean run: user prompt → AI scaffolds in dev container → user iterates → user says "ship" → app live on real domain. Total time logged.
### Week 4 — Eval, polish, IDE drop-in
**Goal:** measure that this actually delivers the promised UX, ship the optional graduation path.
- [ ] **Eval harness:** 10 reference prompts (TODO app, marketplace, blog with auth, kanban, image-uploader, AI chatbot, simple e-commerce, dashboard, REST API + DB, static site). Measure: time-to-first-preview, time-to-shipped, AI tool-call count, success rate. Compare to a baseline run on Path A.
- [ ] **Theia drop-in:** expose openvscode-server (already in the image) at `https://ide-{ws}-{project}.vibnai.com`. Optional toggle in chat UI: "Open IDE." Lets a user-becoming-developer drop into the same `/workspace` the AI's been editing.
- [ ] **Bug fixes** found during eval.
- [ ] **Docs:** update Vibn's user-facing pages to reflect the new "describe → live preview in seconds → iterate → ship" flow.
**Exit criteria:** eval shows ≥3× speedup on time-to-first-preview vs.
Path A, ≥80% success rate on the 10 reference prompts.
---
## 6. OSS we will lean on (not reinvent)
| Need | OSS choice | Notes |
|---|---|---|
| Dev container image base | Ubuntu 24.04 + toolchains | We bake & maintain. ~1 GB. |
| In-browser IDE (week 4 graduation path) | `openvscode-server` (`gitpod-io/openvscode-server`, MIT) | Pre-installed in the image. Optional toggle. |
| Edit format | **Aider's search/replace block format** (`Aider-AI/aider`, Apache 2.0) | Borrow the format + error semantics. |
| Process supervision inside the container | `tini` (already standard) + a tiny in-house supervisor for `dev_server.*` | No need for full systemd. |
| Code search inside the container | `ripgrep` (`BurntSushi/ripgrep`, MIT) | Pre-installed. `fs.grep` is a thin wrapper. |
| Git inside the container | `git` + `tea` (Gitea CLI, MIT) | `tea` lets the AI do PR ops without us building gitea_pr_* tools. |
| Reference for end-to-end agent loops | `All-Hands-AI/OpenHands` (MIT) | Read their runtime + tool design. Don't import their code. |
| Reference for fast iteration UX | `bolt.new` (`stackblitz/bolt.new`) | UX north star, not a code source. |
---
## 7. Risks & open questions
| Risk | Mitigation |
|---|---|
| **Dev containers eat money.** 100 active projects × 24/7 = ~$50/mo wasted. | Idle-suspend after 30 min. Resume in <5s. Per-plan caps. Auto-delete suspended-and-untouched volumes after 30 days. |
| **`shell.exec` is the universal escape hatch — security?** AI inside a single workspace's container can do anything that container can do. | (a) Per-project Coolify isolation. (b) **Network policy: dev containers have NO route to internal Vibn services (vibn-postgres, vibn-frontend, Coolify control plane). Implemented via Docker network rules in week 1, not deferred.** (c) Audit log on every `shell.exec` call. (d) Per-container CPU/RAM caps absorb fork-bomb / coin-mining attempts. |
| **Preview URL leaks.** `https://preview-mark-ceramic-market.vibnai.com` is publicly resolvable. | Default: random suffix in subdomain (`preview-mark-ceramic-market-7a3f.vibnai.com`) — ~64 bits of unguessability. Optional Vibn-session-cookie auth as paid-tier feature later. |
| **Hot reload through Traefik.** WebSocket / HMR can be finicky over a reverse proxy. | **Spike on week 1, day 1**: bring up a Vite dev server inside vibn-dev, expose via Traefik, edit a file, verify HMR fires. Failure here is the biggest "things look fine until you actually test" risk; de-risk early. |
| **Image size / pull time on first project.** ~1 GB pull adds 3060s to first dev container spin-up. | (a) Pre-pull image on every Coolify host on deploy. (b) **Keep base image small (~500 MB: OS + git + ripgrep + supervisord + IDE server). Lazy-install language toolchains via `mise` on first project use.** Prevents the image from bloating to 4 GB six months from now. |
| **Dependency cache poisoning.** Cached `node_modules` from project A bleeds into project B. | Caches are per-project (volume `vibn-dev-cache-{projectId}`). Never share. Take the slower-first-install hit; add a Verdaccio mirror later only if it bothers anyone. |
| **AI keeps calling `gitea_file_*` instead of `shell.exec`.** | **Hard removal from AI's tool list in week 3, not soft deprecation.** Keep REST endpoints alive for a 30-day grace period for any external MCP client. After 30 days, return 410 Gone. The AI has no muscle memory; no graceful migration needed. |
| **What if the user has no Vibn project yet?** | First chat creates a project + provisions its Coolify project + spins up `vibn-dev` lazily. ~10s overhead, one-time. Stream progress to the chat ("creating workspace... installing tools..."). Same UX bolt.new uses while WebContainers boot. |
| **Coolify host disk dies → users lose unshipped `/workspace` work.** | **Auto-push to Gitea `vibn-autosave/main` branch every 5 min of activity, plus before idle-suspend.** Treat Gitea as canonical, container disk as ephemeral. Built in week 1, day 2 (not optional). |
| **Path B turns out to be wrong; we need to revert.** | **Kill-switch admin endpoint (`POST /api/admin/path-b/disable`) flips a feature flag — all new chat sessions go back to Path A; existing dev containers drain.** ~10-min revert window. Built week 1. |
---
## 8. Success metrics
We're not done until **all four** are true on the eval harness:
| Metric | Target | Today (Path A) |
|---|---|---|
| Time-to-first-preview (10 reference prompts, p50) | ≤ 60 s | ~5 min |
| Iteration loop (small edit → user sees change) p50 | ≤ 15 s | ~3 min |
| Tool calls per "build me X" task (median) | ≤ 30 | ~80 |
| End-to-end success rate (live deployable result) | ≥ 80% | ~50% |
---
## 9. What this changes about the existing roadmap
- **Tier 1.5 ("Code authoring capability") is collapsed into this doc.** C1C9 mostly disappear (replaced by `shell.exec` + `fs.edit`); C10 ("persistent agent dev workspace") **is** Path B.
- **Tier 1 P5.1P5.4 are unchanged.** Domains, email, storage, workers — still the right next infra primitives. Path B doesn't replace them; it makes the AI capable enough to actually use them.
- **Tier 2 P6.x** (backups, runtime logs, scoped keys) — unchanged.
- **`gitea_*` tools shipped 2026-04-28** are now legacy. Mark deprecated in week 3. Remove in a future cleanup once telemetry confirms zero usage.
---
## 10. Decision needed before week 1 starts
1. **Approve Path B as the primary architecture for code authoring.** (If no, this doc dies here.)
2. **Approve the dev-container-as-Coolify-service implementation choice.** Alternatives: separate dev-host, e2b self-host, Cloud Run jobs. Picked Coolify-service for zero new infra; flag if you want to revisit.
3. **Approve the deprecation of `gitea_file_*` tools.** They were shipped today; deprecating them within 3 weeks is fine if the path forward is clearer, embarrassing if we keep them around as half-working alternates.
4. **Approve the resource cap defaults** (free: 1 GB / 0.5 CPU, paid: 4 GB / 2 CPU). Or set different numbers.
Once those four are decided, week 1 starts.
---
## How to use this doc
- This is the *architectural* execution plan. The detailed task list
goes into the agent's TodoWrite per-week, not into this file.
- When an item ships, **move it from "planned" to "shipped"** in
[`AI_CAPABILITIES.md`](./AI_CAPABILITIES.md) and link the commit/PR.
- When a risk in §7 turns out to be real, document the mitigation
outcome inline so future readers see what actually happened.
- This doc supersedes the proposed Tier 1.5 in
[`AI_CAPABILITIES_ROADMAP.md`](./AI_CAPABILITIES_ROADMAP.md). Add a
one-line pointer there once approved.

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# vibn-dev — per-project AI development container.
#
# Goal: a small, fast-pulling base image (~500 MB target) that gives the AI
# (and the user, eventually) a real shell with git, ripgrep, and the
# scaffolding to lazy-install language toolchains via mise on first use.
#
# Heavy toolchains (Node / Python / Go / Rust) are NOT baked in — they
# install on demand via `mise install` the first time the AI runs
# `npm`, `python`, `go`, etc. This keeps the base image lean and lets us
# bump toolchain versions without rebuilding the image.
#
# Spec is in AI_PATH_B_EXECUTION_PLAN.md §3.
FROM ubuntu:24.04
ENV DEBIAN_FRONTEND=noninteractive \
LANG=C.UTF-8 \
LC_ALL=C.UTF-8 \
TZ=UTC
# Core OS packages: shell, git, network, build essentials, ripgrep
# (powers fs.grep), tini (PID 1 reaper), supervisord (process supervisor
# for sshd + dev servers), curl/ca-certs (downloads), unzip (mise
# tarballs), sudo (toolchain installers expect it).
RUN apt-get update && apt-get install -y --no-install-recommends \
bash coreutils ca-certificates curl wget git openssh-client \
ripgrep jq nano vim less procps lsof net-tools dnsutils \
build-essential pkg-config \
sudo tini supervisor unzip xz-utils \
python3-minimal \
&& rm -rf /var/lib/apt/lists/*
# vibn user — the AI runs as this, NOT root.
RUN useradd --create-home --shell /bin/bash --uid 1000 vibn \
&& mkdir -p /workspace /home/vibn/.cache /home/vibn/.local /var/log/vibn-dev \
&& chown -R vibn:vibn /workspace /home/vibn /var/log/vibn-dev \
&& echo 'vibn ALL=(ALL) NOPASSWD: ALL' > /etc/sudoers.d/vibn
# mise — polyglot version manager. Installs Node/Python/Go/Rust on demand.
# Pinned to a specific version for reproducibility; bump in this Dockerfile.
ENV MISE_VERSION=v2024.12.14
RUN curl -fsSL "https://mise.run" | MISE_VERSION=${MISE_VERSION} sh \
&& mv /root/.local/bin/mise /usr/local/bin/mise \
&& chmod +x /usr/local/bin/mise
# Hook mise into vibn's shell so `node`, `python` etc. resolve once
# installed via `mise install`.
RUN echo 'eval "$(/usr/local/bin/mise activate bash)"' >> /home/vibn/.bashrc \
&& echo 'export PATH="$HOME/.local/bin:$PATH"' >> /home/vibn/.bashrc
# Default mise toolchain config — lazily materialised. The AI can
# override per-project by writing /workspace/.mise.toml.
COPY --chown=vibn:vibn mise.default.toml /home/vibn/.config/mise/config.toml
# supervisord runs sshd-less; we don't need ssh in the container because
# all exec happens via `docker exec` from the Coolify host. Supervisord
# is reserved for dev_server.* (Vite/Next/etc) once that ships.
COPY supervisord.conf /etc/supervisor/conf.d/vibn-dev.conf
WORKDIR /workspace
USER vibn
# Keep-alive process. The container's job is to exist; commands run via
# `docker exec`. tail -f /dev/null is the canonical "stay running, do
# nothing" pattern — cheaper than supervisord for the no-dev-server case.
ENTRYPOINT ["/usr/bin/tini", "--"]
CMD ["tail", "-f", "/dev/null"]

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# vibn-dev
Per-project AI development container. One of these runs in Coolify per
Vibn project; the AI agent (Gemini) drives it via `shell.exec` and
`fs.*` MCP tools.
See `/AI_PATH_B_EXECUTION_PLAN.md` for the architecture.
## Build & publish
```bash
docker build -t registry.vibnai.com/vibn-dev:latest .
docker push registry.vibnai.com/vibn-dev:latest
```
The image is pre-pulled on every Coolify host on deploy so first-use
spin-up stays under 5 seconds.
## Smoke test locally
```bash
docker build -t vibn-dev .
docker run --rm -it -v "$PWD/scratch:/workspace" vibn-dev bash
# inside: mise install # pulls Node lts + Python 3.12 (~90s, one-time)
# inside: rg --version # ripgrep ships in the base image
# inside: git --version
```
## What's NOT in the image (by design)
- Node/Python/Go/Rust toolchains — lazy-installed via mise
- Coolify control-plane creds — never. The container has no route to
internal Vibn services (Docker network policy enforced at host level)
- SSH server — exec happens via `docker exec` from the Coolify host

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# Default toolchain hints for vibn-dev. Nothing is installed until the
# AI (or the user) runs `mise install`. Override per-project by writing
# /workspace/.mise.toml — mise auto-loads the closest config.
[tools]
node = "lts"
python = "3.12"

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; supervisord config for vibn-dev. Currently a no-op — the container
; runs `tail -f /dev/null` as PID 1 (via tini) and dev servers are
; launched ad-hoc through `docker exec` + nohup once dev_server.start
; ships in week 2. Reserved here so the conf path exists.
[supervisord]
nodaemon=true
user=vibn
logfile=/var/log/vibn-dev/supervisord.log
pidfile=/tmp/supervisord.pid

2
vibn-frontend

Submodule vibn-frontend updated: 89eaff113c...4ba9407534