# RemoteRig — Project Working Context > **Purpose of this file:** a living, high-signal context + decision log for the > RemoteRig project. It's the primary onboarding doc for humans and for any LLM > working on the repo. Keep it updated as decisions are made. > **Last updated:** 2026-06-05. > > Deeper references: `docs/CONTEXT.md` (system architecture detail), > `docs/MQTT_CONTRACT.md` (MQTT topics/payloads), `docs/design/` (design notes), > `hardware/README.md` (case/wiring/BOM), `README.md` (hub build/deploy). --- ## 1. What this is RemoteRig is a multi-camera **GoPro Hero 3 monitoring & control** system for field recording (large concerts in auditoriums, high-school marching band at stadiums). Founder: **Joshua / CubeCraft Creations**. Scope: **monitor status (battery, recording, link) and start/stop multiple GoPros** over a closed, self-contained travel-router network. **No video flows through the hub** — footage records locally to each GoPro's SD card. This keeps the hub a lightweight control plane. ## 2. Architecture ``` GoPro Hero 3 ──Wi-Fi(10.5.5.1)── ESP-01S ──UART(JSON)── XIAO ESP32-C6 ──Wi-Fi/MQTT── Pi hub ── Dashboard (per camera) (GoPro bridge) (MQTT bridge + OLED/LED) (Mosquitto+Go+SQLite) ``` **Camera node** (one per GoPro), two boards: - **XIAO ESP32-C6** — main MCU / MQTT bridge. Joins the RemoteRig Wi-Fi, talks MQTT to the hub, drives the OLED + RGB status LED, reads camera status from the ESP-01S over UART. Powered from the 5V rail. - **ESP-01S (ESP8266)** — GoPro Wi-Fi bridge. Joins the GoPro's AP (`10.5.5.1`), relays status/commands to the XIAO over UART. Powered from its **own 3.3V buck** (not the XIAO 3V3 pin — Wi-Fi TX spikes ~300 mA). **Hub** — Raspberry Pi Zero 2 W (hostname `remote-rig-hub`, user `overseer`): - **Mosquitto** MQTT broker (`:1883`, anonymous, listens on `0.0.0.0`). - **Go controller** (`remoterig`, systemd service) — MQTT subscriber → SQLite, REST API + SSE, serves the embedded React dashboard on `:8080`. - **SQLite** (`/opt/remoterig/remoterig.db`). - Decided to **stay on the Zero 2 W** (workload is tiny; a Pi 5 only makes sense if video preview/ingest is ever added — not planned). ## 3. Network - **RemoteRig travel router**, subnet **`192.168.8.0/24`**, gateway `192.168.8.1`, has a WAN uplink (internet available — used for the Pi to pull builds). - **Hub static IP: `192.168.8.56`** (`:1883` MQTT, `:8080` dashboard/API). - Cameras get DHCP `192.168.8.x`. - The GoPro AP network (`10.5.5.1`) is separate and only the ESP-01S touches it. - **History:** the project was originally designed around `10.60.1.0/24`; it was re-addressed to `192.168.8.0/24` to match the actual travel router (commit `b0062f1`). Wi-Fi SSID `RemoteRig` (creds in `firmware/data/config.json`). ## 4. Repository & workflow - **Gitea:** `ssh://sc-gitea@code.cubecraftcreations.com:2288/CubeCraft-Creations/remote-rig` (web/API on `https://code.cubecraftcreations.com`, private repo). - **Default/integration branch: `dev`** (work lands here; merges from `main`). - Layout: `firmware/` (PlatformIO), `cmd/`,`internal/`,`pkg/` (Go hub), `src/` (React/Vite/TS dashboard), `scripts/` (Pi setup/deploy), `.gitea/workflows/` (CI), `hardware/` (CAD/wiring), `docs/`. ## 5. Tech stack | Area | Choice | |------|--------| | Camera firmware | PlatformIO / Arduino | | C6 env | `seeed_xiao_esp32c6` — **pioarduino** platform fork, **LittleFS**, U8g2 | | ESP-01S env | `esp8266-camera` — board `esp01_1m`, flash `dout` | | Hub | **Go 1.25** (single static binary, `//go:embed` frontend) | | Dashboard | React + Vite + TypeScript + Tailwind (Vitest) | | Storage | **SQLite** (not Postgres) | | Broker | **Mosquitto** | | CI/CD | **Gitea Actions** (pull-based deploy) | ## 6. Camera node hardware (XIAO ESP32-C6 pin map) | Pin | Use | |-----|-----| | 5V/VIN | rocker → 5V rail | | D4/SDA, D5/SCL | 1.3" **SH1106** OLED (I2C @ `0x3C`) | | D0 / D1 / D2 | RGB STAT LED R/G/B (220Ω each), **common-anode** | | D6 (TX) / D7 (RX) | UART (`Serial1`) to ESP-01S (crossed) | | D8 / D10 | **reserved** for ESP-01S UART-OTA control (RST / GPIO0) — not driven yet | | 5V rail (330Ω) | PWR LED (not an MCU pin) | Canonical wiring: Notion "XIAO ESP32-C6 Pin-to-Pin Wiring Diagram" + `hardware/README.md`. ## 7. Firmware behavior **XIAO ESP32-C6 (`firmware/src/esp32-mqtt-bridge.cpp`)** — fw `0.4.0`: - Loads config from LittleFS `/config.json` (Wi-Fi, broker, camera_id, battery cal). - **Self-assigned camera_id** = device id `rig-` (e.g. `rig-86d978`) — see decision #7. Subscribes `remoterig/cameras//command`, announces on `remoterig/cameras//announce`, publishes `.../status`. - OLED status panel (CAM id / REC + session timer / BAT / LINK / CAM reachability). - RGB STAT LED health colors: blue=boot, red=offline, magenta=Wi-Fi-no-hub, yellow=hub-no-camera, green=healthy. - Battery calibration: two-point linear (raw offset-57 → %), persisted; `battery_pct` emitted only when calibrated. - No-reflash config: `set_camera_config` (MQTT) → forwarded to ESP-01S as `set_config`. **ESP-01S (`firmware/src/esp8266-camera-bridge.cpp`)**: - Joins GoPro AP, polls status, relays JSON over UART; `set_config` persists to LittleFS. - No status LED (GPIO1 is the UART TX). - ⚠️ **Known bug:** `fetchStatus()` GETs the **shutter** endpoint (`/bacpac/SH?...&p=%01`) instead of a real status read — would *start recording* each poll. Needs the GoPro Hero 3 protocol corrected + validated against a real camera (also verify password/SSID). **Do not point at a live GoPro until fixed.** **Provisioning:** `firmware/data/config.json` is flashed to the C6's LittleFS via `pio run -e seeed_xiao_esp32c6 -t uploadfs`. Per maintainer decision the real Wi-Fi password lives in this tracked file (private repo, low-sensitivity closed network). ## 8. Hub & CI/CD (pull-based deploy) **Flow:** `push to dev` → Gitea Actions `build-dev.yaml` builds the React frontend (into `cmd/server/src/dist`, embedded) + cross-compiles the **arm64** Go binary → publishes a rolling **`dev-latest`** release (binary + `sha256` + `version.txt`) via a Node script (`.gitea/scripts/publish-release.mjs`). The Pi's `remoterig-update.timer` runs `scripts/pi-update.sh` every ~5 min → compares `version.txt`, downloads + checksum-verifies, **atomically replaces** the binary, restarts, health-checks (rolls back on failure). **Why pull, not push:** the Pi is on a closed travel-router LAN the CI runner can't reach; the Pi pulls instead. - `ci.yaml` — frontend quality gates (lint/typecheck/test/build), single job. - First-time Pi setup: `sudo bash scripts/setup-pi.sh --config config.yaml` (installs Mosquitto, the service, the updater timer, static IP). - Pi files: `/opt/remoterig/{remoterig, config.yaml, update.env, VERSION, deploy.sh, pi-update.sh}`. - Future ESP-01S firmware OTA: `docs/design/esp01s-uart-ota.md` ("XIAO as flasher"). ### Gitea Actions runner notes (important) - Runner `remote-rig-runner`, label **`go-react`** (Dockerized act_runner). Workflows must use `runs-on: go-react`. - The `go-react` image has **Node but not Go** → use `setup-go` (its static binary runs); get Node from the image (**don't** use `setup-node` — its dynamically-linked Node won't execute here, "cannot execute: required file not found"). - Gitea doesn't support `actions/upload-artifact@v4`. No `curl`/`jq`/`sudo` on the runner — the release publish is done in Node. - The runner's network to github.com/Gitea is flaky (ECONNRESET) → keep few action clones; `publish-release.mjs` retries. - Rolling release tag is **`dev-latest`**, NOT `dev` (a `dev` tag collides with the `dev` branch → ambiguous refs). - Inspect CI from a dev machine with the **`tea` CLI**: `tea actions runs list|view|logs`, `tea release list` (note "completed" ≠ success — check Conclusion). ## 9. Key decisions & gotchas (log) 1. **MCU:** ESP32-C3 Super Mini → **XIAO ESP32-C6**; C6 needs the **pioarduino** platform fork. USB-CDC-on-boot for `Serial` over native USB. 2. **Mac build toolchain:** use `~/.platformio/penv/bin/pio` (Python 3.11), **not** the pyenv 3.9.21 shim (too old for pioarduino). 3. **C6 filesystem = LittleFS** (pioarduino `uploadfs` builds LittleFS, not SPIFFS) — the firmware reads `/config.json` (data file must be named `config.json`). 4. **Network re-addressed** `10.60.1.0/24` → `192.168.8.0/24`. 5. **Wi-Fi password kept in git** (`firmware/data/config.json`) — maintainer decision (private repo, low-sensitivity, closed net). 6. **RGB LED is common-anode** (`RGB_COMMON_ANODE 1`); OLED is **SH1106** @ `0x3C`. 7. **Camera registration = "Option B" self-assigned IDs:** node uses `rig-` as a stable `camera_id` from first boot; the hub registers under that id. No `cam-NNN` assignment, no `registered`-reply handshake. (`docs/MQTT_CONTRACT.md` updated.) 8. **Hub tolerates clockless status timestamps** — nodes have no RTC; firmware omits `timestamp`, the hub stamps server-side (it used to reject the status). 9. **ESP-01S updates:** settings change live via `set_config` (no reflash); full firmware OTA is the future XIAO-as-flasher path (`docs/design/esp01s-uart-ota.md`). 10. **Pull-based deploy** via rolling `dev-latest` release + atomic binary replace + network retries. 11. **Pi systemd service user = `overseer`** (this Pi has no `pi` user); `setup-pi.sh` now defaults the service user to `$SUDO_USER`. 12. **Hub embeds the frontend** via `//go:embed all:src/dist`; Vite builds into `cmd/server/src/dist` (a committed `index.html` placeholder keeps the embed valid). ## 10. Conventions - Production hub/controller in **Go**; Python fine for diagnostics/experiments/migrations. - **SQLite**, not Postgres. **Timezone: US Eastern.** - Work on `dev`; commit messages end with a `Co-Authored-By` trailer. - Canonical design docs live in **Notion** (Remote Rig parent page) and the repo `docs/`; CAD in Seafile; code/build in Gitea. ## 11. Current status & open items (2026-06-05) **Working / proven on hardware:** - Hub up on the Pi (Mosquitto + `remoterig` + SQLite), dashboard on `:8080`. - Full CI/CD loop proven: commit → CI build → `dev-latest` → Pi self-update (checksum, atomic replace, health-check) → service active. - C6 (fw `0.4.0`) joins RemoteRig, connects to the broker, announces as `rig-86d978`, publishes status. ESP-01S UART link alive. **In progress / unresolved:** - **Verifying the hub registered `rig-86d978`** — needs confirmation that the hub is on build `18db26c2` (Option B) and that the camera is in the DB / dashboard (`GET /api/v1/cameras`, header `X-API-Key: changeme`). Status currently shows `online:false` because no GoPro is attached on the bench (expected). - **GoPro Hero 3 protocol fix** (ESP-01S `fetchStatus` shutter bug) — required before real battery/recording data; needs a real Hero 3. - **Rotate the Gitea runner registration token** (was exposed in a setup paste). - Gitea repo **default-branch HEAD** points at a nonexistent ref — set default branch. - Optional: clear the stale **retained** MQTT message at `remoterig/cameras/announce-rig-86d978` (from old firmware). ## 12. Handy commands ```bash # Build/flash C6 firmware (Mac): ~/.platformio/penv/bin/pio run -d firmware -e seeed_xiao_esp32c6 -t upload ~/.platformio/penv/bin/pio run -d firmware -e seeed_xiao_esp32c6 -t uploadfs # provision /config.json # ESP-01S: needs a 3.3V USB-UART adapter with GPIO0->GND for flash mode. # Inspect Gitea CI (Mac, tea CLI logged in as 'overseer'): tea actions runs list --repo CubeCraft-Creations/remote-rig tea actions runs view --repo … ; tea actions runs logs --repo … tea release list --repo CubeCraft-Creations/remote-rig # On the Pi: sudo systemctl start remoterig-update.service # force a pull/deploy cat /opt/remoterig/VERSION ; systemctl is-active remoterig journalctl -u remoterig -n 40 --no-pager mosquitto_sub -h localhost -t 'remoterig/#' -v curl -s -H "X-API-Key: changeme" http://localhost:8080/api/v1/cameras ```