scaffold: OpenScribe open-source self-hosted AI voice recorder
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Bootstrap of the project (M0). Sets up the monorepo, design docs, hardware BOM,
the open API contract, component skeletons, licensing and CI, following the
Default Workflow SOP.

What changed:
- CLAUDE.md + docs/: copied the Default Workflow so sessions load the SOP.
- state/: PROJECT, ARCHITECTURE, DECISIONS, TODO, NOTES filled in for OpenScribe.
  ARCHITECTURE captures the four-part design (firmware, server, app, case) and the
  three sync paths; DECISIONS records the hardware, AI-stack, storage, app and
  licensing choices; TODO lays out milestones M1-M9.
- hardware/BOM.md: two build options (compact XIAO ESP32-S3 Sense; dev ESP32-S3 +
  I2S mic + SD), wiring/pinout, indicative cost.
- api/openapi.yaml: the completely open API (device + server surfaces), including
  recording list/download/delete and exports (wav/ogg/txt/srt/vtt/md/json).
- firmware/: PlatformIO ESP32-S3 project, two board profiles, pin map, boot scaffold
  with module seams for M1-M4.
- server/: FastAPI skeleton mirroring the OpenAPI, config for self-hosted MinIO,
  faster-whisper and Ollama; stub routes browsable at /docs.
- app/, case/: Flutter app plan; parametric OpenSCAD enclosure.
- Licensing: GPL-3.0 (code), CERN-OHL-S-2.0 (hardware), CC-BY-SA-4.0 (case/docs),
  REUSE-style LICENSES/ with SPDX headers; LICENSING.md explains the split.
- CI: Forgejo Actions workflow builds firmware (both profiles) and lints/imports server.

Why:
- Everything self-hosted and openly licensed per the user's requirements: an open
  API, three sync paths (BLE control, WiFi transfer, independent WiFi upload on
  charge to generic cloud storage), and a full self-hosted transcription+summary stack.

Notes:
- No custom PCB in v1; off-the-shelf modules. Physical verification waits on parts.
- Component code is stubs at M0; features land milestone by milestone, each as its
  own branch/PR per the workflow.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
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# OpenScribe server
Self-hosted FastAPI server: ingests recordings, transcribes them (faster-whisper),
summarises them (Ollama), and serves the open API with exports. Everything runs on
hardware you own.
> Status: M0 scaffold. The API shape is live and browsable at `/docs` with in-memory
> stubs. Transcription lands in M5, summaries in M6, real storage/DB alongside.
## Run (dev)
```bash
cd server
python -m venv .venv
. .venv/Scripts/activate # Windows; or: . .venv/bin/activate
pip install -r requirements.txt
cp .env.example .env # edit as needed
uvicorn app.main:app --reload
```
- API docs (Swagger UI): http://localhost:8000/docs
- Health: http://localhost:8000/health
## Self-hosted dependencies
For the AI features (M5/M6) you run, on your own kit:
- **MinIO** (or WebDAV / NAS) for object storage - `OPENSCRIBE_STORAGE_BACKEND=s3`.
- **Ollama** for summaries - `ollama serve` and `ollama pull llama3.1`.
- **faster-whisper** downloads its model on first use; CPU works, CUDA is faster.
None of these are required for plain recording and transfer; they add transcription and
summaries.
## Layout
```
app/main.py FastAPI app + routes (mirrors ../api/openapi.yaml)
app/config.py Settings from env / .env
app/models.py Pydantic models (kept in sync with the OpenAPI schemas)
requirements.txt
.env.example
```
## API
The contract is `../api/openapi.yaml`. The device implements the LAN "device" paths; this
server implements ingest, transcript, summary and export.