ad5492a4bd
Deleting an app used to require zero scripts and zero domain claims —
practical for empty apps, painful for anything else. Add an opt-in
cascade so the operator can wipe an app in one click while keeping the
safe default for the no-flag case.
Backend: `DELETE /api/v1/admin/apps/{id}?force=true` runs a single
transaction that removes every script in the app (routes and execution
logs cascade via `script_id` FK), then deletes the app row (domains and
slug-history cascade off it). Without `?force=true` the handler still
returns the same `409 HasScripts { script_count }` payload it always did.
Frontend: a new `ConfirmModal.svelte` replaces the bare `window.confirm`
on this page. It's reusable — danger/neutral variants, optional
GitHub-style "type the slug to confirm" gate, ESC/backdrop cancel,
busy state, and a generic body slot — so future destructive actions can
adopt the same pattern instead of growing more browser dialogs. The app
delete confirmation now spells out exactly what disappears (script
count, domain claim list, "all routes & logs") and only enables the red
button once the slug is retyped. The domain-claim delete is also
wired through the modal so this page no longer uses `window.confirm`
anywhere.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
PiCloud
A lightweight, self-hosted, event-driven serverless compute platform. Upload a Rhai script, get an HTTP endpoint. Designed to run on a single modest server with no idle CPU cost, and to scale out to a small cluster when you need it.
Status: Phase 1 — MVP scaffolding in progress.
The authoritative design lives in
serverless_cloud_blueprint.md.
Why
Existing serverless platforms are either cloud-locked, heavyweight, or both. PiCloud aims for the opposite end of the spectrum: one binary, one database, one reverse proxy — running on hardware you already own.
Architecture (one paragraph)
PiCloud splits into three logical services — manager (control plane: scripts, schedules, dashboard), orchestrator (per-node event ingress and dispatch), and executor (per-node Rhai sandbox) — each backed by a *-core Rust library. In MVP they run in a single process; in cluster mode they run as three binaries with one manager and one orchestrator + executor per node. Caddy fronts everything; PostgreSQL is the single source of truth.
See CLAUDE.md for working notes and serverless_cloud_blueprint.md for the full design.
Quick Start
Coming as scaffolding lands. For now:
# Rust toolchain (pinned via rust-toolchain.toml)
cargo check --workspace
# Run the all-in-one MVP binary (once main.rs is wired up)
cargo run -p picloud
Repository Layout
crates/
shared/ cross-cutting types
executor-core/ Rhai engine + sandbox
orchestrator-core/ event ingress, dispatch
manager-core/ control plane
picloud/ MVP all-in-one binary
picloud-{manager,orchestrator,executor}/ cluster-mode binaries (skeleton)
dashboard/ SvelteKit
caddy/ Caddyfile
docker/ Dockerfiles
docs/
git-workflow.md Trunk-based workflow
Contributing
See docs/git-workflow.md for the branching and commit conventions. TL;DR: trunk-based, short-lived branches, Conventional Commits, no force-pushing main.
License
TBD.