Wires the KV store into Rhai scripts via the handle pattern:
let widgets = kv::collection("widgets");
widgets.set("k", #{ n: 1 });
let v = widgets.get("k"); // value or () if absent
widgets.has("k") / widgets.delete("k")
let page = widgets.list(); // cursor-style pagination
`KvHandle` is a custom Rhai type holding `Arc<dyn KvService>` + the
per-call `Arc<SdkCallCx>`. Methods route async service calls through
`tokio::Handle::current().block_on(...)` — works because
`LocalExecutorClient` runs the script under `spawn_blocking` so a
runtime is reachable. The bridge surfaces `app_id` exclusively
through `cx.app_id`; no public-facing argument can spoof an app.
`TriggerEvent` lands in `picloud-shared` as the wire shape the
dispatcher will emit (KV + DeadLetter variants — KV exercised now,
DL hooks up with the dispatcher in commit 5/8). `SdkCallCx` and
`ExecRequest` grow `is_dead_letter_handler: bool` and
`event: Option<TriggerEvent>`. `engine.rs::build_ctx_map` flattens
the event into `ctx.event` for triggered handlers; direct ingress
leaves the key absent so scripts can `if "event" in ctx`.
Tests:
- 7 `sdk_kv.rs` integration tests covering the full Rhai surface
(round-trip, missing-key unit, has bool, delete was-present,
empty-collection rejection, cursor pagination, cross-app
isolation through the bridge).
- 3 new `engine.rs` tests pinning `ctx.event` shape per
design notes §4 (KV insert with value, delete with unit value,
direct invocations have no `event` key).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Workspace deps for the seven Rhai utility modules that follow in this
PR. `rand`, `base64`, `uuid`, `chrono`, `serde_json` are already in
the workspace and reused as-is — only the genuinely new ones land here.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Establish how versions are assigned, bumped, and checked across the
five things that actually change for users: the product itself, the
Rhai SDK, the HTTP API, the database schema, and the inter-service
wire (reserved for cluster mode). Crates ship in lockstep — drift
between picloud-shared and picloud-manager-core is fiction since
they always release together — but surfaces are versioned and
checked at their natural boundaries.
* docs/versioning.md is the authoritative reference: what gets a
version, the per-surface compatibility rules, how each surface
bump cascades to the product version (loose pre-1.0, strict
post-1.0), and the five enforcement mechanisms (lockstep at
compile time, /version at runtime, golden SDK contract tests,
migration replay, CI guardrail).
* shared::version exposes four constants — PRODUCT_VERSION (from
CARGO_PKG_VERSION), SDK_VERSION ("1.0"), API_VERSION (1),
WIRE_VERSION (1). Scripts read SDK_VERSION as ctx.sdk_version
and can feature-detect against it.
* Workspace inheritance: `[workspace.package] version = "0.2.0"`
is the single point of truth; every crate uses
`version.workspace = true`. dashboard/package.json mirrors.
* Routes move to /api/v1/* — both control plane
(/api/v1/admin/*) and data plane (/api/v1/execute/{id}).
Picloud composes them via a single `/api/v{API_VERSION}` nest,
so the next major is a copy-paste-and-bump. Caddyfile (dev and
prod) routes /api/v1/* to picloud and 404s any other /api/*
so old clients fail loudly instead of getting the SPA shell.
Dashboard client + integration tests updated.
* /healthz remains a plain "ok" string (k8s probes); /version is
the new JSON endpoint returning every surface version in one
place — product, sdk, api, schema (from
manager-core::migrations::latest_version), wire.
* Reasonable bump rationale: API path changes are breaking by
definition, so 0.1.0 → 0.2.0 (pre-1.0 license to bump minor on
any breaking change). SDK starts at 1.0 because scripts depend
on it more strictly than the product depends on its internals;
we'd rather promise SDK stability early than pull the rug.
Verified live:
* /healthz → "ok" (plain text)
* /version → {product:"0.2.0",sdk:"1.0",api:1,schema:1,wire:1}
* /api/v1/admin/scripts → 200
* /api/admin/scripts → 404 with error JSON (sunset major)
* Script can read ctx.sdk_version → "1.0"
* All 14 integration tests pass against new paths
* 11 executor-core unit tests pass (added one for sdk_version
exposure with the major.minor format invariant)
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Sets up the PiCloud monorepo as a Cargo workspace organised around the
three-service architecture (manager / orchestrator / executor), each
backed by a *-core library crate so the same logic powers both the MVP
all-in-one `picloud` binary and the future split-process cluster mode.
* crates/shared, executor-core, orchestrator-core, manager-core
define the library surface and trait seams between the three
services (`ExecutorClient`, `ScriptResolver`, `ScriptRepository`).
* crates/picloud is the MVP entrypoint; serves /healthz on 8080
(override via PICLOUD_BIND).
* crates/picloud-{manager,orchestrator,executor} are skeleton
binaries that keep the crate boundaries honest until cluster
mode is built out in v1.3+.
* docs/git-workflow.md defines the trunk-based workflow:
short-lived branches, Conventional Commits, separate hotfix
flow with mandatory reproduction tests.
* CLAUDE.md captures the working rules for future Claude sessions.
Workspace passes `cargo fmt`, `cargo clippy -D warnings` (with
pedantic enabled), and `cargo test --workspace`. The all-in-one
binary responds on `/healthz` and `/`.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
