06678f44965819f25e98ab5b36a8d147dca722bb
61 Commits
| Author | SHA1 | Message | Date | |
|---|---|---|---|---|
MechaCat02
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ad5492a4bd |
feat(manager-core,dashboard): cascading app delete with styled confirmation modal
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>
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MechaCat02
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4c41374db4 |
feat(manager-core,orchestrator-core): multi-app scoping (Phase 3b)
Apps become the isolation boundary for scripts, routes, domains, and
later data. Doing this now — while the surface is small — avoids
several migrations on populated tables once v1.1 data-plane services
ship.
Schema (migration 0005_apps.sql):
- New tables: apps, app_domains (with shape_key UNIQUE for collision
detection), app_slug_history (for permanent slug-rename redirects).
- app_id added to scripts, routes, execution_logs (non-null, cascading
rules per row).
- Script-name uniqueness becomes per-app; the route unique index is
swapped for an app-scoped version.
- The "default" app is seeded unconditionally with a localhost claim;
existing scripts/routes backfill into it. Fresh installs additionally
get the Hello World seed via seed_hello_world_if_fresh after
migrations run (idempotent — only fires when the default app has no
scripts).
Orchestrator dispatch is two-phase: AppDomainTable resolves Host →
app_id (most-specific match wins, exact beats wildcard), then the
existing route matcher runs against that app's partitioned slice via
RouteTable. Unknown hosts return 404 at the app layer with a clear
message; /api/v1/execute/{id} still works as the implicit
__internal__ claim, decoupled from any public domain.
Manager API: full CRUD for /api/v1/admin/apps/* and
/api/v1/admin/apps/{id_or_slug}/domains/*, with slug:check + force
takeover semantics implementing the rename-history flow (two-step
check → confirm, never a single endpoint). Script create requires
app_id; list accepts ?app= filter. Route create validates host
against the parent app's claims; conflict detection stays strictly
intra-app.
Dashboard: /admin/apps and /admin/apps/{slug} (overview + scripts +
domains + settings tabs, with slug-history-aware redirects). Root
path redirects to the apps list. Script detail page gains an app
breadcrumb and threads app_id into the route preview.
Deferred per design: per-app admin roles. The require_admin middleware
remains the seam where role checks will slot in later.
Blueprint §11.5 and roadmap updated to reflect what shipped; docs/
versioning.md notes the schema 3 → 5 bump.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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MechaCat02
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6891496589 |
feat(manager-core): admin auth gate (Phase 3a)
Closes the regression risk of the admin API and dashboard being open
to anyone reaching the bound port. Required foundation before v1.1
data-plane services land.
Per-user accounts (admin_users), Argon2id passwords, env-var bootstrap
of the first admin that becomes inert once any admin exists, opaque
32-byte session token doubling as bearer credential, 24h sliding TTL
configurable via PICLOUD_SESSION_TTL_HOURS. is_active column lets
admins be deactivated without losing audit history; last-active-admin
guard on DELETE and on PATCH that flips is_active to false (sessions
also wiped on deactivation).
require_admin middleware fronts every /api/v1/admin/* route. The data
plane (/api/v1/execute/{id}), /healthz, /version, and user routes
stay open. picloud admin reset-password <username> subcommand handles
recovery without going through HTTP.
Dashboard gains /admin/login and /admin/admins surfaces, a top-bar
user menu, and a token store with a localStorage echo so refreshes
don't sign you out. Cookie-based auth works in parallel for non-SPA
clients.
Forward compatibility: future RBAC tables (admin_roles,
admin_user_roles) join on admin_users.id; the auth middleware is the
seam where role checks slot in. Email, 2FA, passkeys, and personal
API tokens are all additive without touching admin_users.
Blueprint §11.4 updated to reflect what actually shipped.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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MechaCat02
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878cbe9439 |
test(manager-core): schema snapshot guardrail
Boots a fresh Postgres via sqlx::test, applies every migration in
order, dumps the resulting public schema (tables, columns with type
+ nullability + default, indexes, constraints, applied migration
manifest), and compares against a checked-in golden text file.
What this catches:
* Someone edits a committed migration — schema diverges from the
snapshot, test fails with a precise diff.
* Someone adds a migration but forgets to update the snapshot —
same divergence; test reminds them.
* Two migrations drift apart in any other way — snapshot is the
source of truth about the post-replay schema.
Update workflow when adding a migration intentionally:
BLESS=1 DATABASE_URL=postgres://... \
cargo test -p picloud-manager-core --test schema_snapshot \
-- --include-ignored
Review the snapshot diff in the same PR. The header comment makes
it clear the file is not for hand-editing.
* Snapshot dump uses information_schema.columns + pg_indexes +
pg_constraint with pg_get_constraintdef. Output is sorted on
every dimension so cosmetic differences (insertion order,
etc.) never cause spurious diffs.
* #[ignore]'d by default for the same reason as the integration
tests — needs DATABASE_URL pointing at a writable Postgres.
* Initial expected_schema.txt blessed from the current
migrations/ contents (3 tables, 9 indexes, 12 constraints).
Wires up enforcement item (4) from docs/versioning.md.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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MechaCat02
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f33c88b9d0 |
test(executor-core): golden SDK contract suite
Pins the user-visible Rhai SDK behaviors to a concrete test file so
SemVer enforcement isn't aspirational. **Editing this file is an SDK
version bump event** — the file header documents the rule.
* 30 tests covering every documented SDK 1.0 + 1.1 surface:
ctx.sdk_version (format + feature-detection)
ctx.execution_id / request_id / script_id (UUID shape)
ctx.script_name (round-trip)
ctx.invocation_type (http / function / scheduled)
ctx.request.path / headers / body / params / query / rest
log::trace / info / warn / error (with and without data)
response convention: bare value → 200, structured map →
statusCode pass-through, missing statusCode → wrapped 200,
non-integer statusCode → InvalidResponse error
sandbox restrictions: imports blocked, print disabled,
log::debug rejected (Rhai keyword — use log::trace)
JSON type fidelity (string/int/float/bool/null/array/object/
nested round-trip)
* Separate from tests/engine.rs (which tests internal Engine
behaviors) — same crate, different audience: engine.rs is
"does the engine work right", sdk_contract.rs is "does the
public contract hold". Some overlap is intentional so the
contract is readable in one place.
* Plain cargo test --workspace runs all 30 (no infrastructure
needed); these are pure unit tests.
Wires up enforcement item (3) from docs/versioning.md.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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MechaCat02
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07e2a62d98 |
feat: custom routing — bind scripts to your own URLs
Scripts can now answer at user-chosen paths (e.g. /greet, /greet/:name,
/webhooks/*), on user-chosen hosts (strict or *.example.com wildcards),
on user-chosen methods. The internal /api/v1/execute/{id} endpoint
stays as the always-available ID-based bypass.
Routing rules (decided in design with the user; see chat history):
Path kinds:
exact /greet literal
prefix /greet/* strict-subtree; stored as "/greet/";
does NOT match bare /greet (add an
exact route for that case)
param /users/:id :name captures one whole segment;
mid-segment colons are rejected;
{name} is reserved for a future SDK
Host kinds:
any no Host header constraint
strict sub.example.com literal match (case-insensitive)
wildcard *.example.com suffix match; multi-level subdomains OK
Within-kind uniqueness:
two routes of the same kind that could match the same request
conflict at config time. Algorithm (orchestrator_core::routing::
conflict):
exact: literal equality
prefix: literal equality (longer-prefix coexists; longer wins
at request time)
param: same segment count + same literals at every
literal-vs-literal position (the user's example:
:id vs :userId at same shape is a conflict)
Request-time precedence:
exact > param > prefix
among non-exact: more leading-literal segments wins
tie: param > prefix (more constrained)
within prefix: longest matching prefix wins
host bucket: strict > wildcard (longer suffix) > any; fall through
to less specific buckets when path doesn't match
Reserved path prefixes: /api/, /admin/, /healthz, /version
Routes that look invalid at config time return 422 with the precise
parse error; conflicting routes return 409 with the conflicting route
in the body (so the dashboard can render the conflict inline).
What landed:
* 0003_routes.sql — routes table (host_kind, host, host_param_name,
path_kind, path, method, script_id) with UNIQUE index on the
literal binding tuple. Schema 2 → 3.
* shared::Route / HostKind / PathKind — flat storage shape that
crosses wire boundaries cleanly.
* orchestrator_core::routing — four sub-modules, all unit-tested:
pattern.rs (16 tests) parse + validate + display
conflict.rs (12 tests) within-kind overlap predicate
matcher.rs (12 tests) runtime dispatch (specificity-aware)
table.rs Arc<RwLock<Vec<CompiledRoute>>>
shared by manager (writes) and
orchestrator (reads); atomic replace
after each admin write
* manager-core::route_admin — five new admin endpoints under
/api/v1/admin:
POST /scripts/{id}/routes create
GET /scripts/{id}/routes list per script
DELETE /routes/{route_id} delete (refreshes table)
POST /routes:check pre-flight conflict check
(powers the dashboard's
live conflict warning)
POST /routes:match synthetic URL → matched
route + extracted params
(powers the dashboard's
match-preview tool)
Stored path strings stay raw (user-typed); normalization
happens only in the in-memory CompiledRoute so re-parses are
idempotent.
* orchestrator_core::api::user_routes_router — fallback handler
mounted in picloud after the system routes. Reads Host /
method / path / query from the request, dispatches via the
table, builds an ExecRequest with params/query/rest filled,
calls the executor, writes to the log sink. 10 MiB body cap.
* executor-core::ctx (SDK 1.0 → 1.1) — adds
ctx.request.params (map of named-param captures)
ctx.request.query (parsed query string)
ctx.request.rest (suffix for prefix routes; "" otherwise)
All three are always present (empty when not applicable) so
scripts can read them unconditionally.
* picloud::build_app — now async; loads routes at startup,
populates the shared table, mounts route_admin_router under
/api/v1/admin alongside the script CRUD, and the user-routes
fallback at the app root.
* caddy/Caddyfile + Caddyfile.prod widened: anything not
/healthz, /version, /api/v1/admin/*, /api/v1/execute/*,
/api/* (404 sunset), or /admin/* (dashboard) → picloud.
* Dashboard moves to /admin/* via SvelteKit paths.base. Its
internal Caddy strips the prefix and serves with SPA fallback.
All in-app links use $app/paths. The dashboard URL is now
http://localhost:8000/admin/ — one-time break for the new
URL freedom users gained.
* PICLOUD_PUBLIC_BASE_URL env var, exposed via /version so the
dashboard renders full URLs for routes regardless of the
operator's external port / TLS setup.
* memory_limit_mb stays in the schema, still v1.3+ advisory.
Verified live through Caddy:
/version → schema 3, sdk 1.1, public_base_url
GET /admin/ → 200, dashboard HTML containing "PiCloud"
POST /api/v1/admin/scripts → 201
POST .../scripts/{id}/routes (path=/greet/:name) → 201
GET /greet/alice?lang=en → 200 {"name":"alice","q":"en"}
POST conflicting route → 409 with conflicting_route body
POST /admin/foo route → 422 "reserved"
POST /api/v1/admin/routes:match → matched + params extracted
GET /unbound-path → 404 JSON
Tests:
* 40 routing unit tests (pattern + conflict + matcher tables)
* 14 executor-core unit tests (one new for ctx.request.params/
query/rest exposure)
* 32 integration tests (10 new for routing CRUD + dispatch +
conflict + reserved + specificity tie-break + match preview +
delete invalidation + /version returns public_base_url)
* default cargo test --workspace stays green; opt-in via
DATABASE_URL + --include-ignored for the integration suite
Bumps: schema 2 → 3; SDK 1.0 → 1.1; product 0.3.0 → 0.4.0.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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MechaCat02
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f51924fdbc |
feat: per-script Rhai sandbox overrides with admin ceiling
Adds optional per-script overrides for the six Rhai sandbox knobs
(max_operations, max_string_size, max_array_size, max_map_size,
max_call_levels, max_expr_depth). The executor merges its defaults
with each script's overrides on every call; the manager validates
overrides against an admin-set ceiling at write time, so the
executor trusts whatever is stored.
Storage chose JSONB on the existing scripts table over six new
columns: lets future knobs land as code-only changes, keeps the
sparse common case (most scripts override nothing) cheap to store
and serialize, and matches how the manager + executor pass the
config across the wire.
* 0002_sandbox.sql — ALTER TABLE scripts ADD COLUMN sandbox
JSONB NOT NULL DEFAULT '{}'
* shared::ScriptSandbox — six Option<u64> fields with
deny_unknown_fields so typos surface as 422
* Script.sandbox + ExecRequest.sandbox_overrides — typed end
to end; cluster mode just serializes the same struct
* executor-core::Limits::with_overrides — field-by-field
replacement; tests cover the override actually tightening
the live engine
* manager-core::SandboxCeiling — built-in conservative
defaults (10M ops, 1 MiB strings, 100k array/map, 128
call/expr depth); env vars override per knob, invalid
values warn-and-skip rather than blocking boot
* manager-core admin API — POST/PUT accept `sandbox`; values
above the ceiling return 422 with the specific field +
requested + ceiling; absent or `{}` keeps platform defaults
* picloud all-in-one — wires SandboxCeiling::from_env() into
AdminState
* memory_limit_mb stays in the schema, marked v1.3+ advisory
(no enforcement until OS-level isolation lands with
cluster-mode executors)
Verified live through Caddy:
* /version reports schema 2, product 0.3.0
* Script with max_operations: 500 → 507 on a 10k-iteration loop
* Same script after PUT raising to 1M → succeeds, returns 10000
* POST with max_operations: 1_000_000_000 → 422 (exceeds ceiling)
Tests:
* 13 executor-core unit tests (added 2 for override semantics)
* 20 integration tests (added 6 for sandbox CRUD + ceiling +
unknown-field rejection + executor honoring overrides)
* default cargo test --workspace stays green (integration tests
remain #[ignore]'d until DATABASE_URL is set)
Bumps:
* schema 1 → 2
* product 0.2.0 → 0.3.0
* SDK unchanged (scripts see nothing new)
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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MechaCat02
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0473d295af |
feat: versioning scheme — lockstep crates + four independent surfaces
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>
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MechaCat02
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777f4af628 |
feat: persist execution logs + dashboard detail view + integration tests
Three threads landing together because they share a public surface
(the new execution_log shape) and verifying any one in isolation
would mean re-doing the work later.
== (A) execution log persistence ==
* shared::ExecutionLog + ExecutionStatus carry the audit-trail
shape that flows from the orchestrator through the sink and
back out via the manager's logs endpoint.
* shared::ExecutionLogSink trait — abstraction the orchestrator
writes through. In single-process MVP mode the manager's
Postgres-backed impl is plugged in directly; in cluster mode
(v1.3+) the orchestrator's impl will post over HTTP to the
manager. Trait lives in `shared` so neither *-core crate has
to know about the other.
* manager-core::PostgresExecutionLogSink writes to the
execution_logs table (already in the initial migration);
PostgresExecutionLogRepository reads them back, paginated.
AdminState now carries both a script repo and a log repo, so
`admin_router` exposes `GET /scripts/{id}/logs?limit=&offset=`
capped at 200 rows per page to keep the dashboard responsive.
* orchestrator-core::DataPlaneState gains `log_sink`. The
execute handler builds an ExecutionLog on every outcome —
success, error, timeout, budget-exceeded — and awaits the
sink. Sink failures are logged at warn and DO NOT mask the
user-facing result, since "we couldn't write the audit row"
is a separate concern from "the script ran".
* picloud binary refactored into a lib (`build_app(pool)` is
the seam) + thin bin shell. Same Postgres pool backs the
script repo, the log repo, and the sink — no double pool.
== (B) dashboard ==
* Typed API client extended with `scripts.logs(id, opts)`,
`scripts.update/remove`, and `execute(id, body, headers)`.
Plain `fetch` wrapper now surfaces server-side error
messages via a typed ApiError so the UI can render them.
* `/` — create-script form now actually creates; on success
the list reloads. List entries link to detail.
* `/scripts/[id]` — new detail route: source editor with save
(calls update, version bumps); Test invoke panel that sends
arbitrary JSON body + headers to /api/execute and shows the
response; Recent executions panel reading from /logs with
expandable per-row request/response/script-log views.
Delete button with confirm. SPA-routed; Caddy serves
`build/` with the same index.html fallback.
== (C) integration tests ==
* crates/picloud/tests/api.rs — 14 sqlx::test cases driving
`build_app` through an axum_test::TestServer against a fresh
Postgres DB per test. Covers: health, full script CRUD,
duplicate-name conflict, invalid-source rejection on both
create and update, execute echoing the body, status+header
passthrough, 404 on missing scripts, error-path executions
landing in the audit log with the right status.
* Tests are `#[ignore]` by default so plain `cargo test
--workspace` stays green without infrastructure. Opt-in via:
`docker compose up -d postgres && \
DATABASE_URL=postgres://picloud:picloud@127.0.0.1:15432/picloud \
cargo test -p picloud --test api -- --include-ignored`
Verified live through Caddy on :8000: three logged invocations
land in the logs endpoint with the right structured `data` on
each `log::info`/`log::warn`, error-path executions are still
captured with status=error, dashboard list + SPA detail route
both reachable.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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MechaCat02
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4f044e7b81 |
feat: end-to-end script CRUD + Rhai execution
Brings the MVP feature set online: upload a Rhai script, get an HTTP
endpoint that runs it sandboxed in-process, list/update/delete it, and
have invalid sources rejected at upload time. Verified live through
Caddy with a full lifecycle (`create → list → get → execute → update
→ delete`) plus error paths (syntax error, duplicate name, deleted).
Layout — every concern lands behind the trait seam its layer owns, so
cluster-mode in v1.3+ is a swap of two impls, not a rewrite:
* shared::ScriptValidator — manager calls into validation without
a hard dep on executor-core; executor-core impls the trait on
`Engine`. Pinned in shared so neither crate has to know about
the other.
* executor-core::Engine — real Rhai engine: sandbox limits (max
operations / string size / map size / call depth), disabled
`print`, blocked `import` (DummyModuleResolver), `log::trace
/info/warn/error` registered as a static module with shared
log-capture buffer (no `log::debug` because `debug` is a Rhai
reserved keyword — `log::trace` covers the same need).
- `ctx` is pushed as a Scope constant exposing
execution_id, script_id, script_name, request_id,
invocation_type, request.{path,headers,body}.
- Response convention: a Map with `statusCode` is the
structured shape (`{statusCode, headers?, body}`); any
other return value is a 200 with the value as the body.
- Engine::execute is now synchronous (pure compute); the
async wrapper + wall-clock timeout live in
LocalExecutorClient, which spawns_blocking and applies a
300s hard ceiling regardless of per-script config.
- 10 unit tests cover validate, exec, structured response,
ctx exposure, log capture, op-budget enforcement, runtime
errors, blocked imports, JSON round-tripping.
* manager-core::repo — full sqlx CRUD over the `scripts` table,
with proper unique-violation handling for duplicate names.
Embedded migrations via `sqlx::migrate!` (one initial
`0001_init.sql` for pgcrypto + scripts + execution_logs).
* manager-core::api — `admin_router` mounts `/scripts` and
`/scripts/{id}`. Create + Update validate source through the
injected `ScriptValidator` before persistence. Returns proper
422/409/404 status codes via `ApiError::IntoResponse`.
* orchestrator-core::api — `data_plane_router` mounts
`/execute/{id}`: resolves the script through `ScriptResolver`,
constructs the `ExecRequest` from headers+body, awaits
`ExecutorClient::execute(..., timeout)`, translates the
`ExecResponse` to an axum `Response` with header passthrough.
Maps `ExecError` variants to 422/504/502/507.
* picloud all-in-one — opens the pool, runs migrations, builds
one engine, nests both routers under `/api/admin` and `/api`,
enables structured JSON tracing and graceful shutdown on
SIGTERM. Single `PostgresScriptRepository` Arc is shared by
the admin router (writes) and the resolver (reads).
Other changes:
* Workspace axum bump 0.7 → 0.8 for the `{id}` path syntax
matching the route definitions.
* Workspace clippy: allow `needless_pass_by_value` and
`boxed_local` to keep API ergonomics over pedantic noise.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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MechaCat02
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b8b544816d |
chore: initial scaffold — workspace, docs, blueprint
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>
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