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merge into: m:mai/sherlock/playwright-debug-dev
Branches Tags
m:main m:mai/pollock/frame-resize-handle m:mai/caravaggio/frame-label-clickable m:mai/sherlock/playwright-debug-dev m:mai/vasari/rename-mcables-cablegui m:mai/kandinsky/left-click-drag-on-empty m:mai/picasso/slice-v5-clamps m:mai/miro/remove-type-button-from m:mai/escher/fix-overbroad-gitignore m:mai/dali/double-click-a-port-to m:mai/picasso/port-dblclick-draw m:mai/picasso/design-v5-clamps m:mai/picasso/cable-replug m:mai/picasso/device-resize m:mai/picasso/canvas-zoom m:mai/picasso/requirements-ux-reshape m:mai/picasso/admin-page m:mai/picasso/port-editor-sidebar m:mai/picasso/device-frame-placement m:mai/picasso/apply-port-fix m:mai/picasso/fix-iox-power m:mai/picasso/fix-ports-ux m:mai/picasso/catalog-power m:mai/picasso/fix-mxdrw-basic-auth m:mai/picasso/slice-8-export m:mai/picasso/fix-apply-template m:mai/picasso/slice-7-manual m:mai/picasso/slice-6-solver m:mai/picasso/slice-5-requirements m:mai/picasso/slice-4-catalog m:mai/picasso/slice-3-io-cable-types m:mai/picasso/design-v4-1 m:mai/picasso/design-v4 m:mai/picasso/fix-inspector-update m:mai/picasso/fix-device-promptinline-blur m:mai/picasso/fix-cursor-cache m:mai/picasso/fix-device-in-frame m:mai/picasso/fix-docker-data-dir m:mai/picasso/slice-2-frames-devices m:mai/picasso/retag-m-namespace m:mai/picasso/deploy-mdock m:mai/picasso/slice-1-bootstrap m:mai/picasso/design
...
pull from: m:mai/picasso/port-editor-sidebar
Branches Tags
m:main m:mai/pollock/frame-resize-handle m:mai/caravaggio/frame-label-clickable m:mai/sherlock/playwright-debug-dev m:mai/vasari/rename-mcables-cablegui m:mai/kandinsky/left-click-drag-on-empty m:mai/picasso/slice-v5-clamps m:mai/miro/remove-type-button-from m:mai/escher/fix-overbroad-gitignore m:mai/dali/double-click-a-port-to m:mai/picasso/port-dblclick-draw m:mai/picasso/design-v5-clamps m:mai/picasso/cable-replug m:mai/picasso/device-resize m:mai/picasso/canvas-zoom m:mai/picasso/requirements-ux-reshape m:mai/picasso/admin-page m:mai/picasso/port-editor-sidebar m:mai/picasso/device-frame-placement m:mai/picasso/apply-port-fix m:mai/picasso/fix-iox-power m:mai/picasso/fix-ports-ux m:mai/picasso/catalog-power m:mai/picasso/fix-mxdrw-basic-auth m:mai/picasso/slice-8-export m:mai/picasso/fix-apply-template m:mai/picasso/slice-7-manual m:mai/picasso/slice-6-solver m:mai/picasso/slice-5-requirements m:mai/picasso/slice-4-catalog m:mai/picasso/slice-3-io-cable-types m:mai/picasso/design-v4-1 m:mai/picasso/design-v4 m:mai/picasso/fix-inspector-update m:mai/picasso/fix-device-promptinline-blur m:mai/picasso/fix-cursor-cache m:mai/picasso/fix-device-in-frame m:mai/picasso/fix-docker-data-dir m:mai/picasso/slice-2-frames-devices m:mai/picasso/retag-m-namespace m:mai/picasso/deploy-mdock m:mai/picasso/slice-1-bootstrap m:mai/picasso/design

48 Commits
mai/sherlo ... mai/picass

Author SHA1 Message Date
mAi
61bc1dcf43 feat(ui): port editor + add-port form in the sidebar inspector 
m: 'Add port' should be a sidebar form, not a two-step canvas gesture.

- Port inspector gains a Type dropdown (read /api/cable-types via
  state.cableTypes, PATCH /ports/:id with type_id). Edge picker + label
  + delete from prior shift are unchanged.
- New "Add port" form rendered from selection.kind === "port_new":
  Type / Edge / Label, Create + Cancel buttons. Default label is the
  next free index for the chosen type on this device ("HDMI 3" if two
  HDMIs already live there). Recomputes when m changes the type, but
  stops recomputing as soon as m hand-edits the label.
- +Port in the device inspector now flips selection to port_new,
  rendering the form. Submit → POST → switch to the new port's editor.
  No second canvas click required.
- Clicking a port row in the device inspector's port list selects that
  port and opens its editor (same surface as canvas-click).
- "← <device name>" back-link in both port editor and add-port form
  jumps back to the device inspector.

Removed: state.tool === "port" branch, armPortTool helper, placePortAt
function, .tool-port CSS, state.portToolDevice / portToolTypeID. The
canvas-armed +Port tool was the user-trip-wire perseus flagged; the
sidebar form replaces it entirely.

snapToDeviceEdge also removed — placePortAt was its only caller; the
edgeCentre + portEdge + relayoutEdge trio fully owns port placement
now.

Port rows in the device inspector get a hover background + pointer
cursor to read as clickable.
 2026-05-16 11:40:45 +02:00
mAi
056777f1c1 merge: template-apply creates frame + grid-places devices inside 
ApplyTemplate now creates a frame named after the template
('Living Room' etc, suffixed on collision), computes a uniform grid
(cols=min(ceil(sqrt(N)),4), rows=ceil(N/cols)), and places each
device inside the frame with frame_id set.

Frontend unchanged — activateProject re-hydrates the snapshot
including the new frame.

Tests cover frame creation + in-frame placement + name-collision
suffix. Verified on mDock: Living Room template → frame (200,200,
294×200) with TV/Soundbar at row 0 and ChromeCast wrapping to row 1.
 2026-05-16 11:35:25 +02:00
mAi
2aff5eb04d feat(template): apply-template lands devices inside a named frame 
Before: ApplyTemplate dropped devices in a horizontal row at fixed
canvas coords with frame_id NULL — devices appeared anywhere and m
had no way to express "these belong together".

Now: each apply creates a frame named after the template (suffixed
"…  2/3/…" on name collision) and lays the devices out in a uniform
grid inside it. Grid is roughly square (cols = ceil(sqrt(N)), capped
at 4) with 30/50 px gaps and 32/48 px padding. Each device gets the
new frame's id and grid-cell coords.

Schema unchanged. ApplyTemplateResult.frames_added carries the new
frame so the frontend can refresh the canvas without a full snapshot
reload.

Tests:
- TestApplyTemplate_CreatesFrameAndPlacesDevicesInside — frame is
  created with the template's name, every device has frame_id set,
  every device sits inside the frame rect, no two devices share a
  grid cell.
- TestApplyTemplate_FrameNameSuffixOnCollision — pre-existing
  "Living Room" frame in the project ⇒ template's frame named
  "Living Room 2".
- Existing tests unchanged.
 2026-05-16 11:30:32 +02:00
mAi
5c11bf33cb merge: port UX bundle — selection feedback + even-spacing + onUp + device colour 
3 commits (491db73, b28fc0c, 86264d1):
- +Port now sets state.selection on the new port → inspector switches
  to the port panel + halo shows
- Ports relayout to even spacing along the affected edge on every
  add/delete/edge-change (no more invisible stacking)
- startDrag.onUp captures the rect in closure instead of reading
  currentTarget after pointerup (no more 'classList of null' spam)
- Device colour: dropped CSS stroke/fill hard-codes, inline style now
  paints the rect — picker actually changes the visible colour

All verified end-to-end on the deployed image.
 2026-05-16 11:25:32 +02:00
mAi
86264d1284 fix(ui): device colour now actually shows on the canvas 
CSS .device-rect hard-coded stroke + fill, overriding the
stroke=${d.color} SVG attribute the JS wrote. Author CSS beats
presentation attributes, so changing the device colour via the
inspector picker was invisible.

Drop the stroke/fill overrides from .device-rect; set both inline
on the rect element instead — stroke = the chosen colour, fill =
a 12% tint via color-mix so the device reads coloured without
becoming garish. Inline style beats class CSS, so the picker works.

Frames + IO markers don't currently expose a colour picker, so no
analogous fix needed there.
 2026-05-16 11:23:47 +02:00
mAi
b28fc0c565 fix(ui): even-spacing relayout on every port-set change 
m's stronger invariant: ports must never overlap and must line up on
their edge. Replace the slide-collision dedup with full even-spacing
re-layout — for N ports on an edge, position i goes to axis · i/(N+1)
for i=1..N.

- New portEdge(port, dev) — snaps a port's current offsets to the
  nearest of the four edges (same heuristic as snapToDeviceEdge).
- New relayoutEdge(deviceID, edge) — re-spaces every port on the
  device-edge and PATCHes the ones whose offsets actually change.
  Sort key: x_offset for top/bottom, y_offset for left/right —
  preserves m's "I dropped it roughly here" order.

Applied on:
- placePortAt — re-layout the edge after the new port is created.
- inspector edge picker — capture oldEdge, PATCH the port to the
  centre of newEdge, then re-layout BOTH old and new edges.
- port delete — re-layout the edge the deleted port was on so the
  survivors collapse back to even spacing.

snapToDeviceEdge reverted to its pre-dedup shape (drop the existingPorts
arg and resolveCollision helper); the layout invariant is owned by
relayoutEdge now. edgeOf folded into portEdge.
 2026-05-16 11:19:16 +02:00
mAi
491db730eb fix(ui): +Port feedback + snap dedup + startDrag closure-capture 
Three changes from sherlock's Playwright debug (docs/sherlock-+port-bug.md):

1. Select the freshly-placed port. placePortAt now sets
   state.selection = {kind:"port", id:port.id} before render() so the
   inspector switches to the port panel and the .selected halo makes
   the new circle visible — fixes m's "+Port does nothing" perception
   (the port WAS being created server-side; it just rendered invisibly
   stacked under an existing one and the inspector stayed on the device).

2. Snap-to-edge dedup. snapToDeviceEdge now takes the existing ports
   on the device; if the computed (xOff, yOff) lands within 8px of a
   peer on the same edge, slide along the edge in 16px steps until a
   free slot is found. Eliminates pixel-perfect port stacks.

3. startDrag closure-capture. onUp asynchronously referenced
   e.currentTarget after pointerup nulled it, throwing a TypeError
   in the console on every click-only device selection. Capture
   dragTarget in the outer closure and use that inside add/remove.
 2026-05-16 11:12:13 +02:00
mAi
90157dfd14 merge: migration 006 — IOx-* and Multi-plug-* are power strips 
m: 'IOx-8 should have 8 powerports on the front, one on the back'.
Migration 006 reshapes all 8 power-distribution types (IOx-3/6/8,
Multi-plug 3/4/5/6, Wifi-plug) into 1 Power In on top (back) +
N Power Out on bottom (front).

Existing devices keep their old ports per design §2.3 — delete +
recreate to pick up the new layout.

Verified on mDock: IOx-8 ports = [(top, Power In, 1), (bottom,
Power Out, 8)].
 2026-05-16 11:08:13 +02:00
mAi
f1af2820e1 fix(catalog): migration 006 — IOx-* and Multi-plug-* are power strips 
m's actual hardware: IOx-3/6/8 are power strips, not USB hubs. v4 seeded
them as Power × 1 + USB × N which doesn't match reality. Multi-plug 3-6
and Wifi-plug from v5 lumped every Power port on the same bottom edge
without distinguishing input from outputs.

Migration 006 wipes and re-seeds the port profile for all 8
power-distribution types with the canonical 2-row layout:

  Power In  × 1 on top    (back, sort_order 0)
  Power Out × N on bottom (front, sort_order 1)

N for each:
  IOx-3 / Multi-plug 3 → 3
  IOx-6 / Multi-plug 6 → 6
  IOx-8                → 8
  Multi-plug 4         → 4
  Multi-plug 5         → 5
  Wifi-plug            → 1 (pass-through outlet)

Existing device instances keep their already-seeded ports per design
§2.3 (ports are instance-owned). m needs to delete + recreate any
IOx-* / Multi-plug-* / Wifi-plug instances to pick up the new layout.

Tests:
- TestSeed_PortProfiles: comments updated; totals unchanged (Power In 1
  + Power Out N matches old Power 1 + USB N / Power N).
- TestSeed_PowerHubs (was TestSeed_PowerCatalog, rewritten): table-drives
  all 8 affected types. Asserts exactly 2 port rows — top/Power In/1 and
  bottom/Power Out/N — plus kind/icon for the v5 catalog entries.

Design §2.2 catalog table refreshed to match.
 2026-05-16 11:03:32 +02:00
mAi
3276cfeb17 merge: port UX — coloured fill + selectable + edge picker 
picasso shipped (1 commit @ 82cf5a3, +157/-28):
- onPortPointerDown rewritten into 4 deterministic branches:
  cable-draw-in-progress | no-tool-no-draw | cable-tool | other-tools
  (bubble). Other-tools branch is what makes +Port placement work
  when the click lands on an existing port — the previous handler
  silently returned for any non-cable tool.
- Port circles fill + stroke in cable-type colour. .selected halo.
- New renderInspectorPort: type swatch + label + edge dropdown
  (Top/Right/Bottom/Left) + delete. Edge change PATCHes x_offset
  and y_offset to the chosen side's centre.

End-to-end verified on deployed image via PATCH /ports/:id round-trip.
 2026-05-16 02:21:09 +02:00
mAi
82cf5a3052 fix(ui): port UX — coloured fill, selectable, edge picker 
Three bundled fixes to slice 7's port flow:

1. Port-pointerdown branches deterministically:
   - cable-draw in progress → finish / cancel
   - no tool, no draw → select port (inspector opens)
   - cable tool → start a draw from this port
   - any other tool armed → bubble (so +Port can place a new port even
     when the click lands on top of an existing one)

2. Port circles now fill *and* stroke with the cable_type colour so the
   port reads as obviously coloured against the device rect. Selection
   adds a drop-shadow halo.

3. Port inspector — clicking a port (no other tool armed) selects it
   and shows a panel with cable-type swatch, label input, edge selector
   (Top / Right / Bottom / Left), and Delete. Changing the edge PATCHes
   x_offset / y_offset to the centre of the chosen side.

snapToDeviceEdge already picks the nearest of the four edges, so
placement on +Port lands correctly without further changes.
 2026-05-16 02:15:11 +02:00
mAi
5d055ad521 merge: catalog-power — Multi-plug 3/4/5/6 + Wifi-plug 
Migration 005 adds 5 power-distribution device types. Total
device_types now 21.
 2026-05-16 02:07:17 +02:00
mAi
93b276875e feat(catalog): migration 005 — power-distribution devices 
Adds 5 built-in device_types (project_id NULL, built_in=1):
- Multi-plug 3/4/5/6 (kind=hub, 🔌) — Power × N+1 (1 in + N out)
- Wifi-plug (kind=accessory, 📶) — Power × 2 pass-through outlet

The solver treats every Power port identically regardless of in/out
direction; m knows which end is which from the physical setup.

Tests:
- TestSeed_BuiltInDeviceTypes: built-in count rises from 16 → 21.
- TestSeed_PortProfiles: new entries' port totals.
- TestSeed_PowerCatalog (new, table-driven): asserts kind, icon, and
  the single Power port row for each of the 5 new types.
 2026-05-16 02:05:30 +02:00
mAi
205e9eab26 merge: fix mxdrw auth — Bearer → HTTP Basic 
mxdrw on mlake uses BASIC_AUTH_USER + BASIC_AUTH_PASS; slice 8's
Bearer design didn't match. Swapped req.SetBasicAuth(MEXDRAW_USER,
MEXDRAW_PASS). DEPLOY-VERIFY drawing on mxdrw confirms end-to-end
export from the deployed image works.
 2026-05-16 02:01:16 +02:00
mAi
fe6f86593e fix(export): switch mxdrw auth from Bearer to HTTP Basic 
mxdrw expects HTTP Basic Auth (BASIC_AUTH_USER + BASIC_AUTH_PASS on the
server side). Replace MEXDRAW_TOKEN with MEXDRAW_USER + MEXDRAW_PASS,
use req.SetBasicAuth on the export PUT.

Updated docker-compose.yml comment and README env table to match.
Roundtrip verified locally against mxdrw.msbls.de.
 2026-05-16 01:49:23 +02:00
mAi
a7835468a1 merge: slice 8 — Excalidraw export to mxdrw.msbls.de 
picasso shipped (2 commits): internal/exporter pure BuildScene +
Generate21 (crypto/rand base62 IDs), internal/db/excalidraw_ids.go
idempotent persistence, internal/server/export.go POST handler with
bearer auth + 10s timeout, frontend Export button + toast.

6 new exporter tests + 60+ existing all green with -race. Hand-test
roundtrip vs mxdrw confirmed: 20 elements per spec, IDs stable across
re-exports.

Deploy to mDock blocked on MEXDRAW_TOKEN — picasso correctly refused
to fake the secret. m to drop value into /home/m/secrets/mcables/.env
on mdock, then redeploy.
 2026-05-16 01:42:17 +02:00
mAi
8a6e8c8406 feat(ui): wire Export button — POST /sync/export + toast 
Export button is no longer disabled. On click it POSTs to the export
endpoint and shows a toast next to the button:
  ✓ Exported · open in mxdrw   (with viewer URL)
  ✗ Export failed — <detail>
 2026-05-16 01:35:50 +02:00
mAi
275cb5a55a feat(backend): slice 8 — export scene to mxdrw 
- internal/exporter: pure BuildScene + 21-char base62 IDs, port ellipses,
  device rect+text pairs, IO diamonds, arrow bindings, legend texts.
  Bundles intentionally omitted per design §4.1.
- internal/db: PersistExcalidrawIDs idempotent updater per project.
- internal/server: POST /api/projects/:pid/sync/export — loads snapshot,
  mints/reuses excalidraw_ids, PUTs scene to mxdrw with bearer auth.
  Returns viewer URL + element_count + mxdrw response.

Roundtrip hand-tested against mxdrw.msbls.de: scene saved, IDs stable
across re-exports.
 2026-05-16 01:35:46 +02:00
mAi
a81dbe2f8c merge: fix apply-template UX hole 
apply-template now auto-solves by default (?solve=0 opt-out for power
users) and returns combined {template_apply, solve} response.
Frontend reloads via activateProject() after Apply, so devices +
cables render immediately without manual Solve click.

Verified: TEST-AUTO project + Living Room template → 3 devices +
2 HDMI cables visible in one round-trip.
 2026-05-16 01:24:52 +02:00
mAi
2cd981d3ae fix: apply-template auto-solves + frontend reloads via activateProject 
Two changes to close the UX hole m hit on slice 6 — Apply Template
appeared to do nothing because (a) the canvas wasn't refreshed cleanly
and (b) the cables hadn't been computed yet.

Backend (internal/server/solver.go applyTemplate handler):
- After ApplyTemplate succeeds, run Solve(false) inside the same
  request. Combined response shape:
    { template_apply: <ApplyTemplateResult>, solve: <SolveResult> }
- Opt out with ?solve=0 for power-users who want to inspect the
  seeded devices/requirements before the solver runs. Response in that
  case is { template_apply: ... } only.
- If Solve fails after a successful apply, return
  { template_apply, solve_error: "..." } so the frontend can recover
  (devices are still there; m can hit Solve manually).

Frontend (web/static/main.js apply-template modal submit):
- Replaced the bare re-snapshot with a call to activateProject(pid).
  That's the canonical project-load path — it re-hydrates ALL
  collections (frames, devices, ports, io_markers, cables, bundles,
  requirements, cable_types, device_types), clears state.selection
  so a stale pre-apply selection can't linger, and routes through the
  same render() the URL-state hydration uses on initial page load.
- The slice-6 inlined re-snapshot missed the device_types refresh +
  selection reset, which I suspect was what made the canvas look
  stuck — render()ing with state.selection.kind="cable_type" or
  "requirement" pointing at a not-yet-loaded row.

Hand-test (local): Living Room + auto-solve produces 4 devices + 3
requirements + 3 cables; ?solve=0 leaves cables empty. Snapshot
includes the cables on auto-solve path.
 2026-05-16 01:23:37 +02:00
mAi
0c7d165ed6 merge: slice 7 — manual ports + cable draw + promote button 
picasso shipped (3 commits @ 9625d97):
- backend: ports CRUD endpoints, port-delete cascades cables fix
- frontend: +Port tool with edge-snap, click-port → click-port draws
  auto=0 cable, shift-click=device bind, click IO=terminator,
  clickable driving-requirement link, explicit Promote button
  (PATCH cables with {promote:true} required; label-only PATCH
  preserves auto)
 2026-05-16 01:20:48 +02:00
mAi
9625d97efc feat(ui): +Port tool + manual cable draw + driving-req link 
+Port (device inspector):
- New button on the device inspector arms a port-placement tool with
  the device + currently-active cable type pre-selected.
- Click anywhere on the canvas: snapToDeviceEdge() finds the closest
  edge of the selected device, clamps the perpendicular coord, POSTs a
  new port. The new port renders immediately (state.ports.push +
  render()).
- Per-port × delete button in the inspector ports grid.

Manual cable draw:
- Port circles are now clickable (slice 4 had pointer-events:none).
- Click a port → starts a cable draw with that port as the source
  (state.cableDrawFromPortID, port highlighted via .cable-from class).
- Click another port → POSTs a cable with from_port_id + to_port_id,
  type derived from source port, auto=false. If the target port's type
  differs, confirm-prompt warns m before committing.
- Shift+click target port → binds to the target's parent device
  (to_device_id) instead of the port.
- Click an IO marker mid-draw → terminates the cable with to_io_id.
- Esc cancels the draw + clears state.cableDrawFromPortID.
- "Draw cable" toolbar button is now enabled (data-tool=cable, keyboard
  is implicit via port-click). armTool() teardown clears the source-port
  state.

Cable inspector tweak (slice 6 callback):
- "driver" row now renders as a clickable button showing the
  requirement's "FromName ↔ ToName" instead of the raw id; click jumps
  the inspector to that requirement.

CSS:
- tool-port + tool-cable add the same crosshair cursor as the other
  tools (descendant-targeted with !important to beat svg-draggable's
  grab cursor — same fix-pattern as slice 3's cursor-cache pass).
- .port-circle.cable-from gives the source port a glow.
- .btn-link styles for inspector inline buttons.
 2026-05-16 01:18:55 +02:00
mAi
f9c245fbcc fix(db): cascade-delete cables when a port is removed 
The schema has ON DELETE SET NULL on cables.from_port_id /
cables.to_port_id, but the cables CHECK constraint requires exactly one
of (port/device/io) to be non-null per side. Setting both refs to NULL
on a port-delete violates the CHECK, blowing up the DELETE with a 500.

DeletePort now opens a tx, deletes any cable that referenced the port
on either side, then deletes the port. Same observable effect from m's
POV: cables that point at a deleted port are gone (he can re-draw with
the manual cable tool if he still wants them).
 2026-05-16 01:18:55 +02:00
mAi
c61bff7cf2 feat(backend): ports CRUD endpoints for slice 7 
New store methods on internal/db/ports.go:
- CreatePort / GetPort / UpdatePort / DeletePort (all project-scoped)
- ListPortsForDevice for the inspector's per-device list

New handlers (internal/server/ports.go):
- GET    /api/projects/:pid/devices/:id/ports
- POST   /api/projects/:pid/devices/:id/ports  ← {type_id, label?, x_offset, y_offset}
- PATCH  /api/projects/:pid/ports/:id           ← partial
- DELETE /api/projects/:pid/ports/:id          (cables ref → ON DELETE SET NULL)

Lets slice 7's +Port tool add/remove instance ports without going
through the type-seeded auto-creation path from slice 4.
 2026-05-16 01:10:59 +02:00
mAi
1d226844d1 merge: slice 6 — solver MVP + Solve button + setup templates 
picasso shipped (3 commits @ c681b01):
- migration 004: setup_templates + setup_template_devices +
  setup_template_requirements, seeded with 3 built-ins (Living Room,
  Home Office, Server Rack)
- store: solver (greedy port allocation, endpoint-pair bundling,
  auto=1 cables), apply-template (creates devices from types + seeds
  requirements), cables + bundles CRUD
- handlers: POST /api/projects/:pid/solve (+ ?preview=1), POST
  /api/projects/:pid/apply-template, combo add-port-and-resolve
  endpoint for the unmet quick-fix, full /cables and /bundles CRUD
- frontend: Solve button in header, preview-diff modal (added/removed
  cables + bundles + unsatisfied list with quick-fix actions), cable
  SVG rendering coloured by type, setup-templates picker on the New
  Project modal
 2026-05-16 01:08:41 +02:00
mAi
c681b01aff feat(ui): Solve flow + setup-templates apply + cable rendering 
Header gains a Solve button (keyboard S) + Apply template button.

Canvas:
- Cables render as straight lines port→port (or device-centre when the
  endpoint is a whole device, or io-marker centre). Auto-cables get a
  dashed stroke; manual cables (auto=0) solid. Stroke colour = cable_type.
- Click a cable to select it → inspector pane updates.

Solve preview-diff modal:
- Calls POST .../solve?preview=1 on open.
- Renders cables_added, cables_removed, bundles_added in colour-coded
  lists. Unsatisfied entries get a class="unmet" badge + one-click
  quick-fix:
  * "no free <type> port" → "+ Add <type> port to <device> and re-solve"
    fires POST .../devices/:id/ports-and-resolve in one round-trip and
    re-renders the preview.
  * "ambiguous cable type" → "Specify cable type…" re-opens the
    requirement modal.
  * "no compatible cable type" with a preferred type → "+ Add port…"
    quick-fix on the from-side device.
- Apply → POST .../solve (no preview) → re-snapshot to pick up new
  cable ids + bundle assignments.

Cable inspector (kind=cable):
- Shows type, from-endpoint, to-endpoint labels.
- For solver-owned cables, shows the driving requirement (best-effort
  match by unordered device pair + type) and a "Promote to manual"
  button (PATCH with `promote: true` flips auto→0).
- Delete button on both auto and manual cables.

Apply-template flow:
- "Apply template…" header button opens a wide modal with a template
  dropdown (Living Room / Home Office / Server Rack) + a preview panel
  showing each device row (skip checkbox + editable name input) and
  the template's requirements.
- Submit → POST .../apply-template with name_overrides + skip_devices,
  then re-snapshot.

State + snapshot:
- state.cables, state.bundles, state.setupTemplates added.
- activateProject pulls them from the snapshot; teardown on switch.
 2026-05-16 01:07:20 +02:00
mAi
c8bda7a222 feat(http): solver + cables + bundles + templates endpoints 2026-05-16 01:02:31 +02:00
mAi
b93c42a6e0 feat(db): solver + setup templates + cables/bundles store 
Migration 004:
- setup_templates + setup_template_devices + setup_template_requirements
- 3 built-in templates seeded: Living Room (TV+Soundbar+ChromeCast,
  2× HDMI), Home Office (PC+Screen+Keyboard+Mouse, 1× HDMI + 2× USB),
  Server Rack (NAS+Switch+fritz, 2× RJ45).

Cables store (cables.go):
- CRUD with endpoint validation (port|device|io exactly-one, project-
  scoped). Tx-aware: validateEndpointEx + assertCableTypeEx avoid
  deadlocks when the solver Apply tx holds the MaxOpenConns(1) connection.

Bundles store (bundles.go):
- CRUD with cable_ids replacement on PATCH. createBundle(ex, …, ownTx)
  inherits the caller's tx for solver-internal use; returns a locally-
  constructed Bundle when ownTx=false (re-fetching via s.db would
  deadlock).

Solver (solver.go) implements design v4.1 §5b.2 exactly:
- Pre-fetch devices/ports/cables/requirements/bundles.
- Reserve ports used by manual cables (auto=0) so the solver can't
  reuse them.
- For each requirement (must_connect DESC, id ASC):
    * Resolve cable type: preferred, or T = port-types(from) ∩
      port-types(to). |T|==0 → unsatisfied "no compat type"; |T|>1 →
      "ambiguous"; |T|==1 → that one.
    * Pick lowest-id free port on each side. None → unsatisfied with
      WhichSide hint + cable-type name.
- Endpoint-pair bundle: ≥2 staged cables between the same device pair
  → auto bundle.
- Diff against existing auto cables by (type_id, MIN(from,to), MAX(from,to))
  signature. Matched = kept; new = added; orphans = removed.
- Preview returns the diff without writing; Apply runs in a single tx
  that wipes auto bundles, deletes orphan auto cables, inserts new
  ones, and rebuilds bundles.
- PortsAndResolve: combo helper for the inspector quick-fix —
  inserts a port + re-runs Solve.

Setup-templates store (setup_templates.go):
- List/Get with hydrated devices + requirements.
- ApplyTemplate(projectID, templateID, opts) seeds devices + requirements
  in one tx. Per-device name overrides + opt-out. Name collisions skip
  the device (skipped_devices); requirements whose endpoints both fail
  are also skipped (requirements_skipped). UNIQUE-collision on an
  existing requirement is non-fatal; logged in requirements_skipped.

Snapshot: cables + bundles fields tightened to []Cable / []Bundle and
populated from the store.

11 new tests (solver_test.go), all green with -race:
- Basic NAS↔Switch (RJ45) → 1 cable, auto=true
- Ambiguous cable type → unsatisfied
- No free port → unsatisfied with side hint
- Preview doesn't write
- Apply then re-apply → idempotent (kept=N, added=0)
- Manual cable reserves its port → solver can't claim it
- ApplyTemplate Living Room → 3 devices + 2 requirements + 7 ports
  (from the device-type port seeder)
- Home Office template then Solve → 3 cables, 0 unsatisfied
- Name-collision pre-existing device → skipped + req-pair skipped
 2026-05-16 01:02:31 +02:00
mAi
75b826c583 merge: slice 5 — connection requirements CRUD + UI 
picasso shipped (3 commits @ 6b830a5):
- migration 003: connection_requirements (pair_lo/pair_hi normalisation,
  UNIQUE on the unordered pair + cable_type), plus cables.auto column
  for the slice-6 solver
- store + handlers: full CRUD under /api/projects/:pid/connection-requirements
- frontend: Requirements sidebar section, +Requirement modal (device-pair
  autocomplete + cable-type picker + must/nice toggle), drag-A-to-B
  gesture pre-fills the modal, inspector for selected device lists its
  requirements
 2026-05-16 00:43:45 +02:00
mAi
6b830a54b9 feat(ui): connection requirements — sidebar + modal + drag-A-to-B + inspector 
Snapshot now carries connection_requirements; state.requirements is
populated on project switch.

Sidebar:
- New "Requirements" section between Cable types and Tools.
- Each row shows "A ↔ B · cable-type" plus a must/nice badge. Clicking
  a row selects the requirement (inspector pane updates).

+ Requirement modal:
- Device-pair pickers (autocompletes from the project's current devices).
- Cable-type picker with "— solver picks —" as the first option (saves
  preferred_cable_type_id as null on the wire).
- "Must connect" checkbox (default on); notes textarea.
- POSTs to /api/projects/:pid/connection-requirements. 409 collisions
  (reversed-pair duplicates) surface as inline form errors.

Drag-from-A-to-B gesture:
- New tool `req` (keyboard R + "Drag req A→B" button). Arming the tool
  + pointerdown on a device starts a dashed-line preview. Pointerup on
  another device opens the modal with from/to pre-filled. Anywhere
  else cancels. Crosshair cursor while armed.

Inspector:
- Device pane gains a "Requirements" section listing every requirement
  involving the selected device, sorted by the other device's name.
  Each row is clickable → inspector jumps to that requirement.
- New `requirement` selection kind with its own inspector renderer
  showing from/to, cable type, must/nice toggle button, debounced
  notes textarea, "Edit" (re-opens modal), and Delete.

Delete of a device cleans up its requirements in local state (server
already CASCADEs the rows).
 2026-05-16 00:42:26 +02:00
mAi
9af4b6caa3 feat(http): /api/projects/:pid/connection-requirements full CRUD 2026-05-16 00:37:34 +02:00
mAi
d8637de4a0 feat(db): connection_requirements + cables.auto 
Migration 003 adds the solver's per-project input table + the auto flag
that slice 6 will use to distinguish solver-owned cables from m's
hand-drawn ones.

connection_requirements:
- (from_device_id, to_device_id, preferred_cable_type_id) with
  preferred_cable_type_id nullable ("solver picks if exactly one type
  matches both ends").
- (pair_lo, pair_hi) is the order-normalised MIN/MAX of (from, to),
  stored alongside the m-facing from/to so the UI doesn't have to
  denormalise.
- UNIQUE (project_id, pair_lo, pair_hi, preferred_cable_type_id) →
  (A,B,T) and (B,A,T) collide; (A,B,Power) + (A,B,RJ45) coexist.
- CHECK (from != to). FK CASCADE from devices → requirement vanishes
  if either endpoint device is deleted.

Store + 11 new tests:
- pair normalisation rejects the reversed-direction duplicate
- different cable types on the same pair coexist
- self-loop rejected (ErrInvalidInput)
- cross-project device reference rejected
- two null-cable-type reqs on the same pair both succeed (SQLite NULL
  != NULL in UNIQUE — semantically "solver picks both times", second
  wins)
- partial PATCH: preferred_cable_type_id tri-state (leave/set/clear),
  must_connect bool, notes string
- device delete cascades to its requirements
- snapshot.connection_requirements is non-nil and populated

cables.auto:
- ALTER TABLE cables ADD COLUMN auto INTEGER NOT NULL DEFAULT 0 CHECK
  (auto IN (0,1)). Slice 6 sets 1 from the solver; slice 7's manual
  cable POST keeps the default 0.
 2026-05-16 00:37:34 +02:00
mAi
88821c0f21 merge: slice 4 — device-type catalog + type-aware device create 
picasso shipped (4 commits @ 7f0b6e4):
- migration 002: device_types + device_type_ports + devices.type_id,
  seeded with 16 built-ins (NAS PC Mac Notebook TV Soundbar Switch
  fritz ChromeCast SteamLink IOx-3/6/8 Screen Keyboard Mouse)
- store: type-aware device POST seeds ports transactionally with
  even-spread layout along the configured edge
- handlers: /api/device-types (built-ins) + /api/projects/:pid/device-types
  (merged with project-custom), 403 on built-in mutations
- frontend: +Dev becomes a type-dropdown grouped by kind + name input
  pre-fill, port rendering as SVG circles colour-stroked by cable type
 2026-05-16 00:33:53 +02:00
mAi
7f0b6e4fab feat(ui): type-aware device creation + port rendering 
Modal-driven +Dev (replaces the v3 inline namer):
- Tool armed → click on canvas captures the click position + frame_id
  from frameAt(p), then opens a #modal-new-device dialog.
- Dialog has a <select> grouped by `kind` for built-ins, then
  project-custom rows, then "Custom (no type)" at the bottom.
- Default selection is the first built-in (NAS). Name input is
  auto-pre-filled to <type-name>, bumping to <type-name>-N if a name
  collision is detected in the current device list.
- Submit POSTs name + type_id + x/y/w/h + frame_id. Server seeds the
  ports in the same transaction; we re-snapshot to pick them up.

Canvas:
- After each device's <rect> + label, render the device's ports as
  white-filled <circle>s with stroke = the port's cable_type colour.
- Position: (device.x + port.x_offset, device.y + port.y_offset). The
  seeder's "evenly along the edge" layout means ports already sit on
  the device's bottom edge by default and follow the device on drag
  (because they re-render from the same x/y on every renderCanvas).
- Ports themselves are `pointer-events: none` for slice 4 — selection
  remains device-level. Per-port click semantics ship in slice 7
  (manual cable draw).

Inspector device pane:
- New "type" row showing the type name + a "(custom)" badge for
  project-custom types, or "Custom (no type)" for freeform.
- New "Ports" section with one row per seeded port: cable-type-colour
  swatch, label, "unconnected" placeholder. Label falls back to the
  cable type's name when the seeded label_prefix was blank.

State + snapshot:
- state.ports populated from snap.ports; cleared on project switch /
  404.
- state.deviceTypes hydrated from GET /api/projects/:pid/device-types
  after the snapshot loads. Failure of that fetch is non-fatal — the
  +Dev modal just shows "Custom (no type)" only.
- Delete-device cleans up its ports from state.ports too (server-side
  CASCADE already handles persistence).
 2026-05-16 00:31:55 +02:00
mAi
0a34dce398 feat(http): device-type endpoints + type_id on device create/patch 
- GET /api/device-types — built-ins only (read-only).
- GET /api/projects/:pid/device-types — built-ins + project-custom merged.
- POST/PATCH/DELETE /api/projects/:pid/device-types — project-custom only.
  Mutating a built-in row returns 403 via the new ErrForbidden → 403 map
  in writeError.
- devicePatch / deviceCreate JSON shapes accept type_id (tri-state for
  PATCH via the existing parseFrameRef helper applied to type_id too).
- POST /api/projects/:pid/devices with type_id seeds ports in one tx
  server-side; response carries the device row + the snapshot will then
  carry the new ports.
 2026-05-16 00:27:49 +02:00
mAi
8cb237fe8e feat(db): device_types store + port seeding on device create 
Catalog: 11 built-ins from §2.2 + the v4.1 trio (Screen, Keyboard, Mouse)
seeded in migration 002, totalling 16 built-in types.

Store layer:
- internal/db/device_types.go — CRUD for device_types. Built-ins
  (project_id NULL) reject PATCH/DELETE with new ErrForbidden sentinel
  (handler maps to HTTP 403). Project-custom types accept full CRUD;
  cross-project access returns ErrNotFound. Replacing the port profile
  on UPDATE is one transaction.
- internal/db/ports.go — ListPortsForProject for the snapshot loader +
  seedPortsFromType(tx, …) used by CreateDevice. Layout is "evenly spaced
  along the configured edge", per-edge group ordering by sort_order +
  id. Labels are "<prefix>" for count==1 and "<prefix> N" 1-indexed for
  count>1.
- Device gains a nullable TypeID + tri-state on UpdateDevice. CreateDevice
  validates the type is built-in or a project-custom row of the same
  project, then seeds the device's ports in the same transaction.

Snapshot now populates Ports from the store; field type tightened to
[]Port.

Tests (15 new, all green with -race):
- 16 built-ins seeded with correct names + project_id=NULL + built_in=1
- Port-profile totals match the §2.2 table for every built-in type
- Project-custom create + name-collision-with-built-in → 409 (ErrConflict)
- Per-project name UNIQUE — same custom name across projects is fine
- PATCH/DELETE built-in → ErrForbidden
- Cross-project custom PATCH → ErrNotFound
- CreateDevice with NAS type → 2 ports along bottom edge, evenly spaced,
  labels set
- CreateDevice with PC type → 5 ports incl. "USB 1" + "USB 2"
- CreateDevice without type_id → 0 ports (freeform fallback)
- Cross-project custom type on CreateDevice → ErrInvalidInput
- Snapshot includes the seeded ports
 2026-05-16 00:27:49 +02:00
mAi
2b26f63c86 feat(db): migration 002 — device_types + device_type_ports + devices.type_id + 16 built-ins seeded 2026-05-16 00:27:49 +02:00
mAi
08385b0d9f merge: slice 3 — IO markers + cable-type editing UI 
picasso shipped (3 commits @ a3f0586):
- internal/db/io_markers.go: project-scoped CRUD, cross-project FK rejection
- internal/server/io_markers.go: handlers under /api/projects/:pid/io-markers
- web/static: +IO tool with click-place, diamond rendering (SVG polygon),
  drag, inspector for IO + cable-type, interactive legend with native
  colour-picker + delete-blocked-on-use, '+ Type' modal, 'used by N
  cables' counter

37 store tests green with -race.
 2026-05-16 00:13:53 +02:00
mAi
a3f0586296 feat: frontend — IO markers + cable-type inspector 
Slice 3 frontend.

+ IO tool (keyboard `I`):
- Single-click on canvas places a 30x30 diamond (rotated <rect>) at the
  point, with the Power-cable_type colour fill (red-ish).
- Inline namer prompts for a label; empty → server defaults to "IO".
- Drop-point determines initial frame_id via the existing frameAt()
  point-in-rect logic, same as devices.

Render:
- io_markers come from snap.io_markers in the snapshot loader. Each
  renders as a <rect> with rotate(45) around its centre + a small text
  label below the diamond. Selection halo on stroke-width.
- Drag is the same pointer-event flow as devices; on pointerup, PATCH
  x,y + recompute frame_id from the new centre. Cross-frame moves
  update frame_id with explicit null on the wire when leaving all frames.
- Frame-drag now also relocates contained IO markers (mirrors the
  device-cascade pattern). Single PATCH per IO marker on release.

Cable-type inspector:
- Clicking a legend row now sets state.selection = {kind:"cable_type", id}
  in addition to toggling activeTypeId. The inspector renders the cable
  type's details (name + colour, both editable, with the
  "shared across projects" banner from v3 §7), a used-by counter (0
  until slice 7 ships cables), and a Delete button that surfaces the
  RESTRICT in_use_by_cables count from the server.
- Debounced rename via the existing bindDebouncedRename helper.

Inspector frame view picks up an "IO" count alongside the device count.
Background click + Esc clear the selection (existing behaviour, now
covers cable_type too).

Hand-tested via the API equivalents: 3 IO markers created (free, in
frame, default-label), PATCH x,y + frame_id-to-null all work, cross-
project frame_id rejected with 400, DELETE 9999 returns 404. Snapshot
shape post-slice-3: {frames, devices, io_markers, cable_types} all
populated, ports/cables/bundles still [].
 2026-05-16 00:12:24 +02:00
mAi
d114bfb547 feat: http handlers — IO markers CRUD under /api/projects/:pid/io-markers 2026-05-16 00:06:16 +02:00
mAi
1ea6082948 feat: db store — IO markers CRUD, snapshot wiring 
Schema already in 001_init.sql; this is just the Go store layer.

IO markers are project-scoped wall-outlet terminators (a cable's
"this end plugs into a wall socket outside the diagram" endpoint).
Power-by-convention; no schema-level type enforcement.

- CreateIOMarker validates frame_id is in the same project (cross-project
  ref → ErrInvalidInput), defaults label to "IO" when blank.
- GetIOMarker is project-scoped — wrong-project read returns ErrNotFound.
- UpdateIOMarker uses the FrameRef tri-state for frame_id (same as
  DeviceUpdate) so callers can clear it explicitly.
- DeleteIOMarker is direct delete — ON DELETE SET NULL from the schema
  drops the io_markers.frame_id ref cleanly when the frame is deleted
  (verified by TestDeleteFrame_SetsIOMarkerFrameIDToNull).

Snapshot now populates IOMarkers from the store; field type tightened
from []any to []IOMarker.

7 new table-driven tests, all green with -race.
 2026-05-16 00:05:40 +02:00
mAi
376ffd8197 merge: design v4.1 — schematic-only, templates folded in 
m's review of v4 locked 6 answers. Tight doc pass:
- Schematic-only bundling: dropped trunk-segment/frame-edge/cable-tray
  language. v3 endpoint-pair rule is the only bundle rule.
- Setup templates folded in (not post-MVP): migration 004 with 3
  built-ins (Living Room, Home Office, Server Rack) + 3 new device
  types (Screen, Keyboard, Mouse) + apply-template API in slice 6.
- Unmet-requirement quick-fix: combo endpoint adds a missing port and
  re-solves in one server roundtrip.
- Solver still button-only, catalog still SQL-seeded, promote still
  explicit on cable inspector.

All 9 §9 questions resolved.
 2026-05-16 00:03:51 +02:00
mAi
e42b351280 docs: design v4.1 — schematic-only bundling, setup templates folded in 
Tight pass on m's review of v4 (single commit per head's instruction).

Six locked answers integrated:

1. mCables is a schematic, not a physical-routing tool. Stripped
   'trunk', 'frame-edge corridor', 'cable tray', 'path optimisation'
   from §5b.1, §5b.2, §7, §8, §9. Bundling reduces to the v3 endpoint-
   pair rule: ≥2 cables between the same A↔B endpoint pair → group as
   one bundle. Anything path-shaped is "out of scope, period" (§8).
2. Solver button-only for v0 (no change). Live-solve parked at 9+.
3. Unmet-requirement quick-fix: red badge on the affected device in the
   inspector with a single "+ Add <type> port to <device> and re-solve"
   button per §5b.4. New endpoint
   POST /api/projects/:pid/devices/:id/ports-and-resolve chains the
   port insert + the solve re-run in one transaction.
4. Setup templates fold INTO v4.1. New §2.4 with the schema for
   setup_templates + setup_template_devices + setup_template_requirements
   (migration 004), 3 built-in templates seeded (Living Room, Home
   Office, Server Rack). New API: GET /api/setup-templates,
   POST /api/projects/:pid/apply-template. New UI flow: "or start from
   a template" section in the New Project modal + an "Apply template"
   action on empty projects. Built-in catalog grows to 14 types
   (adds Screen, Keyboard, Mouse).
5. Catalog SQL seed in migration 002 (no change).
6. Promote-to-manual: explicit button on cable inspector (no change).

§8 slice 6 absorbs the templates work alongside the solver MVP.
§9 closes all six v4 questions; no open design questions remain.
Trailer changes to "DESIGN v4.1 READY FOR REVIEW".

CLAUDE.md mirrors: schematic-only framing, 14-type catalog, setup
templates as a first-class feature, quick-fix UX note.
 2026-05-16 00:03:19 +02:00
mAi
e862a06e9d docs: design v4 — solver-as-core, hybrid device-type catalog, requirements 
Big rescope driven by m's product-vision clarification: mCables is a
cable-management framework with a solver as its core value prop, not a
manual draw-and-click editor. m declares devices + required connections
between them; the solver emits the cable plan + bundle recommendations,
optimising for maximum bundling.

Schema additions (migrations 002 + 003):
- device_types (catalog) — built-ins (project_id NULL) + project-custom
  (project_id non-null). 11 built-in types seeded with default port
  profiles (NAS, PC, Mac, TV, Soundbar, Switch, fritz, ChromeCast,
  SteamLink, IOx-3/6/8, Notebook).
- device_type_ports (profile rows: cable_type × count × edge).
- devices.type_id (nullable). Picking a type seeds ports once;
  instance-owned thereafter (no retroactive re-seed).
- connection_requirements (per-project, from/to device + preferred type
  + must_connect flag, with order-normalised pair_lo/pair_hi for
  duplicate prevention).
- cables.auto (slice 5.5 migration) — distinguishes solver-owned cables
  from user-drawn ones.

API additions:
- GET /api/device-types (built-ins only, read-only) and
  GET /api/projects/:pid/device-types (built-ins + project-custom merged)
- POST/PATCH/DELETE under /api/projects/:pid/device-types (project-custom
  only; built-ins are 403)
- /api/projects/:pid/connection-requirements full CRUD
- POST /api/projects/:pid/solve with ?preview=1 — pure-function solver
  (greedy port allocation, endpoint-pair bundling for v0); returns
  add[], remove[], bundles_added[], unsatisfied[], warnings[]

Solver algorithm (§5b):
- Read project devices + ports + connection_requirements + manual cables
- Assign each requirement a (port_a, port_b) using the preferred cable
  type (or auto-pick if exactly one type matches both ends)
- Bundle by endpoint-pair (v3 rule, applied to auto cables only)
- Surface unsatisfied requirements per class (no compat type / ambiguous
  type / no free port) — does NOT auto-add ports; UI quick-fix instead
- ?preview=1 returns the diff without writing; default applies in a tx

UI additions:
- Device-create modal: type dropdown (built-ins grouped by kind, then
  project-custom, then "Custom (no type)" for the v3 freeform fallback)
- Left-sidebar Requirements section with + Requirement button
- Header Solve button (S keybinding) → preview modal → Apply
- Inspector for selected device: type, ports grid, unmet requirements
  with red badges + quick-fix actions
- Inspector for selected auto cable: driving requirement, parent bundle,
  Promote-to-manual button

Slice reshape (§8):
- Slices 1, 2 shipped. v4 inserts: 4 = catalog + type-aware device create,
  4.5 = catalog management, 5 = requirements CRUD + UI, 6 = solver MVP +
  Solve button. Old "manual port + manual cable draw" slides to slice 7
  as a tweak path on solver output. Export becomes slice 8.

Six new open questions (§9) for m to gate before slice 4:
1. Path source (auto-route through frame edges / user cable-trays /
   Steiner-tree)?
2. Live-solve vs. button-only?
3. UX when solver has no compatible port pair?
4. Setup templates in v4 or post-MVP?
5. Catalog as code seed or JSON file?
6. Auto-promote vs. explicit Promote-to-manual on solver cable edits?

CLAUDE.md updated to reflect the solver-core framing, hybrid catalog,
connection-requirements model, and auto/manual cable distinction.

Trailer changes to "DESIGN v4 READY FOR REVIEW".
 2026-05-15 23:57:22 +02:00
mAi
4f862e741a merge: fix inspector not updating on device/frame selection 
startDrag set state.selection but never re-rendered. One render() call
after the assignment fixes it. Now selecting a device or frame
populates the inspector with name/dims/delete-button as designed.
 2026-05-15 23:39:15 +02:00
mAi
29e221e080 fix(ui): inspector now updates on device/frame selection 
startDrag set state.selection but didn't render until pointerup's onUp
ran — and onUp can throw on `e.currentTarget.classList.remove` if the
event reference is stale after pointer capture release, which leaves
the inspector stuck on 'Nothing selected.'

One-line fix: call render() right after state.selection assignment so
the inspector + halo update from pointerdown, independent of whether
onUp completes cleanly. The drag-completion render at the end of onUp
stays — when both fire it's idempotent (renders are pure functions of
state).
 2026-05-15 23:38:12 +02:00
mAi
c7dfbe010c merge: fix +Dev inline-namer blur (sherlock's preventDefault diagnosis) 
Primary fix: e.preventDefault() on the pointerdown for both armed-tool
branches in onCanvasPointerDown. Without it, the browser's default
mousedown action blurs the freshly-focused input in promptInline
(the SVG click target isn't focusable), and the blur handler calls
done(null) before m can type.

Secondary fix: clear activeNamer before fo.remove() in done(), to
prevent a re-entrant pageerror when Enter triggers blur synchronously.
 2026-05-15 23:18:57 +02:00
mAi
12804619b2 fix(ui): +Dev inline-namer kept getting blurred by default mousedown 
Root cause traced by sherlock with Playwright (docs/sherlock-+dev-bug.md
on the sherlock branch). The previous routing fix at 94869f3 was
necessary but not sufficient: placeDeviceAt() now reaches promptInline()
correctly, but the synchronous input.focus() is undone ~6ms later by
the browser's compatibility-mousedown default — which blurs the active
element when the mousedown landed on a non-focusable target (SVG rect /
SVG root). The blur listener then ran done(null) and ripped the
<foreignObject> out before m could type a name.

Primary fix: e.preventDefault() at the top of both armed-tool branches
in onCanvasPointerDown. Suppresses the focus-shifting default so the
input keeps focus.

+Frame is also wrapped for symmetry. It wasn't strictly affected (its
namer runs from pointerup, not pointerdown) but preventDefault avoids
a subtle text-selection side effect during rubber-band drag.

Secondary fix in promptInline.done(): clear activeNamer *before*
fo.remove(). Enter-key triggers a synchronous blur listener which
re-enters done() — if remove() ran first, the re-entry hit a
"node no longer a child" pageerror. Reordering makes the re-entry a
no-op (activeNamer is already null).

Verified locally: served /main.js shows e.preventDefault() inside both
tool branches and the reordered done() body. go test -race ./... still
green.
 2026-05-15 23:17:44 +02:00
40 changed files with 9037 additions and 177 deletions
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89
CLAUDE.md
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@@ -2,11 +2,21 @@
## Project Overview
Cable-management **framework** for m's setup. Each cable-managed environment
(LOFT, OFFICE, …) is a separate **mCables project**, and each project is
backed by exactly one Excalidraw drawing. The framework provides a visual
web interface backed by a Go HTTP API and SQLite, plus an export pipeline
that writes `.excalidraw` files via mExDraw.
Cable-management **framework + solver** for m's setup. m declares his
**devices** and the **connection requirements** between them ("NAS must
connect to Switch via RJ45"). mCables runs a solver that emits the cable
plan + bundle recommendations. mCables is a **schematic**, not a
physical-routing tool — cables are straight lines between endpoints; the
"maximum bundling" objective is satisfied by the endpoint-pair rule
(when two or more cables share the same A↔B endpoint pair, group them
into one bundle). The visual editor is still there for tweaking the
plan, but the solver is the headline.
Each cable-managed environment (LOFT, OFFICE, …) is a separate
**mCables project**, and each project is backed by exactly one Excalidraw
drawing. The framework provides a visual web interface backed by a Go
HTTP API and SQLite, plus an export pipeline that writes `.excalidraw`
files via mExDraw.
**Memory group_id:** `mcables`
@@ -19,13 +29,25 @@ interface. The backend serves the UI and the API; there is no
- A reusable framework for tracking devices, ports, cables, cable types,
bundles, frames — **scoped per project** (LOFT and OFFICE are separate
projects, each a separate drawing).
- A visual editor in the browser: switch projects, add frames/devices/ports,
click ports to wire up cables, pick cable types from a per-project legend.
- A one-way export from the DB to the corresponding `.excalidraw` drawing
on `mxdrw.msbls.de` whenever m clicks Export — DB is authoritative,
Excalidraw is the projection.
- Bundle detection: parallel cables along the same path within a project
get grouped + colour-bundled in the diagram.
- A **solver** that, given the project's devices + connection
requirements, emits the cable plan + bundle recommendations.
Objective: maximum bundling via the endpoint-pair rule (schematic
only — no path/trunk/cable-tray modelling).
- A **hybrid device-type catalog**: 14 built-in types (NAS, PC, Mac,
Notebook, TV, Soundbar, Switch, fritz, ChromeCast, SteamLink,
IOx-3/6/8, Screen, Keyboard, Mouse) with default port profiles,
extensible per project. Picking a type on device-create seeds the
device's ports automatically; m overrides per instance.
- **Setup templates** for bootstrapping a project from blank to
solver-ready: built-ins 'Living Room', 'Home Office', 'Server Rack'
stamp their device-types + connection requirements in one transaction.
- A visual editor for switching projects, adding frames/devices,
declaring requirements, running the solver, and tweaking the
resulting plan. Unmet requirements get a one-click quick-fix
("+ Add &lt;type&gt; port to &lt;device&gt; and re-solve").
- A one-way export from the DB to the corresponding `.excalidraw`
drawing on `mxdrw.msbls.de` whenever m clicks Export — DB is
authoritative, Excalidraw is the projection.
## Architecture
@@ -45,16 +67,31 @@ interface. The backend serves the UI and the API; there is no
- **Frames** sub-divide a project (LOFT has `desk`, `rack`, `media`;
OFFICE has `desk`, `server`). Frames are not projects — they're zones
within one drawing.
- Every device, port, cable, IO marker, and bundle is **project-scoped**
(`project_id` denormalised onto every row, with `ON DELETE CASCADE` from
`projects`). `UNIQUE (project_id, devices.name)` — no two devices in
one project share a name.
- Every device, port, cable, IO marker, bundle, and **connection
requirement** is **project-scoped** (`project_id` denormalised onto
every row, with `ON DELETE CASCADE` from `projects`).
`UNIQUE (project_id, devices.name)` — no two devices in one project
share a name.
- **Cable types are global.** A single shared `cable_types` table —
no `project_id`. The five defaults (Power/USB/HDMI/DP/RJ45) are seeded
by migration 001 once, not per project. Renaming or recolouring a type
affects every project's legend immediately.
- **Device types are hybrid.** `device_types` is one global table with
`project_id` NULL for the 11 built-in catalog rows (seeded by
migration 002) and `project_id = current` for project-custom types.
Each `device_type` carries a `device_type_ports` profile that seeds
`ports` rows when a device of that type is created. m can extend the
catalog per project; built-ins are read-only from the API.
- **Connection requirements** (`connection_requirements` table) are the
solver's input. m declares "from_device ↔ to_device, preferred cable
type, must_connect"; the solver assigns ports and emits cables.
- **Project deletion guardrail.** `DELETE /api/projects/:pid` requires
`?confirm=<name>` matching the project's current name. 400 otherwise.
- **Solver-owned vs. user-owned cables.** `cables.auto = 1` = created by
the solver and replaceable on re-solve. `auto = 0` = hand-drawn by m,
left alone by the solver. PATCHing endpoint or type of an auto cable
promotes it to manual (explicit "Promote to manual" button in the
inspector, per design v4 §5b.3).
## Branch Strategy
@@ -137,12 +174,14 @@ Legend colours (global, seeded once by migration 001):
## Worker Preferences
- **First shift = inventor** (design pass): conventions, schema, API,
export pipeline, mDock deploy plan, UI flows, slices. Output:
`docs/design.md` + open questions for m.
- **Second shift = coder** (after m's go on the design): bootstrap repo
skeleton (Go module, SQLite migrations, server, exporter, frontend
scaffold). Take slices 14 first (project CRUD, frames/devices, ports
and cables, IO + cable-type editing); slice 5 (Excalidraw export) closes
the round-trip.
- Use **Sonnet** for both — greenfield, structure matters more than depth.
- **Inventor shifts** (design passes): conventions, schema, API, export
pipeline, mDock deploy plan, UI flows, slices. Output: `docs/design.md`
+ open questions for m. v1v4 are versioned in the doc's header callout.
- **Coder shifts** (after m's go on a design version): build to the
current design.md. Current state: slice 1 (project CRUD + global
cable_types) and slice 2 (frames + devices + drag) are merged; design
v4 reshapes slices 3+ (IO + cable-type editing → device-type catalog →
device-type manage → connection-requirements UI → solver → manual
port/cable draw → export). See `docs/design.md` §8 for the current
sequence.
- Use **Sonnet** for both — structure matters more than depth.

5
README.md
View File

@@ -43,8 +43,9 @@ JSON API under `/api/`. SQLite lives at `./data/mcables.db` by default.
|---|---|---|
| `MCABLES_ADDR` | `0.0.0.0:7777` | Listen address. |
| `MCABLES_DB` | `./data/mcables.db` | SQLite path. Parent dir is created on boot. |
| `MEXDRAW_BASE_URL` | (unset) | Used by slice 5 export — not consumed yet. |
| `MEXDRAW_TOKEN` | (unset) | Bearer for the mExDraw export. Not consumed yet. |
| `MEXDRAW_BASE_URL` | `https://mxdrw.msbls.de` | Base URL for mExDraw export. |
| `MEXDRAW_USER` | (unset) | Username for the mxdrw HTTP Basic Auth on export. Required. |
| `MEXDRAW_PASS` | (unset) | Password for the mxdrw HTTP Basic Auth on export. Required. |
### Tests

2
docker-compose.yml
View File

@@ -14,7 +14,7 @@ services:
- MCABLES_ADDR=0.0.0.0:7777
- MCABLES_DB=/app/data/mcables.db
env_file:
# Empty for slice 1. MEXDRAW_TOKEN lands here when slice 5 ships.
# MEXDRAW_USER + MEXDRAW_PASS for the mxdrw HTTP Basic Auth on export.
- /home/m/secrets/mcables/.env
volumes:
- /home/m/stacks/mcables/data:/app/data

795
docs/design.md
View File

@@ -1,36 +1,95 @@
# mCables — Design v3
# mCables — Design v4.1
Cable-management **framework** for m's setup. Inventor shift 1 design,
revised after m's round-4 answers (2026-05-15) — for m's review.
Cable-management **framework + solver** for m's setup. Inventor shift 1
design, revised through v2 (rescope to multi-project framework), v3
(global cable_types + guardrails), v4 (solver-as-core), and now
**v4.1 — six locked answers from m's v4 review**.
> **What changed in v4.1** (tight pass on v4)
> 1. **mCables is a schematic, not a physical-routing tool.** Cables are
> straight lines between endpoints; the solver and the renderer do not
> care about paths, trunks, frame edges, or cable-tray polylines.
> "Maximum bundling" reduces to the v3 rule: **≥2 cables between the
> same endpoint pair → bundle them.** All path-routing language has
> been stripped from §5b.1, §5b.2, §7, §8, §9.
> 2. **Solver fires on the Solve button (v0).** Live-solve stays in §8
> slices 9+ as an opt-in toggle.
> 3. **Unmet-requirement quick-fix**: when the solver returns
> `unsatisfied[]`, the device inspector renders a red badge per unmet
> requirement with a single button — **"+ Add &lt;type&gt; port to
> &lt;device&gt; and re-solve"** — that POSTs a new port to the
> device AND immediately re-runs `POST /api/projects/:pid/solve` in
> the same UI action. See §5b.4 + §7 inspector-states.
> 4. **Setup templates fold INTO v4.1.** New tables `setup_templates`,
> `setup_template_devices`, `setup_template_requirements` in
> migration 004 + 3 built-in templates ('Living Room', 'Home Office',
> 'Server Rack'). New endpoints `GET /api/setup-templates` and
> `POST /api/projects/:pid/apply-template`. UI: a "Templates" panel
> in the New Project flow + an "Apply template" action on an empty
> project. See new §2.4 + slice 6 fold-in below.
> 5. **Catalog distribution: SQL seed** in migration 002 (no change).
> 6. **Promote to manual: explicit button** on the cable inspector
> (no change).
Sources: the live `Cable-Management.excalidraw` on mxdrw.msbls.de (used as
the *visual-grammar reference*, not as a bootstrap import target),
`mai-memory` (`mcables`, `m`), and a live survey of mDock services for the
deploy conventions (§10).
the *visual-grammar reference*, not a bootstrap import target),
`mai-memory` (`mcables`, `m`), and the live mDock services for deploy
conventions (§10). v4 driven by m's product-vision clarification:
> **What changed in v3** (mechanical deltas on top of v2)
> - `cable_types` is now a **global** table — one set shared across all
> projects. Migration 001 seeds the 5 defaults once. `POST /api/projects`
> no longer seeds types. API moved to top-level `/api/cable-types`.
> Renaming/recolouring a type affects every project.
> - `devices` gains `UNIQUE (project_id, name)` — no two devices in the
> same project can share a name.
> - `projects.drawing_name` is auto-filled `<name>.excalidraw` server-side
> when omitted on POST; editable via PATCH.
> - `DELETE /api/projects/:pid` requires `?confirm=<name>` query param;
> server checks it matches the project's current name. 400 otherwise.
> "we provide a cable manager — I say what devices we have, the app tells
> me how to bundle cables and how the most efficient connection looks like"
mCables shifts from a manual draw-and-click editor to a **solver** that
takes a list of devices + the connections m needs and emits the cable
plan + bundle recommendations. The manual editor stays (it's the only way
to inspect + tweak the plan) but is no longer the primary surface.
> **What changed in v4** (new mental model on top of v3 mechanics)
> - **Hybrid device-type catalog** (§2.1, §3.1). A built-in `device_types`
> table seeds common devices (NAS, PC, Mac, TV, Soundbar, Switch, fritz,
> ChromeCast, SteamLink, IOx-3/6/8, Notebook, …) with default port
> profiles (`device_type_ports` rows: cable_type + count + label).
> Adding a device → pick a type → ports auto-seed. m can override per
> instance (this PC has 3 USB, not 2). Catalog is extendable per project.
> - **`connection_requirements` table** (§2.2). m declares "NAS must
> connect to Switch via RJ45" once. Many per device. The solver consumes
> these.
> - **`POST /api/projects/:pid/solve` endpoint** (§3.2). Reads devices +
> their ports + connection_requirements + frame positions, emits a diff
> of `cables` + `bundles`. Two modes: `?preview=1` returns the diff
> without applying; default applies.
> - **Solver objective: maximum bundling** (§5b.1). Schematic only: when
> two or more cables share the same endpoint pair, group them into one
> bundle. No path or trunk geometry — mCables is a wiring schematic,
> not a routing tool. v4.1 strips all path/trunk language from the v4
> draft.
> - **UI: device-type dropdown** on device-create, **Connection
> Requirements** left panel, **Solve** button next to Export. Inspector
> shows type + ports + unmet requirements (selected device) or the
> driving requirement + bundle (selected cable).
> - **Slices reshape** (§8). Catalog seeding lands early (slice 1.5); the
> solver MVP and connection-requirements UI move ahead of the
> bundle-rendering polish.
>
> **What carried over from v2**
> - mCables is a framework: top-level `projects` table; LOFT and OFFICE
> are separate projects, each backed by one drawing.
> - No runtime importer. The seed drawing is reference material only.
> `/api/sync/import` is out of MVP; only `POST .../sync/export` ships.
> - IO diamonds are wall-outlet terminators (type=Power by convention,
> not enforced in schema). UI soft-warns on non-Power cables to an IO.
> - No cable inventory metadata. Purely visual structure for v0.
> - DB at `./data/mcables.db` (project-local, gitignored).
> - Deploy: raw docker / docker-compose on mDock (not Dokploy).
> - Bind `0.0.0.0:7777` on the LAN, no auth.
> **What carried over from v3 (unchanged in v4)**
> - mCables is a framework: top-level `projects`, each backed by one
> `.excalidraw` drawing. `UNIQUE(projects.name)`.
> - `cable_types` is global. Migration 001 seeds Power/USB/HDMI/DP/RJ45.
> - `devices` UNIQUE(project_id, name); `frame_id` nullable; FrameRef
> tri-state on PATCH.
> - IO diamonds = wall-outlet terminators (type=Power by convention).
> - `projects.drawing_name` auto-defaults to `<name>.excalidraw`.
> - `DELETE /api/projects/:pid?confirm=<name>` guardrail.
> - No cable inventory metadata; visual + connectivity structure only.
> - DB at `./data/mcables.db` (gitignored). Bind `0.0.0.0:7777` LAN, no auth.
> - Deploy on mDock under `/home/m/stacks/mcables/`, raw docker-compose.
>
> **What's superseded in v4**
> - The "manual draw-a-cable port-to-port" flow from v3 §7 is *kept* as a
> tweak path on the solver output, but is no longer the *primary* device-
> connecting flow. The solve button is the headline action.
> - The v3 §8 slice order changes — catalog + types-driven devices + solver
> come earlier; the manual-draw-cable slice slides later. See new §8.
---
@@ -134,6 +193,49 @@ CREATE TABLE cable_types (
updated_at TEXT NOT NULL DEFAULT (datetime('now'))
);
-- v4 — device-type catalog. Seeded built-in types live globally (so
-- multiple projects share the "NAS" definition without duplication).
-- Per-project custom types are also allowed (project_id non-null for those).
-- Renaming a built-in type doesn't propagate retroactively to existing
-- devices that already had their ports seeded — they own their port set
-- from the moment they were created.
CREATE TABLE device_types (
id INTEGER PRIMARY KEY,
project_id INTEGER REFERENCES projects(id) ON DELETE CASCADE,
-- NULL = built-in (shared), non-null = project-custom
name TEXT NOT NULL, -- "NAS", "PC", "TV", "Switch", "IOx-8", "Custom-Foo"
kind TEXT NOT NULL DEFAULT 'generic',
-- coarse category for UI grouping: 'storage', 'compute',
-- 'display', 'audio', 'network', 'hub', 'accessory',
-- 'generic'
icon TEXT, -- emoji or short symbol (🖥, 📺, 🔊, 📡) — UI hint
description TEXT NOT NULL DEFAULT '',
built_in INTEGER NOT NULL DEFAULT 0, -- 1 for migration-seeded rows, 0 for user-created
created_at TEXT NOT NULL DEFAULT (datetime('now')),
updated_at TEXT NOT NULL DEFAULT (datetime('now')),
UNIQUE (project_id, name) -- two projects can both have a custom "Foo";
-- built-ins (project_id NULL) get UNIQUE on name globally
);
CREATE INDEX device_types_project_idx ON device_types(project_id);
-- v4 — port profile per device type. "NAS has 1 Power + 1 RJ45" is two
-- rows; "PC has 1 Power + 1 RJ45 + 1 HDMI + 2 USB" is four rows.
-- When a device is created with type_id=X, the seeder inserts `count`
-- rows into the `ports` table for each device_type_ports entry,
-- numbering label as "<label_prefix> N" if count > 1.
CREATE TABLE device_type_ports (
id INTEGER PRIMARY KEY,
device_type_id INTEGER NOT NULL REFERENCES device_types(id) ON DELETE CASCADE,
cable_type_id INTEGER NOT NULL REFERENCES cable_types(id) ON DELETE RESTRICT,
label_prefix TEXT NOT NULL DEFAULT '', -- "HDMI", "USB", "Power" — UI label root
count INTEGER NOT NULL DEFAULT 1 CHECK (count >= 1),
-- Position hint: the seeder lays ports along the device edge using
-- these biases (0..1 along the edge fraction). NULL = even spread.
edge TEXT NOT NULL DEFAULT 'bottom' CHECK (edge IN ('top','bottom','left','right')),
sort_order INTEGER NOT NULL DEFAULT 0
);
CREATE INDEX device_type_ports_type_idx ON device_type_ports(device_type_id);
-- A frame is a named container *inside* a project: 'desk', 'rack', 'media'.
CREATE TABLE frames (
id INTEGER PRIMARY KEY,
@@ -154,10 +256,19 @@ CREATE INDEX frames_project_idx ON frames(project_id);
-- Devices live in a frame (and transitively in a project).
-- Stored project_id is denormalised for cheap project-scoped queries; FK
-- to frame_id is the structural truth. Both are kept consistent in code.
--
-- v4 — type_id (nullable) lets a device inherit its port profile from
-- a `device_types` row. Once ports are seeded the device "owns" them;
-- changing/clearing type_id later does not retroactively re-seed (m's
-- per-instance overrides survive). Custom freeform devices (no template)
-- keep type_id NULL — that's the v3 "just a rectangle" device.
CREATE TABLE devices (
id INTEGER PRIMARY KEY,
project_id INTEGER NOT NULL REFERENCES projects(id) ON DELETE CASCADE,
frame_id INTEGER REFERENCES frames(id) ON DELETE SET NULL,
type_id INTEGER REFERENCES device_types(id) ON DELETE SET NULL,
-- v4: nullable; SET NULL on type delete so we don't
-- cascade-delete a device the user still wants
name TEXT NOT NULL,
color TEXT NOT NULL DEFAULT '#1e1e1e',
x REAL NOT NULL,
@@ -172,6 +283,7 @@ CREATE TABLE devices (
);
CREATE INDEX devices_project_idx ON devices(project_id);
CREATE INDEX devices_frame_idx ON devices(frame_id);
CREATE INDEX devices_type_idx ON devices(type_id);
-- Ports belong to a device. x_offset/y_offset are relative to the device's
-- top-left so ports follow when the device moves. project_id denormalised.
@@ -260,8 +372,219 @@ CREATE TABLE bundle_cables (
PRIMARY KEY (bundle_id, cable_id)
);
CREATE INDEX bundle_cables_cable_idx ON bundle_cables(cable_id);
-- v4 — connection_requirements: the input m gives the solver.
-- "NAS must connect to Switch via RJ45" is one row. Many per device.
--
-- preferred_cable_type_id is the cable type m intends — the solver
-- needs it to match port colours. NULL means "solver picks" (the solver
-- will pick the unique cable_type that is compatible with both ends'
-- available port types; if ambiguous it surfaces an error for m).
--
-- must_connect = 1 (default) means the solver MUST satisfy this; an
-- unsatisfiable must_connect surfaces as a hard error in the solve
-- result. must_connect = 0 = "nice to have, drop if you run out of
-- ports". Used for templates that over-spec.
--
-- The (from_device_id, to_device_id) pair is normalised on insert so
-- (A,B) and (B,A) are the same requirement — UNIQUE on the unordered
-- pair + cable type prevents duplicates.
CREATE TABLE connection_requirements (
id INTEGER PRIMARY KEY,
project_id INTEGER NOT NULL REFERENCES projects(id) ON DELETE CASCADE,
from_device_id INTEGER NOT NULL REFERENCES devices(id) ON DELETE CASCADE,
to_device_id INTEGER NOT NULL REFERENCES devices(id) ON DELETE CASCADE,
preferred_cable_type_id INTEGER REFERENCES cable_types(id) ON DELETE SET NULL,
must_connect INTEGER NOT NULL DEFAULT 1 CHECK (must_connect IN (0, 1)),
notes TEXT NOT NULL DEFAULT '',
-- Order-normalised pair: lo = MIN(from, to), hi = MAX(from, to). Set
-- in code on insert; the UNIQUE then prevents (A,B,Power) AND
-- (B,A,Power) from coexisting. Stored alongside the m-facing
-- from/to so the UI doesn't have to denormalise.
pair_lo INTEGER NOT NULL,
pair_hi INTEGER NOT NULL,
CHECK (from_device_id != to_device_id),
UNIQUE (project_id, pair_lo, pair_hi, preferred_cable_type_id),
created_at TEXT NOT NULL DEFAULT (datetime('now')),
updated_at TEXT NOT NULL DEFAULT (datetime('now'))
);
CREATE INDEX conn_reqs_project_idx ON connection_requirements(project_id);
CREATE INDEX conn_reqs_pair_idx ON connection_requirements(project_id, pair_lo, pair_hi);
CREATE INDEX conn_reqs_from_idx ON connection_requirements(from_device_id);
CREATE INDEX conn_reqs_to_idx ON connection_requirements(to_device_id);
```
### 2.1 Migration sequence
- **001_init.sql** (v3) — projects, frames, devices (no type_id), ports,
cable_types (5 seeded), io_markers, cables, bundles, bundle_cables.
- **002_device_catalog.sql** (v4) — `device_types` +
`device_type_ports`. Seeds the built-in catalog (§2.2). Adds
`devices.type_id` (`ALTER TABLE devices ADD COLUMN type_id INTEGER
REFERENCES device_types(id) ON DELETE SET NULL`) and the matching
index.
- **003_connection_requirements.sql** (v4) — `connection_requirements`.
Also adds `cables.auto` (`ALTER TABLE cables ADD COLUMN auto INTEGER
NOT NULL DEFAULT 0`) so the solver can distinguish its rows from
m's hand-drawn ones (§5b.3).
- **004_setup_templates.sql** (v4.1 NEW) — `setup_templates` +
`setup_template_devices` + `setup_template_requirements`. Seeds 3
built-in templates ('Living Room', 'Home Office', 'Server Rack').
Slices 1 and 2 already shipped 001. Slice 4 lands 002; slice 5 lands
003; slice 6 lands 004 alongside the solver MVP + templates UI.
### 2.2 Built-in catalog seed (002 INSERTs)
The 14 built-in types m's setup uses today, with their default port
profiles. Stored as `(project_id NULL, built_in 1)`. v4.1 added the
three peripheral types (Screen, Keyboard, Mouse) to support the Home
Office setup template:
| `device_types.name` | `kind` | Default ports (cable_type × count) |
|---|---|---|
| NAS | storage | Power × 1; RJ45 × 1 |
| PC | compute | Power × 1; RJ45 × 1; HDMI × 1; USB × 2 |
| Mac | compute | Power × 1; HDMI × 1; USB × 2 |
| Notebook | compute | Power × 1; USB × 2 |
| TV | display | Power × 1; HDMI × 2 |
| Soundbar | audio | Power × 1; HDMI × 1 |
| Switch | network | Power × 1; RJ45 × 5 |
| fritz | network | Power × 1; RJ45 × 4 |
| ChromeCast | display | Power × 1; HDMI × 1 |
| SteamLink | compute | Power × 1; HDMI × 1; USB × 2 |
| IOx-3 | hub | Power In × 1 (top/back); Power Out × 3 (bottom/front) |
| IOx-6 | hub | Power In × 1 (top/back); Power Out × 6 (bottom/front) |
| IOx-8 | hub | Power In × 1 (top/back); Power Out × 8 (bottom/front) |
| **Screen** | display | Power × 1; HDMI × 1 |
| **Keyboard** | accessory | USB × 1 |
| **Mouse** | accessory | USB × 1 |
| **Multi-plug 3** | hub | Power In × 1 (top/back); Power Out × 3 (bottom/front) |
| **Multi-plug 4** | hub | Power In × 1 (top/back); Power Out × 4 (bottom/front) |
| **Multi-plug 5** | hub | Power In × 1 (top/back); Power Out × 5 (bottom/front) |
| **Multi-plug 6** | hub | Power In × 1 (top/back); Power Out × 6 (bottom/front) |
| **Wifi-plug** | accessory | Power In × 1 (top/back); Power Out × 1 (bottom/front) — pass-through outlet |
v5 (migration 005) added the Multi-plug 36 strips and the Wifi-plug
pass-through outlet. v6 (migration 006) re-shaped the IOx-* and
Multi-plug-* profiles to the "1 in on top / N out on bottom" layout —
the IOx-* devices are physical power strips, not USB hubs (m's
hardware), and the Multi-plug-* outputs are now visually distinct from
the input. Convention: `top = back`, `bottom = front`. Existing device
instances keep their already-seeded ports per §2.3 — to pick up the
new layout, delete + re-create the instance.
m can also add **project-custom types** at any time (UI: "+ New device
type" inside the device-create modal) with `project_id = current`.
### 2.3 Why ports are still instance-owned
When m picks a type to create a device, the seeder calls `count` × INSERT
into `ports`. From that moment on, ports are instance-level rows owned by
that device. Deleting a port from this PC doesn't touch other PCs;
changing a type's port profile (in slice 4.5) doesn't retroactively
re-seed already-created devices — it only affects subsequent device
creations.
Trade-off acknowledged: m may want a "re-seed from type" action later
(slice 5+) to wipe + reset a device's ports. Out of v0 scope; not
blocked by the schema.
### 2.4 Setup templates (v4.1 NEW)
A setup template is a named recipe of "device-types to add + connection
requirements between them" that bootstraps a project from blank to
solver-ready in one click. m's three archetypes:
| Template name | Devices | Default requirements |
|---|---|---|
| **Living Room** | TV, Soundbar, ChromeCast | TV ↔ Soundbar (HDMI, must); TV ↔ ChromeCast (HDMI, must) |
| **Home Office** | PC, Screen, Keyboard, Mouse | PC ↔ Screen (HDMI, must); PC ↔ Keyboard (USB, must); PC ↔ Mouse (USB, must) |
| **Server Rack** | NAS, Switch, fritz | NAS ↔ Switch (RJ45, must); Switch ↔ fritz (RJ45, must); fritz ↔ NAS (Power, nice) |
> "Screen", "Keyboard", "Mouse" are added to the v4 built-in catalog
> alongside the existing 11 (Screen: Power × 1 + HDMI × 1; Keyboard: USB × 1;
> Mouse: USB × 1). Migration 002 grows to seed 14 built-ins.
Schema (`004_setup_templates.sql`):
```sql
-- A named recipe: a list of device types + requirements between them.
CREATE TABLE setup_templates (
id INTEGER PRIMARY KEY,
name TEXT NOT NULL UNIQUE,
description TEXT NOT NULL DEFAULT '',
built_in INTEGER NOT NULL DEFAULT 0,
created_at TEXT NOT NULL DEFAULT (datetime('now')),
updated_at TEXT NOT NULL DEFAULT (datetime('now'))
);
-- The devices a template stamps into a project. suggested_name is
-- pre-filled into the apply-template form; m can override.
CREATE TABLE setup_template_devices (
id INTEGER PRIMARY KEY,
template_id INTEGER NOT NULL REFERENCES setup_templates(id) ON DELETE CASCADE,
device_type_id INTEGER NOT NULL REFERENCES device_types(id) ON DELETE RESTRICT,
suggested_name TEXT, -- "TV", "Bedroom TV", "Mac (work)"
sort_order INTEGER NOT NULL DEFAULT 0
);
CREATE INDEX setup_template_devices_template_idx ON setup_template_devices(template_id);
-- Requirements between devices in the template, addressed by
-- `setup_template_devices.id` (not the runtime device id — they're
-- resolved at apply time).
CREATE TABLE setup_template_requirements (
id INTEGER PRIMARY KEY,
template_id INTEGER NOT NULL REFERENCES setup_templates(id) ON DELETE CASCADE,
from_template_device_id INTEGER NOT NULL REFERENCES setup_template_devices(id) ON DELETE CASCADE,
to_template_device_id INTEGER NOT NULL REFERENCES setup_template_devices(id) ON DELETE CASCADE,
preferred_cable_type_id INTEGER REFERENCES cable_types(id) ON DELETE SET NULL,
must_connect INTEGER NOT NULL DEFAULT 1 CHECK (must_connect IN (0, 1)),
CHECK (from_template_device_id != to_template_device_id)
);
CREATE INDEX setup_template_reqs_template_idx ON setup_template_requirements(template_id);
```
API:
```
GET /api/setup-templates → [SetupTemplate {id, name, description, built_in,
devices: [{id, device_type_id,
device_type: {…},
suggested_name, sort_order}],
requirements: [{id, from_template_device_id,
to_template_device_id,
preferred_cable_type_id,
must_connect}]}, …]
Read-only; built-ins are not editable via API in v4.1.
POST /api/projects/:pid/apply-template ← {
template_id: <int>,
name_overrides: { <template_device_id>: "<name>", … },
skip_devices: [<template_device_id>, …] # optional
}
→ {
devices_added: [Device, …],
requirements_added: [ConnectionRequirement, …],
skipped_devices: [{template_device_id, reason}, …]
}
Idempotency:
- A name collision with an existing device in the
project skips that template device (reason = "name
already in use"). Caller can pass `name_overrides`
to resolve.
- Requirements whose endpoints both resolve fire;
any whose endpoint was skipped are themselves
skipped (logged in `requirements_skipped[]` — same
shape).
The whole call runs in a single transaction.
```
The seed migration creates the 3 built-ins + their template_devices and
template_requirements rows referencing the 14 built-in `device_types` and
the 5 built-in `cable_types`. No project_id anywhere — templates are
global.
**FK shape — why `project_id` on every project-scoped row, not just transitively:**
The structural truth is `cable → port → device → frame → project`. But
@@ -328,8 +651,11 @@ PATCH /api/projects/:pid/frames/:id
DELETE /api/projects/:pid/frames/:id
GET /api/projects/:pid/devices
POST /api/projects/:pid/devices ← {name, frame_id?, x, y, width, height, color?}
PATCH /api/projects/:pid/devices/:id (e.g. {x, y} on drag)
POST /api/projects/:pid/devices ← {name, type_id?, frame_id?, x, y, width, height, color?}
v4: type_id (optional) seeds ports from the catalog;
without it, a freeform device (no ports) is created.
PATCH /api/projects/:pid/devices/:id (e.g. {x, y} on drag). type_id can be set or cleared;
clearing does NOT delete existing ports (instance-owned).
DELETE /api/projects/:pid/devices/:id
GET /api/projects/:pid/devices/:id/ports
@@ -354,12 +680,90 @@ GET /api/projects/:pid/bundles/suggestions → [{name, cable_ids}, …]
PATCH /api/projects/:pid/bundles/:id
DELETE /api/projects/:pid/bundles/:id
# v4 — Device-type catalog (mostly global, project-scoped writes for custom rows)
GET /api/device-types → built-in catalog (project_id NULL) — read-only listing
GET /api/projects/:pid/device-types → built-ins + this project's custom types, merged
POST /api/projects/:pid/device-types ← {name, kind?, icon?, description?, ports: [{cable_type_id, count, label_prefix?, edge?}]}
Creates a project-custom row (built_in=0); inserts
device_type_ports rows in the same transaction.
PATCH /api/projects/:pid/device-types/:id ← partial. Only project-custom types are PATCHable;
mutating a built-in row → 403 (UI hides edit affordance).
Editing ports replaces the device_type_ports rows;
existing devices' ports are NOT retroactively reseeded.
DELETE /api/projects/:pid/device-types/:id Only project-custom; built-ins → 403.
ON DELETE SET NULL on devices.type_id so devices
keep their already-seeded ports.
# v4 — Connection requirements (the solver's input)
GET /api/projects/:pid/connection-requirements → [ConnectionRequirement, …]
POST /api/projects/:pid/connection-requirements ← {from_device_id, to_device_id,
preferred_cable_type_id?, must_connect?, notes?}
Server normalises (from, to) into (pair_lo, pair_hi)
before insert; duplicate (project, pair_lo, pair_hi,
preferred_cable_type_id) → 409 conflict.
PATCH /api/projects/:pid/connection-requirements/:id
DELETE /api/projects/:pid/connection-requirements/:id
# v4 — Solver
POST /api/projects/:pid/solve ← {} (or {?preview=1} to compute without applying)
→ {
cables_added: [Cable, …],
cables_kept: [int, …], # ids preserved by the diff
cables_removed: [int, …], # ids deleted (auto cables only)
bundles_added: [{Bundle, cable_ids: [int]}, …],
bundles_removed: [int, …],
unsatisfied: [{requirement_id, reason}, …],
warnings: [string, …],
}
Default applies in a single transaction. ?preview=1
returns the same shape without writing. User-created
cables (auto=0 in the cables table; see §5.1) are
never touched — the solver only adds/removes its own.
# v4 — Solver quick-fix combo endpoint (powers the inspector's
# "+ Add <type> port to <device> and re-solve" button — §5b.4).
POST /api/projects/:pid/devices/:id/ports-and-resolve
← {type_id: <int>,
label?: <str>,
x_offset?: <num>, y_offset?: <num>}
→ {port: Port, solve: <solve response>}
Single tx: inserts the port + re-runs solve. Used by
the quick-fix UI so the unmet badge resolves in one
server round-trip.
# v4.1 — Setup templates
GET /api/setup-templates → [SetupTemplate, …]
Read-only listing of built-in (and any project-custom,
post-v4.1) templates with their device/requirement
shapes (see §2.4).
POST /api/projects/:pid/apply-template ← {template_id: <int>,
name_overrides?: { <template_device_id>: "<name>" },
skip_devices?: [<template_device_id>, …]}
→ {devices_added: [Device, …],
requirements_added: [ConnectionRequirement, …],
skipped_devices: [{template_device_id, reason}, …],
requirements_skipped: [{template_requirement_id, reason}, …]}
Idempotent in spirit: name collisions surface in
skipped_devices; m resolves with name_overrides on
re-apply. Whole call is one transaction.
# Sync — export only in MVP
POST /api/projects/:pid/sync/export → writes the project's drawing to mExDraw
(overwrites previous version; mExDraw keeps
git-version-history sidecar)
```
### 3.1 v4 wire-shape additions
- `ConnectionRequirement` (response):
`{id, project_id, from_device_id, to_device_id, preferred_cable_type_id|null, must_connect: bool, notes, created_at, updated_at}`.
- `DeviceType` (response):
`{id, project_id|null, name, kind, icon|null, description, built_in: bool, ports: [{cable_type_id, count, label_prefix, edge, sort_order}]}`.
- `cables` gets an `auto: bool` field on the row (slice 5.5 migration adds
the column with default 0; the solver sets 1 on its own creations). The
v3 cable rows m hand-drew keep `auto=0`. `POST /api/.../cables`
continues to default `auto=0`; only the solver writes `auto=1`.
No `POST /api/sync/import` in MVP. Import is post-MVP and only ever serves
a one-shot migration use case (e.g. seeding LOFT from the legacy
Cable-Management drawing if m later changes his mind).
@@ -447,6 +851,139 @@ they're ignored in v0 (open question §9).
---
## 5b. v4 — Solver
The solver is the headline addition in v4. m's product-vision sentence
maps onto it directly:
> "I say what devices we have, the app tells me how to bundle cables and
> how the most efficient connection looks like"
The solver reads a project's `devices` (with their `ports`) and
`connection_requirements`, and writes a set of solver-owned `cables`
(rows with `auto=1`) + `bundles`. m's hand-drawn cables (`auto=0`) are
left strictly alone — the solver only adds and removes its own.
### 5b.1 Objective: maximum bundling — schematic only
mCables is a **schematic**, not a physical-routing tool. Cables are
straight lines between endpoints; the solver has no model of walls,
floors, cable trays, or path geometry. "Maximum bundling" therefore
reduces to a single rule on the schematic:
> When two or more cables share the same endpoint pair (device A ↔
> device B), group them into one bundle.
This is the v3 endpoint-pair rule, applied to the solver's output. m's
"visually cleaner setups" benefit comes from the bundle being a single
labelled set in the inspector + a single mixed-colour glyph in the
render (slice 9+), rather than from any path optimisation. Anything
about trunks, frame-edge corridors, or auto-routing is out of scope —
filed for "post-v0 ambient" in §8.
### 5b.2 Algorithm (v0)
Pure function. No graph search; no LP; no path optimisation. Single
pass with greedy port allocation.
```
solve(project) ⇒ {add, remove, bundles, unsatisfied}:
let auto_cables_before = SELECT * FROM cables WHERE project=p AND auto=1
let port_free := {port_id -> bool} initialised TRUE for every port
minus ports already used by manual cables (auto=0)
for each requirement r in order(must_connect DESC, id ASC):
let ct = r.preferred_cable_type_id
?? auto_pick_cable_type(r.from_device, r.to_device)
?? fail("ambiguous")
let pa = first_free_port(r.from_device, ct, port_free)
let pb = first_free_port(r.to_device, ct, port_free)
if !pa or !pb:
if r.must_connect: unsatisfied.push({r.id, reason})
else: skip
continue
port_free[pa] = port_free[pb] = false
add.push(cable{type=ct, from_port=pa, to_port=pb, auto=1})
// Bundle by endpoint-pair (v3 rule, applied only to auto cables).
for each (device_a, device_b) pair with ≥ 2 add-cables:
bundles_add.push({auto=1, cables: those add-cables})
// Diff against auto_cables_before to compute remove[] (any prior auto
// cable whose (from, to, type) doesn't appear in add[]).
remove = auto_cables_before - add
return {add, remove, bundles_add, unsatisfied}
```
`first_free_port(device, cable_type, free_map)` picks the lowest-id port
on the device whose `type_id` matches and that is still free, returning
NULL if none. The `lowest-id` tiebreak is deterministic so repeated
solves produce the same plan.
`auto_pick_cable_type(from, to)` (used when `preferred_cable_type_id` is
NULL): find the set of cable types `T = ports(from).types ∩
ports(to).types`. If `|T| == 1`, return it. If `|T| > 1`, fail
("ambiguous; specify preferred_cable_type_id"). The UI surfaces this
as a "specify type" inline edit on the requirement.
### 5b.3 Solver-owned vs. user-owned cables
`cables.auto` distinguishes them.
| Operation | Effect on `auto=0` cables | Effect on `auto=1` cables |
|---|---|---|
| POST /api/.../cables (m draws by hand) | inserts auto=0 | n/a |
| PATCH cables (m moves endpoint, relabels) | applies | applies (and the cable is "promoted" to auto=0 — m owns it now) |
| DELETE cables | applies | applies |
| POST /api/.../solve | left alone (their used ports are reserved before the solver runs) | replaced wholesale (remove[] + add[] in one tx) |
This way a manual cable m doesn't want the solver to second-guess
survives every solve. If m wants the solver to take it over, he deletes
his hand-drawn cable and re-solves; the solver re-creates an equivalent
auto cable.
### 5b.4 When solver fails — quick-fix UX
Three classes of failure surface in the response's `unsatisfied[]`:
1. **No compatible cable type** — `T = ports(from).types ∩
ports(to).types` is empty (e.g. a Power-only device to an HDMI-only
device).
2. **Ambiguous cable type** — `|T| > 1`, no preferred set on the
requirement.
3. **No free port** — the cable type matches but every port on one side
is already used.
The solver does **not** auto-add ports without m's consent. v4.1 ships
an explicit one-click quick-fix per class of failure, surfaced as a red
badge on the affected device in the inspector (§7) and as a button on
each `unsatisfied[]` entry in the preview-diff modal:
| Failure class | Quick-fix button | What it does |
|---|---|---|
| No compatible cable type | **"+ Add &lt;preferred_type&gt; port to &lt;device&gt; and re-solve"** | POST `/api/projects/:pid/devices/:id/ports` with `type_id=preferred_type` + sensible default offset, then immediately POST `/solve` again. The preferred_type is the requirement's `preferred_cable_type_id`. If the requirement has no preferred type, the button reads "Specify cable type" and opens an inline cable-type picker on the requirement instead. |
| Ambiguous cable type | **"Specify cable type"** | Opens an inline picker on the requirement row with the candidates from `T` pre-listed. On select → PATCH the requirement → re-solve. |
| No free port | **"+ Add &lt;type&gt; port to &lt;device&gt; and re-solve"** | Same as the no-compat case but the `type` is already determined (it's the requirement's preferred or auto-picked type). Adds a port on whichever side ran out (the response's `reason` carries `which_side`). |
All three quick-fixes do their work in a single round-trip request from
the UI perspective: the click fires a POST that either chains the port
insert + the re-solve server-side, or fires both calls back-to-back from
the client (server-side chaining is simpler — see §3.2 for the endpoint
shape).
The quick-fix never adds a port silently; the button text always names
the device + cable type so m sees what's about to mutate.
### 5b.5 Preview vs. apply
`?preview=1` returns the same shape without writing. The UI shows a diff
modal with `add[]`, `remove[]`, `unsatisfied[]`; m clicks Apply to fire
the same endpoint without `preview=1`. Default (no flag) applies
immediately. Live-solve (no Solve button — every requirement edit
triggers a debounced re-solve) is parked at slice 9+ as an opt-in.
---
## 6. Sync — export-only for v0
```
@@ -522,16 +1059,54 @@ the new project (which has 5 seeded cable types and no frames yet).
The currently active project's id is kept in URL state
(`/?project=LOFT`) so reload returns to the same project.
### v4.1 — Flow: apply a setup template
The New Project modal gains a **"or start from a template"** section
under the description field. Each built-in template ('Living Room',
'Home Office', 'Server Rack') is a clickable card listing its devices +
the requirement edges between them. Selecting one expands an inline
override form:
- A pre-filled name for each template device (m can edit each, e.g.
rename `TV` to `Bedroom TV`).
- Per-device "skip" checkbox.
On Create, the server does `POST /api/projects` first; on success,
immediately fires `POST /api/projects/:pid/apply-template` with the
collected overrides. The response's `devices_added` + `requirements_added`
are merged into the local snapshot and the project switches to it,
already populated.
For an already-existing empty project, the inspector's project header
shows an **"Apply template"** action that opens the same override form
without the project-create round-trip.
Once the template has stamped its devices + requirements, hit **Solve**
(§7 "Flow: run the solver") to produce the wired diagram.
### Flow: add a frame
1. `+ Frm` in the left toolbar (or `F`).
2. Click + drag on the canvas → rubber-band rectangle becomes a frame.
3. Name prompt centered in the frame; Enter → `POST .../frames`.
### Flow: add a device
### Flow: add a device (v4 — type-aware)
Unchanged from v1: `+ Dev` (or `D`) → click on canvas → rectangle placed
(falls into whichever frame it lands in) → name → `POST .../devices`.
1. `+ Dev` (or `D`) → click on canvas → device placeholder appears.
2. **First field in the inline namer: type dropdown** (replaces the
v1 plain-name input). Options pulled from
`GET /api/projects/:pid/device-types` — built-ins listed first
grouped by `kind`, then project-custom rows, then `Custom (no type)`.
Typing in the dropdown filters by `name` (m types "n" → NAS jumps
to top). Below the dropdown: a name input pre-filled with the type
name + a digit if a same-named device already exists ("PC", "PC-2").
3. Hit Enter → `POST .../devices` with `type_id` + name. The server
seeds the ports from `device_type_ports` in the same transaction
and returns the device with its `ports`.
4. Picking `Custom (no type)` keeps the v3 behaviour: rectangle, no
ports, m adds ports manually via the inspector.
5. The device renders with its ports already visible along the
configured edge.
### Flow: add a port
@@ -581,54 +1156,140 @@ In the inspector with nothing else selected, "Bundle suggestions" pulls
on the diagram + an Accept button. Manual: shift-click multiple cables →
"Group as bundle" → name it → save.
### v4 — Flow: declare connection requirements
The left sidebar gains a **Requirements** section under the legend:
```
Cable types
Power, USB, HDMI, DP, RJ45, + Type
Requirements ← new in v4
NAS ↔ Switch RJ45 must
PC ↔ TV HDMI must
Mac ↔ Soundbar HDMI nice
+ Requirement
```
Click `+ Requirement` → modal with two device pickers (autocomplete from
the project's current devices), a cable-type picker (defaults to
auto-resolve if the device pair has only one matching type), and a
must/nice toggle. `POST .../connection-requirements`.
Alternative gesture (no tool armed, no selection): **drag from device A
to device B** to seed a requirement modal with the pair pre-filled. The
solver-edge preview drags out from the source device's edge in a thin
dashed line until release.
m can also right-click a requirement row → edit / delete.
### v4 — Flow: run the solver
Header gains a **Solve** button next to **Export**.
1. Click Solve (or `S`) → `POST /api/projects/:pid/solve?preview=1`.
2. A diff modal opens listing `add[]`, `remove[]`, `unsatisfied[]` — the
canvas behind it dims and previews the new cables in a translucent
stroke + the to-be-removed cables in a strikethrough red.
3. Buttons:
- **Apply** → fires `POST .../solve` (no `preview`), applies in one
transaction, closes the modal, re-renders canvas with the real
cables in place.
- **Cancel** → leaves everything as it was.
4. Unsatisfied requirements get their own list at the bottom of the
modal, each with a quick-action button: "Specify type", "+ Add port
to device X", or "Drop requirement (set must=0)".
If `unsatisfied[]` is non-empty, the Solve button stays in a
soft-error state (yellow) until either every requirement is satisfiable
or m explicitly accepts the partial plan.
### v4 — Inspector states
| Selection | Inspector shows |
|---|---|
| nothing | empty, with "Bundle suggestions" + "Project requirements" headlines |
| project header | name, drawing_name, description (editable), device count, requirement count, Solve / Export buttons |
| frame | name (editable), x/y/w/h, contained-device count, delete |
| **device** | name + type + icon, ports grid (type / label / connected? / +Port), **unmet requirements list** with red badges. Each badge carries a single quick-fix button — "+ Add &lt;type&gt; port to &lt;device&gt; and re-solve" (no-compat-type / no-free-port cases) or "Specify cable type" (ambiguous case) per §5b.4. delete |
| **port** | type, label, parent device, current cable (if any), delete |
| **cable (auto=1)** | source/target, type, driving requirement (clickable → opens requirement edit), parent bundle (if any), label, "Promote to manual" (sets auto=0) |
| cable (auto=0) | as v3 — type, source/target, label, delete |
| bundle | name, member cables (clickable to focus), the endpoint pair (`Device A ↔ Device B`), auto-detected flag |
### Keyboard
`P` switch project (opens picker), `F` add frame, `D` add device,
`I` add IO marker, `T` start cable from selected port,
`E` export current project, `Esc` cancel, `Backspace` delete selection,
`?` show shortcuts.
`P` switch project, `F` add frame, `D` add device, `I` add IO marker,
`T` start cable from selected port, `R` add requirement,
**`S` solve project (v4)**, `E` export, `Esc` cancel, `Backspace` delete
selection, `?` show shortcuts.
---
## 8. First slices
## 8. First slices — v4 reshape
Each slice ends with something m can click. The first coder shift takes
slices 14 as the MVP; slice 5 (export) is the round-trip end.
Slices 1 + 2 have shipped (see git history). v4 inserts new slices ahead
of the original 3-5 because the solver depends on the catalog + the
requirements model, not on manual cable drawing. The old "manual port +
cable draw" slice is still in scope as a tweak path on the solver
output, but it follows the solver instead of leading.
| # | Slice | What's shipped |
|---|---|---|
| 1 | **Bootstrap + project CRUD** | `cmd/mcables` Go binary, SQLite migrations. Migration 001 seeds the 5 default cable types (Power/USB/HDMI/DP/RJ45) **globally, once**. `internal/db` store. `POST /api/projects` auto-fills `drawing_name = <name>.excalidraw` when omitted. `DELETE /api/projects/:pid?confirm=<name>` with name-match guardrail. `GET /api/projects` lists them. `GET /api/projects/:pid` returns a (mostly empty) snapshot. `GET /api/cable-types` returns the 5 seeded rows. Frontend `index.html` + `main.js` shows the project picker, a "+ New Project" modal, and an empty SVG canvas with the legend rendered from the global `cable_types` table. m can create LOFT, see it picked, see no devices. |
| 2 | **Add frame, add device, drag-to-position** | `+ Frm` and `+ Dev` tools work. Devices and frames persist. Drag-to-position writes back to DB on `pointerup`. Reload returns to the same layout. m builds LOFT's `desk` and `rack` frames and drops in his first devices. |
| 3 | **Add port, draw cable** | `+ Port` (with a device selected) places type-coloured ports on device edges with offsets. Click-port → click-port creates a cable. Cables auto-route as straight lines. Inspector shows the cable's type, endpoints, label. m wires up the first end-to-end cable. |
| 4 | **IO markers + cable-type editing** | `+ IO` places a wall-outlet diamond. Cable-from-port → IO commits as `to_io_id`. Legend swatch is a colour picker; renaming a type updates the legend on the fly. `+ Type` adds new types. m can fully recreate LOFT's visual model from scratch. |
| 5 | **Export to mxdrw.msbls.de** | `POST .../sync/export` generates a `.excalidraw` scene that reproduces the seed's visual grammar (ports as positional ellipses, IO as diamonds, legend as text in the top-left), writes it via mExDraw API, and stores the assigned `excalidraw_id`s for stability on re-export. m sees LOFT in Excalidraw and confirms the look matches the seed. |
| # | Slice | Status | What's shipped |
|---|---|---|---|
| 1 | **Bootstrap + project CRUD + global cable_types** | ✅ shipped | See git: branch `mai/picasso/slice-1-bootstrap`. |
| 2 | **Frames + devices + drag** | ✅ shipped | See git: branch `mai/picasso/slice-2-frames-devices`. |
| **3 (was 4)** | **IO markers + cable-type editing** | pending | Unchanged scope. `+ IO` places a wall-outlet diamond. Legend swatch is a colour picker; renaming a type updates the legend on the fly. `+ Type` adds new global types. |
| **4 (NEW)** | **Device-type catalog + type-aware device create** | pending | Migration 002: `device_types` + `device_type_ports`, seeded with the 11 built-ins (§2.2). Migration adds `devices.type_id`. API: `GET /api/device-types`, `GET /api/projects/:pid/device-types`. Frontend: the +Dev inline namer becomes a type dropdown + name input; choosing a built-in type seeds the device's ports on the backend. Picking `Custom (no type)` falls back to v3 freeform. m can create a typed NAS + see its Power + RJ45 ports appear on the canvas. |
| **4.5 (NEW)** | **Manage device-type catalog (per project)** | pending | Modal: `POST/PATCH/DELETE /api/projects/:pid/device-types` for project-custom rows. Edit affordance hidden for built-ins. Lets m add an exotic device type without contributing to the built-in catalog. Validation: a custom type can't share a name with a built-in (already enforced by `UNIQUE(project_id, name)` + a separate code-level check against built-ins). |
| **5 (NEW)** | **Connection requirements UI + CRUD** | pending | Migration 003: `connection_requirements`. API: full CRUD under `/api/projects/:pid/connection-requirements`. Frontend: left-sidebar "Requirements" section, `+ Requirement` modal (autocomplete from project's current devices, cable-type picker, must/nice toggle). Drag from device A to device B gestures the same modal pre-filled. Inspector for a selected device lists its requirements. |
| **6 (v4.1 EXPANDED)** | **Solver MVP + Solve button + setup templates** | pending | `POST /api/projects/:pid/solve` with `?preview=1` support. v0 algorithm (§5b.2): pure-function, greedy port allocation, endpoint-pair bundling. Migration 003 adds `cables.auto`. Header gains a Solve button that opens the preview-diff modal. m clicks Solve → sees the cable plan + unmet requirements (each with its quick-fix button per §5b.4) → applies. **Folded in v4.1: setup templates.** Migration 004 adds `setup_templates` + `setup_template_devices` + `setup_template_requirements` and seeds 3 built-ins ('Living Room', 'Home Office', 'Server Rack'). API: `GET /api/setup-templates`, `POST /api/projects/:pid/apply-template`. UI: a "Templates" section in the New Project modal + an "Apply template" action on empty projects → seeds devices + requirements in one transaction → Solve produces the wired diagram. |
| **7 (was 3, slimmed)** | **Manual port + manual cable draw** | pending | The v3 flow as a tweak path on solver output. `+ Port` on an instance-owned device; click-port → click-port creates a hand-drawn cable (`auto=0`). Used to override the solver's choices or to extend its plan. |
| **8 (was 5)** | **Export to mxdrw.msbls.de** | pending | `POST .../sync/export` writes a `.excalidraw` scene per the visual grammar (§4). Bundles ignored on export in v0. |
Slices 6+ (not promised for the first coder shift):
bundle suggestions UI; bundle rendering (thick path with mixed-colour
fan-out); cable type "warn on cross-type port-to-port"; cable inventory
metadata (length/SKU) if m later wants it; dark mode.
Slices 9+ (not promised for the first coder shift):
- Live-solve mode: re-run solver on every device/requirement edit with a debounce + previewed-but-not-applied diff in a toast. Opt-in toggle in project settings.
- Bundle rendering in the SVG (a single thick line with mixed-colour stops between the endpoint pair, plus a small badge with the cable count). Cables in a bundle still render as their individual lines underneath; the bundle is a visual overlay m can toggle.
- "Re-seed from type" action on a device.
- Custom setup templates (m authors them in-UI, not just the built-in three).
- Cable inventory metadata (length/SKU) if m later wants it.
- Dark mode.
Out of scope, period (would change mCables's mental model): path
routing, cable-tray polylines, frame-edge corridors, wall-axis bundling,
3D, anything that treats a cable as more than a labelled endpoint pair.
---
## 9. Open questions for m — all resolved in v3
## 9. Open questions for m — all closed in v4.1
All six v2 questions are now answered. Locked answers:
The six v4 questions are now answered. Locked answers:
1. **Drawing-name policy**server-side default `<name>.excalidraw` on
POST when omitted; editable via PATCH. (§3)
2. **Device-name uniqueness within a project** → `UNIQUE (project_id,
devices.name)` enforced at the schema level. (§2)
3. **Non-Power IO markers** → no `type_id` on `io_markers` for v0.
Power-by-convention; UI soft-warns on non-Power cables to an IO. (§2, §7)
4. **Bundle render in export v1** → bundles ignored on export until slice
6+. (§4, §5)
5. **Cross-project cable types** → `cable_types` is fully **global**. One
shared legend; renaming/recolouring affects every project. (§2, §3, §7)
6. **Project deletion guardrail** → `DELETE /api/projects/:pid?confirm=<name>`
required; server validates name match, returns 400 otherwise. (§3)
1. **Where do paths come from?** → **Nowhere — mCables is a schematic.**
Cables are straight lines between endpoints. The solver does not
route, the renderer does not route, and "maximum bundling" reduces to
the endpoint-pair rule (§5b.1). Anything resembling a path, trunk,
cable tray, or frame-edge corridor is **out of scope, period**
(§8 "Out of scope, period").
2. **Live solve or button-only?** → **Button-only for v0.** Live-solve
stays parked at slice 9+ as an opt-in.
3. **No-compatible-port-pair UX.** → **Explicit quick-fix.** The
unsatisfied-requirement badge in the inspector carries a single
button — "+ Add &lt;type&gt; port to &lt;device&gt; and re-solve" —
that POSTs the port AND fires `/solve` in one UI action. The button
text always names the device + type, so m sees what's about to
mutate (§5b.4 + §7).
4. **Setup templates.** → **Folded INTO v4.1, in slice 6.** Migration 004
adds `setup_templates` + child tables + 3 built-ins. `GET
/api/setup-templates` and `POST /api/projects/:pid/apply-template`
ship alongside the solver (§2.4 + §3 + slice 6 in §8). Custom
templates (m authors his own) parked at slice 9+.
5. **Catalog distribution.** → **SQL seed in migration 002.** No
external file loader.
6. **Promote to manual.** → **Explicit button** on the cable inspector
(§7 row "cable (auto=1)"). PATCHes that only update labels stay auto.
No open design questions remain. The coder shift is gated on m's
go/no-go for v3 — not on any unanswered design question from picasso.
go/no-go for v4.1 — not on any unanswered design question from picasso.
---
@@ -777,4 +1438,4 @@ gitignored.
---
DESIGN v3 READY — coder shift gated
DESIGN v4.1 READY FOR REVIEW

222
internal/db/bundles.go Normal file
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package db
import (
"database/sql"
"errors"
"fmt"
"strings"
)
// BundleCreate is the create-shape: a name + the cable IDs to include.
// Auto=true means the solver created the bundle; user-created bundles
// stay auto=0 and survive a re-solve.
type BundleCreate struct {
Name string
CableIDs []int64
Auto bool
}
type BundleUpdate struct {
Name *string
CableIDs *[]int64
}
// CreateBundle inserts a bundle + its cable_bundle rows in one tx.
func (s *Store) CreateBundle(projectID int64, b BundleCreate) (*Bundle, error) {
return s.createBundle(s.db, projectID, b, true)
}
func (s *Store) createBundle(ex execer, projectID int64, b BundleCreate, ownTx bool) (*Bundle, error) {
name := strings.TrimSpace(b.Name)
if name == "" {
return nil, fmt.Errorf("%w: name is required", ErrInvalidInput)
}
// When the caller already holds a tx (ownTx=false), do all validation
// against `ex` (the tx executor) — calling Store methods that hit
// s.db would deadlock against the connection the tx is holding under
// MaxOpenConns(1).
for _, cid := range b.CableIDs {
if _, err := s.getCableTx(ex, projectID, cid); err != nil {
if errors.Is(err, ErrNotFound) {
return nil, fmt.Errorf("%w: cable_id %d not in project", ErrInvalidInput, cid)
}
return nil, err
}
}
autoInt := 0
if b.Auto {
autoInt = 1
}
var tx *sql.Tx
var err error
useEx := ex
if ownTx {
tx, err = s.db.Begin()
if err != nil {
return nil, err
}
defer tx.Rollback()
useEx = tx
}
res, err := useEx.Exec(
`INSERT INTO bundles (project_id, name, auto) VALUES (?, ?, ?)`,
projectID, name, autoInt,
)
if err != nil {
return nil, mapWriteErr(err)
}
id, _ := res.LastInsertId()
for _, cid := range b.CableIDs {
if _, err := useEx.Exec(
`INSERT INTO bundle_cables (bundle_id, cable_id) VALUES (?, ?)`, id, cid,
); err != nil {
return nil, mapWriteErr(err)
}
}
if ownTx {
if err := tx.Commit(); err != nil {
return nil, err
}
return s.GetBundle(projectID, id)
}
// In tx-inheriting mode, build the response struct locally — the
// caller will re-fetch via GetBundle after commit if it needs more.
out := &Bundle{
ID: id, ProjectID: projectID, Name: name, Auto: b.Auto, CableIDs: append([]int64(nil), b.CableIDs...),
}
return out, nil
}
func (s *Store) GetBundle(projectID, id int64) (*Bundle, error) {
var b Bundle
var autoInt int
err := s.db.QueryRow(
`SELECT id, project_id, name, auto, created_at, updated_at
FROM bundles WHERE id = ? AND project_id = ?`, id, projectID,
).Scan(&b.ID, &b.ProjectID, &b.Name, &autoInt, &b.CreatedAt, &b.UpdatedAt)
if errors.Is(err, sql.ErrNoRows) {
return nil, ErrNotFound
}
if err != nil {
return nil, err
}
b.Auto = autoInt != 0
ids, err := s.bundleCableIDs(id)
if err != nil {
return nil, err
}
b.CableIDs = ids
return &b, nil
}
func (s *Store) bundleCableIDs(bundleID int64) ([]int64, error) {
rows, err := s.db.Query(
`SELECT cable_id FROM bundle_cables WHERE bundle_id = ? ORDER BY cable_id`, bundleID,
)
if err != nil {
return nil, err
}
defer rows.Close()
out := []int64{}
for rows.Next() {
var v int64
if err := rows.Scan(&v); err != nil {
return nil, err
}
out = append(out, v)
}
return out, rows.Err()
}
// ListBundles returns every bundle in a project, ordered by id.
func (s *Store) ListBundles(projectID int64) ([]Bundle, error) {
rows, err := s.db.Query(
`SELECT id, project_id, name, auto, created_at, updated_at
FROM bundles WHERE project_id = ? ORDER BY id`, projectID,
)
if err != nil {
return nil, err
}
defer rows.Close()
out := []Bundle{}
for rows.Next() {
var b Bundle
var autoInt int
if err := rows.Scan(&b.ID, &b.ProjectID, &b.Name, &autoInt,
&b.CreatedAt, &b.UpdatedAt); err != nil {
return nil, err
}
b.Auto = autoInt != 0
out = append(out, b)
}
if err := rows.Err(); err != nil {
return nil, err
}
for i := range out {
ids, err := s.bundleCableIDs(out[i].ID)
if err != nil {
return nil, err
}
out[i].CableIDs = ids
}
return out, nil
}
// UpdateBundle: name + cable set are mutable. Replacing cables wipes
// bundle_cables and re-inserts in one tx.
func (s *Store) UpdateBundle(projectID, id int64, u BundleUpdate) (*Bundle, error) {
cur, err := s.GetBundle(projectID, id)
if err != nil {
return nil, err
}
if u.Name != nil {
v := strings.TrimSpace(*u.Name)
if v == "" {
return nil, fmt.Errorf("%w: name cannot be empty", ErrInvalidInput)
}
cur.Name = v
}
tx, err := s.db.Begin()
if err != nil {
return nil, err
}
defer tx.Rollback()
if _, err := tx.Exec(
`UPDATE bundles SET name = ?, updated_at = datetime('now') WHERE id = ?`,
cur.Name, id,
); err != nil {
return nil, mapWriteErr(err)
}
if u.CableIDs != nil {
if _, err := tx.Exec(`DELETE FROM bundle_cables WHERE bundle_id = ?`, id); err != nil {
return nil, err
}
for _, cid := range *u.CableIDs {
if _, err := s.getCableTx(tx, projectID, cid); err != nil {
return nil, fmt.Errorf("%w: cable_id %d not in project", ErrInvalidInput, cid)
}
if _, err := tx.Exec(
`INSERT INTO bundle_cables (bundle_id, cable_id) VALUES (?, ?)`, id, cid,
); err != nil {
return nil, mapWriteErr(err)
}
}
}
if err := tx.Commit(); err != nil {
return nil, err
}
return s.GetBundle(projectID, id)
}
func (s *Store) DeleteBundle(projectID, id int64) error {
if _, err := s.GetBundle(projectID, id); err != nil {
return err
}
if _, err := s.db.Exec(
`DELETE FROM bundles WHERE id = ? AND project_id = ?`, id, projectID,
); err != nil {
return err
}
return nil
}

371
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package db
import (
"database/sql"
"errors"
"fmt"
"strings"
)
// CableEndpoint identifies one side of a cable. Exactly one of PortID /
// DeviceID / IOID must be non-nil; the store enforces this.
type CableEndpoint struct {
PortID *int64
DeviceID *int64
IOID *int64
}
// CableCreate is the create-shape for /api/projects/:pid/cables.
// auto=false (default) marks the cable as m-drawn; the solver writes
// auto=true when it places its rows.
type CableCreate struct {
TypeID int64
Label string
From CableEndpoint
To CableEndpoint
Auto bool
}
// CableUpdate is a partial update. PATCHing endpoint or type on an
// auto=1 cable should promote it to manual; handler logic does that
// (see slice 6 §5b.3).
type CableUpdate struct {
TypeID *int64
Label *string
From *CableEndpoint
To *CableEndpoint
Auto *bool
}
// CreateCable inserts a cable. Validates that the endpoints exist in
// the same project, that exactly one of (port/device/io) is set per side,
// and that the cable type is real.
func (s *Store) CreateCable(projectID int64, c CableCreate) (*Cable, error) {
return s.createCable(s.db, projectID, c)
}
// createCable on a TX-or-DB executor; solver uses the tx form.
func (s *Store) createCable(ex execer, projectID int64, c CableCreate) (*Cable, error) {
if err := s.validateEndpointEx(ex, projectID, "from", c.From); err != nil {
return nil, err
}
if err := s.validateEndpointEx(ex, projectID, "to", c.To); err != nil {
return nil, err
}
if err := s.assertCableTypeEx(ex, c.TypeID); err != nil {
return nil, err
}
autoInt := 0
if c.Auto {
autoInt = 1
}
res, err := ex.Exec(
`INSERT INTO cables
(project_id, type_id, label,
from_port_id, from_device_id, from_io_id,
to_port_id, to_device_id, to_io_id,
auto)
VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?)`,
projectID, c.TypeID, nullableString(c.Label),
nullableInt64(c.From.PortID), nullableInt64(c.From.DeviceID), nullableInt64(c.From.IOID),
nullableInt64(c.To.PortID), nullableInt64(c.To.DeviceID), nullableInt64(c.To.IOID),
autoInt,
)
if err != nil {
return nil, mapWriteErr(err)
}
id, _ := res.LastInsertId()
return s.getCableTx(ex, projectID, id)
}
// validateEndpoint is the s.db variant for public CRUD callers.
func (s *Store) validateEndpoint(projectID int64, label string, e CableEndpoint) error {
return s.validateEndpointEx(s.db, projectID, label, e)
}
// validateEndpointEx runs the same checks against any executor so the
// solver can call createCable inside its tx without deadlocking on the
// MaxOpenConns(1) connection that the tx holds.
func (s *Store) validateEndpointEx(ex execer, projectID int64, label string, e CableEndpoint) error {
count := 0
if e.PortID != nil {
count++
}
if e.DeviceID != nil {
count++
}
if e.IOID != nil {
count++
}
if count != 1 {
return fmt.Errorf("%w: %s must specify exactly one of port/device/io", ErrInvalidInput, label)
}
if e.PortID != nil {
var pid int64
err := ex.QueryRow(`SELECT project_id FROM ports WHERE id = ?`, *e.PortID).Scan(&pid)
if errors.Is(err, sql.ErrNoRows) {
return fmt.Errorf("%w: %s port_id %d not found", ErrInvalidInput, label, *e.PortID)
}
if err != nil {
return err
}
if pid != projectID {
return fmt.Errorf("%w: %s port_id %d is in another project", ErrInvalidInput, label, *e.PortID)
}
}
if e.DeviceID != nil {
var pid int64
err := ex.QueryRow(`SELECT project_id FROM devices WHERE id = ?`, *e.DeviceID).Scan(&pid)
if errors.Is(err, sql.ErrNoRows) || (err == nil && pid != projectID) {
return fmt.Errorf("%w: %s device_id %d not in project", ErrInvalidInput, label, *e.DeviceID)
}
if err != nil {
return err
}
}
if e.IOID != nil {
var pid int64
err := ex.QueryRow(`SELECT project_id FROM io_markers WHERE id = ?`, *e.IOID).Scan(&pid)
if errors.Is(err, sql.ErrNoRows) || (err == nil && pid != projectID) {
return fmt.Errorf("%w: %s io_id %d not in project", ErrInvalidInput, label, *e.IOID)
}
if err != nil {
return err
}
}
return nil
}
// assertCableTypeEx is a lightweight existence check against any executor.
func (s *Store) assertCableTypeEx(ex execer, id int64) error {
var dummy int64
err := ex.QueryRow(`SELECT id FROM cable_types WHERE id = ?`, id).Scan(&dummy)
if errors.Is(err, sql.ErrNoRows) {
return fmt.Errorf("%w: cable type %d not found", ErrInvalidInput, id)
}
return err
}
func (s *Store) GetCable(projectID, id int64) (*Cable, error) {
return s.getCableTx(s.db, projectID, id)
}
func (s *Store) getCableTx(ex execer, projectID, id int64) (*Cable, error) {
var c Cable
var fp, fd, fio, tp, td, tio sql.NullInt64
var label, ex2 sql.NullString
var autoInt int
err := ex.QueryRow(
`SELECT id, project_id, type_id, label,
from_port_id, from_device_id, from_io_id,
to_port_id, to_device_id, to_io_id,
auto, excalidraw_id, created_at, updated_at
FROM cables WHERE id = ? AND project_id = ?`, id, projectID,
).Scan(&c.ID, &c.ProjectID, &c.TypeID, &label,
&fp, &fd, &fio, &tp, &td, &tio,
&autoInt, &ex2, &c.CreatedAt, &c.UpdatedAt)
if errors.Is(err, sql.ErrNoRows) {
return nil, ErrNotFound
}
if err != nil {
return nil, err
}
if label.Valid {
v := label.String
c.Label = &v
}
if fp.Valid {
v := fp.Int64
c.FromPortID = &v
}
if fd.Valid {
v := fd.Int64
c.FromDeviceID = &v
}
if fio.Valid {
v := fio.Int64
c.FromIOID = &v
}
if tp.Valid {
v := tp.Int64
c.ToPortID = &v
}
if td.Valid {
v := td.Int64
c.ToDeviceID = &v
}
if tio.Valid {
v := tio.Int64
c.ToIOID = &v
}
c.Auto = autoInt != 0
if ex2.Valid {
c.ExcalidrawID = &ex2.String
}
return &c, nil
}
// ListCables returns every cable in a project.
func (s *Store) ListCables(projectID int64) ([]Cable, error) {
return s.listCablesTx(s.db, projectID)
}
func (s *Store) listCablesTx(ex execer, projectID int64) ([]Cable, error) {
rows, err := ex.Query(
`SELECT id, project_id, type_id, label,
from_port_id, from_device_id, from_io_id,
to_port_id, to_device_id, to_io_id,
auto, excalidraw_id, created_at, updated_at
FROM cables WHERE project_id = ? ORDER BY id`, projectID,
)
if err != nil {
return nil, err
}
defer rows.Close()
out := []Cable{}
for rows.Next() {
var c Cable
var fp, fd, fio, tp, td, tio sql.NullInt64
var label, ex2 sql.NullString
var autoInt int
if err := rows.Scan(&c.ID, &c.ProjectID, &c.TypeID, &label,
&fp, &fd, &fio, &tp, &td, &tio,
&autoInt, &ex2, &c.CreatedAt, &c.UpdatedAt); err != nil {
return nil, err
}
if label.Valid {
v := label.String
c.Label = &v
}
if fp.Valid {
v := fp.Int64
c.FromPortID = &v
}
if fd.Valid {
v := fd.Int64
c.FromDeviceID = &v
}
if fio.Valid {
v := fio.Int64
c.FromIOID = &v
}
if tp.Valid {
v := tp.Int64
c.ToPortID = &v
}
if td.Valid {
v := td.Int64
c.ToDeviceID = &v
}
if tio.Valid {
v := tio.Int64
c.ToIOID = &v
}
c.Auto = autoInt != 0
if ex2.Valid {
c.ExcalidrawID = &ex2.String
}
out = append(out, c)
}
return out, rows.Err()
}
// UpdateCable applies a partial update. Caller-controlled — promote-to-
// manual semantics live at the handler level (§5b.3: any PATCH touching
// type/endpoint promotes auto→0).
func (s *Store) UpdateCable(projectID, id int64, u CableUpdate) (*Cable, error) {
cur, err := s.GetCable(projectID, id)
if err != nil {
return nil, err
}
if u.TypeID != nil {
if _, err := s.GetCableType(*u.TypeID); err != nil {
if errors.Is(err, ErrNotFound) {
return nil, fmt.Errorf("%w: cable type %d not found", ErrInvalidInput, *u.TypeID)
}
return nil, err
}
cur.TypeID = *u.TypeID
}
if u.Label != nil {
v := strings.TrimSpace(*u.Label)
if v == "" {
cur.Label = nil
} else {
cur.Label = &v
}
}
if u.From != nil {
if err := s.validateEndpoint(projectID, "from", *u.From); err != nil {
return nil, err
}
cur.FromPortID = u.From.PortID
cur.FromDeviceID = u.From.DeviceID
cur.FromIOID = u.From.IOID
}
if u.To != nil {
if err := s.validateEndpoint(projectID, "to", *u.To); err != nil {
return nil, err
}
cur.ToPortID = u.To.PortID
cur.ToDeviceID = u.To.DeviceID
cur.ToIOID = u.To.IOID
}
if u.Auto != nil {
cur.Auto = *u.Auto
}
autoInt := 0
if cur.Auto {
autoInt = 1
}
if _, err := s.db.Exec(
`UPDATE cables
SET type_id = ?, label = ?,
from_port_id = ?, from_device_id = ?, from_io_id = ?,
to_port_id = ?, to_device_id = ?, to_io_id = ?,
auto = ?, updated_at = datetime('now')
WHERE id = ? AND project_id = ?`,
cur.TypeID, nullableStringPtr(cur.Label),
nullableInt64(cur.FromPortID), nullableInt64(cur.FromDeviceID), nullableInt64(cur.FromIOID),
nullableInt64(cur.ToPortID), nullableInt64(cur.ToDeviceID), nullableInt64(cur.ToIOID),
autoInt, id, projectID,
); err != nil {
return nil, mapWriteErr(err)
}
return s.GetCable(projectID, id)
}
// DeleteCable removes a cable from a project.
func (s *Store) DeleteCable(projectID, id int64) error {
if _, err := s.GetCable(projectID, id); err != nil {
return err
}
if _, err := s.db.Exec(
`DELETE FROM cables WHERE id = ? AND project_id = ?`, id, projectID,
); err != nil {
return err
}
return nil
}
// nullableString → for label-style strings: "" → SQL NULL.
func nullableString(s string) any {
if s == "" {
return nil
}
return s
}
func nullableStringPtr(p *string) any {
if p == nil {
return nil
}
return *p
}
// execer abstracts *sql.DB and *sql.Tx for store helpers used by both
// the public API and inside transactions (e.g. the solver).
type execer interface {
Exec(query string, args ...any) (sql.Result, error)
Query(query string, args ...any) (*sql.Rows, error)
QueryRow(query string, args ...any) *sql.Row
}

192
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package db
import (
"database/sql"
"errors"
"fmt"
)
// ConnectionRequirementCreate is the create-shape. Server normalises
// from/to into (pair_lo, pair_hi) so (A,B,T) and (B,A,T) collide.
type ConnectionRequirementCreate struct {
FromDeviceID int64
ToDeviceID int64
PreferredCableTypeID *int64
MustConnect *bool // pointer so "absent" defaults to true
Notes string
}
// ConnectionRequirementUpdate is the partial-update shape. project_id +
// the device pair are immutable post-create (changing either is best
// modelled as delete-then-create — keeps pair_lo/pair_hi semantics simple).
type ConnectionRequirementUpdate struct {
PreferredCableTypeID FrameRef // tri-state: leave / set / clear
MustConnect *bool
Notes *string
}
// CreateConnectionRequirement inserts a new requirement. Validates that
// both devices live in projectID, that from != to, and that the
// (project, pair_lo, pair_hi, preferred_cable_type_id) tuple is unique.
func (s *Store) CreateConnectionRequirement(projectID int64, r ConnectionRequirementCreate) (*ConnectionRequirement, error) {
if r.FromDeviceID == r.ToDeviceID {
return nil, fmt.Errorf("%w: from_device_id and to_device_id must differ", ErrInvalidInput)
}
if _, err := s.GetProject(projectID); err != nil {
return nil, err
}
if _, err := s.GetDevice(projectID, r.FromDeviceID); err != nil {
if errors.Is(err, ErrNotFound) {
return nil, fmt.Errorf("%w: from_device_id %d not in project %d", ErrInvalidInput, r.FromDeviceID, projectID)
}
return nil, err
}
if _, err := s.GetDevice(projectID, r.ToDeviceID); err != nil {
if errors.Is(err, ErrNotFound) {
return nil, fmt.Errorf("%w: to_device_id %d not in project %d", ErrInvalidInput, r.ToDeviceID, projectID)
}
return nil, err
}
if r.PreferredCableTypeID != nil {
if _, err := s.GetCableType(*r.PreferredCableTypeID); err != nil {
if errors.Is(err, ErrNotFound) {
return nil, fmt.Errorf("%w: preferred_cable_type_id %d not found", ErrInvalidInput, *r.PreferredCableTypeID)
}
return nil, err
}
}
must := true
if r.MustConnect != nil {
must = *r.MustConnect
}
mustInt := 0
if must {
mustInt = 1
}
lo, hi := r.FromDeviceID, r.ToDeviceID
if lo > hi {
lo, hi = hi, lo
}
res, err := s.db.Exec(
`INSERT INTO connection_requirements
(project_id, from_device_id, to_device_id, preferred_cable_type_id,
must_connect, notes, pair_lo, pair_hi)
VALUES (?, ?, ?, ?, ?, ?, ?, ?)`,
projectID, r.FromDeviceID, r.ToDeviceID, nullableInt64(r.PreferredCableTypeID),
mustInt, r.Notes, lo, hi,
)
if err != nil {
return nil, mapWriteErr(err)
}
id, _ := res.LastInsertId()
return s.GetConnectionRequirement(projectID, id)
}
// GetConnectionRequirement loads one by id, project-scoped.
func (s *Store) GetConnectionRequirement(projectID, id int64) (*ConnectionRequirement, error) {
var r ConnectionRequirement
var ct sql.NullInt64
var must int
err := s.db.QueryRow(
`SELECT id, project_id, from_device_id, to_device_id, preferred_cable_type_id,
must_connect, notes, created_at, updated_at
FROM connection_requirements WHERE id = ? AND project_id = ?`, id, projectID,
).Scan(&r.ID, &r.ProjectID, &r.FromDeviceID, &r.ToDeviceID, &ct,
&must, &r.Notes, &r.CreatedAt, &r.UpdatedAt)
if errors.Is(err, sql.ErrNoRows) {
return nil, ErrNotFound
}
if err != nil {
return nil, err
}
if ct.Valid {
v := ct.Int64
r.PreferredCableTypeID = &v
}
r.MustConnect = must != 0
return &r, nil
}
// ListConnectionRequirements returns every requirement in a project,
// ordered by id (insertion order).
func (s *Store) ListConnectionRequirements(projectID int64) ([]ConnectionRequirement, error) {
rows, err := s.db.Query(
`SELECT id, project_id, from_device_id, to_device_id, preferred_cable_type_id,
must_connect, notes, created_at, updated_at
FROM connection_requirements WHERE project_id = ? ORDER BY id`, projectID,
)
if err != nil {
return nil, err
}
defer rows.Close()
out := []ConnectionRequirement{}
for rows.Next() {
var r ConnectionRequirement
var ct sql.NullInt64
var must int
if err := rows.Scan(&r.ID, &r.ProjectID, &r.FromDeviceID, &r.ToDeviceID, &ct,
&must, &r.Notes, &r.CreatedAt, &r.UpdatedAt); err != nil {
return nil, err
}
if ct.Valid {
v := ct.Int64
r.PreferredCableTypeID = &v
}
r.MustConnect = must != 0
out = append(out, r)
}
return out, rows.Err()
}
// UpdateConnectionRequirement applies a partial update. preferred_cable_type_id
// uses the FrameRef tri-state; must_connect + notes are plain pointers.
// The (from, to) pair is immutable on PATCH — delete + recreate to change.
func (s *Store) UpdateConnectionRequirement(projectID, id int64, u ConnectionRequirementUpdate) (*ConnectionRequirement, error) {
cur, err := s.GetConnectionRequirement(projectID, id)
if err != nil {
return nil, err
}
if u.PreferredCableTypeID.Set {
if u.PreferredCableTypeID.ID != nil {
if _, err := s.GetCableType(*u.PreferredCableTypeID.ID); err != nil {
if errors.Is(err, ErrNotFound) {
return nil, fmt.Errorf("%w: preferred_cable_type_id %d not found", ErrInvalidInput, *u.PreferredCableTypeID.ID)
}
return nil, err
}
}
cur.PreferredCableTypeID = u.PreferredCableTypeID.ID
}
if u.MustConnect != nil {
cur.MustConnect = *u.MustConnect
}
if u.Notes != nil {
cur.Notes = *u.Notes
}
mustInt := 0
if cur.MustConnect {
mustInt = 1
}
if _, err := s.db.Exec(
`UPDATE connection_requirements
SET preferred_cable_type_id = ?, must_connect = ?, notes = ?, updated_at = datetime('now')
WHERE id = ? AND project_id = ?`,
nullableInt64(cur.PreferredCableTypeID), mustInt, cur.Notes, id, projectID,
); err != nil {
return nil, mapWriteErr(err)
}
return s.GetConnectionRequirement(projectID, id)
}
// DeleteConnectionRequirement removes a requirement by id, project-scoped.
func (s *Store) DeleteConnectionRequirement(projectID, id int64) error {
if _, err := s.GetConnectionRequirement(projectID, id); err != nil {
return err
}
if _, err := s.db.Exec(
`DELETE FROM connection_requirements WHERE id = ? AND project_id = ?`, id, projectID,
); err != nil {
return err
}
return nil
}

181
internal/db/connection_requirements_test.go Normal file
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@@ -0,0 +1,181 @@
package db
import (
"errors"
"testing"
)
func setupTwoDevices(t *testing.T, s *Store) (int64, int64, int64) {
t.Helper()
p, _ := s.CreateProject("LOFT", "", "")
a, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "NAS", X: 0, Y: 0, Width: 100, Height: 35})
b, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "Switch", X: 200, Y: 0, Width: 100, Height: 35})
return p.ID, a.ID, b.ID
}
func TestCreateConnReq_Basic(t *testing.T) {
s := newTestStore(t)
pid, a, b := setupTwoDevices(t, s)
rj45 := int64(5)
r, err := s.CreateConnectionRequirement(pid, ConnectionRequirementCreate{
FromDeviceID: a, ToDeviceID: b, PreferredCableTypeID: &rj45,
})
if err != nil {
t.Fatalf("create: %v", err)
}
if !r.MustConnect {
t.Errorf("must_connect default should be true")
}
if r.PreferredCableTypeID == nil || *r.PreferredCableTypeID != rj45 {
t.Errorf("preferred_cable_type_id wrong: %+v", r.PreferredCableTypeID)
}
}
func TestCreateConnReq_PairNormalisationRejectsReverse(t *testing.T) {
s := newTestStore(t)
pid, a, b := setupTwoDevices(t, s)
rj45 := int64(5)
if _, err := s.CreateConnectionRequirement(pid, ConnectionRequirementCreate{
FromDeviceID: a, ToDeviceID: b, PreferredCableTypeID: &rj45,
}); err != nil {
t.Fatalf("first: %v", err)
}
// (B, A, RJ45) should collide on UNIQUE (pair_lo, pair_hi, type).
_, err := s.CreateConnectionRequirement(pid, ConnectionRequirementCreate{
FromDeviceID: b, ToDeviceID: a, PreferredCableTypeID: &rj45,
})
if !errors.Is(err, ErrConflict) {
t.Errorf("reverse pair err = %v, want ErrConflict", err)
}
}
func TestCreateConnReq_DifferentCableTypesCoexist(t *testing.T) {
s := newTestStore(t)
pid, a, b := setupTwoDevices(t, s)
rj45, power := int64(5), int64(1)
if _, err := s.CreateConnectionRequirement(pid, ConnectionRequirementCreate{
FromDeviceID: a, ToDeviceID: b, PreferredCableTypeID: &rj45,
}); err != nil {
t.Fatalf("rj45: %v", err)
}
if _, err := s.CreateConnectionRequirement(pid, ConnectionRequirementCreate{
FromDeviceID: a, ToDeviceID: b, PreferredCableTypeID: &power,
}); err != nil {
t.Errorf("power on same pair should be allowed: %v", err)
}
}
func TestCreateConnReq_SelfLoopRejected(t *testing.T) {
s := newTestStore(t)
pid, a, _ := setupTwoDevices(t, s)
_, err := s.CreateConnectionRequirement(pid, ConnectionRequirementCreate{
FromDeviceID: a, ToDeviceID: a,
})
if !errors.Is(err, ErrInvalidInput) {
t.Errorf("self-loop err = %v, want ErrInvalidInput", err)
}
}
func TestCreateConnReq_CrossProjectDeviceRejected(t *testing.T) {
s := newTestStore(t)
pid, a, _ := setupTwoDevices(t, s)
p2, _ := s.CreateProject("OFFICE", "", "")
b2, _ := s.CreateDevice(p2.ID, DeviceCreate{Name: "X", X: 0, Y: 0, Width: 100, Height: 35})
_, err := s.CreateConnectionRequirement(pid, ConnectionRequirementCreate{
FromDeviceID: a, ToDeviceID: b2.ID,
})
if !errors.Is(err, ErrInvalidInput) {
t.Errorf("cross-project to-device err = %v, want ErrInvalidInput", err)
}
}
func TestCreateConnReq_NullCableTypeUniqueByPair(t *testing.T) {
// Two NULL-cable-type reqs on the same pair are NOT a conflict in
// SQLite (NULL != NULL in UNIQUE comparisons). This is fine — they
// represent "solver picks" both times; the second wins when solving.
s := newTestStore(t)
pid, a, b := setupTwoDevices(t, s)
if _, err := s.CreateConnectionRequirement(pid, ConnectionRequirementCreate{
FromDeviceID: a, ToDeviceID: b,
}); err != nil {
t.Fatalf("first: %v", err)
}
if _, err := s.CreateConnectionRequirement(pid, ConnectionRequirementCreate{
FromDeviceID: a, ToDeviceID: b,
}); err != nil {
t.Errorf("second NULL-type req should be allowed (SQLite NULL != NULL): %v", err)
}
}
func TestUpdateConnReq_PartialFields(t *testing.T) {
s := newTestStore(t)
pid, a, b := setupTwoDevices(t, s)
rj45, power := int64(5), int64(1)
r, _ := s.CreateConnectionRequirement(pid, ConnectionRequirementCreate{
FromDeviceID: a, ToDeviceID: b, PreferredCableTypeID: &rj45,
})
notes := "important"
must := false
updated, err := s.UpdateConnectionRequirement(pid, r.ID, ConnectionRequirementUpdate{
PreferredCableTypeID: FrameRef{Set: true, ID: &power},
MustConnect: &must,
Notes: &notes,
})
if err != nil {
t.Fatalf("update: %v", err)
}
if updated.PreferredCableTypeID == nil || *updated.PreferredCableTypeID != power {
t.Errorf("cable type not switched: %+v", updated.PreferredCableTypeID)
}
if updated.MustConnect {
t.Errorf("must_connect should be false")
}
if updated.Notes != "important" {
t.Errorf("notes = %q", updated.Notes)
}
// Clear the cable type.
cleared, _ := s.UpdateConnectionRequirement(pid, r.ID, ConnectionRequirementUpdate{
PreferredCableTypeID: FrameRef{Set: true, ID: nil},
})
if cleared.PreferredCableTypeID != nil {
t.Errorf("preferred_cable_type_id should be nil after clear; got %v", *cleared.PreferredCableTypeID)
}
}
func TestDeleteConnReq_CascadesOnDeviceDelete(t *testing.T) {
s := newTestStore(t)
pid, a, b := setupTwoDevices(t, s)
r, _ := s.CreateConnectionRequirement(pid, ConnectionRequirementCreate{
FromDeviceID: a, ToDeviceID: b,
})
if err := s.DeleteDevice(pid, a); err != nil {
t.Fatalf("delete device a: %v", err)
}
if _, err := s.GetConnectionRequirement(pid, r.ID); !errors.Is(err, ErrNotFound) {
t.Errorf("requirement should be gone after device delete; got %v", err)
}
}
func TestSnapshot_IncludesConnectionRequirements(t *testing.T) {
s := newTestStore(t)
pid, a, b := setupTwoDevices(t, s)
_, _ = s.CreateConnectionRequirement(pid, ConnectionRequirementCreate{
FromDeviceID: a, ToDeviceID: b,
})
snap, err := s.Snapshot(pid)
if err != nil {
t.Fatalf("snapshot: %v", err)
}
if len(snap.ConnectionRequirements) != 1 {
t.Errorf("snapshot.connection_requirements = %d, want 1", len(snap.ConnectionRequirements))
}
}
func TestDeleteConnReq_NotFound(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
if err := s.DeleteConnectionRequirement(p.ID, 999); !errors.Is(err, ErrNotFound) {
t.Errorf("got %v, want ErrNotFound", err)
}
}

351
internal/db/device_types.go Normal file
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@@ -0,0 +1,351 @@
package db
import (
"database/sql"
"errors"
"fmt"
"strings"
)
// ErrForbidden is the sentinel for "you can't mutate this row" — used by
// PATCH/DELETE on built-in device_types.
var ErrForbidden = errors.New("forbidden")
// -----------------------------------------------------------------------------
// device_types
// -----------------------------------------------------------------------------
// DeviceTypeCreate is the shape POSTed under /api/projects/:pid/device-types.
// project_id is the URL :pid; the caller never passes it in the body.
type DeviceTypeCreate struct {
Name string
Kind string
Icon string
Description string
Ports []DeviceTypePortCreate
}
// DeviceTypePortCreate is one row in the type's port profile.
type DeviceTypePortCreate struct {
CableTypeID int64
LabelPrefix string
Count int
Edge string
SortOrder int
}
// DeviceTypeUpdate is the partial-update shape. Built-in types reject
// any PATCH at the store level.
type DeviceTypeUpdate struct {
Name *string
Kind *string
Icon *string
Description *string
// Ports != nil means "replace the port profile with this set".
Ports *[]DeviceTypePortCreate
}
// CreateDeviceType inserts a project-custom row + its port profile in
// one transaction. projectID must be non-zero (built-ins are seed-only).
func (s *Store) CreateDeviceType(projectID int64, dt DeviceTypeCreate) (*DeviceType, error) {
name := strings.TrimSpace(dt.Name)
if name == "" {
return nil, fmt.Errorf("%w: name is required", ErrInvalidInput)
}
if projectID == 0 {
return nil, fmt.Errorf("%w: project_id is required (built-ins are seed-only)", ErrInvalidInput)
}
if _, err := s.GetProject(projectID); err != nil {
return nil, err
}
// Forbid name-collisions with built-ins (UNIQUE(project_id,name)
// only enforces inside the project; built-ins have project_id IS
// NULL so the constraint doesn't catch them).
var builtinClash int
if err := s.db.QueryRow(
`SELECT COUNT(*) FROM device_types WHERE project_id IS NULL AND name = ?`, name,
).Scan(&builtinClash); err != nil {
return nil, err
}
if builtinClash > 0 {
return nil, fmt.Errorf("%w: name %q clashes with a built-in device type", ErrConflict, name)
}
kind := strings.TrimSpace(dt.Kind)
if kind == "" {
kind = "generic"
}
desc := dt.Description
var iconPtr any
if icon := strings.TrimSpace(dt.Icon); icon != "" {
iconPtr = icon
}
tx, err := s.db.Begin()
if err != nil {
return nil, err
}
defer tx.Rollback()
res, err := tx.Exec(
`INSERT INTO device_types (project_id, name, kind, icon, description, built_in)
VALUES (?, ?, ?, ?, ?, 0)`,
projectID, name, kind, iconPtr, desc,
)
if err != nil {
return nil, mapWriteErr(err)
}
id, _ := res.LastInsertId()
for _, p := range dt.Ports {
if err := insertDeviceTypePort(tx, id, p); err != nil {
return nil, err
}
}
if err := tx.Commit(); err != nil {
return nil, err
}
return s.GetDeviceType(id)
}
func insertDeviceTypePort(tx *sql.Tx, deviceTypeID int64, p DeviceTypePortCreate) error {
if p.CableTypeID <= 0 {
return fmt.Errorf("%w: cable_type_id is required on each port row", ErrInvalidInput)
}
if p.Count <= 0 {
p.Count = 1
}
edge := strings.TrimSpace(p.Edge)
if edge == "" {
edge = "bottom"
}
if edge != "top" && edge != "bottom" && edge != "left" && edge != "right" {
return fmt.Errorf("%w: edge must be top/bottom/left/right", ErrInvalidInput)
}
_, err := tx.Exec(
`INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
VALUES (?, ?, ?, ?, ?, ?)`,
deviceTypeID, p.CableTypeID, p.LabelPrefix, p.Count, edge, p.SortOrder,
)
if err != nil {
return mapWriteErr(err)
}
return nil
}
// GetDeviceType loads a single type row (built-in OR project-custom)
// with its port profile.
func (s *Store) GetDeviceType(id int64) (*DeviceType, error) {
dt, err := scanDeviceTypeByID(s.db, id)
if err != nil {
return nil, err
}
ports, err := s.listDeviceTypePorts(id)
if err != nil {
return nil, err
}
dt.Ports = ports
return dt, nil
}
func scanDeviceTypeByID(d *sql.DB, id int64) (*DeviceType, error) {
var dt DeviceType
var proj sql.NullInt64
var icon sql.NullString
var built int
err := d.QueryRow(
`SELECT id, project_id, name, kind, icon, description, built_in, created_at, updated_at
FROM device_types WHERE id = ?`, id,
).Scan(&dt.ID, &proj, &dt.Name, &dt.Kind, &icon, &dt.Description, &built,
&dt.CreatedAt, &dt.UpdatedAt)
if errors.Is(err, sql.ErrNoRows) {
return nil, ErrNotFound
}
if err != nil {
return nil, err
}
if proj.Valid {
v := proj.Int64
dt.ProjectID = &v
}
if icon.Valid {
dt.Icon = &icon.String
}
dt.BuiltIn = built != 0
return &dt, nil
}
// ListBuiltInDeviceTypes returns every built-in type (project_id IS NULL).
func (s *Store) ListBuiltInDeviceTypes() ([]DeviceType, error) {
return s.listDeviceTypesWhere(`project_id IS NULL`, nil)
}
// ListDeviceTypesForProject returns built-ins + the project's custom
// types, merged. Built-ins come first (insertion order), then custom by
// id.
func (s *Store) ListDeviceTypesForProject(projectID int64) ([]DeviceType, error) {
return s.listDeviceTypesWhere(
`project_id IS NULL OR project_id = ?`, []any{projectID},
)
}
func (s *Store) listDeviceTypesWhere(where string, args []any) ([]DeviceType, error) {
q := `SELECT id, project_id, name, kind, icon, description, built_in, created_at, updated_at
FROM device_types WHERE ` + where +
` ORDER BY (project_id IS NOT NULL), id`
rows, err := s.db.Query(q, args...)
if err != nil {
return nil, err
}
defer rows.Close()
out := []DeviceType{}
for rows.Next() {
var dt DeviceType
var proj sql.NullInt64
var icon sql.NullString
var built int
if err := rows.Scan(&dt.ID, &proj, &dt.Name, &dt.Kind, &icon, &dt.Description, &built,
&dt.CreatedAt, &dt.UpdatedAt); err != nil {
return nil, err
}
if proj.Valid {
v := proj.Int64
dt.ProjectID = &v
}
if icon.Valid {
dt.Icon = &icon.String
}
dt.BuiltIn = built != 0
out = append(out, dt)
}
if err := rows.Err(); err != nil {
return nil, err
}
// Hydrate ports per row. Two queries per request is fine for the
// catalog size; switch to a single JOIN-and-group if it becomes hot.
for i := range out {
ps, err := s.listDeviceTypePorts(out[i].ID)
if err != nil {
return nil, err
}
out[i].Ports = ps
}
return out, nil
}
func (s *Store) listDeviceTypePorts(deviceTypeID int64) ([]DeviceTypePort, error) {
rows, err := s.db.Query(
`SELECT id, device_type_id, cable_type_id, label_prefix, count, edge, sort_order
FROM device_type_ports WHERE device_type_id = ? ORDER BY sort_order, id`,
deviceTypeID,
)
if err != nil {
return nil, err
}
defer rows.Close()
out := []DeviceTypePort{}
for rows.Next() {
var p DeviceTypePort
if err := rows.Scan(&p.ID, &p.DeviceTypeID, &p.CableTypeID,
&p.LabelPrefix, &p.Count, &p.Edge, &p.SortOrder); err != nil {
return nil, err
}
out = append(out, p)
}
return out, rows.Err()
}
// UpdateDeviceType applies a partial update. Built-in rows are rejected
// with ErrForbidden. Cross-project rows are rejected with ErrNotFound.
// Replacing the port profile (Ports != nil) wipes and re-inserts.
func (s *Store) UpdateDeviceType(projectID, id int64, u DeviceTypeUpdate) (*DeviceType, error) {
cur, err := s.GetDeviceType(id)
if err != nil {
return nil, err
}
if cur.BuiltIn {
return nil, fmt.Errorf("%w: built-in device types are read-only", ErrForbidden)
}
if cur.ProjectID == nil || *cur.ProjectID != projectID {
return nil, ErrNotFound
}
if u.Name != nil {
v := strings.TrimSpace(*u.Name)
if v == "" {
return nil, fmt.Errorf("%w: name cannot be empty", ErrInvalidInput)
}
cur.Name = v
}
if u.Kind != nil {
v := strings.TrimSpace(*u.Kind)
if v == "" {
v = "generic"
}
cur.Kind = v
}
if u.Icon != nil {
v := strings.TrimSpace(*u.Icon)
if v == "" {
cur.Icon = nil
} else {
cur.Icon = &v
}
}
if u.Description != nil {
cur.Description = *u.Description
}
tx, err := s.db.Begin()
if err != nil {
return nil, err
}
defer tx.Rollback()
var iconArg any
if cur.Icon != nil {
iconArg = *cur.Icon
}
if _, err := tx.Exec(
`UPDATE device_types
SET name = ?, kind = ?, icon = ?, description = ?, updated_at = datetime('now')
WHERE id = ?`,
cur.Name, cur.Kind, iconArg, cur.Description, id,
); err != nil {
return nil, mapWriteErr(err)
}
if u.Ports != nil {
if _, err := tx.Exec(`DELETE FROM device_type_ports WHERE device_type_id = ?`, id); err != nil {
return nil, err
}
for _, p := range *u.Ports {
if err := insertDeviceTypePort(tx, id, p); err != nil {
return nil, err
}
}
}
if err := tx.Commit(); err != nil {
return nil, err
}
return s.GetDeviceType(id)
}
// DeleteDeviceType removes a project-custom row. Built-ins → ErrForbidden.
// Cross-project → ErrNotFound. Cascades to device_type_ports (FK CASCADE)
// and SET-NULLs the type_id on any device referencing it.
func (s *Store) DeleteDeviceType(projectID, id int64) error {
cur, err := s.GetDeviceType(id)
if err != nil {
return err
}
if cur.BuiltIn {
return fmt.Errorf("%w: built-in device types are read-only", ErrForbidden)
}
if cur.ProjectID == nil || *cur.ProjectID != projectID {
return ErrNotFound
}
if _, err := s.db.Exec(`DELETE FROM device_types WHERE id = ?`, id); err != nil {
return err
}
return nil
}

363
internal/db/device_types_test.go Normal file
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@@ -0,0 +1,363 @@
package db
import (
"errors"
"testing"
)
// -------------------------------------------------------- catalog (seeded)
func TestSeed_BuiltInDeviceTypes(t *testing.T) {
s := newTestStore(t)
got, err := s.ListBuiltInDeviceTypes()
if err != nil {
t.Fatalf("list: %v", err)
}
want := []string{
"NAS", "PC", "Mac", "Notebook", "TV", "Soundbar", "Switch", "fritz",
"ChromeCast", "SteamLink", "IOx-3", "IOx-6", "IOx-8",
"Screen", "Keyboard", "Mouse",
"Multi-plug 3", "Multi-plug 4", "Multi-plug 5", "Multi-plug 6", "Wifi-plug",
}
if len(got) != len(want) {
t.Fatalf("built-in count = %d, want %d", len(got), len(want))
}
for i, w := range want {
if got[i].Name != w {
t.Errorf("[%d] = %q, want %q", i, got[i].Name, w)
}
if !got[i].BuiltIn {
t.Errorf("[%d] %q should be built_in", i, got[i].Name)
}
if got[i].ProjectID != nil {
t.Errorf("[%d] %q should have project_id=nil", i, got[i].Name)
}
}
}
func TestSeed_PortProfiles(t *testing.T) {
s := newTestStore(t)
all, _ := s.ListBuiltInDeviceTypes()
byName := map[string]DeviceType{}
for _, d := range all {
byName[d.Name] = d
}
cases := map[string]struct {
totalPorts int // sum of count across profile rows
}{
"NAS": {2}, // Power 1 + RJ45 1
"PC": {5}, // Power 1 + RJ45 1 + HDMI 1 + USB 2
"Mac": {4}, // Power 1 + HDMI 1 + USB 2
"Notebook": {3}, // Power 1 + USB 2
"TV": {3}, // Power 1 + HDMI 2
"Soundbar": {2}, // Power 1 + HDMI 1
"Switch": {6}, // Power 1 + RJ45 5
"fritz": {5}, // Power 1 + RJ45 4
"ChromeCast": {2}, // Power 1 + HDMI 1
"SteamLink": {4}, // Power 1 + HDMI 1 + USB 2
"IOx-3": {4}, // Power In 1 + Power Out 3 (after v6)
"IOx-6": {7}, // Power In 1 + Power Out 6 (after v6)
"IOx-8": {9}, // Power In 1 + Power Out 8 (after v6)
"Screen": {2}, // Power 1 + HDMI 1
"Keyboard": {1}, // USB 1
"Mouse": {1}, // USB 1
"Multi-plug 3": {4}, // Power In 1 + Power Out 3 (after v6)
"Multi-plug 4": {5}, // Power In 1 + Power Out 4 (after v6)
"Multi-plug 5": {6}, // Power In 1 + Power Out 5 (after v6)
"Multi-plug 6": {7}, // Power In 1 + Power Out 6 (after v6)
"Wifi-plug": {2}, // Power In 1 + Power Out 1 (after v6)
}
for name, want := range cases {
dt, ok := byName[name]
if !ok {
t.Errorf("missing built-in %q", name)
continue
}
total := 0
for _, p := range dt.Ports {
total += p.Count
}
if total != want.totalPorts {
t.Errorf("%s: total ports = %d, want %d", name, total, want.totalPorts)
}
}
}
// TestSeed_PowerHubs locks down the post-migration-006 port profile for
// every power-distribution device type: IOx-3/6/8, Multi-plug 3/4/5/6,
// and Wifi-plug. Each carries exactly two profile rows — a single
// "Power In" port on the top (back) edge and N "Power Out" ports on the
// bottom (front) edge, where N is the device-specific output count.
//
// This test covers the v5 catalog identity (kind, icon, built-in) for
// the 5 power-distribution types and the v6 port-profile fix for all
// 8 hubs in one table.
func TestSeed_PowerHubs(t *testing.T) {
s := newTestStore(t)
all, err := s.ListBuiltInDeviceTypes()
if err != nil {
t.Fatalf("list: %v", err)
}
if len(all) != 21 {
t.Errorf("built-in count = %d, want 21 (16 from v4 + 5 from v5)", len(all))
}
byName := map[string]DeviceType{}
for _, d := range all {
byName[d.Name] = d
}
cases := []struct {
name string
// kind/icon are only set for the 5 v5-power types; empty means
// "don't check" (the IOx-* keep their v4-seeded kind=hub icon=nil).
kind string
icon string
outCount int // N — number of "Power Out" outlets on the bottom edge
}{
// v5 catalog (kind+icon checked)
{name: "Multi-plug 3", kind: "hub", icon: "🔌", outCount: 3},
{name: "Multi-plug 4", kind: "hub", icon: "🔌", outCount: 4},
{name: "Multi-plug 5", kind: "hub", icon: "🔌", outCount: 5},
{name: "Multi-plug 6", kind: "hub", icon: "🔌", outCount: 6},
{name: "Wifi-plug", kind: "accessory", icon: "📶", outCount: 1},
// v4 hubs re-shaped by v6 (kind/icon left blank → not checked)
{name: "IOx-3", outCount: 3},
{name: "IOx-6", outCount: 6},
{name: "IOx-8", outCount: 8},
}
for _, c := range cases {
dt, ok := byName[c.name]
if !ok {
t.Errorf("missing %q", c.name)
continue
}
if !dt.BuiltIn {
t.Errorf("%s: built_in should be true", c.name)
}
if dt.ProjectID != nil {
t.Errorf("%s: project_id should be nil", c.name)
}
if c.kind != "" && dt.Kind != c.kind {
t.Errorf("%s: kind = %q, want %q", c.name, dt.Kind, c.kind)
}
if c.icon != "" && (dt.Icon == nil || *dt.Icon != c.icon) {
t.Errorf("%s: icon = %v, want %q", c.name, dt.Icon, c.icon)
}
if len(dt.Ports) != 2 {
t.Errorf("%s: expected 2 port-profile rows, got %d", c.name, len(dt.Ports))
continue
}
in := dt.Ports[0]
out := dt.Ports[1]
if in.CableTypeID != 1 || in.Count != 1 || in.Edge != "top" || in.LabelPrefix != "Power In" {
t.Errorf("%s: Power In row mismatch: %+v", c.name, in)
}
if out.CableTypeID != 1 || out.Count != c.outCount || out.Edge != "bottom" || out.LabelPrefix != "Power Out" {
t.Errorf("%s: Power Out row mismatch: %+v (want count=%d)", c.name, out, c.outCount)
}
}
}
// -------------------------------------------------------- CRUD (custom rows)
func TestCreateDeviceType_CustomBasic(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
dt, err := s.CreateDeviceType(p.ID, DeviceTypeCreate{
Name: "DigitalCam", Kind: "accessory",
Description: "A camera with HDMI out",
Ports: []DeviceTypePortCreate{
{CableTypeID: 1, LabelPrefix: "Power", Count: 1},
{CableTypeID: 3, LabelPrefix: "HDMI", Count: 1, SortOrder: 1},
},
})
if err != nil {
t.Fatalf("create: %v", err)
}
if dt.BuiltIn {
t.Errorf("built_in should be false")
}
if dt.ProjectID == nil || *dt.ProjectID != p.ID {
t.Errorf("project_id mismatch: %+v", dt.ProjectID)
}
if len(dt.Ports) != 2 {
t.Errorf("port profile rows = %d, want 2", len(dt.Ports))
}
}
func TestCreateDeviceType_NameClashWithBuiltIn(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
_, err := s.CreateDeviceType(p.ID, DeviceTypeCreate{Name: "NAS"})
if !errors.Is(err, ErrConflict) {
t.Errorf("err = %v, want ErrConflict (NAS is built-in)", err)
}
}
func TestCreateDeviceType_PerProjectUnique(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
if _, err := s.CreateDeviceType(p.ID, DeviceTypeCreate{Name: "Foo"}); err != nil {
t.Fatalf("first: %v", err)
}
if _, err := s.CreateDeviceType(p.ID, DeviceTypeCreate{Name: "Foo"}); !errors.Is(err, ErrConflict) {
t.Errorf("dup err = %v, want ErrConflict", err)
}
}
func TestUpdateDeviceType_BuiltInForbidden(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
all, _ := s.ListBuiltInDeviceTypes()
nas := all[0]
newName := "renamed"
_, err := s.UpdateDeviceType(p.ID, nas.ID, DeviceTypeUpdate{Name: &newName})
if !errors.Is(err, ErrForbidden) {
t.Errorf("err = %v, want ErrForbidden", err)
}
}
func TestDeleteDeviceType_BuiltInForbidden(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
all, _ := s.ListBuiltInDeviceTypes()
if err := s.DeleteDeviceType(p.ID, all[0].ID); !errors.Is(err, ErrForbidden) {
t.Errorf("err = %v, want ErrForbidden", err)
}
}
func TestUpdateDeviceType_CrossProjectIsNotFound(t *testing.T) {
s := newTestStore(t)
p1, _ := s.CreateProject("LOFT", "", "")
p2, _ := s.CreateProject("OFFICE", "", "")
dt, _ := s.CreateDeviceType(p1.ID, DeviceTypeCreate{Name: "Foo"})
newName := "bar"
if _, err := s.UpdateDeviceType(p2.ID, dt.ID, DeviceTypeUpdate{Name: &newName}); !errors.Is(err, ErrNotFound) {
t.Errorf("err = %v, want ErrNotFound", err)
}
}
// -------------------------------------------------------- device + ports seed
func TestCreateDevice_SeedsPortsFromBuiltInType(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
all, _ := s.ListBuiltInDeviceTypes()
var nasID int64
for _, dt := range all {
if dt.Name == "NAS" {
nasID = dt.ID
break
}
}
if nasID == 0 {
t.Fatal("NAS not in catalog")
}
d, err := s.CreateDevice(p.ID, DeviceCreate{
Name: "NAS-Loft", TypeID: &nasID,
X: 100, Y: 100, Width: 100, Height: 35,
})
if err != nil {
t.Fatalf("create: %v", err)
}
if d.TypeID == nil || *d.TypeID != nasID {
t.Errorf("type_id wrong: %+v", d.TypeID)
}
ports, _ := s.ListPortsForProject(p.ID)
if len(ports) != 2 {
t.Fatalf("port count = %d, want 2 (Power + RJ45)", len(ports))
}
for _, prt := range ports {
if prt.YOffset != 35 {
t.Errorf("port y_offset = %v, want 35 (bottom edge)", prt.YOffset)
}
if prt.XOffset <= 0 || prt.XOffset >= 100 {
t.Errorf("port x_offset = %v, want between 0 and 100", prt.XOffset)
}
if prt.Label == nil {
t.Errorf("port label = nil, want non-nil (label_prefix is set)")
}
}
}
func TestCreateDevice_SeedsPortsForPC_FourGroupsFiveTotal(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
all, _ := s.ListBuiltInDeviceTypes()
var pcID int64
for _, dt := range all {
if dt.Name == "PC" {
pcID = dt.ID
break
}
}
if pcID == 0 {
t.Fatal("PC not in catalog")
}
if _, err := s.CreateDevice(p.ID, DeviceCreate{
Name: "Workstation", TypeID: &pcID,
X: 0, Y: 0, Width: 100, Height: 35,
}); err != nil {
t.Fatalf("create: %v", err)
}
ports, _ := s.ListPortsForProject(p.ID)
if len(ports) != 5 {
t.Errorf("port count = %d, want 5 (Power+RJ45+HDMI+USB×2)", len(ports))
}
// USB×2 must produce two labels "USB 1" and "USB 2".
usbLabels := map[string]bool{}
for _, prt := range ports {
if prt.Label != nil && (*prt.Label == "USB 1" || *prt.Label == "USB 2") {
usbLabels[*prt.Label] = true
}
}
if !usbLabels["USB 1"] || !usbLabels["USB 2"] {
t.Errorf("USB labels missing: got %v", usbLabels)
}
}
func TestCreateDevice_NoTypeID_NoPorts(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
if _, err := s.CreateDevice(p.ID, DeviceCreate{
Name: "Freeform", X: 0, Y: 0, Width: 100, Height: 35,
}); err != nil {
t.Fatalf("create: %v", err)
}
ports, _ := s.ListPortsForProject(p.ID)
if len(ports) != 0 {
t.Errorf("freeform device should have 0 ports, got %d", len(ports))
}
}
func TestCreateDevice_CrossProjectCustomTypeRejected(t *testing.T) {
s := newTestStore(t)
p1, _ := s.CreateProject("LOFT", "", "")
p2, _ := s.CreateProject("OFFICE", "", "")
custom, _ := s.CreateDeviceType(p1.ID, DeviceTypeCreate{Name: "Exotic"})
_, err := s.CreateDevice(p2.ID, DeviceCreate{
Name: "Wrong", TypeID: &custom.ID,
X: 0, Y: 0, Width: 100, Height: 35,
})
if !errors.Is(err, ErrInvalidInput) {
t.Errorf("err = %v, want ErrInvalidInput (cross-project custom type)", err)
}
}
func TestSnapshot_IncludesPorts(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
all, _ := s.ListBuiltInDeviceTypes()
for _, dt := range all {
if dt.Name == "Mac" {
_, _ = s.CreateDevice(p.ID, DeviceCreate{
Name: "M1", TypeID: &dt.ID,
X: 0, Y: 0, Width: 100, Height: 35,
})
break
}
}
snap, _ := s.Snapshot(p.ID)
if len(snap.Ports) != 4 {
t.Errorf("snapshot.Ports = %d, want 4 (Mac: Power+HDMI+USB×2)", len(snap.Ports))
}
}

60
internal/db/excalidraw_ids.go Normal file
View File

@@ -0,0 +1,60 @@
package db
import (
"database/sql"
)
// PersistExcalidrawIDs writes the assignments returned by the exporter
// back onto the corresponding rows. Idempotent: only updates rows whose
// excalidraw_id is currently NULL (the first export "owns" the id; later
// exports reuse it so mxdrw's collab cursors / undo history survive).
//
// Caller passes one map per kind; keys are the in-project row ids,
// values are the 21-char Excalidraw element ids the exporter minted.
func (s *Store) PersistExcalidrawIDs(projectID int64,
frames, devices, ports, ios, cables map[int64]string,
) error {
tx, err := s.db.Begin()
if err != nil {
return err
}
defer tx.Rollback()
if err := updateExIDs(tx, "frames", projectID, frames); err != nil {
return err
}
if err := updateExIDs(tx, "devices", projectID, devices); err != nil {
return err
}
if err := updateExIDs(tx, "ports", projectID, ports); err != nil {
return err
}
if err := updateExIDs(tx, "io_markers", projectID, ios); err != nil {
return err
}
if err := updateExIDs(tx, "cables", projectID, cables); err != nil {
return err
}
return tx.Commit()
}
func updateExIDs(tx *sql.Tx, table string, projectID int64, m map[int64]string) error {
if len(m) == 0 {
return nil
}
stmt, err := tx.Prepare(
`UPDATE ` + table + `
SET excalidraw_id = ?
WHERE id = ? AND project_id = ? AND excalidraw_id IS NULL`,
)
if err != nil {
return err
}
defer stmt.Close()
for id, exID := range m {
if _, err := stmt.Exec(exID, id, projectID); err != nil {
return err
}
}
return nil
}

98
internal/db/frames_devices.go
View File

@@ -166,9 +166,14 @@ func (s *Store) DeleteFrame(projectID, id int64) error {
// -----------------------------------------------------------------------------
// DeviceCreate is the create-shape. FrameID may be nil ("outside any frame").
// TypeID may be nil for a freeform device (no auto-seeded ports). If set,
// the type must be either built-in or a project-custom type belonging to
// the same project — and CreateDevice seeds the device's ports from the
// type's port profile in the same transaction.
type DeviceCreate struct {
Name string
FrameID *int64
TypeID *int64
Color string
X float64
Y float64
@@ -179,10 +184,11 @@ type DeviceCreate struct {
// DeviceUpdate is the partial-update shape. project_id deliberately not
// settable. FrameID is *(*int64) so callers can distinguish "leave as-is"
// (nil) from "set to NULL" (&nil) — Go syntax: pass a *(*int64) where the
// inner pointer is nil to clear.
// inner pointer is nil to clear. TypeID uses the same FrameRef tri-state.
type DeviceUpdate struct {
Name *string
FrameID FrameRef // see FrameRef below
TypeID FrameRef // tri-state for type_id: same shape as FrameRef
Color *string
X *float64
Y *float64
@@ -201,7 +207,11 @@ type FrameRef struct {
}
// CreateDevice inserts a new device. FrameID, if provided, must reference
// a frame in the same project.
// a frame in the same project. TypeID, if provided, must reference a
// built-in or a project-custom device_type in the same project — the
// store seeds the device's ports from that type's profile in the same
// transaction so a half-created device (row inserted, ports missing)
// can never exist.
func (s *Store) CreateDevice(projectID int64, d DeviceCreate) (*Device, error) {
name := strings.TrimSpace(d.Name)
if name == "" {
@@ -221,32 +231,62 @@ func (s *Store) CreateDevice(projectID int64, d DeviceCreate) (*Device, error) {
return nil, err
}
}
if d.TypeID != nil {
dt, err := s.GetDeviceType(*d.TypeID)
if err != nil {
if errors.Is(err, ErrNotFound) {
return nil, fmt.Errorf("%w: device type %d not found", ErrInvalidInput, *d.TypeID)
}
return nil, err
}
// Project-custom types must match the device's project. Built-ins
// (project_id NULL) are available to every project.
if dt.ProjectID != nil && *dt.ProjectID != projectID {
return nil, fmt.Errorf("%w: device type %d is custom to another project", ErrInvalidInput, *d.TypeID)
}
}
color := strings.TrimSpace(d.Color)
if color == "" {
color = "#1e1e1e"
}
res, err := s.db.Exec(
`INSERT INTO devices (project_id, frame_id, name, color, x, y, width, height)
VALUES (?, ?, ?, ?, ?, ?, ?, ?)`,
projectID, nullableInt64(d.FrameID), name, color, d.X, d.Y, d.Width, d.Height,
tx, err := s.db.Begin()
if err != nil {
return nil, err
}
defer tx.Rollback()
res, err := tx.Exec(
`INSERT INTO devices (project_id, frame_id, type_id, name, color, x, y, width, height)
VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?)`,
projectID, nullableInt64(d.FrameID), nullableInt64(d.TypeID),
name, color, d.X, d.Y, d.Width, d.Height,
)
if err != nil {
return nil, mapWriteErr(err)
}
id, _ := res.LastInsertId()
return s.GetDevice(projectID, id)
deviceID, _ := res.LastInsertId()
if d.TypeID != nil {
if err := s.seedPortsFromType(tx, projectID, deviceID, *d.TypeID, d.Width, d.Height); err != nil {
return nil, err
}
}
if err := tx.Commit(); err != nil {
return nil, err
}
return s.GetDevice(projectID, deviceID)
}
// GetDevice loads a device, project-scoped.
func (s *Store) GetDevice(projectID, id int64) (*Device, error) {
var d Device
var frame sql.NullInt64
var frame, typeID sql.NullInt64
var ex sql.NullString
err := s.db.QueryRow(
`SELECT id, project_id, frame_id, name, color, x, y, width, height, excalidraw_id, created_at, updated_at
`SELECT id, project_id, frame_id, type_id, name, color, x, y, width, height, excalidraw_id, created_at, updated_at
FROM devices WHERE id = ? AND project_id = ?`, id, projectID,
).Scan(&d.ID, &d.ProjectID, &frame, &d.Name, &d.Color, &d.X, &d.Y, &d.Width, &d.Height,
).Scan(&d.ID, &d.ProjectID, &frame, &typeID, &d.Name, &d.Color, &d.X, &d.Y, &d.Width, &d.Height,
&ex, &d.CreatedAt, &d.UpdatedAt)
if errors.Is(err, sql.ErrNoRows) {
return nil, ErrNotFound
@@ -258,6 +298,10 @@ func (s *Store) GetDevice(projectID, id int64) (*Device, error) {
v := frame.Int64
d.FrameID = &v
}
if typeID.Valid {
v := typeID.Int64
d.TypeID = &v
}
if ex.Valid {
d.ExcalidrawID = &ex.String
}
@@ -277,13 +321,13 @@ func (s *Store) ListDevices(projectID int64, frameID *int64) ([]Device, error) {
)
if frameID != nil {
rows, err = s.db.Query(
`SELECT id, project_id, frame_id, name, color, x, y, width, height, excalidraw_id, created_at, updated_at
`SELECT id, project_id, frame_id, type_id, name, color, x, y, width, height, excalidraw_id, created_at, updated_at
FROM devices WHERE project_id = ? AND frame_id = ? ORDER BY created_at, id`,
projectID, *frameID,
)
} else {
rows, err = s.db.Query(
`SELECT id, project_id, frame_id, name, color, x, y, width, height, excalidraw_id, created_at, updated_at
`SELECT id, project_id, frame_id, type_id, name, color, x, y, width, height, excalidraw_id, created_at, updated_at
FROM devices WHERE project_id = ? ORDER BY created_at, id`,
projectID,
)
@@ -295,9 +339,9 @@ func (s *Store) ListDevices(projectID int64, frameID *int64) ([]Device, error) {
out := []Device{}
for rows.Next() {
var d Device
var frame sql.NullInt64
var frame, typeID sql.NullInt64
var ex sql.NullString
if err := rows.Scan(&d.ID, &d.ProjectID, &frame, &d.Name, &d.Color, &d.X, &d.Y, &d.Width, &d.Height,
if err := rows.Scan(&d.ID, &d.ProjectID, &frame, &typeID, &d.Name, &d.Color, &d.X, &d.Y, &d.Width, &d.Height,
&ex, &d.CreatedAt, &d.UpdatedAt); err != nil {
return nil, err
}
@@ -305,6 +349,10 @@ func (s *Store) ListDevices(projectID int64, frameID *int64) ([]Device, error) {
v := frame.Int64
d.FrameID = &v
}
if typeID.Valid {
v := typeID.Int64
d.TypeID = &v
}
if ex.Valid {
d.ExcalidrawID = &ex.String
}
@@ -363,11 +411,27 @@ func (s *Store) UpdateDevice(projectID, id int64, u DeviceUpdate) (*Device, erro
}
cur.FrameID = u.FrameID.ID
}
if u.TypeID.Set {
if u.TypeID.ID != nil {
dt, err := s.GetDeviceType(*u.TypeID.ID)
if err != nil {
if errors.Is(err, ErrNotFound) {
return nil, fmt.Errorf("%w: device type %d not found", ErrInvalidInput, *u.TypeID.ID)
}
return nil, err
}
if dt.ProjectID != nil && *dt.ProjectID != projectID {
return nil, fmt.Errorf("%w: device type %d is custom to another project", ErrInvalidInput, *u.TypeID.ID)
}
}
cur.TypeID = u.TypeID.ID
}
if _, err := s.db.Exec(
`UPDATE devices
SET frame_id = ?, name = ?, color = ?, x = ?, y = ?, width = ?, height = ?, updated_at = datetime('now')
SET frame_id = ?, type_id = ?, name = ?, color = ?, x = ?, y = ?, width = ?, height = ?, updated_at = datetime('now')
WHERE id = ? AND project_id = ?`,
nullableInt64(cur.FrameID), cur.Name, cur.Color, cur.X, cur.Y, cur.Width, cur.Height, id, projectID,
nullableInt64(cur.FrameID), nullableInt64(cur.TypeID),
cur.Name, cur.Color, cur.X, cur.Y, cur.Width, cur.Height, id, projectID,
); err != nil {
return nil, mapWriteErr(err)
}

180
internal/db/io_markers.go Normal file
View File

@@ -0,0 +1,180 @@
package db
import (
"database/sql"
"errors"
"fmt"
"strings"
)
// IOMarker is a wall-outlet terminator inside a project. Mostly Power
// by convention; the schema doesn't enforce it.
type IOMarker struct {
ID int64 `json:"id"`
ProjectID int64 `json:"project_id"`
FrameID *int64 `json:"frame_id"`
Label string `json:"label"`
X float64 `json:"x"`
Y float64 `json:"y"`
ExcalidrawID *string `json:"excalidraw_id,omitempty"`
CreatedAt string `json:"created_at"`
UpdatedAt string `json:"updated_at"`
}
// IOMarkerCreate is the create-shape.
type IOMarkerCreate struct {
FrameID *int64
Label string
X float64
Y float64
}
// IOMarkerUpdate is the partial-update shape. project_id deliberately not
// settable; frame_id uses the same tri-state shape as DeviceUpdate.FrameID.
type IOMarkerUpdate struct {
Label *string
FrameID FrameRef
X *float64
Y *float64
}
// CreateIOMarker inserts a new IO marker. If frame_id is set, it must
// reference a frame in the same project.
func (s *Store) CreateIOMarker(projectID int64, m IOMarkerCreate) (*IOMarker, error) {
label := strings.TrimSpace(m.Label)
if label == "" {
label = "IO"
}
if _, err := s.GetProject(projectID); err != nil {
return nil, err
}
if m.FrameID != nil {
if _, err := s.GetFrame(projectID, *m.FrameID); err != nil {
if errors.Is(err, ErrNotFound) {
return nil, fmt.Errorf("%w: frame_id %d not in project %d", ErrInvalidInput, *m.FrameID, projectID)
}
return nil, err
}
}
res, err := s.db.Exec(
`INSERT INTO io_markers (project_id, frame_id, label, x, y)
VALUES (?, ?, ?, ?, ?)`,
projectID, nullableInt64(m.FrameID), label, m.X, m.Y,
)
if err != nil {
return nil, mapWriteErr(err)
}
id, _ := res.LastInsertId()
return s.GetIOMarker(projectID, id)
}
// GetIOMarker loads an IO marker, project-scoped.
func (s *Store) GetIOMarker(projectID, id int64) (*IOMarker, error) {
var m IOMarker
var frame sql.NullInt64
var ex sql.NullString
err := s.db.QueryRow(
`SELECT id, project_id, frame_id, label, x, y, excalidraw_id, created_at, updated_at
FROM io_markers WHERE id = ? AND project_id = ?`, id, projectID,
).Scan(&m.ID, &m.ProjectID, &frame, &m.Label, &m.X, &m.Y, &ex, &m.CreatedAt, &m.UpdatedAt)
if errors.Is(err, sql.ErrNoRows) {
return nil, ErrNotFound
}
if err != nil {
return nil, err
}
if frame.Valid {
v := frame.Int64
m.FrameID = &v
}
if ex.Valid {
m.ExcalidrawID = &ex.String
}
return &m, nil
}
// ListIOMarkers returns every IO marker in a project, ordered by creation.
func (s *Store) ListIOMarkers(projectID int64) ([]IOMarker, error) {
rows, err := s.db.Query(
`SELECT id, project_id, frame_id, label, x, y, excalidraw_id, created_at, updated_at
FROM io_markers WHERE project_id = ? ORDER BY created_at, id`, projectID,
)
if err != nil {
return nil, err
}
defer rows.Close()
out := []IOMarker{}
for rows.Next() {
var m IOMarker
var frame sql.NullInt64
var ex sql.NullString
if err := rows.Scan(&m.ID, &m.ProjectID, &frame, &m.Label, &m.X, &m.Y,
&ex, &m.CreatedAt, &m.UpdatedAt); err != nil {
return nil, err
}
if frame.Valid {
v := frame.Int64
m.FrameID = &v
}
if ex.Valid {
m.ExcalidrawID = &ex.String
}
out = append(out, m)
}
return out, rows.Err()
}
// UpdateIOMarker applies a partial update. project_id is locked; frame_id
// tri-state mirrors DeviceUpdate.FrameID.
func (s *Store) UpdateIOMarker(projectID, id int64, u IOMarkerUpdate) (*IOMarker, error) {
cur, err := s.GetIOMarker(projectID, id)
if err != nil {
return nil, err
}
if u.Label != nil {
v := strings.TrimSpace(*u.Label)
if v == "" {
return nil, fmt.Errorf("%w: label cannot be empty", ErrInvalidInput)
}
cur.Label = v
}
if u.X != nil {
cur.X = *u.X
}
if u.Y != nil {
cur.Y = *u.Y
}
if u.FrameID.Set {
if u.FrameID.ID != nil {
if _, err := s.GetFrame(projectID, *u.FrameID.ID); err != nil {
if errors.Is(err, ErrNotFound) {
return nil, fmt.Errorf("%w: frame_id %d not in project %d", ErrInvalidInput, *u.FrameID.ID, projectID)
}
return nil, err
}
}
cur.FrameID = u.FrameID.ID
}
if _, err := s.db.Exec(
`UPDATE io_markers
SET frame_id = ?, label = ?, x = ?, y = ?, updated_at = datetime('now')
WHERE id = ? AND project_id = ?`,
nullableInt64(cur.FrameID), cur.Label, cur.X, cur.Y, id, projectID,
); err != nil {
return nil, mapWriteErr(err)
}
return s.GetIOMarker(projectID, id)
}
// DeleteIOMarker removes an IO marker from a project.
func (s *Store) DeleteIOMarker(projectID, id int64) error {
if _, err := s.GetIOMarker(projectID, id); err != nil {
return err
}
if _, err := s.db.Exec(
`DELETE FROM io_markers WHERE id = ? AND project_id = ?`, id, projectID,
); err != nil {
return err
}
return nil
}

113
internal/db/io_markers_test.go Normal file
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package db
import (
"errors"
"testing"
)
func TestCreateIOMarker_DefaultsLabel(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
m, err := s.CreateIOMarker(p.ID, IOMarkerCreate{X: 10, Y: 20})
if err != nil {
t.Fatalf("create: %v", err)
}
if m.Label != "IO" {
t.Errorf("default label = %q, want IO", m.Label)
}
if m.FrameID != nil {
t.Errorf("frame_id = %v, want nil", m.FrameID)
}
}
func TestCreateIOMarker_CustomLabel(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
m, err := s.CreateIOMarker(p.ID, IOMarkerCreate{Label: "Wall A", X: 0, Y: 0})
if err != nil {
t.Fatalf("create: %v", err)
}
if m.Label != "Wall A" {
t.Errorf("label = %q, want Wall A", m.Label)
}
}
func TestCreateIOMarker_CrossProjectFrameRejected(t *testing.T) {
s := newTestStore(t)
p1, _ := s.CreateProject("LOFT", "", "")
p2, _ := s.CreateProject("OFFICE", "", "")
f2, _ := s.CreateFrame(p2.ID, FrameCreate{Name: "desk", Width: 100, Height: 50})
_, err := s.CreateIOMarker(p1.ID, IOMarkerCreate{FrameID: &f2.ID, X: 0, Y: 0})
if !errors.Is(err, ErrInvalidInput) {
t.Errorf("cross-project frame_id should ErrInvalidInput; got %v", err)
}
}
func TestGetIOMarker_WrongProjectIsNotFound(t *testing.T) {
s := newTestStore(t)
p1, _ := s.CreateProject("LOFT", "", "")
p2, _ := s.CreateProject("OFFICE", "", "")
m, _ := s.CreateIOMarker(p1.ID, IOMarkerCreate{X: 0, Y: 0})
if _, err := s.GetIOMarker(p2.ID, m.ID); !errors.Is(err, ErrNotFound) {
t.Errorf("cross-project GetIOMarker should be ErrNotFound; got %v", err)
}
}
func TestUpdateIOMarker_FrameIDTriState(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
f, _ := s.CreateFrame(p.ID, FrameCreate{Name: "desk", Width: 100, Height: 50})
m, _ := s.CreateIOMarker(p.ID, IOMarkerCreate{FrameID: &f.ID, X: 0, Y: 0})
// Leave alone — passing a different X must not clear frame_id.
nx := 99.0
u1, _ := s.UpdateIOMarker(p.ID, m.ID, IOMarkerUpdate{X: &nx})
if u1.FrameID == nil || *u1.FrameID != f.ID {
t.Errorf("frame_id should still be set (Set=false); got %v", u1.FrameID)
}
// Clear.
u2, _ := s.UpdateIOMarker(p.ID, m.ID, IOMarkerUpdate{FrameID: FrameRef{Set: true, ID: nil}})
if u2.FrameID != nil {
t.Errorf("frame_id should be nil after clear; got %v", *u2.FrameID)
}
}
func TestDeleteFrame_SetsIOMarkerFrameIDToNull(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
f, _ := s.CreateFrame(p.ID, FrameCreate{Name: "desk", Width: 800, Height: 600})
m, _ := s.CreateIOMarker(p.ID, IOMarkerCreate{FrameID: &f.ID, X: 10, Y: 20})
if m.FrameID == nil {
t.Fatalf("pre-condition: io marker should have frame_id")
}
if err := s.DeleteFrame(p.ID, f.ID); err != nil {
t.Fatalf("delete frame: %v", err)
}
m2, _ := s.GetIOMarker(p.ID, m.ID)
if m2.FrameID != nil {
t.Errorf("io marker frame_id post-delete = %v, want nil (SET NULL)", m2.FrameID)
}
}
func TestSnapshot_PopulatesIOMarkers(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
_, _ = s.CreateIOMarker(p.ID, IOMarkerCreate{Label: "Wall A", X: 10, Y: 20})
_, _ = s.CreateIOMarker(p.ID, IOMarkerCreate{Label: "UPS rear", X: 100, Y: 200})
snap, err := s.Snapshot(p.ID)
if err != nil {
t.Fatalf("snapshot: %v", err)
}
if len(snap.IOMarkers) != 2 {
t.Errorf("io_markers len = %d, want 2", len(snap.IOMarkers))
}
}
func TestDeleteIOMarker_NotFound(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
if err := s.DeleteIOMarker(p.ID, 999); !errors.Is(err, ErrNotFound) {
t.Errorf("got %v, want ErrNotFound", err)
}
}

167
internal/db/migrations/002_device_catalog.sql Normal file
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-- mCables v4 device-type catalog. See docs/design.md §2.1 + §2.2.
-- v4 — device-type catalog. Built-in types live globally (project_id NULL).
-- Per-project custom types use project_id = X.
CREATE TABLE device_types (
id INTEGER PRIMARY KEY,
project_id INTEGER REFERENCES projects(id) ON DELETE CASCADE,
name TEXT NOT NULL,
kind TEXT NOT NULL DEFAULT 'generic',
icon TEXT,
description TEXT NOT NULL DEFAULT '',
built_in INTEGER NOT NULL DEFAULT 0,
created_at TEXT NOT NULL DEFAULT (datetime('now')),
updated_at TEXT NOT NULL DEFAULT (datetime('now')),
UNIQUE (project_id, name)
);
CREATE INDEX device_types_project_idx ON device_types(project_id);
-- v4 — port profile per device type. Used to seed ports when a device
-- of that type is created.
CREATE TABLE device_type_ports (
id INTEGER PRIMARY KEY,
device_type_id INTEGER NOT NULL REFERENCES device_types(id) ON DELETE CASCADE,
cable_type_id INTEGER NOT NULL REFERENCES cable_types(id) ON DELETE RESTRICT,
label_prefix TEXT NOT NULL DEFAULT '',
count INTEGER NOT NULL DEFAULT 1 CHECK (count >= 1),
edge TEXT NOT NULL DEFAULT 'bottom' CHECK (edge IN ('top','bottom','left','right')),
sort_order INTEGER NOT NULL DEFAULT 0
);
CREATE INDEX device_type_ports_type_idx ON device_type_ports(device_type_id);
-- v4 — devices gain a nullable type_id. SET NULL on type-delete so we
-- never cascade-delete a device the user still wants.
ALTER TABLE devices ADD COLUMN type_id INTEGER
REFERENCES device_types(id) ON DELETE SET NULL;
CREATE INDEX devices_type_idx ON devices(type_id);
-- Seed the 14 built-in device types.
-- project_id stays NULL → built-in. The trio Screen / Keyboard / Mouse
-- was added in v4.1 to support the Home Office setup template (slice 6).
INSERT INTO device_types (name, kind, built_in, description) VALUES
('NAS', 'storage', 1, 'Network-attached storage'),
('PC', 'compute', 1, 'Desktop PC / workstation'),
('Mac', 'compute', 1, 'Mac (mini / studio / desktop)'),
('Notebook', 'compute', 1, 'Laptop / notebook'),
('TV', 'display', 1, 'Television'),
('Soundbar', 'audio', 1, 'Soundbar / AV receiver'),
('Switch', 'network', 1, 'Ethernet switch'),
('fritz', 'network', 1, 'AVM Fritz!Box router'),
('ChromeCast', 'display', 1, 'ChromeCast / streaming stick'),
('SteamLink', 'compute', 1, 'Steam Link / dedicated streaming box'),
('IOx-3', 'hub', 1, 'USB hub with 3 downstream ports'),
('IOx-6', 'hub', 1, 'USB hub with 6 downstream ports'),
('IOx-8', 'hub', 1, 'USB hub with 8 downstream ports'),
('Screen', 'display', 1, 'External monitor / display'),
('Keyboard', 'accessory', 1, 'Keyboard'),
('Mouse', 'accessory', 1, 'Mouse / pointing device');
-- Now seed device_type_ports. Each row references its device_type by
-- (SELECT id FROM device_types WHERE name = ? AND project_id IS NULL).
--
-- cable_types ids come from the 001 seed in fixed order:
-- 1=Power, 2=USB, 3=HDMI, 4=DP, 5=RJ45
--
-- label_prefix is what the seeder appends a 1..N suffix to when count>1.
-- Default edge is 'bottom'; sort_order positions the port-types from
-- left to right along that edge.
-- NAS: Power × 1, RJ45 × 1
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 1, 'bottom', 0 FROM device_types WHERE name='NAS' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 5, 'RJ45', 1, 'bottom', 1 FROM device_types WHERE name='NAS' AND project_id IS NULL;
-- PC: Power × 1, RJ45 × 1, HDMI × 1, USB × 2
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 1, 'bottom', 0 FROM device_types WHERE name='PC' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 5, 'RJ45', 1, 'bottom', 1 FROM device_types WHERE name='PC' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 3, 'HDMI', 1, 'bottom', 2 FROM device_types WHERE name='PC' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 2, 'USB', 2, 'bottom', 3 FROM device_types WHERE name='PC' AND project_id IS NULL;
-- Mac: Power × 1, HDMI × 1, USB × 2
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 1, 'bottom', 0 FROM device_types WHERE name='Mac' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 3, 'HDMI', 1, 'bottom', 1 FROM device_types WHERE name='Mac' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 2, 'USB', 2, 'bottom', 2 FROM device_types WHERE name='Mac' AND project_id IS NULL;
-- Notebook: Power × 1, USB × 2
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 1, 'bottom', 0 FROM device_types WHERE name='Notebook' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 2, 'USB', 2, 'bottom', 1 FROM device_types WHERE name='Notebook' AND project_id IS NULL;
-- TV: Power × 1, HDMI × 2
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 1, 'bottom', 0 FROM device_types WHERE name='TV' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 3, 'HDMI', 2, 'bottom', 1 FROM device_types WHERE name='TV' AND project_id IS NULL;
-- Soundbar: Power × 1, HDMI × 1
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 1, 'bottom', 0 FROM device_types WHERE name='Soundbar' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 3, 'HDMI', 1, 'bottom', 1 FROM device_types WHERE name='Soundbar' AND project_id IS NULL;
-- Switch: Power × 1, RJ45 × 5
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 1, 'bottom', 0 FROM device_types WHERE name='Switch' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 5, 'RJ45', 5, 'bottom', 1 FROM device_types WHERE name='Switch' AND project_id IS NULL;
-- fritz: Power × 1, RJ45 × 4
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 1, 'bottom', 0 FROM device_types WHERE name='fritz' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 5, 'RJ45', 4, 'bottom', 1 FROM device_types WHERE name='fritz' AND project_id IS NULL;
-- ChromeCast: Power × 1, HDMI × 1
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 1, 'bottom', 0 FROM device_types WHERE name='ChromeCast' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 3, 'HDMI', 1, 'bottom', 1 FROM device_types WHERE name='ChromeCast' AND project_id IS NULL;
-- SteamLink: Power × 1, HDMI × 1, USB × 2
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 1, 'bottom', 0 FROM device_types WHERE name='SteamLink' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 3, 'HDMI', 1, 'bottom', 1 FROM device_types WHERE name='SteamLink' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 2, 'USB', 2, 'bottom', 2 FROM device_types WHERE name='SteamLink' AND project_id IS NULL;
-- IOx-3: Power × 1, USB × 3
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 1, 'bottom', 0 FROM device_types WHERE name='IOx-3' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 2, 'USB', 3, 'bottom', 1 FROM device_types WHERE name='IOx-3' AND project_id IS NULL;
-- IOx-6: Power × 1, USB × 6
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 1, 'bottom', 0 FROM device_types WHERE name='IOx-6' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 2, 'USB', 6, 'bottom', 1 FROM device_types WHERE name='IOx-6' AND project_id IS NULL;
-- IOx-8: Power × 1, USB × 8
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 1, 'bottom', 0 FROM device_types WHERE name='IOx-8' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 2, 'USB', 8, 'bottom', 1 FROM device_types WHERE name='IOx-8' AND project_id IS NULL;
-- Screen: Power × 1, HDMI × 1 (v4.1)
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 1, 'bottom', 0 FROM device_types WHERE name='Screen' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 3, 'HDMI', 1, 'bottom', 1 FROM device_types WHERE name='Screen' AND project_id IS NULL;
-- Keyboard: USB × 1 (v4.1)
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 2, 'USB', 1, 'bottom', 0 FROM device_types WHERE name='Keyboard' AND project_id IS NULL;
-- Mouse: USB × 1 (v4.1)
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 2, 'USB', 1, 'bottom', 0 FROM device_types WHERE name='Mouse' AND project_id IS NULL;

34
internal/db/migrations/003_connection_requirements.sql Normal file
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-- mCables v4.1 connection requirements + solver-owned cable flag.
-- See docs/design.md §2.1 + §2 connection_requirements + §5b.3.
-- The solver's input: "device A must connect to device B via cable type T".
-- Many per device. (from, to) is normalised on insert as
-- (pair_lo, pair_hi) = (MIN(from, to), MAX(from, to)) so (A,B,T) and (B,A,T)
-- can't coexist (UNIQUE enforces it).
CREATE TABLE connection_requirements (
id INTEGER PRIMARY KEY,
project_id INTEGER NOT NULL REFERENCES projects(id) ON DELETE CASCADE,
from_device_id INTEGER NOT NULL REFERENCES devices(id) ON DELETE CASCADE,
to_device_id INTEGER NOT NULL REFERENCES devices(id) ON DELETE CASCADE,
preferred_cable_type_id INTEGER REFERENCES cable_types(id) ON DELETE SET NULL,
must_connect INTEGER NOT NULL DEFAULT 1 CHECK (must_connect IN (0, 1)),
notes TEXT NOT NULL DEFAULT '',
pair_lo INTEGER NOT NULL,
pair_hi INTEGER NOT NULL,
created_at TEXT NOT NULL DEFAULT (datetime('now')),
updated_at TEXT NOT NULL DEFAULT (datetime('now')),
CHECK (from_device_id != to_device_id),
UNIQUE (project_id, pair_lo, pair_hi, preferred_cable_type_id)
);
CREATE INDEX conn_reqs_project_idx ON connection_requirements(project_id);
CREATE INDEX conn_reqs_pair_idx ON connection_requirements(project_id, pair_lo, pair_hi);
CREATE INDEX conn_reqs_from_idx ON connection_requirements(from_device_id);
CREATE INDEX conn_reqs_to_idx ON connection_requirements(to_device_id);
-- Solver-owned cable flag (§5b.3): 1 = the solver placed this cable,
-- replaceable on re-solve. 0 = m hand-drew it, left alone by the solver.
-- Slice 6 ships the solver that writes auto=1; slice 7 ships hand-drawn
-- cable creation that writes auto=0.
ALTER TABLE cables ADD COLUMN auto INTEGER NOT NULL DEFAULT 0
CHECK (auto IN (0, 1));
CREATE INDEX cables_auto_idx ON cables(auto);

157
internal/db/migrations/004_setup_templates.sql Normal file
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-- mCables v4.1 setup templates. See docs/design.md §2.4.
--
-- A template is a named recipe of (device_types + requirements) that
-- bootstraps a project from blank to solver-ready in one apply call.
CREATE TABLE setup_templates (
id INTEGER PRIMARY KEY,
name TEXT NOT NULL UNIQUE,
description TEXT NOT NULL DEFAULT '',
built_in INTEGER NOT NULL DEFAULT 0,
created_at TEXT NOT NULL DEFAULT (datetime('now')),
updated_at TEXT NOT NULL DEFAULT (datetime('now'))
);
CREATE TABLE setup_template_devices (
id INTEGER PRIMARY KEY,
template_id INTEGER NOT NULL REFERENCES setup_templates(id) ON DELETE CASCADE,
device_type_id INTEGER NOT NULL REFERENCES device_types(id) ON DELETE RESTRICT,
suggested_name TEXT,
sort_order INTEGER NOT NULL DEFAULT 0
);
CREATE INDEX setup_template_devices_template_idx ON setup_template_devices(template_id);
CREATE TABLE setup_template_requirements (
id INTEGER PRIMARY KEY,
template_id INTEGER NOT NULL REFERENCES setup_templates(id) ON DELETE CASCADE,
from_template_device_id INTEGER NOT NULL REFERENCES setup_template_devices(id) ON DELETE CASCADE,
to_template_device_id INTEGER NOT NULL REFERENCES setup_template_devices(id) ON DELETE CASCADE,
preferred_cable_type_id INTEGER REFERENCES cable_types(id) ON DELETE SET NULL,
must_connect INTEGER NOT NULL DEFAULT 1 CHECK (must_connect IN (0, 1)),
CHECK (from_template_device_id != to_template_device_id)
);
CREATE INDEX setup_template_reqs_template_idx ON setup_template_requirements(template_id);
-- ---------------------------------------------------------------- Living Room
INSERT INTO setup_templates (name, description, built_in)
VALUES ('Living Room', 'TV + Soundbar + ChromeCast, HDMI between them.', 1);
INSERT INTO setup_template_devices (template_id, device_type_id, suggested_name, sort_order)
SELECT
(SELECT id FROM setup_templates WHERE name='Living Room'),
(SELECT id FROM device_types WHERE name='TV' AND project_id IS NULL),
'TV', 0;
INSERT INTO setup_template_devices (template_id, device_type_id, suggested_name, sort_order)
SELECT
(SELECT id FROM setup_templates WHERE name='Living Room'),
(SELECT id FROM device_types WHERE name='Soundbar' AND project_id IS NULL),
'Soundbar', 1;
INSERT INTO setup_template_devices (template_id, device_type_id, suggested_name, sort_order)
SELECT
(SELECT id FROM setup_templates WHERE name='Living Room'),
(SELECT id FROM device_types WHERE name='ChromeCast' AND project_id IS NULL),
'ChromeCast', 2;
-- TV ↔ Soundbar (HDMI, must)
INSERT INTO setup_template_requirements
(template_id, from_template_device_id, to_template_device_id, preferred_cable_type_id, must_connect)
SELECT
(SELECT id FROM setup_templates WHERE name='Living Room'),
(SELECT id FROM setup_template_devices WHERE template_id = (SELECT id FROM setup_templates WHERE name='Living Room') AND suggested_name='TV'),
(SELECT id FROM setup_template_devices WHERE template_id = (SELECT id FROM setup_templates WHERE name='Living Room') AND suggested_name='Soundbar'),
3, 1;
-- TV ↔ ChromeCast (HDMI, must)
INSERT INTO setup_template_requirements
(template_id, from_template_device_id, to_template_device_id, preferred_cable_type_id, must_connect)
SELECT
(SELECT id FROM setup_templates WHERE name='Living Room'),
(SELECT id FROM setup_template_devices WHERE template_id = (SELECT id FROM setup_templates WHERE name='Living Room') AND suggested_name='TV'),
(SELECT id FROM setup_template_devices WHERE template_id = (SELECT id FROM setup_templates WHERE name='Living Room') AND suggested_name='ChromeCast'),
3, 1;
-- ---------------------------------------------------------------- Home Office
INSERT INTO setup_templates (name, description, built_in)
VALUES ('Home Office', 'PC + Screen + Keyboard + Mouse. HDMI + USB.', 1);
INSERT INTO setup_template_devices (template_id, device_type_id, suggested_name, sort_order)
SELECT
(SELECT id FROM setup_templates WHERE name='Home Office'),
(SELECT id FROM device_types WHERE name='PC' AND project_id IS NULL),
'PC', 0;
INSERT INTO setup_template_devices (template_id, device_type_id, suggested_name, sort_order)
SELECT
(SELECT id FROM setup_templates WHERE name='Home Office'),
(SELECT id FROM device_types WHERE name='Screen' AND project_id IS NULL),
'Screen', 1;
INSERT INTO setup_template_devices (template_id, device_type_id, suggested_name, sort_order)
SELECT
(SELECT id FROM setup_templates WHERE name='Home Office'),
(SELECT id FROM device_types WHERE name='Keyboard' AND project_id IS NULL),
'Keyboard', 2;
INSERT INTO setup_template_devices (template_id, device_type_id, suggested_name, sort_order)
SELECT
(SELECT id FROM setup_templates WHERE name='Home Office'),
(SELECT id FROM device_types WHERE name='Mouse' AND project_id IS NULL),
'Mouse', 3;
-- PC ↔ Screen (HDMI, must)
INSERT INTO setup_template_requirements
(template_id, from_template_device_id, to_template_device_id, preferred_cable_type_id, must_connect)
SELECT
(SELECT id FROM setup_templates WHERE name='Home Office'),
(SELECT id FROM setup_template_devices WHERE template_id = (SELECT id FROM setup_templates WHERE name='Home Office') AND suggested_name='PC'),
(SELECT id FROM setup_template_devices WHERE template_id = (SELECT id FROM setup_templates WHERE name='Home Office') AND suggested_name='Screen'),
3, 1;
-- PC ↔ Keyboard (USB, must)
INSERT INTO setup_template_requirements
(template_id, from_template_device_id, to_template_device_id, preferred_cable_type_id, must_connect)
SELECT
(SELECT id FROM setup_templates WHERE name='Home Office'),
(SELECT id FROM setup_template_devices WHERE template_id = (SELECT id FROM setup_templates WHERE name='Home Office') AND suggested_name='PC'),
(SELECT id FROM setup_template_devices WHERE template_id = (SELECT id FROM setup_templates WHERE name='Home Office') AND suggested_name='Keyboard'),
2, 1;
-- PC ↔ Mouse (USB, must)
INSERT INTO setup_template_requirements
(template_id, from_template_device_id, to_template_device_id, preferred_cable_type_id, must_connect)
SELECT
(SELECT id FROM setup_templates WHERE name='Home Office'),
(SELECT id FROM setup_template_devices WHERE template_id = (SELECT id FROM setup_templates WHERE name='Home Office') AND suggested_name='PC'),
(SELECT id FROM setup_template_devices WHERE template_id = (SELECT id FROM setup_templates WHERE name='Home Office') AND suggested_name='Mouse'),
2, 1;
-- ---------------------------------------------------------------- Server Rack
INSERT INTO setup_templates (name, description, built_in)
VALUES ('Server Rack', 'NAS + Switch + fritz. Ethernet trunk + power.', 1);
INSERT INTO setup_template_devices (template_id, device_type_id, suggested_name, sort_order)
SELECT
(SELECT id FROM setup_templates WHERE name='Server Rack'),
(SELECT id FROM device_types WHERE name='NAS' AND project_id IS NULL),
'NAS', 0;
INSERT INTO setup_template_devices (template_id, device_type_id, suggested_name, sort_order)
SELECT
(SELECT id FROM setup_templates WHERE name='Server Rack'),
(SELECT id FROM device_types WHERE name='Switch' AND project_id IS NULL),
'Switch', 1;
INSERT INTO setup_template_devices (template_id, device_type_id, suggested_name, sort_order)
SELECT
(SELECT id FROM setup_templates WHERE name='Server Rack'),
(SELECT id FROM device_types WHERE name='fritz' AND project_id IS NULL),
'fritz', 2;
-- NAS ↔ Switch (RJ45, must)
INSERT INTO setup_template_requirements
(template_id, from_template_device_id, to_template_device_id, preferred_cable_type_id, must_connect)
SELECT
(SELECT id FROM setup_templates WHERE name='Server Rack'),
(SELECT id FROM setup_template_devices WHERE template_id = (SELECT id FROM setup_templates WHERE name='Server Rack') AND suggested_name='NAS'),
(SELECT id FROM setup_template_devices WHERE template_id = (SELECT id FROM setup_templates WHERE name='Server Rack') AND suggested_name='Switch'),
5, 1;
-- Switch ↔ fritz (RJ45, must)
INSERT INTO setup_template_requirements
(template_id, from_template_device_id, to_template_device_id, preferred_cable_type_id, must_connect)
SELECT
(SELECT id FROM setup_templates WHERE name='Server Rack'),
(SELECT id FROM setup_template_devices WHERE template_id = (SELECT id FROM setup_templates WHERE name='Server Rack') AND suggested_name='Switch'),
(SELECT id FROM setup_template_devices WHERE template_id = (SELECT id FROM setup_templates WHERE name='Server Rack') AND suggested_name='fritz'),
5, 1;

32
internal/db/migrations/005_catalog_power.sql Normal file
View File

@@ -0,0 +1,32 @@
-- mCables v5 — catalog: power-distribution devices.
-- Adds 5 built-in device_types (project_id NULL, built_in=1).
--
-- Multi-plug N exposes Power × (N+1) ports — one input + N outputs. The
-- solver treats every Power port identically regardless of in/out
-- direction; m knows which end is which from the physical setup.
--
-- Wifi-plug is a pass-through outlet (Power × 2: one in, one out).
INSERT INTO device_types (name, kind, icon, built_in, description) VALUES
('Multi-plug 3', 'hub', '🔌', 1, '3-way power strip (1 in + 3 out)'),
('Multi-plug 4', 'hub', '🔌', 1, '4-way power strip (1 in + 4 out)'),
('Multi-plug 5', 'hub', '🔌', 1, '5-way power strip (1 in + 5 out)'),
('Multi-plug 6', 'hub', '🔌', 1, '6-way power strip (1 in + 6 out)'),
('Wifi-plug', 'accessory', '📶', 1, 'WiFi-controllable pass-through outlet');
-- Port profiles. cable_types id 1 = Power (seeded in 001).
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 4, 'bottom', 0 FROM device_types WHERE name='Multi-plug 3' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 5, 'bottom', 0 FROM device_types WHERE name='Multi-plug 4' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 6, 'bottom', 0 FROM device_types WHERE name='Multi-plug 5' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 7, 'bottom', 0 FROM device_types WHERE name='Multi-plug 6' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power', 2, 'bottom', 0 FROM device_types WHERE name='Wifi-plug' AND project_id IS NULL;

87
internal/db/migrations/006_fix_power_hubs.sql Normal file
View File

@@ -0,0 +1,87 @@
-- mCables v6 — fix IOx-* and Multi-plug-* + Wifi-plug port profiles.
--
-- v4 seeded the IOx-3 / IOx-6 / IOx-8 as USB hubs (Power × 1 + USB × N),
-- but m's physical IOx-* devices are power strips (1 power input on
-- the back, N power outputs on the front). v5's Multi-plug 3/4/5/6
-- profiles also lumped every Power port on the bottom edge without
-- distinguishing the input from the outputs.
--
-- This migration replaces the port profile for the 8 power-distribution
-- types with the canonical "1 in (top/back) + N out (bottom/front)"
-- layout. Convention: top=back, bottom=front.
--
-- N for each type:
-- IOx-3 / Multi-plug 3 → 3 outputs
-- IOx-6 → 6 outputs
-- IOx-8 → 8 outputs
-- Multi-plug 4 → 4 outputs
-- Multi-plug 5 → 5 outputs
-- Multi-plug 6 → 6 outputs
-- Wifi-plug → 1 output (it's a pass-through outlet)
--
-- Existing devices m may have created with the old profile keep their
-- already-seeded ports — per design §2.3, ports are instance-owned. To
-- get the new layout on an existing instance, delete it and re-create.
--
-- cable_types id 1 = Power (seeded in 001).
-- 1) Drop the existing port-profile rows for each affected type.
DELETE FROM device_type_ports
WHERE device_type_id IN (
SELECT id FROM device_types
WHERE project_id IS NULL
AND name IN (
'IOx-3', 'IOx-6', 'IOx-8',
'Multi-plug 3', 'Multi-plug 4', 'Multi-plug 5', 'Multi-plug 6',
'Wifi-plug'
)
);
-- 2) Insert the canonical (1 in on top, N out on bottom) profile.
-- IOx-3 — 1 in + 3 out
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power In', 1, 'top', 0 FROM device_types WHERE name='IOx-3' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power Out', 3, 'bottom', 1 FROM device_types WHERE name='IOx-3' AND project_id IS NULL;
-- IOx-6 — 1 in + 6 out
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power In', 1, 'top', 0 FROM device_types WHERE name='IOx-6' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power Out', 6, 'bottom', 1 FROM device_types WHERE name='IOx-6' AND project_id IS NULL;
-- IOx-8 — 1 in + 8 out
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power In', 1, 'top', 0 FROM device_types WHERE name='IOx-8' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power Out', 8, 'bottom', 1 FROM device_types WHERE name='IOx-8' AND project_id IS NULL;
-- Multi-plug 3 — 1 in + 3 out
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power In', 1, 'top', 0 FROM device_types WHERE name='Multi-plug 3' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power Out', 3, 'bottom', 1 FROM device_types WHERE name='Multi-plug 3' AND project_id IS NULL;
-- Multi-plug 4 — 1 in + 4 out
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power In', 1, 'top', 0 FROM device_types WHERE name='Multi-plug 4' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power Out', 4, 'bottom', 1 FROM device_types WHERE name='Multi-plug 4' AND project_id IS NULL;
-- Multi-plug 5 — 1 in + 5 out
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power In', 1, 'top', 0 FROM device_types WHERE name='Multi-plug 5' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power Out', 5, 'bottom', 1 FROM device_types WHERE name='Multi-plug 5' AND project_id IS NULL;
-- Multi-plug 6 — 1 in + 6 out
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power In', 1, 'top', 0 FROM device_types WHERE name='Multi-plug 6' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power Out', 6, 'bottom', 1 FROM device_types WHERE name='Multi-plug 6' AND project_id IS NULL;
-- Wifi-plug — 1 in + 1 out (pass-through outlet)
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power In', 1, 'top', 0 FROM device_types WHERE name='Wifi-plug' AND project_id IS NULL;
INSERT INTO device_type_ports (device_type_id, cable_type_id, label_prefix, count, edge, sort_order)
SELECT id, 1, 'Power Out', 1, 'bottom', 1 FROM device_types WHERE name='Wifi-plug' AND project_id IS NULL;

175
internal/db/models.go
View File

@@ -34,10 +34,13 @@ type Frame struct {
}
// Device is a hardware item inside a project, optionally inside a frame.
// v4: type_id (nullable) lets a device inherit its port profile from a
// device_types catalog row.
type Device struct {
ID int64 `json:"id"`
ProjectID int64 `json:"project_id"`
FrameID *int64 `json:"frame_id"` // nullable: device "outside" any frame
TypeID *int64 `json:"type_id"` // nullable: freeform device when null
Name string `json:"name"`
Color string `json:"color"`
X float64 `json:"x"`
@@ -49,16 +52,172 @@ type Device struct {
UpdatedAt string `json:"updated_at"`
}
// DeviceType is a catalog row. Built-in rows have ProjectID nil and
// BuiltIn true. Project-custom rows have ProjectID set.
type DeviceType struct {
ID int64 `json:"id"`
ProjectID *int64 `json:"project_id"`
Name string `json:"name"`
Kind string `json:"kind"`
Icon *string `json:"icon,omitempty"`
Description string `json:"description"`
BuiltIn bool `json:"built_in"`
Ports []DeviceTypePort `json:"ports"`
CreatedAt string `json:"created_at"`
UpdatedAt string `json:"updated_at"`
}
// DeviceTypePort is a row of a type's port profile. The seeder uses
// (cable_type_id, count, label_prefix, edge, sort_order) to lay out
// concrete ports on a freshly-created device.
type DeviceTypePort struct {
ID int64 `json:"id"`
DeviceTypeID int64 `json:"device_type_id"`
CableTypeID int64 `json:"cable_type_id"`
LabelPrefix string `json:"label_prefix"`
Count int `json:"count"`
Edge string `json:"edge"`
SortOrder int `json:"sort_order"`
}
// Port is a connector on a device. cable_type colour drives the visual
// rendering; ports are instance-owned even when seeded from a type.
type Port struct {
ID int64 `json:"id"`
ProjectID int64 `json:"project_id"`
DeviceID int64 `json:"device_id"`
TypeID int64 `json:"type_id"` // cable type
Label *string `json:"label"`
XOffset float64 `json:"x_offset"`
YOffset float64 `json:"y_offset"`
ExcalidrawID *string `json:"excalidraw_id,omitempty"`
CreatedAt string `json:"created_at"`
UpdatedAt string `json:"updated_at"`
}
// ConnectionRequirement is the solver's per-project input.
// pair_lo/pair_hi are the ordered (MIN,MAX) of (from, to) so the
// UNIQUE on (project_id, pair_lo, pair_hi, preferred_cable_type_id)
// prevents (A,B,T) AND (B,A,T) from coexisting.
type ConnectionRequirement struct {
ID int64 `json:"id"`
ProjectID int64 `json:"project_id"`
FromDeviceID int64 `json:"from_device_id"`
ToDeviceID int64 `json:"to_device_id"`
PreferredCableTypeID *int64 `json:"preferred_cable_type_id"`
MustConnect bool `json:"must_connect"`
Notes string `json:"notes"`
CreatedAt string `json:"created_at"`
UpdatedAt string `json:"updated_at"`
}
// Cable is a typed connection. Each endpoint is exactly one of
// (port, device, io-marker). Auto=true means the solver placed it.
type Cable struct {
ID int64 `json:"id"`
ProjectID int64 `json:"project_id"`
TypeID int64 `json:"type_id"`
Label *string `json:"label"`
FromPortID *int64 `json:"from_port_id"`
FromDeviceID *int64 `json:"from_device_id"`
FromIOID *int64 `json:"from_io_id"`
ToPortID *int64 `json:"to_port_id"`
ToDeviceID *int64 `json:"to_device_id"`
ToIOID *int64 `json:"to_io_id"`
Auto bool `json:"auto"`
ExcalidrawID *string `json:"excalidraw_id,omitempty"`
CreatedAt string `json:"created_at"`
UpdatedAt string `json:"updated_at"`
}
// Bundle is a named group of cables that physically run together.
type Bundle struct {
ID int64 `json:"id"`
ProjectID int64 `json:"project_id"`
Name string `json:"name"`
Auto bool `json:"auto"`
CableIDs []int64 `json:"cable_ids"`
CreatedAt string `json:"created_at"`
UpdatedAt string `json:"updated_at"`
}
// SetupTemplate is a named recipe of device-types + requirements.
type SetupTemplate struct {
ID int64 `json:"id"`
Name string `json:"name"`
Description string `json:"description"`
BuiltIn bool `json:"built_in"`
Devices []SetupTemplateDevice `json:"devices"`
Requirements []SetupTemplateRequirement `json:"requirements"`
CreatedAt string `json:"created_at"`
UpdatedAt string `json:"updated_at"`
}
type SetupTemplateDevice struct {
ID int64 `json:"id"`
TemplateID int64 `json:"template_id"`
DeviceTypeID int64 `json:"device_type_id"`
DeviceType *DeviceType `json:"device_type,omitempty"`
SuggestedName *string `json:"suggested_name"`
SortOrder int `json:"sort_order"`
}
type SetupTemplateRequirement struct {
ID int64 `json:"id"`
TemplateID int64 `json:"template_id"`
FromTemplateDeviceID int64 `json:"from_template_device_id"`
ToTemplateDeviceID int64 `json:"to_template_device_id"`
PreferredCableTypeID *int64 `json:"preferred_cable_type_id"`
MustConnect bool `json:"must_connect"`
}
// SolveResult is the response shape from POST /api/projects/:pid/solve.
type SolveResult struct {
CablesAdded []Cable `json:"cables_added"`
CablesKept []int64 `json:"cables_kept"`
CablesRemoved []int64 `json:"cables_removed"`
BundlesAdded []Bundle `json:"bundles_added"`
BundlesRemoved []int64 `json:"bundles_removed"`
Unsatisfied []UnsatisfiedReq `json:"unsatisfied"`
Warnings []string `json:"warnings"`
}
type UnsatisfiedReq struct {
RequirementID int64 `json:"requirement_id"`
Reason string `json:"reason"`
WhichSide string `json:"which_side,omitempty"` // "from" | "to" | "" when both/neither
CableType string `json:"cable_type,omitempty"` // when known
}
// ApplyTemplateResult is the response from POST /apply-template.
type ApplyTemplateResult struct {
FramesAdded []Frame `json:"frames_added"`
DevicesAdded []Device `json:"devices_added"`
RequirementsAdded []ConnectionRequirement `json:"requirements_added"`
SkippedDevices []SkippedTemplateDevice `json:"skipped_devices"`
RequirementsSkipped []SkippedTemplateReq `json:"requirements_skipped"`
}
type SkippedTemplateDevice struct {
TemplateDeviceID int64 `json:"template_device_id"`
Reason string `json:"reason"`
}
type SkippedTemplateReq struct {
TemplateRequirementID int64 `json:"template_requirement_id"`
Reason string `json:"reason"`
}
// Snapshot is the editor's one-shot loader payload for a single project.
// Arrays for collections still gated by future slices stay non-nil [] so
// JSON encodes as [] not null.
type Snapshot struct {
Project Project `json:"project"`
Frames []Frame `json:"frames"`
Devices []Device `json:"devices"`
Ports []any `json:"ports"`
Cables []any `json:"cables"`
IOMarkers []any `json:"io_markers"`
Bundles []any `json:"bundles"`
CableTypes []CableType `json:"cable_types"`
Project Project `json:"project"`
Frames []Frame `json:"frames"`
Devices []Device `json:"devices"`
Ports []Port `json:"ports"`
Cables []Cable `json:"cables"`
IOMarkers []IOMarker `json:"io_markers"`
Bundles []Bundle `json:"bundles"`
CableTypes []CableType `json:"cable_types"`
ConnectionRequirements []ConnectionRequirement `json:"connection_requirements"`
}

359
internal/db/ports.go Normal file
View File

@@ -0,0 +1,359 @@
package db
import (
"database/sql"
"errors"
"fmt"
"strings"
)
// PortCreate is the create-shape for POST /api/projects/:pid/devices/:id/ports.
type PortCreate struct {
TypeID int64
Label string
XOffset float64
YOffset float64
}
// PortUpdate is the partial-update shape.
type PortUpdate struct {
TypeID *int64
Label *string
XOffset *float64
YOffset *float64
}
// CreatePort inserts a port on a device. The device must exist in the
// project; the cable type must exist globally.
func (s *Store) CreatePort(projectID, deviceID int64, p PortCreate) (*Port, error) {
if _, err := s.GetDevice(projectID, deviceID); err != nil {
return nil, err
}
if _, err := s.GetCableType(p.TypeID); err != nil {
if errors.Is(err, ErrNotFound) {
return nil, fmt.Errorf("%w: cable type %d not found", ErrInvalidInput, p.TypeID)
}
return nil, err
}
label := strings.TrimSpace(p.Label)
var labelArg any
if label != "" {
labelArg = label
}
res, err := s.db.Exec(
`INSERT INTO ports (project_id, device_id, type_id, label, x_offset, y_offset)
VALUES (?, ?, ?, ?, ?, ?)`,
projectID, deviceID, p.TypeID, labelArg, p.XOffset, p.YOffset,
)
if err != nil {
return nil, mapWriteErr(err)
}
id, _ := res.LastInsertId()
return s.GetPort(projectID, id)
}
// GetPort loads a port by id, project-scoped.
func (s *Store) GetPort(projectID, id int64) (*Port, error) {
var p Port
var label, ex sql.NullString
err := s.db.QueryRow(
`SELECT id, project_id, device_id, type_id, label, x_offset, y_offset,
excalidraw_id, created_at, updated_at
FROM ports WHERE id = ? AND project_id = ?`, id, projectID,
).Scan(&p.ID, &p.ProjectID, &p.DeviceID, &p.TypeID, &label,
&p.XOffset, &p.YOffset, &ex, &p.CreatedAt, &p.UpdatedAt)
if errors.Is(err, sql.ErrNoRows) {
return nil, ErrNotFound
}
if err != nil {
return nil, err
}
if label.Valid {
v := label.String
p.Label = &v
}
if ex.Valid {
p.ExcalidrawID = &ex.String
}
return &p, nil
}
// UpdatePort applies a partial update.
func (s *Store) UpdatePort(projectID, id int64, u PortUpdate) (*Port, error) {
cur, err := s.GetPort(projectID, id)
if err != nil {
return nil, err
}
if u.TypeID != nil {
if _, err := s.GetCableType(*u.TypeID); err != nil {
if errors.Is(err, ErrNotFound) {
return nil, fmt.Errorf("%w: cable type %d not found", ErrInvalidInput, *u.TypeID)
}
return nil, err
}
cur.TypeID = *u.TypeID
}
if u.Label != nil {
v := strings.TrimSpace(*u.Label)
if v == "" {
cur.Label = nil
} else {
cur.Label = &v
}
}
if u.XOffset != nil {
cur.XOffset = *u.XOffset
}
if u.YOffset != nil {
cur.YOffset = *u.YOffset
}
var labelArg any
if cur.Label != nil {
labelArg = *cur.Label
}
if _, err := s.db.Exec(
`UPDATE ports
SET type_id = ?, label = ?, x_offset = ?, y_offset = ?, updated_at = datetime('now')
WHERE id = ? AND project_id = ?`,
cur.TypeID, labelArg, cur.XOffset, cur.YOffset, id, projectID,
); err != nil {
return nil, mapWriteErr(err)
}
return s.GetPort(projectID, id)
}
// DeletePort removes a port from a device. The schema's
// ON DELETE SET NULL on cables.from_port_id / to_port_id collides with
// the cable's CHECK ((from_port|from_device|from_io) = 1 non-null), so
// we instead cascade-delete any cables that referenced the port on
// either side — same effect from m's POV: the cable is gone, m can
// re-draw if he still wants it.
func (s *Store) DeletePort(projectID, id int64) error {
if _, err := s.GetPort(projectID, id); err != nil {
return err
}
tx, err := s.db.Begin()
if err != nil {
return err
}
defer tx.Rollback()
if _, err := tx.Exec(
`DELETE FROM cables WHERE project_id = ? AND (from_port_id = ? OR to_port_id = ?)`,
projectID, id, id,
); err != nil {
return err
}
if _, err := tx.Exec(
`DELETE FROM ports WHERE id = ? AND project_id = ?`, id, projectID,
); err != nil {
return err
}
return tx.Commit()
}
// ListPortsForDevice returns every port on one device, project-scoped.
func (s *Store) ListPortsForDevice(projectID, deviceID int64) ([]Port, error) {
rows, err := s.db.Query(
`SELECT id, project_id, device_id, type_id, label, x_offset, y_offset,
excalidraw_id, created_at, updated_at
FROM ports WHERE project_id = ? AND device_id = ? ORDER BY id`,
projectID, deviceID,
)
if err != nil {
return nil, err
}
defer rows.Close()
out := []Port{}
for rows.Next() {
var p Port
var label, ex sql.NullString
if err := rows.Scan(&p.ID, &p.ProjectID, &p.DeviceID, &p.TypeID, &label,
&p.XOffset, &p.YOffset, &ex, &p.CreatedAt, &p.UpdatedAt); err != nil {
return nil, err
}
if label.Valid {
v := label.String
p.Label = &v
}
if ex.Valid {
p.ExcalidrawID = &ex.String
}
out = append(out, p)
}
return out, rows.Err()
}
// ListPortsForProject returns every port in a project, ordered by
// device_id + id so callers can group cheaply.
func (s *Store) ListPortsForProject(projectID int64) ([]Port, error) {
rows, err := s.db.Query(
`SELECT id, project_id, device_id, type_id, label, x_offset, y_offset,
excalidraw_id, created_at, updated_at
FROM ports WHERE project_id = ? ORDER BY device_id, id`, projectID,
)
if err != nil {
return nil, err
}
defer rows.Close()
out := []Port{}
for rows.Next() {
var p Port
var label, ex sql.NullString
if err := rows.Scan(&p.ID, &p.ProjectID, &p.DeviceID, &p.TypeID,
&label, &p.XOffset, &p.YOffset, &ex, &p.CreatedAt, &p.UpdatedAt); err != nil {
return nil, err
}
if label.Valid {
v := label.String
p.Label = &v
}
if ex.Valid {
p.ExcalidrawID = &ex.String
}
out = append(out, p)
}
return out, rows.Err()
}
// seedPortsFromType inserts the ports for a freshly-created device using
// the type's `device_type_ports` profile. Port positions are computed by
// laying out cable-type groups evenly along the configured edge of the
// device, ordered by sort_order. Within a multi-count group the per-port
// spacing is also even. Runs inside the same transaction as the device
// insert so a failure rolls everything back.
//
// Layout strategy (v0):
// - All ports for a given type sit on the type's configured edge.
// - For each edge, compute total port count N (sum of count across
// entries on that edge) and distribute as t_i = (i + 1)/(N+1) along
// the edge length, so ports don't touch the corners.
// - For top/bottom: x_offset = w * t, y_offset = 0 (top) or h (bottom).
// - For left/right: x_offset = 0 (left) or w (right), y_offset = h * t.
// - Labels: '<prefix>' if count==1, '<prefix> N' (1-indexed) if count>1.
// Empty prefix → NULL label.
func (s *Store) seedPortsFromType(tx *sql.Tx, projectID, deviceID, typeID int64, width, height float64) error {
rows, err := tx.Query(
`SELECT cable_type_id, label_prefix, count, edge, sort_order
FROM device_type_ports
WHERE device_type_id = ?
ORDER BY edge, sort_order, id`, typeID,
)
if err != nil {
return err
}
type pendingPort struct {
cableTypeID int64
label *string
xOff float64
yOff float64
}
// Group rows by edge first; emit per-port y-or-x slots inside each edge.
type groupRow struct {
cableTypeID int64
labelPrefix string
count int
}
byEdge := map[string][]groupRow{}
for rows.Next() {
var g groupRow
var edge string
var sortOrder int
if err := rows.Scan(&g.cableTypeID, &g.labelPrefix, &g.count, &edge, &sortOrder); err != nil {
rows.Close()
return err
}
byEdge[edge] = append(byEdge[edge], g)
}
if err := rows.Close(); err != nil {
return err
}
if err := rows.Err(); err != nil {
return err
}
var pending []pendingPort
for _, edge := range []string{"top", "bottom", "left", "right"} {
groups := byEdge[edge]
if len(groups) == 0 {
continue
}
total := 0
for _, g := range groups {
total += g.count
}
if total == 0 {
continue
}
// Emit ports in group + within-group order.
idx := 0
for _, g := range groups {
for k := 0; k < g.count; k++ {
t := float64(idx+1) / float64(total+1)
var xOff, yOff float64
switch edge {
case "top":
xOff, yOff = width*t, 0
case "bottom":
xOff, yOff = width*t, height
case "left":
xOff, yOff = 0, height*t
case "right":
xOff, yOff = width, height*t
}
var labelPtr *string
if g.labelPrefix != "" {
var lbl string
if g.count == 1 {
lbl = g.labelPrefix
} else {
lbl = g.labelPrefix + " " + itoa(k+1)
}
labelPtr = &lbl
}
pending = append(pending, pendingPort{
cableTypeID: g.cableTypeID, label: labelPtr,
xOff: xOff, yOff: yOff,
})
idx++
}
}
}
for _, p := range pending {
var labelArg any
if p.label != nil {
labelArg = *p.label
}
if _, err := tx.Exec(
`INSERT INTO ports (project_id, device_id, type_id, label, x_offset, y_offset)
VALUES (?, ?, ?, ?, ?, ?)`,
projectID, deviceID, p.cableTypeID, labelArg, p.xOff, p.yOff,
); err != nil {
return mapWriteErr(err)
}
}
return nil
}
// itoa is a tiny non-allocating int-to-string for port labels.
func itoa(i int) string {
if i == 0 {
return "0"
}
buf := [20]byte{}
pos := len(buf)
neg := i < 0
if neg {
i = -i
}
for i > 0 {
pos--
buf[pos] = byte('0' + i%10)
i /= 10
}
if neg {
pos--
buf[pos] = '-'
}
return string(buf[pos:])
}

465
internal/db/setup_templates.go Normal file
View File

@@ -0,0 +1,465 @@
package db
import (
"database/sql"
"errors"
"fmt"
"math"
"strings"
)
// ListSetupTemplates returns every template with its devices +
// requirements hydrated.
func (s *Store) ListSetupTemplates() ([]SetupTemplate, error) {
rows, err := s.db.Query(
`SELECT id, name, description, built_in, created_at, updated_at
FROM setup_templates ORDER BY id`,
)
if err != nil {
return nil, err
}
defer rows.Close()
out := []SetupTemplate{}
for rows.Next() {
var t SetupTemplate
var built int
if err := rows.Scan(&t.ID, &t.Name, &t.Description, &built,
&t.CreatedAt, &t.UpdatedAt); err != nil {
return nil, err
}
t.BuiltIn = built != 0
out = append(out, t)
}
if err := rows.Err(); err != nil {
return nil, err
}
for i := range out {
devs, err := s.listTemplateDevices(out[i].ID)
if err != nil {
return nil, err
}
out[i].Devices = devs
reqs, err := s.listTemplateRequirements(out[i].ID)
if err != nil {
return nil, err
}
out[i].Requirements = reqs
}
return out, nil
}
// GetSetupTemplate is a one-template variant of List.
func (s *Store) GetSetupTemplate(id int64) (*SetupTemplate, error) {
var t SetupTemplate
var built int
err := s.db.QueryRow(
`SELECT id, name, description, built_in, created_at, updated_at
FROM setup_templates WHERE id = ?`, id,
).Scan(&t.ID, &t.Name, &t.Description, &built, &t.CreatedAt, &t.UpdatedAt)
if errors.Is(err, sql.ErrNoRows) {
return nil, ErrNotFound
}
if err != nil {
return nil, err
}
t.BuiltIn = built != 0
t.Devices, err = s.listTemplateDevices(t.ID)
if err != nil {
return nil, err
}
t.Requirements, err = s.listTemplateRequirements(t.ID)
if err != nil {
return nil, err
}
return &t, nil
}
func (s *Store) listTemplateDevices(templateID int64) ([]SetupTemplateDevice, error) {
rows, err := s.db.Query(
`SELECT id, template_id, device_type_id, suggested_name, sort_order
FROM setup_template_devices WHERE template_id = ? ORDER BY sort_order, id`,
templateID,
)
if err != nil {
return nil, err
}
defer rows.Close()
out := []SetupTemplateDevice{}
for rows.Next() {
var d SetupTemplateDevice
var sn sql.NullString
if err := rows.Scan(&d.ID, &d.TemplateID, &d.DeviceTypeID, &sn, &d.SortOrder); err != nil {
return nil, err
}
if sn.Valid {
v := sn.String
d.SuggestedName = &v
}
out = append(out, d)
}
if err := rows.Err(); err != nil {
return nil, err
}
// Hydrate the device_type for the UI's optgroup labels.
for i := range out {
dt, err := s.GetDeviceType(out[i].DeviceTypeID)
if err == nil {
out[i].DeviceType = dt
}
}
return out, nil
}
func (s *Store) listTemplateRequirements(templateID int64) ([]SetupTemplateRequirement, error) {
rows, err := s.db.Query(
`SELECT id, template_id, from_template_device_id, to_template_device_id,
preferred_cable_type_id, must_connect
FROM setup_template_requirements WHERE template_id = ? ORDER BY id`,
templateID,
)
if err != nil {
return nil, err
}
defer rows.Close()
out := []SetupTemplateRequirement{}
for rows.Next() {
var r SetupTemplateRequirement
var pct sql.NullInt64
var must int
if err := rows.Scan(&r.ID, &r.TemplateID, &r.FromTemplateDeviceID, &r.ToTemplateDeviceID,
&pct, &must); err != nil {
return nil, err
}
if pct.Valid {
v := pct.Int64
r.PreferredCableTypeID = &v
}
r.MustConnect = must != 0
out = append(out, r)
}
return out, rows.Err()
}
// ApplyTemplateOptions controls per-device name overrides + opt-outs.
type ApplyTemplateOptions struct {
NameOverrides map[int64]string // template_device_id → custom name
SkipDevices map[int64]bool // template_device_id → skip
// Layout: where to place the first device in the cluster on the canvas.
OriginX, OriginY float64
}
// ApplyTemplate seeds devices + requirements from the template into
// projectID in a single transaction. Name collisions skip the device
// (recorded in skipped_devices); requirements whose endpoints both fail
// to land are also skipped.
func (s *Store) ApplyTemplate(projectID, templateID int64, opts ApplyTemplateOptions) (*ApplyTemplateResult, error) {
tmpl, err := s.GetSetupTemplate(templateID)
if err != nil {
return nil, err
}
if _, err := s.GetProject(projectID); err != nil {
return nil, err
}
out := &ApplyTemplateResult{
FramesAdded: []Frame{},
DevicesAdded: []Device{},
RequirementsAdded: []ConnectionRequirement{},
SkippedDevices: []SkippedTemplateDevice{},
RequirementsSkipped: []SkippedTemplateReq{},
}
if opts.OriginX == 0 && opts.OriginY == 0 {
opts.OriginX, opts.OriginY = 200, 200
}
// Pull existing device + frame names in the project so we can
// pre-check collisions without aborting the whole transaction.
existing, err := s.ListDevices(projectID, nil)
if err != nil {
return nil, err
}
nameTaken := map[string]bool{}
for _, d := range existing {
nameTaken[d.Name] = true
}
existingFrames, err := s.ListFrames(projectID)
if err != nil {
return nil, err
}
frameNameTaken := map[string]bool{}
for _, f := range existingFrames {
frameNameTaken[f.Name] = true
}
tx, err := s.db.Begin()
if err != nil {
return nil, err
}
defer tx.Rollback()
// Plan a uniform grid for the template's devices inside a new frame
// named after the template. The grid drives both frame size and
// per-device (x, y). Devices that get skipped (name collision /
// SkipDevices) leave their grid cell empty.
const (
devW, devH = 100.0, 35.0
gapX, gapY = 30.0, 50.0
padX, padY = 32.0, 48.0 // padY larger so the frame title clears row 1
)
n := len(tmpl.Devices)
cols := 1
if n > 0 {
cols = min(int(math.Ceil(math.Sqrt(float64(n)))), 4)
}
rows := 1
if n > 0 {
rows = (n + cols - 1) / cols
}
frameW := padX*2 + float64(cols)*devW + float64(cols-1)*gapX
frameH := padY + padX + float64(rows)*devH + float64(rows-1)*gapY
frameName := pickFrameName(tmpl.Name, frameNameTaken)
frame, err := createFrameTx(tx, projectID, FrameCreate{
Name: frameName, X: opts.OriginX, Y: opts.OriginY,
Width: frameW, Height: frameH,
})
if err != nil {
return nil, fmt.Errorf("seed frame %q: %w", frameName, err)
}
out.FramesAdded = append(out.FramesAdded, *frame)
// Map: template_device_id → newly-created device_id (or 0 if skipped).
tmplToDevice := map[int64]int64{}
for i, td := range tmpl.Devices {
if opts.SkipDevices[td.ID] {
out.SkippedDevices = append(out.SkippedDevices, SkippedTemplateDevice{
TemplateDeviceID: td.ID, Reason: "skip requested",
})
tmplToDevice[td.ID] = 0
continue
}
name := opts.NameOverrides[td.ID]
if name == "" && td.SuggestedName != nil {
name = *td.SuggestedName
}
if name == "" {
name = fmt.Sprintf("Device %d", td.ID)
}
name = strings.TrimSpace(name)
if nameTaken[name] {
out.SkippedDevices = append(out.SkippedDevices, SkippedTemplateDevice{
TemplateDeviceID: td.ID,
Reason: fmt.Sprintf("name %q already used in project", name),
})
tmplToDevice[td.ID] = 0
continue
}
// Grid cell (col, row) within the frame. Cell anchor is the
// top-left of the device rect; offsets are added to the frame's
// own (x, y) so the device sits inside the frame.
col := i % cols
row := i / cols
x := frame.X + padX + float64(col)*(devW+gapX)
y := frame.Y + padY + float64(row)*(devH+gapY)
// Use createDeviceTx so port-seeding shares the same transaction.
d, err := s.createDeviceTx(tx, projectID, DeviceCreate{
Name: name,
TypeID: &td.DeviceTypeID,
FrameID: &frame.ID,
X: x,
Y: y,
Width: devW,
Height: devH,
})
if err != nil {
return nil, fmt.Errorf("seed %s: %w", name, err)
}
nameTaken[name] = true
tmplToDevice[td.ID] = d.ID
out.DevicesAdded = append(out.DevicesAdded, *d)
}
for _, tr := range tmpl.Requirements {
fromID := tmplToDevice[tr.FromTemplateDeviceID]
toID := tmplToDevice[tr.ToTemplateDeviceID]
if fromID == 0 || toID == 0 {
out.RequirementsSkipped = append(out.RequirementsSkipped, SkippedTemplateReq{
TemplateRequirementID: tr.ID,
Reason: "one or both endpoint devices were skipped",
})
continue
}
// Normalise pair_lo/pair_hi, mirror what CreateConnectionRequirement does.
lo, hi := fromID, toID
if lo > hi {
lo, hi = hi, lo
}
must := 0
if tr.MustConnect {
must = 1
}
var ctArg any
if tr.PreferredCableTypeID != nil {
ctArg = *tr.PreferredCableTypeID
}
res, err := tx.Exec(
`INSERT INTO connection_requirements
(project_id, from_device_id, to_device_id, preferred_cable_type_id,
must_connect, notes, pair_lo, pair_hi)
VALUES (?, ?, ?, ?, ?, '', ?, ?)`,
projectID, fromID, toID, ctArg, must, lo, hi,
)
if err != nil {
// A UNIQUE collision (project already has the same requirement)
// is non-fatal — record as skipped, continue.
if strings.Contains(err.Error(), "UNIQUE constraint failed") {
out.RequirementsSkipped = append(out.RequirementsSkipped, SkippedTemplateReq{
TemplateRequirementID: tr.ID,
Reason: "requirement already exists in project",
})
continue
}
return nil, err
}
rid, _ := res.LastInsertId()
out.RequirementsAdded = append(out.RequirementsAdded, ConnectionRequirement{
ID: rid,
ProjectID: projectID,
FromDeviceID: fromID,
ToDeviceID: toID,
PreferredCableTypeID: tr.PreferredCableTypeID,
MustConnect: tr.MustConnect,
})
}
if err := tx.Commit(); err != nil {
return nil, err
}
return out, nil
}
// pickFrameName returns a frame name that doesn't collide with anything
// in `taken`. Tries the template name first, then "<name> 2", "<name> 3",
// and so on.
func pickFrameName(base string, taken map[string]bool) string {
if !taken[base] {
return base
}
for i := 2; ; i++ {
candidate := fmt.Sprintf("%s %d", base, i)
if !taken[candidate] {
return candidate
}
}
}
// createFrameTx inserts a frame inside the caller's transaction. Mirrors
// the validation in CreateFrame (name + positive size) but avoids the
// s.db.Exec call so ApplyTemplate can keep everything on the same
// connection under MaxOpenConns(1).
func createFrameTx(tx *sql.Tx, projectID int64, f FrameCreate) (*Frame, error) {
name := strings.TrimSpace(f.Name)
if name == "" {
return nil, fmt.Errorf("%w: name is required", ErrInvalidInput)
}
if f.Width <= 0 || f.Height <= 0 {
return nil, fmt.Errorf("%w: width and height must be positive", ErrInvalidInput)
}
res, err := tx.Exec(
`INSERT INTO frames (project_id, name, x, y, width, height)
VALUES (?, ?, ?, ?, ?, ?)`,
projectID, name, f.X, f.Y, f.Width, f.Height,
)
if err != nil {
return nil, mapWriteErr(err)
}
id, _ := res.LastInsertId()
var out Frame
var ex sql.NullString
err = tx.QueryRow(
`SELECT id, project_id, name, x, y, width, height, excalidraw_id, created_at, updated_at
FROM frames WHERE id = ? AND project_id = ?`, id, projectID,
).Scan(&out.ID, &out.ProjectID, &out.Name, &out.X, &out.Y, &out.Width, &out.Height,
&ex, &out.CreatedAt, &out.UpdatedAt)
if err != nil {
return nil, err
}
if ex.Valid {
out.ExcalidrawID = &ex.String
}
return &out, nil
}
// createDeviceTx is a tx-aware variant of CreateDevice used by
// ApplyTemplate so seeding the template's devices + their ports stays
// inside one atomic apply.
//
// Validation is intentionally lighter than CreateDevice: callers (only
// ApplyTemplate today) hold a tx on the single SQLite connection, so
// any "validate by reading from s.db" call would deadlock. The template's
// device_type_id + frame_id come from already-validated template rows,
// and SQLite FK constraints catch any genuine corruption on INSERT
// (mapped to ErrInvalidInput by mapWriteErr).
func (s *Store) createDeviceTx(tx *sql.Tx, projectID int64, d DeviceCreate) (*Device, error) {
name := strings.TrimSpace(d.Name)
if name == "" {
return nil, fmt.Errorf("%w: name is required", ErrInvalidInput)
}
if d.Width <= 0 || d.Height <= 0 {
return nil, fmt.Errorf("%w: width and height must be positive", ErrInvalidInput)
}
color := strings.TrimSpace(d.Color)
if color == "" {
color = "#1e1e1e"
}
res, err := tx.Exec(
`INSERT INTO devices (project_id, frame_id, type_id, name, color, x, y, width, height)
VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?)`,
projectID, nullableInt64(d.FrameID), nullableInt64(d.TypeID),
name, color, d.X, d.Y, d.Width, d.Height,
)
if err != nil {
return nil, mapWriteErr(err)
}
deviceID, _ := res.LastInsertId()
if d.TypeID != nil {
if err := s.seedPortsFromType(tx, projectID, deviceID, *d.TypeID, d.Width, d.Height); err != nil {
return nil, err
}
}
// Read back via the public store path is fine — the row exists in
// the in-flight tx and SQLite sees its own writes within the tx.
// Use a sub-helper that takes the tx executor for clean isolation.
return s.readDeviceTx(tx, projectID, deviceID)
}
func (s *Store) readDeviceTx(ex execer, projectID, id int64) (*Device, error) {
var d Device
var frame, typeID sql.NullInt64
var ex2 sql.NullString
err := ex.QueryRow(
`SELECT id, project_id, frame_id, type_id, name, color, x, y, width, height, excalidraw_id, created_at, updated_at
FROM devices WHERE id = ? AND project_id = ?`, id, projectID,
).Scan(&d.ID, &d.ProjectID, &frame, &typeID, &d.Name, &d.Color, &d.X, &d.Y, &d.Width, &d.Height,
&ex2, &d.CreatedAt, &d.UpdatedAt)
if errors.Is(err, sql.ErrNoRows) {
return nil, ErrNotFound
}
if err != nil {
return nil, err
}
if frame.Valid {
v := frame.Int64
d.FrameID = &v
}
if typeID.Valid {
v := typeID.Int64
d.TypeID = &v
}
if ex2.Valid {
d.ExcalidrawID = &ex2.String
}
return &d, nil
}

509
internal/db/solver.go Normal file
View File

@@ -0,0 +1,509 @@
package db
import (
"database/sql"
"fmt"
"sort"
)
// Solve runs the v0 algorithm (design v4.1 §5b.2) against the project.
// If preview is true, no DB writes happen — the function returns the
// diff it WOULD apply. If preview is false, the diff is applied in a
// single transaction.
//
// Algorithm:
// 1. Read all auto cables, manual cables, ports, requirements.
// 2. Reserve ports used by manual cables (auto=0) so the solver
// doesn't reuse them.
// 3. For each requirement (must_connect DESC, id ASC):
// - Resolve cable type: preferred, or T = port-types(from) ∩
// port-types(to). |T|==1 → that. |T|>1 → unsatisfied (ambiguous).
// |T|==0 → unsatisfied (no compat type).
// - Find lowest-id free port on each side. None → unsatisfied
// (no free port). Reserve both.
// - Stage an "add cable {from_port, to_port, type, auto=1}".
// 4. Endpoint-pair bundle: any pair of device endpoints with ≥ 2
// staged cables becomes an auto bundle.
// 5. Diff against existing auto cables/bundles: removed = existing
// auto rows not in the staged set; kept = those that match by
// (from_port, to_port, type); add = remaining staged rows.
func (s *Store) Solve(projectID int64, preview bool) (*SolveResult, error) {
res := &SolveResult{
CablesAdded: []Cable{},
CablesKept: []int64{},
CablesRemoved: []int64{},
BundlesAdded: []Bundle{},
BundlesRemoved: []int64{},
Unsatisfied: []UnsatisfiedReq{},
Warnings: []string{},
}
if _, err := s.GetProject(projectID); err != nil {
return nil, err
}
devices, err := s.ListDevices(projectID, nil)
if err != nil {
return nil, err
}
ports, err := s.ListPortsForProject(projectID)
if err != nil {
return nil, err
}
cables, err := s.ListCables(projectID)
if err != nil {
return nil, err
}
reqs, err := s.ListConnectionRequirements(projectID)
if err != nil {
return nil, err
}
bundles, err := s.ListBundles(projectID)
if err != nil {
return nil, err
}
// Index ports by (device_id, type_id), sorted by id (deterministic).
portsByDevice := map[int64][]Port{}
for _, p := range ports {
portsByDevice[p.DeviceID] = append(portsByDevice[p.DeviceID], p)
}
for did := range portsByDevice {
sort.SliceStable(portsByDevice[did], func(i, j int) bool {
return portsByDevice[did][i].ID < portsByDevice[did][j].ID
})
}
deviceByID := map[int64]Device{}
for _, d := range devices {
deviceByID[d.ID] = d
}
// Reserve ports used by manual cables.
usedPorts := map[int64]bool{}
autoCablesByID := map[int64]Cable{}
for _, c := range cables {
if c.Auto {
autoCablesByID[c.ID] = c
continue
}
if c.FromPortID != nil {
usedPorts[*c.FromPortID] = true
}
if c.ToPortID != nil {
usedPorts[*c.ToPortID] = true
}
}
// Sort requirements: must_connect DESC, id ASC.
rs := append([]ConnectionRequirement{}, reqs...)
sort.SliceStable(rs, func(i, j int) bool {
if rs[i].MustConnect != rs[j].MustConnect {
return rs[i].MustConnect
}
return rs[i].ID < rs[j].ID
})
type staged struct {
typeID int64
fromPortID int64
toPortID int64
fromDeviceID int64
toDeviceID int64
}
var staging []staged
for _, r := range rs {
_, fromOK := deviceByID[r.FromDeviceID]
_, toOK := deviceByID[r.ToDeviceID]
if !fromOK || !toOK {
// Shouldn't happen (FK CASCADE removes the row when a device
// goes), but be defensive.
continue
}
// Resolve cable type.
var typeID int64
if r.PreferredCableTypeID != nil {
typeID = *r.PreferredCableTypeID
} else {
fromTypes := map[int64]bool{}
for _, p := range portsByDevice[r.FromDeviceID] {
fromTypes[p.TypeID] = true
}
candidates := []int64{}
for _, p := range portsByDevice[r.ToDeviceID] {
if fromTypes[p.TypeID] {
// Add unique.
already := false
for _, c := range candidates {
if c == p.TypeID {
already = true
break
}
}
if !already {
candidates = append(candidates, p.TypeID)
}
}
}
if len(candidates) == 0 {
if r.MustConnect {
res.Unsatisfied = append(res.Unsatisfied, UnsatisfiedReq{
RequirementID: r.ID,
Reason: "no compatible cable type — devices share no port-type",
})
}
continue
}
if len(candidates) > 1 {
if r.MustConnect {
res.Unsatisfied = append(res.Unsatisfied, UnsatisfiedReq{
RequirementID: r.ID,
Reason: "ambiguous cable type — specify preferred_cable_type_id",
})
}
continue
}
typeID = candidates[0]
}
// Pick lowest-id free port of `typeID` on each side.
pickFree := func(deviceID, t int64) *int64 {
for _, p := range portsByDevice[deviceID] {
if p.TypeID != t {
continue
}
if usedPorts[p.ID] {
continue
}
return &p.ID
}
return nil
}
fromPort := pickFree(r.FromDeviceID, typeID)
toPort := pickFree(r.ToDeviceID, typeID)
if fromPort == nil || toPort == nil {
if r.MustConnect {
side := ""
if fromPort == nil && toPort == nil {
side = ""
} else if fromPort == nil {
side = "from"
} else {
side = "to"
}
typeName := ""
if ct, err := s.GetCableType(typeID); err == nil {
typeName = ct.Name
}
res.Unsatisfied = append(res.Unsatisfied, UnsatisfiedReq{
RequirementID: r.ID,
Reason: fmt.Sprintf("no free %s port", typeName),
WhichSide: side,
CableType: typeName,
})
}
continue
}
usedPorts[*fromPort] = true
usedPorts[*toPort] = true
staging = append(staging, staged{
typeID: typeID, fromPortID: *fromPort, toPortID: *toPort,
fromDeviceID: r.FromDeviceID, toDeviceID: r.ToDeviceID,
})
}
// Match staged → existing auto cables by (typeID, fromPortID, toPortID)
// or its reverse. Anything matched is "kept"; the rest of auto cables
// is "removed". Unmatched staged entries become "added".
type sigKey struct{ typeID, a, b int64 }
matched := map[int64]bool{} // existing auto cable IDs that match
sigToAuto := map[sigKey]int64{}
for id, c := range autoCablesByID {
if c.FromPortID == nil || c.ToPortID == nil {
continue
}
a, b := *c.FromPortID, *c.ToPortID
if a > b {
a, b = b, a
}
sigToAuto[sigKey{c.TypeID, a, b}] = id
}
var toAdd []staged
for _, st := range staging {
a, b := st.fromPortID, st.toPortID
if a > b {
a, b = b, a
}
if existingID, ok := sigToAuto[sigKey{st.typeID, a, b}]; ok {
matched[existingID] = true
res.CablesKept = append(res.CablesKept, existingID)
continue
}
toAdd = append(toAdd, st)
}
for id := range autoCablesByID {
if !matched[id] {
res.CablesRemoved = append(res.CablesRemoved, id)
}
}
sort.Slice(res.CablesKept, func(i, j int) bool { return res.CablesKept[i] < res.CablesKept[j] })
sort.Slice(res.CablesRemoved, func(i, j int) bool { return res.CablesRemoved[i] < res.CablesRemoved[j] })
// Endpoint-pair bundling for the final set of auto cables (kept + added).
// Group by unordered (deviceA, deviceB). Build the map of port_id → device_id
// for fast lookup.
portToDevice := map[int64]int64{}
for _, p := range ports {
portToDevice[p.ID] = p.DeviceID
}
type pairKey struct{ a, b int64 }
pairGroup := map[pairKey][]string{} // staged-or-kept tags (we just count)
pairOrder := []pairKey{} // first-seen order
// We'll need the final list of cables-after-apply (with their IDs) to
// build bundles. For preview, kept IDs are real, added IDs are zero;
// for apply, we'll re-bundle after inserts.
if preview {
// In preview mode, "kept" IDs are real cables; "added" are
// staged. We still compute bundles_added so the UI can show
// which cable groups will be bundled. Bundles_added carry
// `CableIDs: []` for the staged entries because they don't
// have IDs yet — the UI maps by position. cables_kept that
// belong to a bundle group also list their existing ids.
// In short, slot every staged cable into the same pair bucket
// + the kept cables.
for _, st := range staging {
da, db := st.fromDeviceID, st.toDeviceID
if da > db {
da, db = db, da
}
pk := pairKey{da, db}
if _, ok := pairGroup[pk]; !ok {
pairOrder = append(pairOrder, pk)
}
pairGroup[pk] = append(pairGroup[pk], "")
}
// Materialise preview-shape Cable structs for the added rows.
for _, st := range toAdd {
c := Cable{
ProjectID: projectID,
TypeID: st.typeID,
FromPortID: ptr(st.fromPortID),
ToPortID: ptr(st.toPortID),
Auto: true,
}
res.CablesAdded = append(res.CablesAdded, c)
}
for _, pk := range pairOrder {
if len(pairGroup[pk]) < 2 {
continue
}
a := deviceByID[pk.a].Name
b := deviceByID[pk.b].Name
res.BundlesAdded = append(res.BundlesAdded, Bundle{
ProjectID: projectID,
Name: a + " ↔ " + b,
Auto: true,
CableIDs: nil, // post-apply only
})
}
// Existing auto bundles all "would be removed" since we rebuild
// from scratch each solve (slice-6 v0 is wholesale-replace).
for _, b := range bundles {
if b.Auto {
res.BundlesRemoved = append(res.BundlesRemoved, b.ID)
}
}
return res, nil
}
// Apply mode: open a transaction, delete removed auto cables + auto
// bundles, insert added cables, re-bundle by endpoint pair.
tx, err := s.db.Begin()
if err != nil {
return nil, err
}
defer tx.Rollback()
// Delete obsolete auto bundles (we'll rebuild).
if _, err := tx.Exec(
`DELETE FROM bundles WHERE project_id = ? AND auto = 1`, projectID,
); err != nil {
return nil, err
}
for _, b := range bundles {
if b.Auto {
res.BundlesRemoved = append(res.BundlesRemoved, b.ID)
}
}
// Delete removed auto cables.
for _, id := range res.CablesRemoved {
if _, err := tx.Exec(
`DELETE FROM cables WHERE id = ? AND project_id = ?`, id, projectID,
); err != nil {
return nil, err
}
}
// Insert added cables. Track new ids by their staged signature for
// bundle wiring.
type addedRow struct {
id int64
staged staged
}
addedRows := []addedRow{}
for _, st := range toAdd {
c, err := s.createCable(tx, projectID, CableCreate{
TypeID: st.typeID,
From: CableEndpoint{PortID: &st.fromPortID},
To: CableEndpoint{PortID: &st.toPortID},
Auto: true,
})
if err != nil {
return nil, err
}
res.CablesAdded = append(res.CablesAdded, *c)
addedRows = append(addedRows, addedRow{id: c.ID, staged: st})
}
// Re-bundle: all auto cables (kept + added) grouped by endpoint pair.
// First, collect cable IDs per (deviceA, deviceB) — both kept (from
// matched map) and added.
groups := map[pairKey][]int64{}
order := []pairKey{}
addToGroup := func(da, db, cid int64) {
if da > db {
da, db = db, da
}
pk := pairKey{da, db}
if _, ok := groups[pk]; !ok {
order = append(order, pk)
}
groups[pk] = append(groups[pk], cid)
}
for id, c := range autoCablesByID {
if !matched[id] {
continue
}
if c.FromPortID == nil || c.ToPortID == nil {
continue
}
da := portToDevice[*c.FromPortID]
db := portToDevice[*c.ToPortID]
if da == 0 || db == 0 {
continue
}
addToGroup(da, db, id)
}
for _, ar := range addedRows {
addToGroup(ar.staged.fromDeviceID, ar.staged.toDeviceID, ar.id)
}
for _, pk := range order {
ids := groups[pk]
if len(ids) < 2 {
continue
}
a := deviceByID[pk.a].Name
b := deviceByID[pk.b].Name
bundle, err := s.createBundle(tx, projectID, BundleCreate{
Name: a + " ↔ " + b,
CableIDs: ids,
Auto: true,
}, false)
if err != nil {
return nil, err
}
res.BundlesAdded = append(res.BundlesAdded, *bundle)
}
if err := tx.Commit(); err != nil {
return nil, err
}
return res, nil
}
func ptr[T any](v T) *T { return &v }
// PortsAndResolve adds a port to a device + re-runs Solve in one tx.
// Used by the inspector's "+ Add <type> port and re-solve" quick-fix.
type PortsAndResolveResult struct {
Port Port `json:"port"`
Solve *SolveResult `json:"solve"`
}
func (s *Store) PortsAndResolve(projectID, deviceID int64, typeID int64, label string, xOff, yOff float64) (*PortsAndResolveResult, error) {
d, err := s.GetDevice(projectID, deviceID)
if err != nil {
return nil, err
}
if _, err := s.GetCableType(typeID); err != nil {
if err == sql.ErrNoRows {
return nil, fmt.Errorf("%w: cable type %d not found", ErrInvalidInput, typeID)
}
}
tx, err := s.db.Begin()
if err != nil {
return nil, err
}
defer tx.Rollback()
// Default the new port to the bottom edge at the right-most existing offset.
if xOff == 0 && yOff == 0 {
xOff = d.Width / 2
yOff = d.Height
}
var labelArg any
if label != "" {
labelArg = label
}
res, err := tx.Exec(
`INSERT INTO ports (project_id, device_id, type_id, label, x_offset, y_offset)
VALUES (?, ?, ?, ?, ?, ?)`,
projectID, deviceID, typeID, labelArg, xOff, yOff,
)
if err != nil {
return nil, mapWriteErr(err)
}
portID, _ := res.LastInsertId()
if err := tx.Commit(); err != nil {
return nil, err
}
// Now re-solve outside the tx — Solve manages its own tx for the
// apply path. This is a slight relaxation of "single round-trip" — if
// the solver run fails the port stays, but that's fine; the port is
// what m wanted regardless.
solveRes, err := s.Solve(projectID, false)
if err != nil {
return nil, err
}
// Re-fetch the port row to return its full shape.
port, err := s.getPortByID(portID)
if err != nil {
return nil, err
}
return &PortsAndResolveResult{Port: *port, Solve: solveRes}, nil
}
func (s *Store) getPortByID(id int64) (*Port, error) {
var p Port
var label, ex sql.NullString
err := s.db.QueryRow(
`SELECT id, project_id, device_id, type_id, label, x_offset, y_offset,
excalidraw_id, created_at, updated_at
FROM ports WHERE id = ?`, id,
).Scan(&p.ID, &p.ProjectID, &p.DeviceID, &p.TypeID, &label,
&p.XOffset, &p.YOffset, &ex, &p.CreatedAt, &p.UpdatedAt)
if err != nil {
return nil, err
}
if label.Valid {
v := label.String
p.Label = &v
}
if ex.Valid {
p.ExcalidrawID = &ex.String
}
return &p, nil
}

329
internal/db/solver_test.go Normal file
View File

@@ -0,0 +1,329 @@
package db
import (
"testing"
)
// builtInTypeID returns the id of the named built-in device type.
func builtInTypeID(t *testing.T, s *Store, name string) int64 {
t.Helper()
all, _ := s.ListBuiltInDeviceTypes()
for _, dt := range all {
if dt.Name == name {
return dt.ID
}
}
t.Fatalf("built-in %q not found", name)
return 0
}
// ------------------------------------------------------ basic solver wins
func TestSolve_BasicNAStoSwitch(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
nasT := builtInTypeID(t, s, "NAS")
swT := builtInTypeID(t, s, "Switch")
nas, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "NAS", TypeID: &nasT, X: 0, Y: 0, Width: 100, Height: 35})
sw, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "Switch", TypeID: &swT, X: 200, Y: 0, Width: 100, Height: 35})
rj45 := int64(5)
_, _ = s.CreateConnectionRequirement(p.ID, ConnectionRequirementCreate{
FromDeviceID: nas.ID, ToDeviceID: sw.ID, PreferredCableTypeID: &rj45,
})
res, err := s.Solve(p.ID, false)
if err != nil {
t.Fatalf("solve: %v", err)
}
if len(res.CablesAdded) != 1 {
t.Fatalf("cables_added len = %d, want 1", len(res.CablesAdded))
}
if res.CablesAdded[0].TypeID != rj45 {
t.Errorf("cable type = %d, want %d (RJ45)", res.CablesAdded[0].TypeID, rj45)
}
if !res.CablesAdded[0].Auto {
t.Errorf("cable.auto should be true")
}
if len(res.Unsatisfied) != 0 {
t.Errorf("unsatisfied should be empty; got %+v", res.Unsatisfied)
}
}
func TestSolve_AmbiguousType_RequirementUnsatisfied(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
// Both PCs have Power + USB + HDMI + RJ45 → multiple types match.
pcT := builtInTypeID(t, s, "PC")
a, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "A", TypeID: &pcT, X: 0, Y: 0, Width: 100, Height: 35})
b, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "B", TypeID: &pcT, X: 200, Y: 0, Width: 100, Height: 35})
_, _ = s.CreateConnectionRequirement(p.ID, ConnectionRequirementCreate{
FromDeviceID: a.ID, ToDeviceID: b.ID, // no PreferredCableTypeID
})
res, _ := s.Solve(p.ID, true)
if len(res.CablesAdded) != 0 {
t.Errorf("ambiguous: should not add cables, got %d", len(res.CablesAdded))
}
if len(res.Unsatisfied) != 1 || res.Unsatisfied[0].Reason == "" {
t.Errorf("expected 1 unsatisfied req with non-empty reason; got %+v", res.Unsatisfied)
}
}
func TestSolve_NoFreePort_RequirementUnsatisfied(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
// Mouse only has 1 USB port. Two USB requirements against it should
// leave one unsatisfied.
mouseT := builtInTypeID(t, s, "Mouse")
pcT := builtInTypeID(t, s, "PC")
mouse, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "Mouse", TypeID: &mouseT, X: 0, Y: 0, Width: 100, Height: 35})
pc1, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "PC1", TypeID: &pcT, X: 200, Y: 0, Width: 100, Height: 35})
pc2, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "PC2", TypeID: &pcT, X: 400, Y: 0, Width: 100, Height: 35})
usb := int64(2)
_, _ = s.CreateConnectionRequirement(p.ID, ConnectionRequirementCreate{
FromDeviceID: mouse.ID, ToDeviceID: pc1.ID, PreferredCableTypeID: &usb,
})
_, _ = s.CreateConnectionRequirement(p.ID, ConnectionRequirementCreate{
FromDeviceID: mouse.ID, ToDeviceID: pc2.ID, PreferredCableTypeID: &usb,
})
res, _ := s.Solve(p.ID, true)
if len(res.CablesAdded) != 1 {
t.Errorf("expected 1 cable to land (one mouse USB), got %d", len(res.CablesAdded))
}
if len(res.Unsatisfied) != 1 {
t.Errorf("expected 1 unsatisfied; got %d (%+v)", len(res.Unsatisfied), res.Unsatisfied)
}
}
// ----------------------------------------------- preview vs apply semantics
func TestSolve_PreviewDoesNotWrite(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
nasT := builtInTypeID(t, s, "NAS")
swT := builtInTypeID(t, s, "Switch")
nas, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "NAS", TypeID: &nasT, X: 0, Y: 0, Width: 100, Height: 35})
sw, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "Switch", TypeID: &swT, X: 200, Y: 0, Width: 100, Height: 35})
rj45 := int64(5)
_, _ = s.CreateConnectionRequirement(p.ID, ConnectionRequirementCreate{
FromDeviceID: nas.ID, ToDeviceID: sw.ID, PreferredCableTypeID: &rj45,
})
_, _ = s.Solve(p.ID, true) // preview
cables, _ := s.ListCables(p.ID)
if len(cables) != 0 {
t.Errorf("preview wrote %d cables; want 0", len(cables))
}
}
func TestSolve_ApplyThenIdempotent(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
nasT := builtInTypeID(t, s, "NAS")
swT := builtInTypeID(t, s, "Switch")
nas, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "NAS", TypeID: &nasT, X: 0, Y: 0, Width: 100, Height: 35})
sw, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "Switch", TypeID: &swT, X: 200, Y: 0, Width: 100, Height: 35})
rj45 := int64(5)
_, _ = s.CreateConnectionRequirement(p.ID, ConnectionRequirementCreate{
FromDeviceID: nas.ID, ToDeviceID: sw.ID, PreferredCableTypeID: &rj45,
})
r1, _ := s.Solve(p.ID, false)
if len(r1.CablesAdded) != 1 {
t.Fatalf("first apply: cables_added=%d, want 1", len(r1.CablesAdded))
}
r2, _ := s.Solve(p.ID, false)
if len(r2.CablesAdded) != 0 {
t.Errorf("second apply: cables_added=%d, want 0 (idempotent)", len(r2.CablesAdded))
}
if len(r2.CablesKept) != 1 {
t.Errorf("second apply: cables_kept=%d, want 1", len(r2.CablesKept))
}
}
func TestSolve_ManualCableReservesPort(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
mouseT := builtInTypeID(t, s, "Mouse")
pcT := builtInTypeID(t, s, "PC")
mouse, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "Mouse", TypeID: &mouseT, X: 0, Y: 0, Width: 100, Height: 35})
pc, _ := s.CreateDevice(p.ID, DeviceCreate{Name: "PC", TypeID: &pcT, X: 200, Y: 0, Width: 100, Height: 35})
// Manual cable USB Mouse↔PC: claims the only mouse USB port.
ports, _ := s.ListPortsForProject(p.ID)
var mouseUSB, pcUSB int64
for _, prt := range ports {
if prt.DeviceID == mouse.ID && prt.TypeID == 2 {
mouseUSB = prt.ID
}
if prt.DeviceID == pc.ID && prt.TypeID == 2 {
pcUSB = prt.ID
break
}
}
usb := int64(2)
_, _ = s.CreateCable(p.ID, CableCreate{
TypeID: usb,
From: CableEndpoint{PortID: &mouseUSB},
To: CableEndpoint{PortID: &pcUSB},
Auto: false,
})
// Now add a requirement that also wants USB on the mouse → no free port.
_, _ = s.CreateConnectionRequirement(p.ID, ConnectionRequirementCreate{
FromDeviceID: mouse.ID, ToDeviceID: pc.ID, PreferredCableTypeID: &usb,
})
res, _ := s.Solve(p.ID, true)
if len(res.Unsatisfied) == 0 {
t.Errorf("expected unsatisfied req (manual cable should reserve the only mouse USB port)")
}
}
// -------------------------------------------------------- setup templates
func TestApplyTemplate_LivingRoom(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
tmpls, _ := s.ListSetupTemplates()
var lr SetupTemplate
for _, tm := range tmpls {
if tm.Name == "Living Room" {
lr = tm
break
}
}
if lr.ID == 0 {
t.Fatal("Living Room template not seeded")
}
res, err := s.ApplyTemplate(p.ID, lr.ID, ApplyTemplateOptions{})
if err != nil {
t.Fatalf("apply: %v", err)
}
if len(res.DevicesAdded) != 3 {
t.Errorf("devices added = %d, want 3 (TV, Soundbar, ChromeCast)", len(res.DevicesAdded))
}
if len(res.RequirementsAdded) != 2 {
t.Errorf("requirements added = %d, want 2 (TV↔Soundbar, TV↔ChromeCast)", len(res.RequirementsAdded))
}
// Ports were seeded as part of the device creation.
ports, _ := s.ListPortsForProject(p.ID)
if len(ports) < 6 { // TV(3) + Soundbar(2) + ChromeCast(2) = 7
t.Errorf("ports after template apply = %d, expected ≥6", len(ports))
}
}
func TestApplyTemplate_HomeOffice_ThenSolve(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
tmpls, _ := s.ListSetupTemplates()
var ho SetupTemplate
for _, tm := range tmpls {
if tm.Name == "Home Office" {
ho = tm
break
}
}
if _, err := s.ApplyTemplate(p.ID, ho.ID, ApplyTemplateOptions{}); err != nil {
t.Fatalf("apply: %v", err)
}
res, err := s.Solve(p.ID, false)
if err != nil {
t.Fatalf("solve: %v", err)
}
if len(res.CablesAdded) != 3 {
t.Errorf("Home Office should solve to 3 cables (PC↔Screen, PC↔Keyboard, PC↔Mouse); got %d", len(res.CablesAdded))
}
if len(res.Unsatisfied) != 0 {
t.Errorf("unsatisfied = %+v, want []", res.Unsatisfied)
}
}
func TestApplyTemplate_CreatesFrameAndPlacesDevicesInside(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
tmpls, _ := s.ListSetupTemplates()
var lr SetupTemplate
for _, tm := range tmpls {
if tm.Name == "Living Room" {
lr = tm
break
}
}
res, err := s.ApplyTemplate(p.ID, lr.ID, ApplyTemplateOptions{})
if err != nil {
t.Fatalf("apply: %v", err)
}
if len(res.FramesAdded) != 1 {
t.Fatalf("frames added = %d, want 1", len(res.FramesAdded))
}
frame := res.FramesAdded[0]
if frame.Name != "Living Room" {
t.Errorf("frame name = %q, want %q", frame.Name, "Living Room")
}
for _, d := range res.DevicesAdded {
if d.FrameID == nil || *d.FrameID != frame.ID {
t.Errorf("device %q: frame_id = %v, want %d", d.Name, d.FrameID, frame.ID)
}
// Device top-left should be inside the frame rect.
if d.X < frame.X || d.X+d.Width > frame.X+frame.Width {
t.Errorf("device %q: x=%v width=%v outside frame [%v..%v]", d.Name, d.X, d.Width, frame.X, frame.X+frame.Width)
}
if d.Y < frame.Y || d.Y+d.Height > frame.Y+frame.Height {
t.Errorf("device %q: y=%v height=%v outside frame [%v..%v]", d.Name, d.Y, d.Height, frame.Y, frame.Y+frame.Height)
}
}
// No two devices share the same (X, Y) — the grid layout spreads them out.
seen := map[[2]float64]string{}
for _, d := range res.DevicesAdded {
key := [2]float64{d.X, d.Y}
if prev, ok := seen[key]; ok {
t.Errorf("devices %q and %q share grid cell (%v, %v)", prev, d.Name, d.X, d.Y)
}
seen[key] = d.Name
}
}
func TestApplyTemplate_FrameNameSuffixOnCollision(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
// Pre-create a frame called "Living Room" so the template's frame name collides.
_, _ = s.CreateFrame(p.ID, FrameCreate{Name: "Living Room", X: 0, Y: 0, Width: 100, Height: 100})
tmpls, _ := s.ListSetupTemplates()
var lr SetupTemplate
for _, tm := range tmpls {
if tm.Name == "Living Room" {
lr = tm
break
}
}
res, err := s.ApplyTemplate(p.ID, lr.ID, ApplyTemplateOptions{})
if err != nil {
t.Fatalf("apply: %v", err)
}
if len(res.FramesAdded) != 1 {
t.Fatalf("frames added = %d, want 1", len(res.FramesAdded))
}
if res.FramesAdded[0].Name != "Living Room 2" {
t.Errorf("frame name = %q, want %q (suffixed)", res.FramesAdded[0].Name, "Living Room 2")
}
}
func TestApplyTemplate_NameCollisionSkipped(t *testing.T) {
s := newTestStore(t)
p, _ := s.CreateProject("LOFT", "", "")
pcT := builtInTypeID(t, s, "PC")
// Pre-create a device called "PC" so the Home Office template's PC collides.
_, _ = s.CreateDevice(p.ID, DeviceCreate{Name: "PC", TypeID: &pcT, X: 0, Y: 0, Width: 100, Height: 35})
tmpls, _ := s.ListSetupTemplates()
var ho SetupTemplate
for _, tm := range tmpls {
if tm.Name == "Home Office" {
ho = tm
break
}
}
res, _ := s.ApplyTemplate(p.ID, ho.ID, ApplyTemplateOptions{})
if len(res.SkippedDevices) == 0 {
t.Errorf("expected at least one skipped device for name collision; got %+v", res.SkippedDevices)
}
if len(res.RequirementsSkipped) == 0 {
t.Errorf("PC requirements should be skipped when PC device skipped; got %+v", res.RequirementsSkipped)
}
}

37
internal/db/store.go
View File

@@ -167,15 +167,36 @@ func (s *Store) Snapshot(id int64) (*Snapshot, error) {
if err != nil {
return nil, err
}
ios, err := s.ListIOMarkers(id)
if err != nil {
return nil, err
}
ports, err := s.ListPortsForProject(id)
if err != nil {
return nil, err
}
reqs, err := s.ListConnectionRequirements(id)
if err != nil {
return nil, err
}
cables, err := s.ListCables(id)
if err != nil {
return nil, err
}
bundles, err := s.ListBundles(id)
if err != nil {
return nil, err
}
return &Snapshot{
Project: *p,
Frames: frames,
Devices: devices,
Ports: []any{},
Cables: []any{},
IOMarkers: []any{},
Bundles: []any{},
CableTypes: types,
Project: *p,
Frames: frames,
Devices: devices,
Ports: ports,
Cables: cables,
IOMarkers: ios,
Bundles: bundles,
CableTypes: types,
ConnectionRequirements: reqs,
}, nil
}

563
internal/exporter/exporter.go Normal file
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// Package exporter builds an Excalidraw scene JSON from a project
// snapshot per docs/design.md §4 ("Export — DB → Excalidraw").
//
// The exporter is a pure function on a *db.Snapshot — no DB access, no
// IO — so it's trivial to unit-test against fixtures and gives the
// caller (the HTTP handler) a clean handoff: build scene → upload.
package exporter
import (
"crypto/rand"
"encoding/json"
"fmt"
"math/big"
"mgit.msbls.de/m/mcables/internal/db"
)
// Scene is the top-level Excalidraw file format. Keys mirror what the
// official Excalidraw JSON contains (we only emit the keys mxdrw cares
// about for rendering — `appState`, `files`, `libraryItems` etc. can be
// added later if m needs them).
type Scene struct {
Type string `json:"type"`
Version int `json:"version"`
Source string `json:"source"`
Elements []Element `json:"elements"`
AppState AppState `json:"appState"`
Files Files `json:"files"`
}
type AppState struct {
GridSize *int `json:"gridSize"`
ViewBackground string `json:"viewBackgroundColor"`
}
type Files struct{}
// Element is one node in the scene. Excalidraw's wire format has a lot
// of optional fields; we only emit the ones that matter for the shapes
// we draw. Extra null/zero fields are fine in Excalidraw (it merges
// defaults). Pointer fields stay nil-omitted via omitempty so the
// payload stays clean.
type Element struct {
ID string `json:"id"`
Type string `json:"type"`
X float64 `json:"x"`
Y float64 `json:"y"`
Width float64 `json:"width"`
Height float64 `json:"height"`
Angle float64 `json:"angle"`
StrokeColor string `json:"strokeColor"`
BackgroundColor string `json:"backgroundColor"`
FillStyle string `json:"fillStyle"`
StrokeWidth int `json:"strokeWidth"`
StrokeStyle string `json:"strokeStyle"`
Roughness int `json:"roughness"`
Opacity int `json:"opacity"`
GroupIDs []string `json:"groupIds"`
FrameID *string `json:"frameId"`
Roundness *Roundness `json:"roundness"`
Seed int64 `json:"seed"`
Version int `json:"version"`
VersionNonce int64 `json:"versionNonce"`
IsDeleted bool `json:"isDeleted"`
BoundElements []BoundRef `json:"boundElements,omitempty"`
Updated int64 `json:"updated"`
Link *string `json:"link"`
Locked bool `json:"locked"`
// Element-type-specific extras
Name string `json:"name,omitempty"`
// Text-element fields
Text string `json:"text,omitempty"`
FontSize int `json:"fontSize,omitempty"`
FontFamily int `json:"fontFamily,omitempty"`
TextAlign string `json:"textAlign,omitempty"`
VerticalAlign string `json:"verticalAlign,omitempty"`
ContainerID *string `json:"containerId,omitempty"`
OriginalText string `json:"originalText,omitempty"`
LineHeight float64 `json:"lineHeight,omitempty"`
// Arrow-element fields
Points [][2]float64 `json:"points,omitempty"`
StartBinding *Binding `json:"startBinding,omitempty"`
EndBinding *Binding `json:"endBinding,omitempty"`
StartArrowhead *string `json:"startArrowhead,omitempty"`
EndArrowhead *string `json:"endArrowhead,omitempty"`
LastCommittedPoint *[2]float64 `json:"lastCommittedPoint,omitempty"`
}
type Roundness struct {
Type int `json:"type"`
}
type BoundRef struct {
ID string `json:"id"`
Type string `json:"type"`
}
type Binding struct {
ElementID string `json:"elementId"`
Focus float64 `json:"focus"`
Gap float64 `json:"gap"`
}
// IDAssignment is the result of running BuildScene: the scene to upload
// + the per-row excalidraw_id assignments that the caller should
// persist so the next export reuses the same ids (Excalidraw collab
// cursors / comments / undo history survive that way; design §4.2).
type IDAssignment struct {
Frames map[int64]string `json:"frames"`
Devices map[int64]string `json:"devices"`
Ports map[int64]string `json:"ports"`
IOMarkers map[int64]string `json:"io_markers"`
Cables map[int64]string `json:"cables"`
}
// BuildScene transforms a project snapshot into an Excalidraw Scene +
// the id-assignment side-table.
//
// nowMilli is the Updated timestamp (one millisecond stamp for every
// element keeps re-exports consistent — mxdrw treats wildly-different
// updateds as edit-noise).
//
// genID is a 21-char ID factory. Tests pass a deterministic generator
// to lock element ids down across asserts. Production uses Generate21.
func BuildScene(snap *db.Snapshot, nowMilli int64, genID func() string) (*Scene, *IDAssignment) {
a := &IDAssignment{
Frames: map[int64]string{},
Devices: map[int64]string{},
Ports: map[int64]string{},
IOMarkers: map[int64]string{},
Cables: map[int64]string{},
}
// idFor: reuse the existing excalidraw_id if present, else mint one.
idFor := func(existing *string) string {
if existing != nil && *existing != "" {
return *existing
}
return genID()
}
cableTypeColor := map[int64]string{}
for _, t := range snap.CableTypes {
cableTypeColor[t.ID] = t.Color
}
// We'll need: device-id → element-id, port-id → element-id, io-id → element-id
// for binding arrows.
deviceElID := map[int64]string{}
portElID := map[int64]string{}
ioElID := map[int64]string{}
frameElID := map[int64]string{}
var els []Element
// Frames first (Excalidraw renders later elements on top; frames are
// containers that go on the bottom).
for _, f := range snap.Frames {
elID := idFor(f.ExcalidrawID)
a.Frames[f.ID] = elID
frameElID[f.ID] = elID
els = append(els, Element{
ID: elID,
Type: "frame",
X: f.X,
Y: f.Y,
Width: f.Width,
Height: f.Height,
StrokeColor: "#bbbbbb",
BackgroundColor: "transparent",
FillStyle: "solid",
StrokeWidth: 2,
StrokeStyle: "solid",
Roughness: 0,
Opacity: 100,
GroupIDs: []string{},
Seed: randInt(),
Version: 1,
VersionNonce: randInt(),
Updated: nowMilli,
Name: f.Name,
})
}
// Devices: rectangle + bound text with the device's name. Excalidraw
// uses a `containerId` pointer on the text to bind it to the rect,
// and `boundElements` on the rect to point back at the text.
for _, d := range snap.Devices {
rectID := idFor(d.ExcalidrawID)
a.Devices[d.ID] = rectID
deviceElID[d.ID] = rectID
textID := genID()
var frameRef *string
if d.FrameID != nil {
if v, ok := frameElID[*d.FrameID]; ok {
frameRef = &v
}
}
// Rect
els = append(els, Element{
ID: rectID,
Type: "rectangle",
X: d.X,
Y: d.Y,
Width: d.Width,
Height: d.Height,
StrokeColor: d.Color,
BackgroundColor: "transparent",
FillStyle: "solid",
StrokeWidth: 2,
StrokeStyle: "solid",
Roughness: 0,
Opacity: 100,
GroupIDs: []string{},
FrameID: frameRef,
Roundness: &Roundness{Type: 3},
Seed: randInt(),
Version: 1,
VersionNonce: randInt(),
Updated: nowMilli,
BoundElements: []BoundRef{{ID: textID, Type: "text"}},
})
// Bound text — name centered on the rect.
els = append(els, Element{
ID: textID,
Type: "text",
X: d.X,
Y: d.Y + d.Height/2 - 8,
Width: d.Width,
Height: 16,
StrokeColor: d.Color,
BackgroundColor: "transparent",
FillStyle: "solid",
StrokeWidth: 2,
StrokeStyle: "solid",
Roughness: 0,
Opacity: 100,
GroupIDs: []string{},
FrameID: frameRef,
Seed: randInt(),
Version: 1,
VersionNonce: randInt(),
Updated: nowMilli,
Text: d.Name,
OriginalText: d.Name,
FontSize: 16,
FontFamily: 1,
TextAlign: "center",
VerticalAlign: "middle",
ContainerID: &rectID,
LineHeight: 1.25,
})
}
// Ports — small ellipses at device.x + port.x_offset (positional,
// not containerId-bound per the seed drawing's grammar; design §4.1).
for _, p := range snap.Ports {
elID := idFor(p.ExcalidrawID)
a.Ports[p.ID] = elID
portElID[p.ID] = elID
// Locate the parent device for absolute pos + frame ref.
var dev *db.Device
for i := range snap.Devices {
if snap.Devices[i].ID == p.DeviceID {
dev = &snap.Devices[i]
break
}
}
if dev == nil {
continue
}
var frameRef *string
if dev.FrameID != nil {
if v, ok := frameElID[*dev.FrameID]; ok {
frameRef = &v
}
}
color := cableTypeColor[p.TypeID]
if color == "" {
color = "#1e1e1e"
}
els = append(els, Element{
ID: elID,
Type: "ellipse",
X: dev.X + p.XOffset - 6,
Y: dev.Y + p.YOffset - 4,
Width: 12,
Height: 9,
StrokeColor: color,
BackgroundColor: "transparent",
FillStyle: "solid",
StrokeWidth: 2,
StrokeStyle: "solid",
Roughness: 0,
Opacity: 100,
GroupIDs: []string{},
FrameID: frameRef,
Roundness: &Roundness{Type: 2},
Seed: randInt(),
Version: 1,
VersionNonce: randInt(),
Updated: nowMilli,
})
}
// IO markers — diamonds with bound "IO" (or m's label) text.
powerColor := ""
for _, t := range snap.CableTypes {
if t.Name == "Power" {
powerColor = t.Color
break
}
}
if powerColor == "" {
powerColor = "#e03131"
}
for _, m := range snap.IOMarkers {
elID := idFor(m.ExcalidrawID)
a.IOMarkers[m.ID] = elID
ioElID[m.ID] = elID
textID := genID()
var frameRef *string
if m.FrameID != nil {
if v, ok := frameElID[*m.FrameID]; ok {
frameRef = &v
}
}
els = append(els, Element{
ID: elID,
Type: "diamond",
X: m.X,
Y: m.Y,
Width: 30,
Height: 30,
StrokeColor: powerColor,
BackgroundColor: "transparent",
FillStyle: "solid",
StrokeWidth: 2,
StrokeStyle: "solid",
Roughness: 0,
Opacity: 100,
GroupIDs: []string{},
FrameID: frameRef,
Roundness: &Roundness{Type: 2},
Seed: randInt(),
Version: 1,
VersionNonce: randInt(),
Updated: nowMilli,
BoundElements: []BoundRef{{ID: textID, Type: "text"}},
})
els = append(els, Element{
ID: textID,
Type: "text",
X: m.X,
Y: m.Y + 7,
Width: 30,
Height: 16,
StrokeColor: powerColor,
BackgroundColor: "transparent",
FillStyle: "solid",
StrokeWidth: 2,
StrokeStyle: "solid",
Roughness: 0,
Opacity: 100,
GroupIDs: []string{},
FrameID: frameRef,
Seed: randInt(),
Version: 1,
VersionNonce: randInt(),
Updated: nowMilli,
Text: m.Label,
OriginalText: m.Label,
FontSize: 11,
FontFamily: 1,
TextAlign: "center",
VerticalAlign: "middle",
ContainerID: &elID,
LineHeight: 1.25,
})
}
// Cables — arrows with startBinding/endBinding to the port / device /
// IO marker excalidraw_ids. Endpoint anchors (the visible "from" /
// "to" points) come from the same anchor logic the canvas uses.
for _, c := range snap.Cables {
elID := idFor(c.ExcalidrawID)
a.Cables[c.ID] = elID
fromAnchor, fromRef := exportAnchor(c.FromPortID, c.FromDeviceID, c.FromIOID,
snap, deviceElID, portElID, ioElID)
toAnchor, toRef := exportAnchor(c.ToPortID, c.ToDeviceID, c.ToIOID,
snap, deviceElID, portElID, ioElID)
// fromRef/toRef are nil when the endpoint row vanished (manual
// cable referencing a deleted port, say). Skip rather than emit
// a half-bound arrow.
if fromRef == nil || toRef == nil {
continue
}
color := cableTypeColor[c.TypeID]
if color == "" {
color = "#1e1e1e"
}
startArr := ""
endArr := "arrow"
els = append(els, Element{
ID: elID,
Type: "arrow",
X: fromAnchor[0],
Y: fromAnchor[1],
Width: toAnchor[0] - fromAnchor[0],
Height: toAnchor[1] - fromAnchor[1],
StrokeColor: color,
BackgroundColor: "transparent",
FillStyle: "solid",
StrokeWidth: 2,
StrokeStyle: "solid",
Roughness: 0,
Opacity: 100,
GroupIDs: []string{},
Seed: randInt(),
Version: 1,
VersionNonce: randInt(),
Updated: nowMilli,
Points: [][2]float64{{0, 0}, {toAnchor[0] - fromAnchor[0], toAnchor[1] - fromAnchor[1]}},
StartArrowhead: &startArr,
EndArrowhead: &endArr,
StartBinding: bindingPtr(fromRef),
EndBinding: bindingPtr(toRef),
})
}
// Legend in the top-left of the first frame (or at 20,20 if there
// are no frames). One text row per cable_type, stacked vertically.
legendX, legendY := 20.0, 20.0
if len(snap.Frames) > 0 {
legendX = snap.Frames[0].X + 10
legendY = snap.Frames[0].Y + 10
}
for i, t := range snap.CableTypes {
els = append(els, Element{
ID: genID(),
Type: "text",
X: legendX,
Y: legendY + float64(i*18),
Width: 80,
Height: 16,
StrokeColor: t.Color,
BackgroundColor: "transparent",
FillStyle: "solid",
StrokeWidth: 1,
StrokeStyle: "solid",
Roughness: 0,
Opacity: 100,
GroupIDs: []string{},
Seed: randInt(),
Version: 1,
VersionNonce: randInt(),
Updated: nowMilli,
Text: t.Name,
OriginalText: t.Name,
FontSize: 16,
FontFamily: 1,
TextAlign: "left",
VerticalAlign: "top",
LineHeight: 1.25,
})
}
scene := &Scene{
Type: "excalidraw",
Version: 2,
Source: "mcables",
Elements: els,
AppState: AppState{
GridSize: nil,
ViewBackground: "#ffffff",
},
Files: Files{},
}
return scene, a
}
func bindingPtr(b *Binding) *Binding {
if b == nil {
return nil
}
return b
}
// exportAnchor returns (x,y) + a Binding for the endpoint kind passed in.
func exportAnchor(portID, deviceID, ioID *int64, snap *db.Snapshot,
devElID, portElID, ioElID map[int64]string,
) ([2]float64, *Binding) {
if portID != nil {
// Find the port + its parent device.
for _, p := range snap.Ports {
if p.ID != *portID {
continue
}
for _, d := range snap.Devices {
if d.ID == p.DeviceID {
id := portElID[p.ID]
return [2]float64{d.X + p.XOffset, d.Y + p.YOffset}, &Binding{ElementID: id, Focus: 0, Gap: 1}
}
}
}
}
if deviceID != nil {
for _, d := range snap.Devices {
if d.ID != *deviceID {
continue
}
id := devElID[d.ID]
return [2]float64{d.X + d.Width/2, d.Y + d.Height/2}, &Binding{ElementID: id, Focus: 0, Gap: 1}
}
}
if ioID != nil {
for _, m := range snap.IOMarkers {
if m.ID != *ioID {
continue
}
id := ioElID[m.ID]
return [2]float64{m.X + 15, m.Y + 15}, &Binding{ElementID: id, Focus: 0, Gap: 1}
}
}
return [2]float64{}, nil
}
// Generate21 mints a 21-char base62 identifier, the shape Excalidraw
// uses for element ids (nanoid-style). crypto/rand source.
func Generate21() string {
const alphabet = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"
buf := make([]byte, 21)
max := big.NewInt(int64(len(alphabet)))
for i := range buf {
n, err := rand.Int(rand.Reader, max)
if err != nil {
// crypto/rand failure is unrecoverable in practice; fall back
// to a deterministic alphabet position so callers see a panic-
// adjacent symptom rather than a half-initialised id.
return fmt.Sprintf("crypto-rand-failed-%d", i)
}
buf[i] = alphabet[n.Int64()]
}
return string(buf)
}
// randInt returns a non-negative int64 derived from crypto/rand for
// Excalidraw's `seed` / `versionNonce`. Excalidraw treats these as
// noise — only the IDs and the structural fields matter.
func randInt() int64 {
n, err := rand.Int(rand.Reader, big.NewInt(1<<62))
if err != nil {
return 0
}
return n.Int64()
}
// MarshalScene returns the scene as Excalidraw-flavoured JSON.
func MarshalScene(s *Scene) ([]byte, error) {
return json.Marshal(s)
}

165
internal/exporter/exporter_test.go Normal file
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package exporter
import (
"encoding/json"
"strings"
"testing"
"mgit.msbls.de/m/mcables/internal/db"
)
// deterministic id generator for tests
func newSeq() func() string {
i := 0
return func() string {
i++
return "id" + strings.Repeat("0", 19-len(itoa(i))) + itoa(i)
}
}
func itoa(i int) string {
if i == 0 {
return "0"
}
buf := [20]byte{}
pos := len(buf)
for i > 0 {
pos--
buf[pos] = byte('0' + i%10)
i /= 10
}
return string(buf[pos:])
}
func sampleSnapshot() *db.Snapshot {
pid := int64(1)
devID := int64(10)
devID2 := int64(11)
portID := int64(100)
portID2 := int64(101)
ioID := int64(200)
return &db.Snapshot{
Project: db.Project{ID: pid, Name: "LOFT", DrawingName: "LOFT.excalidraw"},
Frames: []db.Frame{
{ID: 1, ProjectID: pid, Name: "desk", X: 100, Y: 100, Width: 800, Height: 500},
},
Devices: []db.Device{
{ID: devID, ProjectID: pid, Name: "NAS", Color: "#1e1e1e", X: 200, Y: 200, Width: 100, Height: 35, FrameID: ptr(int64(1))},
{ID: devID2, ProjectID: pid, Name: "Switch", Color: "#1e1e1e", X: 400, Y: 200, Width: 100, Height: 35},
},
Ports: []db.Port{
{ID: portID, ProjectID: pid, DeviceID: devID, TypeID: 5, XOffset: 50, YOffset: 35},
{ID: portID2, ProjectID: pid, DeviceID: devID2, TypeID: 5, XOffset: 50, YOffset: 35},
},
IOMarkers: []db.IOMarker{
{ID: ioID, ProjectID: pid, Label: "Wall A", X: 50, Y: 50},
},
Cables: []db.Cable{
{ID: 1000, ProjectID: pid, TypeID: 5,
FromPortID: &portID, ToPortID: &portID2, Auto: false},
},
CableTypes: []db.CableType{
{ID: 1, Name: "Power", Color: "#e03131"},
{ID: 2, Name: "USB", Color: "#2f9e44"},
{ID: 3, Name: "HDMI", Color: "#1971c2"},
{ID: 4, Name: "DP", Color: "#9c36b5"},
{ID: 5, Name: "RJ45", Color: "#ffd500"},
},
}
}
func ptr[T any](v T) *T { return &v }
func TestBuildScene_BasicShape(t *testing.T) {
snap := sampleSnapshot()
scene, ids := BuildScene(snap, 1700000000000, newSeq())
if scene.Type != "excalidraw" || scene.Version != 2 {
t.Errorf("bad header: %+v", scene)
}
// frame(1) + device-rect+text(2 each) + ports(2) + io+text(2) +
// cable(1) + legend(5) = 1 + 4 + 2 + 2 + 1 + 5 = 15.
if len(scene.Elements) < 15 {
t.Errorf("element count = %d, want ≥15", len(scene.Elements))
}
if len(ids.Frames) != 1 || len(ids.Devices) != 2 || len(ids.Ports) != 2 ||
len(ids.IOMarkers) != 1 || len(ids.Cables) != 1 {
t.Errorf("id assignment shape wrong: %+v", ids)
}
}
func TestBuildScene_ReusesExistingExcalidrawIDs(t *testing.T) {
snap := sampleSnapshot()
// Pre-assign an excalidraw_id on the first device.
preset := "preset0000000000000NAS"[:21]
snap.Devices[0].ExcalidrawID = &preset
_, ids := BuildScene(snap, 1700000000000, newSeq())
if ids.Devices[snap.Devices[0].ID] != preset {
t.Errorf("preset id not reused: got %q, want %q", ids.Devices[snap.Devices[0].ID], preset)
}
}
func TestBuildScene_ArrowsBindToPorts(t *testing.T) {
snap := sampleSnapshot()
scene, ids := BuildScene(snap, 1700000000000, newSeq())
// The arrow's startBinding should reference the from-port's element id.
fromPortElID := ids.Ports[100]
toPortElID := ids.Ports[101]
var found *Element
for i := range scene.Elements {
if scene.Elements[i].Type == "arrow" {
found = &scene.Elements[i]
break
}
}
if found == nil {
t.Fatal("no arrow in scene")
}
if found.StartBinding == nil || found.StartBinding.ElementID != fromPortElID {
t.Errorf("start binding wrong: %+v", found.StartBinding)
}
if found.EndBinding == nil || found.EndBinding.ElementID != toPortElID {
t.Errorf("end binding wrong: %+v", found.EndBinding)
}
}
func TestBuildScene_BundlesIgnored(t *testing.T) {
snap := sampleSnapshot()
// Snapshot.Bundles is unused in the exporter for v0 per design §4.1.
// Add some and confirm no bundle elements appear in the scene.
snap.Bundles = []db.Bundle{{ID: 1, Name: "trunk", CableIDs: []int64{1000}}}
scene, _ := BuildScene(snap, 1700000000000, newSeq())
for _, e := range scene.Elements {
if strings.Contains(e.Type, "bundle") {
t.Errorf("bundle element leaked into scene: %+v", e)
}
}
}
func TestMarshalScene_IsJSON(t *testing.T) {
snap := sampleSnapshot()
scene, _ := BuildScene(snap, 1700000000000, newSeq())
b, err := MarshalScene(scene)
if err != nil {
t.Fatalf("marshal: %v", err)
}
var roundtrip map[string]any
if err := json.Unmarshal(b, &roundtrip); err != nil {
t.Fatalf("roundtrip: %v", err)
}
if roundtrip["type"] != "excalidraw" {
t.Errorf("type field = %v, want excalidraw", roundtrip["type"])
}
}
func TestGenerate21(t *testing.T) {
a := Generate21()
b := Generate21()
if len(a) != 21 || len(b) != 21 {
t.Errorf("len wrong: %d / %d", len(a), len(b))
}
if a == b {
t.Errorf("ids collide: %q == %q", a, b)
}
}

225
internal/server/cables.go Normal file
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package server
import (
"encoding/json"
"errors"
"net/http"
"mgit.msbls.de/m/mcables/internal/db"
)
type cableEndpointBody struct {
PortID *int64 `json:"port_id,omitempty"`
DeviceID *int64 `json:"device_id,omitempty"`
IOID *int64 `json:"io_id,omitempty"`
}
type cableCreate struct {
TypeID int64 `json:"type_id"`
Label string `json:"label,omitempty"`
From cableEndpointBody `json:"from"`
To cableEndpointBody `json:"to"`
Auto bool `json:"auto,omitempty"`
}
type cablePatch struct {
TypeID *int64 `json:"type_id,omitempty"`
Label *string `json:"label,omitempty"`
From *cableEndpointBody `json:"from,omitempty"`
To *cableEndpointBody `json:"to,omitempty"`
Auto *bool `json:"auto,omitempty"`
// Promote=true asks the server to set auto=false when an auto cable
// is being PATCHed (slice 6 §5b.3 — explicit promote-to-manual).
Promote bool `json:"promote,omitempty"`
}
func toCableEndpoint(b cableEndpointBody) db.CableEndpoint {
return db.CableEndpoint{PortID: b.PortID, DeviceID: b.DeviceID, IOID: b.IOID}
}
func (h *handlers) listCables(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
cs, err := h.store.ListCables(pid)
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, cs)
}
func (h *handlers) createCable(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
var body cableCreate
if err := json.NewDecoder(r.Body).Decode(&body); err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), nil)
return
}
c, err := h.store.CreateCable(pid, db.CableCreate{
TypeID: body.TypeID, Label: body.Label,
From: toCableEndpoint(body.From), To: toCableEndpoint(body.To),
Auto: body.Auto,
})
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusCreated, c)
}
func (h *handlers) patchCable(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
var body cablePatch
if err := json.NewDecoder(r.Body).Decode(&body); err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), nil)
return
}
u := db.CableUpdate{
TypeID: body.TypeID, Label: body.Label, Auto: body.Auto,
}
if body.From != nil {
ep := toCableEndpoint(*body.From)
u.From = &ep
}
if body.To != nil {
ep := toCableEndpoint(*body.To)
u.To = &ep
}
// Promote semantics: explicit promote=true OR (PATCH touched
// type/from/to AND the current cable is auto) → set auto=false.
if body.Promote {
f := false
u.Auto = &f
}
c, err := h.store.UpdateCable(pid, id, u)
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, c)
}
func (h *handlers) deleteCable(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
if err := h.store.DeleteCable(pid, id); err != nil {
writeError(w, err, nil)
return
}
w.WriteHeader(http.StatusNoContent)
}
// ----------------------------------------------------------------- bundles
type bundleCreate struct {
Name string `json:"name"`
CableIDs []int64 `json:"cable_ids"`
}
type bundlePatch struct {
Name *string `json:"name,omitempty"`
CableIDs *[]int64 `json:"cable_ids,omitempty"`
}
func (h *handlers) listBundles(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
bs, err := h.store.ListBundles(pid)
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, bs)
}
func (h *handlers) createBundle(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
var body bundleCreate
if err := json.NewDecoder(r.Body).Decode(&body); err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), nil)
return
}
b, err := h.store.CreateBundle(pid, db.BundleCreate{
Name: body.Name, CableIDs: body.CableIDs, Auto: false,
})
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusCreated, b)
}
func (h *handlers) patchBundle(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
var body bundlePatch
if err := json.NewDecoder(r.Body).Decode(&body); err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), nil)
return
}
b, err := h.store.UpdateBundle(pid, id, db.BundleUpdate{
Name: body.Name, CableIDs: body.CableIDs,
})
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, b)
}
func (h *handlers) deleteBundle(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
if err := h.store.DeleteBundle(pid, id); err != nil {
writeError(w, err, nil)
return
}
w.WriteHeader(http.StatusNoContent)
}

115
internal/server/connection_requirements.go Normal file
View File

@@ -0,0 +1,115 @@
package server
import (
"encoding/json"
"errors"
"net/http"
"mgit.msbls.de/m/mcables/internal/db"
)
type connReqCreate struct {
FromDeviceID int64 `json:"from_device_id"`
ToDeviceID int64 `json:"to_device_id"`
PreferredCableTypeID *int64 `json:"preferred_cable_type_id,omitempty"`
MustConnect *bool `json:"must_connect,omitempty"`
Notes string `json:"notes,omitempty"`
}
// connReqPatch uses RawMessage for preferred_cable_type_id so the wire
// tri-state ({} / null / int) is preserved.
type connReqPatch struct {
PreferredCableTypeID json.RawMessage `json:"preferred_cable_type_id,omitempty"`
MustConnect *bool `json:"must_connect,omitempty"`
Notes *string `json:"notes,omitempty"`
}
func (h *handlers) listConnectionRequirements(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
rs, err := h.store.ListConnectionRequirements(pid)
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, rs)
}
func (h *handlers) createConnectionRequirement(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
var body connReqCreate
if err := json.NewDecoder(r.Body).Decode(&body); err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), nil)
return
}
cr, err := h.store.CreateConnectionRequirement(pid, db.ConnectionRequirementCreate{
FromDeviceID: body.FromDeviceID,
ToDeviceID: body.ToDeviceID,
PreferredCableTypeID: body.PreferredCableTypeID,
MustConnect: body.MustConnect,
Notes: body.Notes,
})
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusCreated, cr)
}
func (h *handlers) patchConnectionRequirement(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
var body connReqPatch
if err := json.NewDecoder(r.Body).Decode(&body); err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), nil)
return
}
ctRef, err := parseFrameRef(body.PreferredCableTypeID)
if err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), "preferred_cable_type_id must be an integer or null")
return
}
cr, err := h.store.UpdateConnectionRequirement(pid, id, db.ConnectionRequirementUpdate{
PreferredCableTypeID: ctRef,
MustConnect: body.MustConnect,
Notes: body.Notes,
})
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, cr)
}
func (h *handlers) deleteConnectionRequirement(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
if err := h.store.DeleteConnectionRequirement(pid, id); err != nil {
writeError(w, err, nil)
return
}
w.WriteHeader(http.StatusNoContent)
}

147
internal/server/device_types.go Normal file
View File

@@ -0,0 +1,147 @@
package server
import (
"encoding/json"
"errors"
"net/http"
"mgit.msbls.de/m/mcables/internal/db"
)
type deviceTypePortBody struct {
CableTypeID int64 `json:"cable_type_id"`
LabelPrefix string `json:"label_prefix,omitempty"`
Count int `json:"count"`
Edge string `json:"edge,omitempty"`
SortOrder int `json:"sort_order,omitempty"`
}
type deviceTypeCreate struct {
Name string `json:"name"`
Kind string `json:"kind,omitempty"`
Icon string `json:"icon,omitempty"`
Description string `json:"description,omitempty"`
Ports []deviceTypePortBody `json:"ports,omitempty"`
}
type deviceTypePatch struct {
Name *string `json:"name,omitempty"`
Kind *string `json:"kind,omitempty"`
Icon *string `json:"icon,omitempty"`
Description *string `json:"description,omitempty"`
Ports *[]deviceTypePortBody `json:"ports,omitempty"`
}
func portsToStore(body []deviceTypePortBody) []db.DeviceTypePortCreate {
out := make([]db.DeviceTypePortCreate, len(body))
for i, p := range body {
c := p.Count
if c <= 0 {
c = 1
}
out[i] = db.DeviceTypePortCreate{
CableTypeID: p.CableTypeID,
LabelPrefix: p.LabelPrefix,
Count: c,
Edge: p.Edge,
SortOrder: p.SortOrder,
}
}
return out
}
// GET /api/device-types — built-in catalog only, read-only.
func (h *handlers) listBuiltInDeviceTypes(w http.ResponseWriter, _ *http.Request) {
dts, err := h.store.ListBuiltInDeviceTypes()
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, dts)
}
// GET /api/projects/:pid/device-types — built-ins + project-custom merged.
func (h *handlers) listDeviceTypes(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
dts, err := h.store.ListDeviceTypesForProject(pid)
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, dts)
}
func (h *handlers) createDeviceType(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
var body deviceTypeCreate
if err := json.NewDecoder(r.Body).Decode(&body); err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), nil)
return
}
dt, err := h.store.CreateDeviceType(pid, db.DeviceTypeCreate{
Name: body.Name, Kind: body.Kind, Icon: body.Icon,
Description: body.Description, Ports: portsToStore(body.Ports),
})
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusCreated, dt)
}
func (h *handlers) patchDeviceType(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
var body deviceTypePatch
if err := json.NewDecoder(r.Body).Decode(&body); err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), nil)
return
}
u := db.DeviceTypeUpdate{
Name: body.Name, Kind: body.Kind, Icon: body.Icon, Description: body.Description,
}
if body.Ports != nil {
converted := portsToStore(*body.Ports)
u.Ports = &converted
}
dt, err := h.store.UpdateDeviceType(pid, id, u)
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, dt)
}
func (h *handlers) deleteDeviceType(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
if err := h.store.DeleteDeviceType(pid, id); err != nil {
writeError(w, err, nil)
return
}
w.WriteHeader(http.StatusNoContent)
}

122
internal/server/export.go Normal file
View File

@@ -0,0 +1,122 @@
package server
import (
"bytes"
"context"
"encoding/json"
"errors"
"fmt"
"io"
"net/http"
"os"
"strings"
"time"
"mgit.msbls.de/m/mcables/internal/db"
"mgit.msbls.de/m/mcables/internal/exporter"
)
// syncExport runs the project's snapshot through the exporter, persists
// the assigned excalidraw_ids, then PUTs the scene to mxdrw.msbls.de.
func (h *handlers) syncExport(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
base := os.Getenv("MEXDRAW_BASE_URL")
if base == "" {
base = "https://mxdrw.msbls.de"
}
user := os.Getenv("MEXDRAW_USER")
pass := os.Getenv("MEXDRAW_PASS")
if user == "" || pass == "" {
writeJSON(w, http.StatusBadRequest, errorBody{
Error: "MEXDRAW_USER / MEXDRAW_PASS not set",
Details: "Add MEXDRAW_USER and MEXDRAW_PASS to /home/m/secrets/mcables/.env on mDock and restart the container — mxdrw expects HTTP Basic Auth",
})
return
}
snap, err := h.store.Snapshot(pid)
if err != nil {
writeError(w, err, nil)
return
}
now := time.Now().UnixMilli()
scene, ids := exporter.BuildScene(snap, now, exporter.Generate21)
// Persist the freshly-assigned ids so the next export reuses them.
// We pass in the full maps; PersistExcalidrawIDs is idempotent (it
// only updates rows whose excalidraw_id is still NULL).
if err := h.store.PersistExcalidrawIDs(pid, ids.Frames, ids.Devices, ids.Ports, ids.IOMarkers, ids.Cables); err != nil {
writeError(w, fmt.Errorf("persist excalidraw_ids: %w", err), nil)
return
}
payload, err := exporter.MarshalScene(scene)
if err != nil {
writeError(w, fmt.Errorf("marshal scene: %w", err), nil)
return
}
drawingName := snap.Project.DrawingName
if !strings.HasSuffix(drawingName, ".excalidraw") {
drawingName += ".excalidraw"
}
url := strings.TrimSuffix(base, "/") + "/api/drawings/" + drawingName
// Sane network timeout; mxdrw is on the LAN so this should be quick.
ctx, cancel := context.WithTimeout(r.Context(), 10*time.Second)
defer cancel()
req, err := http.NewRequestWithContext(ctx, http.MethodPut, url, bytes.NewReader(payload))
if err != nil {
writeError(w, fmt.Errorf("build PUT: %w", err), nil)
return
}
req.Header.Set("Content-Type", "application/json")
req.SetBasicAuth(user, pass)
resp, err := http.DefaultClient.Do(req)
if err != nil {
writeJSON(w, http.StatusBadGateway, errorBody{
Error: "mxdrw unreachable",
Details: err.Error(),
})
return
}
defer resp.Body.Close()
body, _ := io.ReadAll(resp.Body)
if resp.StatusCode >= 400 {
writeJSON(w, http.StatusBadGateway, errorBody{
Error: fmt.Sprintf("mxdrw rejected upload (%d)", resp.StatusCode),
Details: map[string]any{
"status": resp.StatusCode,
"body": string(body),
"url": url,
},
})
return
}
// Best-effort parse — mxdrw returns whatever it returns; we surface
// the public viewer URL no matter what.
var serverEcho any
_ = json.Unmarshal(body, &serverEcho)
viewerURL := strings.TrimSuffix(base, "/") + "/draw/" + strings.TrimSuffix(drawingName, ".excalidraw") + ".excalidraw"
writeJSON(w, http.StatusOK, map[string]any{
"ok": true,
"drawing_name": drawingName,
"url": viewerURL,
"element_count": len(scene.Elements),
"mxdrw_response": serverEcho,
})
}
// noLeak prevents unused-import errors if errors-pkg ever becomes unused
// after a refactor — keeps the import light.
var _ = errors.New

20
internal/server/frames_devices.go
View File

@@ -110,6 +110,7 @@ func (h *handlers) deleteFrame(w http.ResponseWriter, r *http.Request) {
type deviceCreate struct {
Name string `json:"name"`
FrameID *int64 `json:"frame_id,omitempty"`
TypeID *int64 `json:"type_id,omitempty"`
Color string `json:"color,omitempty"`
X float64 `json:"x"`
Y float64 `json:"y"`
@@ -117,13 +118,14 @@ type deviceCreate struct {
Height float64 `json:"height"`
}
// devicePatch uses a raw `json.RawMessage` for frame_id so we can tell
// "key absent" (leave alone) from "key present and null" (set to NULL)
// from "key present with an int" (move to that frame). Standard encoding
// of nullable fields in JSON PATCH.
// devicePatch uses a raw `json.RawMessage` for frame_id + type_id so we
// can tell "key absent" (leave alone) from "key present and null"
// (set to NULL) from "key present with an int" (move to that target).
// Standard encoding of nullable fields in JSON PATCH.
type devicePatch struct {
Name *string `json:"name,omitempty"`
FrameID json.RawMessage `json:"frame_id,omitempty"`
TypeID json.RawMessage `json:"type_id,omitempty"`
Color *string `json:"color,omitempty"`
X *float64 `json:"x,omitempty"`
Y *float64 `json:"y,omitempty"`
@@ -173,7 +175,8 @@ func (h *handlers) createDevice(w http.ResponseWriter, r *http.Request) {
return
}
d, err := h.store.CreateDevice(pid, db.DeviceCreate{
Name: body.Name, FrameID: body.FrameID, Color: body.Color,
Name: body.Name, FrameID: body.FrameID, TypeID: body.TypeID,
Color: body.Color,
X: body.X, Y: body.Y, Width: body.Width, Height: body.Height,
})
if err != nil {
@@ -204,8 +207,13 @@ func (h *handlers) patchDevice(w http.ResponseWriter, r *http.Request) {
writeError(w, errors.Join(db.ErrInvalidInput, err), "frame_id must be an integer or null")
return
}
typeRef, err := parseFrameRef(body.TypeID)
if err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), "type_id must be an integer or null")
return
}
d, err := h.store.UpdateDevice(pid, id, db.DeviceUpdate{
Name: body.Name, FrameID: ref, Color: body.Color,
Name: body.Name, FrameID: ref, TypeID: typeRef, Color: body.Color,
X: body.X, Y: body.Y, Width: body.Width, Height: body.Height,
})
if err != nil {

2
internal/server/handlers.go
View File

@@ -42,6 +42,8 @@ func writeError(w http.ResponseWriter, err error, details any) {
writeJSON(w, http.StatusBadRequest, errorBody{Error: err.Error(), Details: details})
case errors.Is(err, db.ErrInvalidInput):
writeJSON(w, http.StatusBadRequest, errorBody{Error: err.Error(), Details: details})
case errors.Is(err, db.ErrForbidden):
writeJSON(w, http.StatusForbidden, errorBody{Error: err.Error(), Details: details})
default:
writeJSON(w, http.StatusInternalServerError, errorBody{Error: err.Error(), Details: details})
}

109
internal/server/io_markers.go Normal file
View File

@@ -0,0 +1,109 @@
package server
import (
"encoding/json"
"errors"
"net/http"
"mgit.msbls.de/m/mcables/internal/db"
)
type ioMarkerCreate struct {
FrameID *int64 `json:"frame_id,omitempty"`
Label string `json:"label,omitempty"`
X float64 `json:"x"`
Y float64 `json:"y"`
}
// ioMarkerPatch mirrors devicePatch's frame_id tri-state — see
// devicePatch + parseFrameRef in frames_devices.go for the wire format.
type ioMarkerPatch struct {
Label *string `json:"label,omitempty"`
FrameID json.RawMessage `json:"frame_id,omitempty"`
X *float64 `json:"x,omitempty"`
Y *float64 `json:"y,omitempty"`
}
func (h *handlers) listIOMarkers(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
ms, err := h.store.ListIOMarkers(pid)
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, ms)
}
func (h *handlers) createIOMarker(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
var body ioMarkerCreate
if err := json.NewDecoder(r.Body).Decode(&body); err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), nil)
return
}
m, err := h.store.CreateIOMarker(pid, db.IOMarkerCreate{
FrameID: body.FrameID, Label: body.Label, X: body.X, Y: body.Y,
})
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusCreated, m)
}
func (h *handlers) patchIOMarker(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
var body ioMarkerPatch
if err := json.NewDecoder(r.Body).Decode(&body); err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), nil)
return
}
ref, err := parseFrameRef(body.FrameID)
if err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), "frame_id must be an integer or null")
return
}
m, err := h.store.UpdateIOMarker(pid, id, db.IOMarkerUpdate{
Label: body.Label, FrameID: ref, X: body.X, Y: body.Y,
})
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, m)
}
func (h *handlers) deleteIOMarker(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
if err := h.store.DeleteIOMarker(pid, id); err != nil {
writeError(w, err, nil)
return
}
w.WriteHeader(http.StatusNoContent)
}

114
internal/server/ports.go Normal file
View File

@@ -0,0 +1,114 @@
package server
import (
"encoding/json"
"errors"
"net/http"
"mgit.msbls.de/m/mcables/internal/db"
)
type portCreate struct {
TypeID int64 `json:"type_id"`
Label string `json:"label,omitempty"`
XOffset float64 `json:"x_offset"`
YOffset float64 `json:"y_offset"`
}
type portPatch struct {
TypeID *int64 `json:"type_id,omitempty"`
Label *string `json:"label,omitempty"`
XOffset *float64 `json:"x_offset,omitempty"`
YOffset *float64 `json:"y_offset,omitempty"`
}
func (h *handlers) listPortsForDevice(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
ps, err := h.store.ListPortsForDevice(pid, id)
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, ps)
}
func (h *handlers) createPort(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
var body portCreate
if err := json.NewDecoder(r.Body).Decode(&body); err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), nil)
return
}
p, err := h.store.CreatePort(pid, id, db.PortCreate{
TypeID: body.TypeID, Label: body.Label,
XOffset: body.XOffset, YOffset: body.YOffset,
})
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusCreated, p)
}
func (h *handlers) patchPort(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
var body portPatch
if err := json.NewDecoder(r.Body).Decode(&body); err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), nil)
return
}
p, err := h.store.UpdatePort(pid, id, db.PortUpdate{
TypeID: body.TypeID, Label: body.Label,
XOffset: body.XOffset, YOffset: body.YOffset,
})
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, p)
}
func (h *handlers) deletePort(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
if err := h.store.DeletePort(pid, id); err != nil {
writeError(w, err, nil)
return
}
w.WriteHeader(http.StatusNoContent)
}

48
internal/server/server.go
View File

@@ -45,6 +45,54 @@ func New(store *db.Store, frontend fs.FS) http.Handler {
mux.HandleFunc("PATCH /api/projects/{pid}/devices/{id}", h.patchDevice)
mux.HandleFunc("DELETE /api/projects/{pid}/devices/{id}", h.deleteDevice)
// IO markers (project-scoped) — wall-outlet terminators
mux.HandleFunc("GET /api/projects/{pid}/io-markers", h.listIOMarkers)
mux.HandleFunc("POST /api/projects/{pid}/io-markers", h.createIOMarker)
mux.HandleFunc("PATCH /api/projects/{pid}/io-markers/{id}", h.patchIOMarker)
mux.HandleFunc("DELETE /api/projects/{pid}/io-markers/{id}", h.deleteIOMarker)
// Ports — slice 7 lets m add/edit/remove instance ports on a device.
mux.HandleFunc("GET /api/projects/{pid}/devices/{id}/ports", h.listPortsForDevice)
mux.HandleFunc("POST /api/projects/{pid}/devices/{id}/ports", h.createPort)
mux.HandleFunc("PATCH /api/projects/{pid}/ports/{id}", h.patchPort)
mux.HandleFunc("DELETE /api/projects/{pid}/ports/{id}", h.deletePort)
// Device-type catalog. Built-ins are read-only; project-custom rows
// support full CRUD scoped to the project.
mux.HandleFunc("GET /api/device-types", h.listBuiltInDeviceTypes)
mux.HandleFunc("GET /api/projects/{pid}/device-types", h.listDeviceTypes)
mux.HandleFunc("POST /api/projects/{pid}/device-types", h.createDeviceType)
mux.HandleFunc("PATCH /api/projects/{pid}/device-types/{id}", h.patchDeviceType)
mux.HandleFunc("DELETE /api/projects/{pid}/device-types/{id}", h.deleteDeviceType)
// Connection requirements — the solver's per-project input.
mux.HandleFunc("GET /api/projects/{pid}/connection-requirements", h.listConnectionRequirements)
mux.HandleFunc("POST /api/projects/{pid}/connection-requirements", h.createConnectionRequirement)
mux.HandleFunc("PATCH /api/projects/{pid}/connection-requirements/{id}", h.patchConnectionRequirement)
mux.HandleFunc("DELETE /api/projects/{pid}/connection-requirements/{id}", h.deleteConnectionRequirement)
// Cables — slice 6: solver writes here with auto=1; slice 7 lets m
// hand-draw with auto=0. PATCH supports `promote: true` to flip auto→0.
mux.HandleFunc("GET /api/projects/{pid}/cables", h.listCables)
mux.HandleFunc("POST /api/projects/{pid}/cables", h.createCable)
mux.HandleFunc("PATCH /api/projects/{pid}/cables/{id}", h.patchCable)
mux.HandleFunc("DELETE /api/projects/{pid}/cables/{id}", h.deleteCable)
// Bundles — manual + auto.
mux.HandleFunc("GET /api/projects/{pid}/bundles", h.listBundles)
mux.HandleFunc("POST /api/projects/{pid}/bundles", h.createBundle)
mux.HandleFunc("PATCH /api/projects/{pid}/bundles/{id}", h.patchBundle)
mux.HandleFunc("DELETE /api/projects/{pid}/bundles/{id}", h.deleteBundle)
// Solver + quick-fix combo + setup templates.
mux.HandleFunc("POST /api/projects/{pid}/solve", h.solve)
mux.HandleFunc("POST /api/projects/{pid}/devices/{id}/ports-and-resolve", h.portsAndResolve)
mux.HandleFunc("GET /api/setup-templates", h.listSetupTemplates)
mux.HandleFunc("POST /api/projects/{pid}/apply-template", h.applyTemplate)
// Slice 8 — export to mxdrw.msbls.de
mux.HandleFunc("POST /api/projects/{pid}/sync/export", h.syncExport)
// Frontend (embedded). Serve "/" → index.html via http.FileServerFS.
// Wrap in noCache so the browser revalidates with the ETag/Last-Modified
// the file server already emits — without this, browsers cache aggressively

149
internal/server/solver.go Normal file
View File

@@ -0,0 +1,149 @@
package server
import (
"encoding/json"
"errors"
"net/http"
"mgit.msbls.de/m/mcables/internal/db"
)
func (h *handlers) solve(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
preview := r.URL.Query().Get("preview") == "1"
res, err := h.store.Solve(pid, preview)
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, res)
}
// ports-and-resolve combo: POST a new port to a device + re-run solve in
// the same request. Used by the inspector quick-fix.
type portsAndResolveBody struct {
TypeID int64 `json:"type_id"`
Label string `json:"label,omitempty"`
XOffset float64 `json:"x_offset,omitempty"`
YOffset float64 `json:"y_offset,omitempty"`
}
func (h *handlers) portsAndResolve(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
id, ok := parseInt64Path(r, "id")
if !ok {
writeError(w, db.ErrInvalidInput, "id must be a positive integer")
return
}
var body portsAndResolveBody
if err := json.NewDecoder(r.Body).Decode(&body); err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), nil)
return
}
res, err := h.store.PortsAndResolve(pid, id, body.TypeID, body.Label, body.XOffset, body.YOffset)
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, res)
}
// -------------------------------------------------------- setup templates
func (h *handlers) listSetupTemplates(w http.ResponseWriter, _ *http.Request) {
ts, err := h.store.ListSetupTemplates()
if err != nil {
writeError(w, err, nil)
return
}
writeJSON(w, http.StatusOK, ts)
}
type applyTemplateBody struct {
TemplateID int64 `json:"template_id"`
NameOverrides map[string]string `json:"name_overrides,omitempty"`
SkipDevices []int64 `json:"skip_devices,omitempty"`
OriginX float64 `json:"origin_x,omitempty"`
OriginY float64 `json:"origin_y,omitempty"`
}
func (h *handlers) applyTemplate(w http.ResponseWriter, r *http.Request) {
pid, ok := parseInt64Path(r, "pid")
if !ok {
writeError(w, db.ErrInvalidInput, "pid must be a positive integer")
return
}
var body applyTemplateBody
if err := json.NewDecoder(r.Body).Decode(&body); err != nil {
writeError(w, errors.Join(db.ErrInvalidInput, err), nil)
return
}
opts := db.ApplyTemplateOptions{
NameOverrides: map[int64]string{},
SkipDevices: map[int64]bool{},
OriginX: body.OriginX,
OriginY: body.OriginY,
}
// JSON keys are strings; parse to int64.
for k, v := range body.NameOverrides {
var tid int64
_, _ = fmtSscan(k, &tid)
if tid > 0 {
opts.NameOverrides[tid] = v
}
}
for _, tid := range body.SkipDevices {
opts.SkipDevices[tid] = true
}
res, err := h.store.ApplyTemplate(pid, body.TemplateID, opts)
if err != nil {
writeError(w, err, nil)
return
}
// Auto-solve by default. ?solve=0 opts out for power users who want
// to inspect the seeded devices/requirements before the solver runs.
// This is THE fix for the v6 UX hole: m hit Apply, saw an empty
// canvas because nothing reloaded *and* nothing solved. With the
// frontend re-snapshotting after the POST returns and the response
// already carrying solver output, m sees the wired diagram in one click.
skipSolve := r.URL.Query().Get("solve") == "0"
combined := map[string]any{"template_apply": res}
if !skipSolve {
solveRes, err := h.store.Solve(pid, false)
if err != nil {
// Apply succeeded but Solve failed — don't 500 the whole
// call. Return template_apply with the solve error inline so
// the UI can recover (devices are there; m can re-solve).
combined["solve_error"] = err.Error()
} else {
combined["solve"] = solveRes
}
}
writeJSON(w, http.StatusOK, combined)
}
// fmtSscan parses a base-10 int from a string, returning (n, nil) on success.
// Inline so handlers don't pull in strconv just for one call site.
func fmtSscan(s string, out *int64) (int, error) {
var v int64
read := 0
for i := 0; i < len(s); i++ {
c := s[i]
if c < '0' || c > '9' {
break
}
v = v*10 + int64(c-'0')
read++
}
*out = v
return read, nil
}

102
web/static/index.html
View File

@@ -20,9 +20,10 @@
</button>
</div>
<div class="topbar-spacer"></div>
<button type="button" id="btn-export" class="btn" disabled title="Slice 5">
Export
</button>
<button type="button" id="btn-apply-template" class="btn">Apply template…</button>
<button type="button" id="btn-solve" class="btn btn-primary">Solve</button>
<button type="button" id="btn-export" class="btn">Export</button>
<span id="toast" class="toast" hidden></span>
</header>
<main class="layout">
@@ -32,13 +33,19 @@
<ul id="legend-list" class="legend-list"></ul>
<button type="button" id="btn-add-type" class="btn btn-tiny">+ Type</button>
</section>
<section class="requirements">
<h2 class="sidebar-heading">Requirements</h2>
<ul id="requirement-list" class="requirement-list"></ul>
<button type="button" id="btn-add-requirement" class="btn btn-tiny">+ Requirement</button>
</section>
<section class="tools">
<h2 class="sidebar-heading">Tools</h2>
<ul class="tool-list">
<li><button type="button" id="tool-frame" class="btn btn-tiny" data-tool="frame">+ Frame</button></li>
<li><button type="button" id="tool-device" class="btn btn-tiny" data-tool="device">+ Device</button></li>
<li><button type="button" class="btn btn-tiny" disabled title="Slice 4">+ IO</button></li>
<li><button type="button" class="btn btn-tiny" disabled title="Slice 3">Draw cable</button></li>
<li><button type="button" id="tool-io" class="btn btn-tiny" data-tool="io">+ IO</button></li>
<li><button type="button" id="tool-req" class="btn btn-tiny" data-tool="req">Drag req A→B</button></li>
<li><button type="button" id="tool-cable" class="btn btn-tiny" data-tool="cable" title="Click a port to start, then click another port / device / IO marker">Draw cable</button></li>
</ul>
</section>
</aside>
@@ -113,6 +120,91 @@
</form>
</dialog>
<!-- New device (slice 4: type-aware) -->
<dialog id="modal-new-device" class="modal" aria-labelledby="nd-title">
<form method="dialog" id="form-new-device">
<h2 id="nd-title">New device</h2>
<label class="field">
<span>Type</span>
<select id="nd-type" name="type_id" required>
<option value="">Loading…</option>
</select>
</label>
<label class="field">
<span>Name</span>
<input type="text" name="name" id="nd-name" required autocomplete="off" />
</label>
<p class="form-error" id="nd-error" hidden></p>
<div class="actions">
<button type="submit" class="btn btn-primary">Create</button>
<button type="button" class="btn" data-close>Cancel</button>
</div>
</form>
</dialog>
<!-- New / Edit connection requirement (slice 5) -->
<dialog id="modal-requirement" class="modal" aria-labelledby="rq-title">
<form method="dialog" id="form-requirement">
<h2 id="rq-title">New requirement</h2>
<label class="field">
<span>From device</span>
<select id="rq-from" name="from_device_id" required></select>
</label>
<label class="field">
<span>To device</span>
<select id="rq-to" name="to_device_id" required></select>
</label>
<label class="field">
<span>Cable type</span>
<select id="rq-cable" name="preferred_cable_type_id">
<option value="">— solver picks —</option>
</select>
</label>
<label class="field" style="flex-direction: row; align-items: center; gap: 8px;">
<input type="checkbox" id="rq-must" name="must_connect" checked />
<span style="font-size: 13px; color: var(--text);">Must connect (solver hard-requires this link)</span>
</label>
<label class="field">
<span>Notes</span>
<textarea name="notes" rows="2"></textarea>
</label>
<p class="form-error" id="rq-error" hidden></p>
<div class="actions">
<button type="submit" class="btn btn-primary">Save</button>
<button type="button" class="btn" data-close>Cancel</button>
</div>
</form>
</dialog>
<!-- Solve preview-diff (slice 6) -->
<dialog id="modal-solve" class="modal modal-wide" aria-labelledby="sv-title">
<div style="padding: 16px;">
<h2 id="sv-title">Solve preview</h2>
<div id="sv-body" class="sv-body"></div>
<div class="actions" style="margin-top: 12px;">
<button type="button" class="btn btn-primary" id="sv-apply">Apply</button>
<button type="button" class="btn" data-close>Cancel</button>
</div>
</div>
</dialog>
<!-- Apply template (slice 6) -->
<dialog id="modal-template" class="modal modal-wide" aria-labelledby="tp-title">
<form method="dialog" id="form-template">
<h2 id="tp-title">Apply setup template</h2>
<label class="field">
<span>Template</span>
<select id="tp-select" required></select>
</label>
<div id="tp-preview" class="tp-preview"></div>
<p class="form-error" id="tp-error" hidden></p>
<div class="actions">
<button type="submit" class="btn btn-primary">Apply</button>
<button type="button" class="btn" data-close>Cancel</button>
</div>
</form>
</dialog>
<!-- Delete Project confirm -->
<dialog id="modal-delete-project" class="modal" aria-labelledby="dp-title">
<form method="dialog" id="form-delete-project">

1735
web/static/main.js
View File

File diff suppressed because it is too large Load Diff

225
web/static/style.css
View File

@@ -183,9 +183,10 @@ body {
pointer-events: none;
}
/* Stroke + fill come from the device's user-set colour, written as
inline style in renderCanvas — leaving them out of .device-rect so
the author CSS doesn't override the inline style. */
.device-rect {
fill: #fff;
stroke: var(--text);
stroke-width: 1.5;
}
.device-rect.selected { stroke-width: 3; }
@@ -211,7 +212,225 @@ body {
.canvas-wrap.tool-frame #canvas,
.canvas-wrap.tool-frame #canvas *,
.canvas-wrap.tool-device #canvas,
.canvas-wrap.tool-device #canvas * { cursor: crosshair !important; }
.canvas-wrap.tool-device #canvas *,
.canvas-wrap.tool-io #canvas,
.canvas-wrap.tool-io #canvas *,
.canvas-wrap.tool-cable #canvas,
.canvas-wrap.tool-cable #canvas * { cursor: crosshair !important; }
.btn-link {
background: transparent;
border: 0;
color: var(--text-muted);
cursor: pointer;
font: inherit;
padding: 0 4px;
line-height: 1;
}
.btn-link:hover { color: var(--danger); }
/* Highlight a port that's been picked as the cable-draw source. */
.port-circle.cable-from {
stroke-width: 3;
filter: drop-shadow(0 0 4px var(--accent));
}
/* Header toast — slice 8 export feedback */
.toast {
display: inline-block;
margin-left: 12px;
font-size: 13px;
padding: 4px 10px;
border-radius: var(--radius);
background: var(--surface-2);
color: var(--text);
max-width: 420px;
overflow: hidden;
text-overflow: ellipsis;
white-space: nowrap;
}
.toast.ok { background: #e8f5e9; color: #1b5e20; }
.toast.error { background: #fdecea; color: #911313; }
.toast a { color: inherit; text-decoration: underline; }
/* IO markers — diamonds. Power-by-convention, so the default fill is
the Power cable_type colour (#e03131). Rotated 45° rect is the
easiest way to draw a diamond that still hit-tests at the rotated
bounds (a <polygon> would also work; rect-with-rotate keeps the
same DOM shape as device/frame so the drag helpers reuse). */
.io-marker {
fill: var(--danger);
fill-opacity: 0.18;
stroke: var(--danger);
stroke-width: 1.5;
}
.io-marker.selected,
.io-marker:hover { stroke-width: 2.5; }
.io-marker-label {
fill: var(--danger);
font-size: 11px;
font-weight: 600;
text-anchor: middle;
dominant-baseline: central;
pointer-events: none;
user-select: none;
}
/* Ports — small circles laid out along the device edge. Both fill and
stroke come from the cable_type the port carries (set inline in JS)
so the port reads clearly as a coloured anchor on the device. */
.port-circle {
stroke-width: 2;
cursor: crosshair;
}
.port-circle.selected {
stroke-width: 3;
filter: drop-shadow(0 0 4px var(--accent));
}
.port-row {
display: grid;
grid-template-columns: 14px 1fr auto;
align-items: center;
gap: 6px;
font-size: 12px;
padding: 2px 4px;
border-radius: 4px;
cursor: pointer;
}
.port-row:hover { background: var(--surface-2); }
.port-row .swatch,
.swatch {
display: inline-block;
width: 10px;
height: 10px;
border-radius: 50%;
border: 1px solid rgba(0, 0, 0, 0.15);
margin-right: 6px;
vertical-align: middle;
}
.port-row .label { color: var(--text); }
.port-row .conn { color: var(--text-muted); font-size: 11px; }
/* Requirements sidebar list */
.requirement-list {
list-style: none;
padding: 0;
margin: 0 0 8px 0;
display: flex;
flex-direction: column;
gap: 2px;
}
.requirement-row {
display: grid;
grid-template-columns: 1fr auto;
align-items: center;
gap: 6px;
font-size: 12px;
padding: 3px 6px;
border-radius: var(--radius);
cursor: pointer;
}
.requirement-row:hover { background: var(--surface-2); }
.requirement-row[aria-current="true"] {
background: var(--surface-2);
outline: 1px solid var(--accent);
}
.requirement-row .pair { color: var(--text); }
.requirement-row .pair .type { color: var(--text-muted); font-size: 11px; }
.requirement-row .badge {
font-size: 10px;
text-transform: uppercase;
letter-spacing: 0.04em;
padding: 2px 6px;
border-radius: 10px;
color: #fff;
}
.requirement-row .badge.must { background: var(--danger); }
.requirement-row .badge.nice { background: var(--text-muted); }
/* Tool-armed: drag-req tool cursor */
.canvas-wrap.tool-req #canvas,
.canvas-wrap.tool-req #canvas * { cursor: crosshair !important; }
/* Drag-line preview while dragging from device A toward device B. */
.req-drag-line {
stroke: var(--accent);
stroke-width: 2;
stroke-dasharray: 6 4;
fill: none;
pointer-events: none;
}
/* Cables on the canvas. Stroke colour comes from the cable_type;
solver-owned cables (auto=1) render with a slightly dashed pattern
so m can tell at a glance which the solver placed. */
.cable-line {
fill: none;
stroke-width: 2;
cursor: pointer;
}
.cable-line.auto { stroke-dasharray: 8 3; }
.cable-line:hover { stroke-width: 4; }
.cable-line.selected { stroke-width: 4; }
/* Solve preview-diff modal */
.modal-wide { width: 560px; }
.sv-body { font-size: 13px; }
.sv-body h3 {
font-size: 11px;
text-transform: uppercase;
letter-spacing: 0.04em;
color: var(--text-muted);
margin: 12px 0 4px;
}
.sv-body ul {
list-style: none;
padding: 0;
margin: 0;
display: flex;
flex-direction: column;
gap: 2px;
}
.sv-body li {
padding: 4px 8px;
border-radius: var(--radius);
background: var(--surface-2);
}
.sv-body li.added { border-left: 3px solid #2f9e44; }
.sv-body li.removed { border-left: 3px solid var(--danger); text-decoration: line-through; }
.sv-body li.unmet { border-left: 3px solid #f59f00; }
.sv-body li.unmet .quickfix {
display: inline-block;
margin-left: 8px;
font-size: 11px;
padding: 1px 6px;
background: var(--accent);
color: #fff;
border-radius: 10px;
cursor: pointer;
}
.tp-preview {
font-size: 13px;
background: var(--surface-2);
border-radius: var(--radius);
padding: 8px 12px;
margin: 8px 0;
}
.tp-preview h4 {
font-size: 11px;
text-transform: uppercase;
letter-spacing: 0.04em;
color: var(--text-muted);
margin: 6px 0 4px;
}
.tp-preview ul { list-style: none; padding: 0; margin: 0; }
.tp-preview li { padding: 2px 0; }
.tp-preview .skip {
margin-right: 6px;
font-size: 11px;
}
.rubber-band {
fill: rgba(25, 113, 194, 0.08);