Trek_CN/wiki/Plugins.md
jubnl 91025683bb
3.2.1 (#1433)
* fix(plugins): prevent arbitrary api access

* fix(planner): disable drag & drop on mobile so the places list scrolls (#1432)

On touch devices the draggable rows hijack the scroll gesture, so dragging
to scroll started an HTML5 drag and popped up the file-import overlay instead
of scrolling. Gate the draggable rows and the sidebar file-drop handlers on
!isMobile across the places sidebar and the day plan (places, transports,
notes), and hide the grip handle — the arrow reorder buttons take over there.

* fix(inspector): make the remove-from-day button icon-only on mobile

* fix(collections): show the save picker above the mobile place detail

* fix(plugins): seal IPC parent/child for good

* test(inspector): match the icon-only remove-from-day button

* feat(sdk): switch plain ts for clack/prompts interactive session

* feat(plugins): force-refresh the registry from the rescan button

The registry is cached for 30 min server-side and GitHub serves it with a
5-min CDN cache, so a freshly published plugin could take up to ~35 min to
appear. The rescan/reload button now force-pulls the registry: it bypasses the
in-memory cache and appends a cache-buster + no-cache headers to beat the CDN,
and refreshes the browse grid immediately.

* feat(sdk): bump plugin version

* fix(stored settings): prevent local storage drop when update not successful

* feat(plugins): sideload plugins by uploading a .zip

Adds an admin "Upload plugin" button + drag-and-drop to the plugins panel for
installing a plugin archive directly — handy for testing a build before it goes
to the registry. It reuses the registry install pipeline (slip/bomb-safe
extract, strict manifest validation, native-binary scan) via a new
POST /admin/plugins/upload, and only skips the registry sha256/signature checks
that a sideload can't have.

Sideloaded plugins are flagged (source "local:upload", a "Sideloaded" badge, no
GitHub link, no auto-update) and always land INACTIVE — replacing a running or
active plugin stops it and clears the active flag first, so new code never runs
without a fresh activation + permission consent.

* fix(planner): keep the day-plan collapse state after fully closing the page

The expanded/collapsed days were stored in sessionStorage, which survives a
reload but is wiped when the tab or window is closed — so every fresh open
re-expanded all days, which is tedious to re-collapse on long (10+ day) trips.
Store it in localStorage instead so a collapsed layout sticks until it's
changed.

* fix(i18n): correct Vietnamese translation of 'Disabled' (#1438)

'Tàn tật' means physically handicapped/disabled-person, not the
off/disabled state of a toggle. Replace with 'Tắt' (off), matching
the existing 'admin.plugins.stateOff' translation.

Affects admin.notifications.none and admin.addons.disabled.

* add the code of conduct

* fix(plugins): let widgets follow the in-app dark-mode toggle

The plugin frame is sandboxed at an opaque origin (no parent DOM access) and we
only sent the context — including the theme — once, on trek:ready. So toggling
dark mode in TREK left already-mounted widgets on the old theme until a reload.
Watch the <html> `dark` class and re-post the context when it flips; plugins
already re-apply the theme on trek:context.

* fix(plugins): deliver widget context on load so the theme is right on first paint

* fix(plugins): give widget cards the native glassy look and auto-height

Widget plugins rendered in a plain card with a fixed 180px body, so they looked
foreign next to the glassy dashboard tools and taller widgets had their controls
clipped. Mirror the native `.tool` surface (glass background/border/blur, uppercase
title) and let the body grow to the height the widget reports over trek:resize.

* feat(plugins): add read/rwite costs

* feat(plugin): better readme/index.js

* feat(plugin): better readme/index.js

* feat(plugins): hand widgets TREK's theme tokens, formats and display identity

Extends trek:context with a non-secret `tokens` map (TREK's resolved CSS design
tokens for the current theme), `formats` (currency/date/units/timezone) and a
`user` display object (name/avatar/isAdmin — never the email, role only as a
boolean). Re-sent on every theme toggle. A widget can now apply the tokens and
match the host exactly, in both themes and under a custom appearance, instead of
hard-coding a palette that drifts — so plugins feel native, not bolted-on.

* feat(plugins): hand plugins the full palette and appearance state

The theme context only carried a ~19-token subset read off <html> and only
followed the dark-mode toggle. Widen it to the whole global (:root/.dark)
palette — surfaces, text, borders, the accent family, semantic + soft fills,
shadows, radii and fonts — so a plugin tracks the user's chosen accent scheme,
custom accent and high-contrast live, not just light/dark. Also send an
`appearance` block (scheme, density, reduced-motion, no-transparency) mirrored
from the attributes applyAppearance writes on <html>, and re-post the context
whenever any of those actually change (a small signature dedupes unrelated
mutations) so plugins restyle in step with the app.

* feat(plugins): ship a design kit so plugin UIs look native

A plugin's UI is a sandboxed, opaque-origin iframe that can't load TREK's
stylesheet — so authors had to re-derive the whole look by hand, and most
didn't. Ship it instead: a token-driven stylesheet (glass, hover, buttons,
inputs, chips, rows) that consumes the tokens the host already sends and swaps
light/dark, plus a small bootstrap that applies those tokens, mirrors the
appearance flags, auto-reports the frame height and exposes a `window.trek`
helper over the existing bridge. Both are plain strings meant to be inlined
(the CSP forbids external assets for an opaque frame); `injectTrekUi` expands a
`<!-- trek:ui -->` marker. No new capability — only a native look.

* feat(plugins): deliver the design kit — native scaffold + inline on dev/pack

A new page/widget scaffolds a native, glassy starter that talks over
window.trek. The source keeps a single `<!-- trek:ui -->` line; `dev` (when it
serves /ui) and `pack` (as the file enters the archive) expand it into the
inlined kit — so the file stays a one-line opt-in and a rebuild always ships
the current kit. Existing plugins opt in the same way, by dropping the marker.

* feat(plugins): faithful themed host preview in dev

`dev` served the plugin UI raw at /ui — top-level, with no host — so the theme,
context and bridge never fired and authors couldn't see the design kit render.
Add /preview: it embeds /ui in a sandboxed opaque-origin iframe (exactly TREK's
isolation) and plays the host — posts trek:context with a theme/accent/appearance
toggle, proxies trek:invoke to your /api routes as the dev user, and surfaces
resize/notify/navigate. /ui stays as the raw doc for debugging.

* docs(plugins): document the design kit, window.trek and the token contract

Rewrite the client section of the Plugin Development wiki kit-first: the
`<!-- trek:ui -->` marker, the component classes, the `window.trek` bridge, the
`/preview` host preview, the full `trek:context` payload (now the whole palette
plus an `appearance` block) and how to apply tokens by hand. Add a "Build a
native UI" section + the new exports to the SDK README.

* feat(budget): add 'Outstanding amount' card

* fix(translations): finish translating new keys

* feat(plugins): trip-page plugins — a plugin tab inside every trip

Adds a `trip-page` plugin type whose sandboxed iframe mounts as a tab in the
trip planner (Plan / Transports / … / <plugin>), scoped to the open trip, with
no dashboard nav entry. This is the most-asked planner-extension request from
discussion #1429 (a plugin that lives in the trip, e.g. SimMesg20's budget
planner). It reuses PluginFrame and the existing tab system — the frame already
receives the current tripId over trek:context — so there is no bridge or
security change: only the manifest type enum (server + SDK), the client feed
classification (pluginStore.tripPages), and one render branch in the planner.
The SDK scaffolds it with `create --type trip-page`.

* fix(apple wallet): support for .pkpasses

* feat(plugins): permission-gated write APIs for the planner (#1429)

Plugins can now WRITE core planner data, not just read it, through curated,
membership-checked methods — so downstream features can live in plugins instead
of long-lived core patches. Four new scopes: db:write:places (create/update/delete
places), db:write:days (days), db:write:itinerary (assign/unassign a place on a
day) and db:write:trips (update trip fields).

Each ctx method mirrors costs.create: it validates the input against the SAME
@trek/shared schema the web app uses, binds the acting user host-side (a job/onLoad
has none, so its writes are refused), checks trip access AND the app's edit
permission (place_edit / day_edit / trip_edit), delegates to the real services,
broadcasts the same events so open sessions update live, and records the write in
the tamper-evident capability audit. No new route, no sandbox or CSP change — the
isolation boundary is unchanged; a plugin can only change what its user could change
by hand. Consent UI + permission labels in all 22 locales, SDK types + mock host,
and the wikis are updated.

* docs(plugin): ensure wiki correctness

* feat(plugins): plugin metadata on core entities — db:meta (#1429)

Plugins can now attach their OWN namespaced key/value data to a trip, place or
day without forking the core schema (#1429, request 2). New `db:meta` scope +
`ctx.meta.get/set/list/delete`. Storage is one plugin_entity_metadata table
(migration 161) keyed (plugin_id, entity_type, entity_id, key) — a plugin only
ever sees its own rows. Every call is membership-checked: the entity must belong to
a trip the host-bound acting user can access. Quotas guard the shared volume (≤64KB
per value, ≤100 keys per entity); rows are purged on uninstall-with-delete-data and
recorded in the capability audit. SDK types + mock host, a consent chip + labels in
all 22 locales, and the wikis. No new route, no sandbox change.

* feat(plugins): place-detail plugin slot in the trip planner (#1429)

A widget plugin can declare `capabilities.widget.slot: 'place-detail'` to mount
its sandboxed frame inside the trip planner's place-detail panel, scoped to the
open place — the frame receives the `placeId` in trek:context alongside the tripId.
This is the UI half of the place-detail-providers ask (reviews/ratings/popular
times shown on a place). It reuses the existing widget mechanism: PluginFrame gains
an optional placeId, the feed/store learn the new slot, and PlaceInspector renders
the slot at the foot of its body in trip mode. Admin chip + label in all 22 locales,
wiki updated. No sandbox or permission change.

* fix(plugins): green the server tests + harden the new capability surface

The in-memory uninstall fixture was missing the new plugin_entity_metadata table,
so uninstall's DELETE threw "no such table" and failed the server test job. Add the
table to the fixture schema.

Self-review hardening of the write/metadata surface:
- trips.update now reproduces the web UI's per-field gate: is_archived needs
  trip_archive and cover_image needs trip_cover_upload, not just trip_edit — so a
  member who may only edit can't archive or re-cover a trip.
- Plugin metadata WRITES now also require the entity's edit permission
  (place_edit/day_edit/trip_edit), not just trip access, so a read-only member can't
  overwrite or delete metadata another user created. Reads stay access-gated.
- Cap the metadata key length (<=256 chars) alongside the value/count quotas — the
  key was attacker-controlled and uncapped, defeating the disk-DoS guard.

* test(plugins): cover the new write/metadata deps to hold the coverage gate

The new create-rpc-host write + metadata deps were untested, dropping the
src/nest branch coverage below the 80% gate. Add a seeded in-memory core db plus
mocked core services to exercise every dep end-to-end: places/days/itinerary
create/update/delete + not-found paths, trips.update with the archive/cover
per-field gates and the Validation/NotFound/unknown-error mapping, metadata CRUD
+ key/value/count caps + access checks, the costs deps, and users.getById
scoping. Plus rpc-host cases for meta writes on place/day and a no-acting-user
refusal. Tests only — no production code change.

* fix(costs): freeze FX on every cost + settlement write path (#1445)

Settled foreign-currency costs kept re-opening with a few-cent residual
when live rates drifted. The #1335 freeze only ran on the REST create/
update path, so two gaps remained:

- Foreign-currency items created via MCP create_budget_item or booking-
  import bypassed the freeze and stored exchange_rate = 1, so settlement
  re-converted them with live rates. Promote freezeForeignRate into the
  shared budgetService and call it from every write path.
- Settle-up transfers were stored currency-less and re-converted with
  live rates on each recompute. Add currency + exchange_rate to
  budget_settlements (migration), freeze the display-currency rate at
  settle time, and convert with it in calculateSettlement. Legacy rows
  (currency = NULL / rate = 1) keep live-rate behaviour until re-edited.

Also expose guarded cost update/delete to plugins: costs.update and
costs.delete under db:write:costs, gated exactly like costs.create
(addon + trip access + the acting user's budget_edit permission).
updateCost reuses BudgetService.update so a plugin write re-freezes the
FX rate too; both broadcast the same budget:updated / budget:deleted
events the REST controller emits. Wired through the host, the runtime
SDK context and the published trek-plugin-sdk (types + mock host).

* feat(plugins): provider hooks — placeDetailProvider, wired (#1429)

Turn "hooks" from a declared-but-dead surface into a real host→plugin capability.
Add an invoke.hook branch to the child + a supervisor hook registry
(providersOf) + PluginRuntimeService.invokeHook, reusing the existing invoke
transport and its timeout (a short 5s deadline so a slow provider can't delay a
response; a job/onLoad has no user, host-bound as ever). Also fixes a real bug: the
in-repo runtime SDK copy was missing the `hooks` field entirely and could not even
parse a plugin that declared one — synced it with the published SDK.

The first wired hook is placeDetailProvider: a plugin returns extra rows
({label,value?,url?}) for a place, and TREK renders them natively at the foot of the
place-detail panel. Consumer is a new, additive, fail-safe endpoint
GET /api/place-details/:placeId (membership-checked; any provider that errors or
times out is simply skipped — it never breaks the panel). New hook:place-detail-
provider scope + consent chip in all 22 locales. SDK types (both copies), a
controller test, and the wiki. photoProvider/calendarSource stay reserved but the
transport now exists for them. No sandbox or CSP change.

* fix(files): handle pkpass in booking uploads and files-tab open (#1447, #1448)

Both bugs were client-only; the server already allows .pkpass and serves it
as application/vnd.apple.pkpass.

#1448: the reservation/transport attachment inputs hard-coded an accept list
that omitted pkpass, so macOS grayed it out. Add .pkpass/.pkpasses (+ wallet
MIME types) to the accept attribute in both modals.

#1447: the files-tab open path routed every non-media/non-markdown file into
the in-app PDF preview object. Add isWalletPass() and route wallet passes
through the shared blob openFile helper (as bookings already do), which
downloads them so the OS hands them to Apple Wallet.

* feat(plugins): validation/warning contributions via warningProvider hook (#1429)

Second wired provider hook, reusing the invoke.hook infra from the last commit. A
plugin implements warningProvider.getWarnings(tripId, ctx) → {level, message,
dayId?, placeId?}[] to flag problems on a trip (overpacked day, place closed on its
planned date, missing booking, …). TREK surfaces them as a non-blocking overlay
banner at the top of the trip planner (the wrapper ignores pointer events so it
never covers the map/panels; only the pills are interactive).

Consumer is a new additive, fail-safe endpoint GET /api/trip-warnings/:tripId
(membership-checked; a provider that errors or times out contributes nothing and
never blocks the planner). New hook:trip-warning-provider scope + consent chip in
all 22 locales, SDK types (both copies), a controller test, and the wiki. This is
the validation half of the scheduling+validation block; feeding durations/travel
times back into core recalculation stays out (it would touch core planner
computation — deliberately deferred to keep the no-breaking-changes guarantee).

* fix(plugins): enforce the hook:* grant on provider dispatch (#1429 audit)

The adversarial audit of the #1429 additions found one real (medium) gap: the
hook:* permission was never enforced at runtime. providersOf() selected provider
plugins purely by the hooks their CODE declares (sup.hooks, reported by the child
as Object.keys(def.hooks)) and never intersected that with sup.granted — so a
plugin that merely implemented placeDetailProvider/warningProvider got wired in as
a provider even when the admin never consented to hook:place-detail-provider /
hook:trip-warning-provider. The downstream capability router still held (the hook's
ctx can only do what the plugin's OTHER grants allow), but a plugin could obtain an
auto-triggered, user-bound execution context on a passive UI browse without the
hook being consented — a consent-integrity gap that contradicts the documented
invariant.

Gate it host-side: a hookName→permission map, and providersOf now returns a plugin
only if it is active, implements the hook, AND holds the matching hook:* grant. An
unmapped hook resolves to nobody. invokeHook additionally re-checks membership in
providersOf (defense-in-depth against a direct caller). Unit test proves the
grant/implements/active intersection.

* docs(plugins): add the Plugin Cookbook + a trip-doctor example (#1429 eco)

Fosters plugin authoring by turning the new #1429 capabilities into copy-paste
recipes. New wiki page Plugin-Cookbook (read a trip, write to the itinerary, tag an
entity with metadata, contribute native place details, raise trip warnings,
broadcast, match the TREK look) linked in the sidebar, plus a complete runnable
example — trip-doctor — a hooks-only plugin that showcases warningProvider +
placeDetailProvider + ctx.meta with zero UI of its own. Manifest validates against
the SDK. Docs/example only; no product code.

* fix(collections): don't reset saved-place status to 'idea' on edit (#1437)

The update schema reused collectionStatusSchema, whose .default('idea')
survives .optional() — so a PATCH that omits status had 'idea' injected by
the validation pipe and written to the DB, clobbering 'want'/'visited'.
Strip the default on the update field with .removeDefault(), keeping the
.catch guard. Add a shared schema regression test and an e2e round-trip.

* docs(plugin): ensure plugin scopes are the same everywhere

* feat(plugins): read scopes for packing + files (#1429 eco)

Extend the read side of the capability model beyond trips/costs: db:read:packing
→ ctx.packing.list(tripId) and db:read:files → ctx.files.list(tripId). Both mirror
the existing trip reads exactly — the host membership-checks the trip against the
invocation's user (tripRead) before delegating to the same packingService/
fileService the REST paths use (so bags/assignees hydrate and trash is excluded),
and each is a separate scope (packing doesn't unlock files). ctx types in both SDK
copies + mock-host, consent labels + cap chips in all 22 locales, rpc-host +
create-rpc-host tests, and the wiki (perm table + cookbook recipe).

* feat(plugins): core event subscriptions (#1429 eco)

A plugin can react to core activity by declaring events: [{ on, handler }] + the
events:subscribe grant. websocket.broadcast announces every CORE trip event (name +
tripId ONLY, never the payload) through a tiny dependency-free relay
(plugin-event-sink); the runtime registers a sink in onModuleInit and the supervisor
fans each event out to subscribed, granted, active plugins via a fire-and-forget
invoke.event on a short timeout — so a slow subscriber can never block a core write.

Safety by construction: handlers run with NO user (like a job) so trip reads are
refused — they react to the fact, using the plugin's own ctx.db/ws/outbound; the
grant is enforced host-side (deliverEvent checks events:subscribe); plugin:* re-
broadcasts are never delivered back, so handlers can't loop; and only the event name
+ tripId cross the boundary. SDK types (both copies), consent label + cap chip in all
22 locales, supervisor gating + broadcast-tap tests, and the wiki + cookbook.

The relay lives in its own module (not websocket) so it doesn't drag `ws` into the
runtime and tests that mock ./websocket don't strip the sink.

* feat(plugin-sdk): typed ctx returns + native trek.ui DOM helpers (#1429 eco)

Two author-DX wins, SDK-only.

Typed reads/writes: ctx.trips.getById/getPlaces/getReservations, packing.list,
files.list, costs.*, places/days/itinerary writes and users.getById now return
proper entity types (Trip, Place, Day, Reservation, PackingItem, TripFile,
BudgetItem, Assignment, User) instead of unknown — real autocomplete for authors.
Only `id` is guaranteed and every shape keeps an index signature, so it mirrors the
raw DB row honestly (no column hidden, no false guarantees). mock-host matches.

Native UI helpers: window.trek now carries `trek.ui` — a tiny bundler-free DOM
builder (el/button/card/chip/input/mount) that emits the kit's trek-* classes, so a
widget builds themed UI with no CSS and no build step. Ships inlined via the same
<!-- trek:ui --> marker. Wiki updated.

* fix(plugins): scope packing.list to the acting user's #858 visibility (eco audit)

The final eco audit found one real (medium) gap: the db:read:packing delegate
called packingService.listItems(tripId) with NO userId, which takes the UNFILTERED
branch and returns every member's private (is_private=1) packing items — leaking
another member's personal/surprise-gift items to a plugin the normal UI/REST hides
them from. The handler had the host-bound acting user but dropped it when delegating.

Thread it through: tripRead now hands the membership-checked userId to the read
callback, packing.list forwards it to listPackingItems(tripId, userId), and the
service applies its three-tier #858 filter — a plugin now sees exactly what its user
sees. files.list is unaffected (no per-user file visibility). Tests assert the user
is passed. The other three audited surfaces (event subscriptions, trek.ui, and the
regression sweep of the capability boundary) were clean.

* security(plugins): prevent open redirect

* fix(plugins): resolve PR #1433 full-audit findings (code + tests)

The comprehensive PR audit confirmed 21 findings; this fixes the code/test ones I own:

- ctx.users.getById was DEAD: the runtime SDK omitted the _inv tag, so actingUser
  never bound and every call hit RESOURCE_FORBIDDEN. Add _inv (the test had codified
  the bug — corrected).
- Plugin place writes bypassed the REST STRING_LIMITS (a 100k-char name the web app
  rejects). Mirror the caps (name 200 / description 2000 / address 500 / notes 2000).
- packing.list / files.list were missing from the capability audit log while every
  other core read is audited — add them to isAuditable + auditResource.
- SDK lockstep: CalendarSource.getEvents drifted (published Date vs runtime string);
  the host->plugin boundary is JSON, so align both to string.
- Admin panel didn't know the new trip-page plugin type (unlocalised badge, missing
  filter) — add it to KNOWN_TYPES + the type filter + a 22-locale label.
- Tests for previously-uncovered paths: the child-side invoke.hook/invoke.event
  dispatch (real fork, hook + event + non-matching-subscription), and invokeHook's
  defense-in-depth grant re-check.

Julien's settlement-FX-refreeze finding is his budget code (flagged, not touched).

* docs(plugins): correct the wiki against the shipped capability surface (#1433 audit)

Fixes the 11 doc findings from the PR audit — every corrected claim was cross-checked
against the code:

- Plugin-Development: CSP connect-src is built from granted http:outbound:<host>, not
  egress[]; dropped the stale "costs.create is the first and only core mutation";
  documented costs.update/delete + ctx.packing/ctx.files; the manifest permission table
  gained the six missing scopes (db:write:places/days/itinerary/trips, db:meta,
  hook:trip-warning-provider); the widget slot table gained place-detail.
- Plugin-Cookbook: days.create no longer passes a title the schema drops;
  broadcastToUser uses the real (userId, event, data) signature; fixed the broken
  #the-trek-ui-design-kit anchor and noted window.trek.ui.
- Plugin-Permissions: added db:read:packing, db:read:files and events:subscribe;
  the provider hooks are implemented in `hooks: {...}` on the definition, not on ctx.

* fix(unsplash) allow api key usage

* fix(guests): scope guest display names per-trip, not globally (#1446)

A guest is a per-trip person, but their name lived in the globally UNIQUE
users.username, so uniqueGuestUsername() auto-renamed a second "Jake" (on any other
trip) to "Jake 2". Add a non-unique users.display_name: a guest now stores the human
name there and gets a uuid-based username that is never shown, and every member view
(members list, day-assignment participants, budget members/payers, packing
recipients/contributors/bags/assignees) COALESCEs display_name over username. Rename
updates display_name with no dedup. Real users are unchanged (display_name NULL →
COALESCE falls through to username). Migration adds the nullable column; existing
guests keep their current username via the COALESCE fallback.

This also unblocks ctx.users.getById (the audit's #4 fix), whose projection selects
display_name. Tests: two "Jake" guests on two trips both keep the name; the two
codified-the-old-behaviour guest tests corrected.

* fix(costs): don't re-freeze a settlement's FX rate on an unrelated edit (#1445)

The full audit found that updateSettlement called freezeForeignRate without the
"currency unchanged" guard the item path has, so any edit of a foreign-currency
settlement (e.g. correcting from/to) re-fetched the LIVE rate and overwrote the
frozen one — re-opening an already-balanced position with a small residual, the
exact drift #1445 was meant to prevent.

freezeForeignRate's unchanged-check was item-centric (it queried budget_items),
which a settlement (a different table) can't use. Give it an explicit
existingCurrency param; updateSettlement now reads the settlement's stored currency
and passes it, so an edit that doesn't change the currency keeps the frozen rate
(the service UPDATE already preserves exchange_rate when it's left unset). Tests
cover both: unchanged currency keeps the rate, a real currency change re-freezes.

* feat(plugins): add inter plugin dependency support and addon dependency support

* feat(plugins): add inter plugin dependency support and addon dependency support

* docs(plugins) inter dependencies

---------

Co-authored-by: Maurice <mauriceboe@icloud.com>
Co-authored-by: trongbinhnguyen <43725147+trongbinh15@users.noreply.github.com>
2026-07-06 00:27:42 +02:00

12 KiB

Plugins

Plugins let anyone extend a self-hosted TREK instance with new features — a dashboard widget, a full page, a photo/calendar integration — without touching TREK's source code. They are developed by third parties, distributed from a public registry, and installed at the instance owner's discretion.

Important

Plugins run arbitrary code, isolated but real. Every plugin runs in its own sandboxed child process with only the permissions you approve. TREK does not maintain, audit, or take responsibility for community plugins. Grant a plugin only the access you'd trust it to have with your data, and prefer plugins marked Reviewed.

Plugin types

A plugin declares one type in its manifest, which decides where it surfaces:

Type Where it shows Typical use
widget On the dashboard — in the sidebar, or (with slot: "hero") as a boarding-pass style hero overlay At-a-glance info like flight status or weather
page As its own entry in the top navigation A full self-contained tool
trip-page As a tab inside every trip planner (alongside Plan / Transports / Files), scoped to the open trip A tool that works against one trip at a time
integration Nowhere visible — registers into TREK via hooks (e.g. a photo provider or calendar source) Feed data into existing TREK features

Enabling plugins

The plugin system is on by default — the runtime and the Admin → Plugins tab are available out of the box. Installed plugins still have to be activated one by one, so nothing third-party runs until you turn a specific plugin on.

To switch the whole system off, set the environment variable to false and restart:

environment:
  - TREK_PLUGINS_ENABLED=false

When it's off, the Admin → Plugins tab shows a "turned off (TREK_PLUGINS_ENABLED)" banner and nothing runs. Installed plugins stay on disk, deactivated and harmless, until you turn the system back on.

The isolation model — what a plugin can and can't do

Each active plugin runs as a separate OS process, started under Node's permission model (--permission) with filesystem reads scoped to just its own code:

  • It has no access to JWT_SECRET, the database connection, or any TREK secret — those are simply not reachable by its process.
  • It cannot open trek.db, write files, spawn child processes, use worker threads, or load native addons. Its own data lives in a separate SQLite file it reaches only through TREK.
  • It talks to TREK exclusively over an internal RPC channel, and TREK only answers the capabilities the plugin's manifest declares and you approve. An ungranted call is refused, not merely ignored.
  • The RPC channel itself is sealed off from plugin code: even though the plugin runs in a forked process, its raw IPC primitives (process.send, process.on('message')) are revoked before its code loads — just like process.binding. So a plugin can neither forge host messages (fake its route table, spoof another request's identity) nor eavesdrop on other in-flight requests. Every interaction is forced through the capability-checked SDK.
  • A page/widget's interface runs in a sealed browser frame that can't read your session cookie or touch the surrounding TREK page.
  • If a plugin crashes, hangs, or runs out of memory, only its process dies — TREK keeps running and can restart or disable it.

This means the permission list you approve is a real boundary, not a label. It bounds what a plugin can touch, not its intent within a grant: a plugin you let read trips and reach a host could send those trips there. See Plugin Permissions for exactly what each permission grants.

The Admin → Plugins panel

A single panel with a segmented Installed / Discover switch at the top left, plus a toolbar:

  • Search — filters the current list by name/description (and author, in Discover).
  • Type filter — All / Widget / Integration / Page.
  • Status filter (Installed view only) — All / Active / Off / Update available / Error.
  • Sort — Name / Recently updated / Updates first.
  • Upload — sideload a plugin from a .zip/.tar.gz (see Installing).
  • Rescan — rediscovers the on-disk plugins directory and force-pulls the remote registry, bypassing the 30-minute server cache and GitHub's CDN so a just-published plugin (or update) shows up immediately rather than up to ~35 minutes later (see Installing).

Each installed row shows an icon tile with a health dot (green = active, blue pulse = starting, red = error, amber = disabled/incompatible, faint = inactive), the name and version, a Reviewed shield if applicable, a Sideloaded tag for manually-uploaded plugins (see Installing), and capability chips derived from its declared permissions — "Reads your trips", "Reads costs" / "Writes costs", "Dashboard widget", "Real-time updates", "Provides photos", outbound hosts, and so on — so a plugin's real reach is legible without opening anything.

Reviewing a plugin before install

In Discover, click any card to open its detail modal. This is where you review a plugin before it touches your instance. It fetches the plugin's live manifest (at the reviewed commit) and lays out:

  • What it can access — the permission-derived capabilities in plain language.
  • Connects to — the outbound hosts it declared (egress).
  • Setup — configuration fields it will ask for, with scope (instance/user) and whether each is required.
  • Details — version, download size, minimum TREK version, review date, plus links to the source repo and homepage.

A Reviewed badge means a TREK maintainer scanned that exact version's source for malware — not that it works well or is harmless. It is not an ongoing guarantee. Read the access list and outbound hosts, not just the description.

Installing a plugin

Three ways, all from Admin → Plugins:

  1. From the registry. In Discover, open a plugin and click Install (also available directly on the card). TREK downloads the pinned version, verifies its SHA-256 against the registry (and an author signature if the plugin ships one), safely unpacks it, re-validates the manifest, and registers it — inactive. Nothing runs yet.
  2. By upload (sideload). Drag a plugin .zip/.tar.gz onto the panel, or use the Upload button. TREK extracts it into staging with the same hard guards as a registry install (slip/bomb-safe extract, strict manifest, no native binaries — only the registry SHA-256/signature checks don't apply, since there's no registry entry) and registers it inactive. A sideloaded plugin is marked Sideloaded, is unsigned and not registry-reviewed, has no auto-update and no "Source repository" link. Uploading over an existing id force-stops and deactivates the old code first, so the replacement never keeps running without a fresh activation. (Max 50 MB, same ceiling as the SDK's pack.)
  3. From disk. Drop a plugin directory into the plugins code directory (server/data/plugins, or your TREK_PLUGINS_DIR volume) and click Rescan (or restart). TREK discovers it and registers it inactive.

Activating a plugin

Activation is the toggle on the installed row. Flipping it on grants the permissions you already reviewed and spawns the isolated process; flipping it off stops that process immediately while keeping the plugin's data. A page plugin then appears in the top navigation; a widget appears on the dashboard. There is no separate "Activate" button or second consent screen — you reviewed the permissions before installing.

Dependencies between plugins and addons

A plugin can require other plugins or addons to be present before it runs. This is enforced when you activate — installing never fails on a dependency, so you can always install first and resolve after. The installed row shows a plugin's dependencies as chips (amber when one is missing, out of range, or its addon is off).

  • Requires an addon that's off — activation is blocked with a message naming the addon. Turn it on in Admin → Addons, then flip the plugin on. Turning a required addon back off while the plugin runs disables the plugin automatically.
  • Missing a plugin it depends on — activation opens a dependency dialog listing what's missing; each has a Download button that fetches the newest compatible version from the registry (and its own dependencies) and then enables your plugin. A dependency that's installed but the wrong version shows an Update button instead.
  • Depends on a plugin that's installed but off — enabling your plugin auto-enables its dependencies first, in order.
  • Disabling a plugin others depend on disables those dependents too — a plugin can't keep running with a dependency that's gone.

Plugins that declare a dependency can also call each other's functions and exchange events at runtime — always mediated by TREK, and only along a declared dependency (a plugin can't reach one it didn't declare). See Plugin Development.

Managing a plugin

The menu on each row:

  • Restart — stop and re-spawn the process (shown only while active).
  • View error log — the plugin's own crash/failed-request log.
  • Source repository — opens the plugin's GitHub repo (registry installs only).
  • Delete — uninstalls: removes the code and lets you keep or delete its data.

Updating a plugin

When the registry lists a newer version, an Update to vX.Y.Z pill appears on the row, and an Update all bar summarises how many are available.

Updating swaps in the new code and, by default, transparently restarts the plugin on it. But if the new version declares more permissions or new outbound hosts, TREK installs the new code and leaves the plugin off, then shows a re-consent dialog listing exactly the new permissions and hosts. The plugin only runs again once you approve — an update can never silently widen what a plugin may do. Choosing "Later" keeps the new code installed but inactive.

Building your own

Plugins are built with the plugin SDK and its trek-plugin CLI. The CLI turns a built plugin directory into a publishable artifact and the ready-to-PR registry entry, so you never hand-compute a SHA-256 or hand-write registry JSON:

Command What it does
trek-plugin validate [dir] Runs the manifest + layout checks locally (a subset of registry CI, which additionally verifies the release, the artifact SHA-256, and the README over the network).
trek-plugin pack [dir] [--out plugin.zip] [--json] Builds plugin.zip in the installer's exact layout and prints its SHA-256 + byte size. Refuses native binaries; docs/ is intentionally not shipped (the store fetches the screenshot from your repo).
trek-plugin entry --repo <o/n> --tag <vX> [--zip z] [--merge entry.json] [--out f] Emits the registry entry — commitSha, downloadUrl, sha256, size and minTrekVersion (derived from the manifest trek range) all filled in. --merge prepends the new version onto an existing entry for updates.
trek-plugin release [dir] --repo <o/n> --tag <vX> The one-shot: pack → create the GitHub release → print the entry.

Run them via npx trek-plugin-sdk …. See Plugin Development for the SDK and manifest, and Publishing a Plugin for the registry PR flow. Any unique slug works — only registry, install and rescan are refused (they'd collide with admin API routes) — and an id stays bound to the GitHub owner who first registered it, so nobody can repoint an existing plugin. Entries may optionally carry an author signing key (authorPublicKey + a per-version signature) for offline signature verification on top of the SHA-256 pin.