Foundation for the best-in-class discover build. All additive — existing callers unaffected:
- clients.discover() gains keywords (mood/theme), companies (studio), networks (TV), cast/crew
(people), min/max_runtime, certification (+country), vote_count_min override, and release_window
('last_30/90/365', computed date ranges) — each mapped to the right TMDB /discover param + gated
to movie/tv where TMDB requires.
- engine.discover_filter() threads them through + into the cache key.
- engine.trending(window) adds the real-time 'day' chart (cache keyed by window) for a Top 10 row.
- /discover/list parses the new query params and a key=trending_today shortcut.
py_compile + ruff clean. Frontend rails (Top 10, mood, studio, new&upcoming, quick-watches) next.
tests/video/__init__.py was created with the phase-1a gap-engine tests but never staged (those
commits added test files by explicit path). Every other test subfolder has a tracked __init__.py;
this keeps tests/video consistent and guards against import-file-mismatch under pytest's default
prepend import mode (the suite already has a real duplicate basename, test_selection.py).
The three async personalized loaders each did insertAdjacentHTML('afterbegin'), so 'Recommended
for you' / 'More like X' / gap rails landed in whatever order their fetch finished — the top of
the page reshuffled every load, and taste-based rails were scattered through generic ones.
Now Discover renders 6 authored groups in a fixed order, each with a header:
For you · Finish your collection · More of what you like · Trending & popular ·
Browse by genre · Hidden gems & more
Each async loader fills its own group's body (deterministic position) instead of racing to the
top; async-only groups (gaps) stay hidden until filled, and a group whose rails all drop out is
pruned. Extracted lazyShelfHtml/filledShelfHtml/shelfNav helpers; lazy-load, stagger, gen-guard,
see-all and scroll arrows all unchanged.
A heavy library with hide-owned on drained the old 8-page sequential fill before a rail filled,
leaving rows of 4-7 cards. Now the filtered-fill path pages up to 20 deep in concurrent waves of
5 (TTLCache + TMDB client are thread-safe), stopping as soon as it hits ~20 kept items or TMDB
runs out — so digging deep costs ~4 page-latencies instead of 20. Refactored the per-page filter
into consume(); trending + the no-filter path are unchanged in behaviour.
Toggling service/language chips calls reloadRails(), which clears the shelves synchronously
but the personalized loaders (foryou/gaps/morelike) fetch async and insertAdjacentHTML afterbegin.
Rapid re-toggles let superseded in-flight fetches prepend anyway -> N 'Recommended for you' rows
piled up. Each rebuild now bumps state.railGen and every loader bails if its captured gen is
stale before prepending; chip-driven rebuilds are also debounced (350ms) so multi-select
coalesces into one rebuild. The 'On your streaming services' rail itself was building fine -
it was just buried under the duplicates.
'My services' only builds the optional 'On your streaming services' rail, but sitting under
the 'Across Discover' header it read as a page-wide filter (user confusion: 'i thought it
affected the whole page because that's what it says'). Moved it to its own self-describing row
('pick what you subscribe to — adds a rail to your feed') below the bar. 'Across Discover' now
holds only the genuinely page-wide controls: Hide owned + Languages. Markup/CSS only — the
data-vdsc-myprov hook is unchanged.
Each rail showed a shimmer skeleton then revealed the whole row in a single fade — on a
big library with hide-owned on (which pages deep server-side) that reads as a long blank then
a pop. Cards now stagger in left-to-right via a per-card --i index (capped) + a 'backwards'
fill-mode keyframe (so the entrance animation releases and :hover transforms still work).
Applies to lazy rails (fillShelf) and the prepended personalized rows (staggerWithin).
The Browse-all grid silently inherited the global rail language preference, so users
couldn't ad-hoc browse foreign cinema without changing their homepage prefs. Added a
language chipset to the Browse panel (auto-wired via the generic chip handler -> state.sel.lang)
and the grid now always sends lang= : a real code filters, 'any' opts OUT of the rail
preference entirely. Route treats lang=any as 'no language filter'. Added a 'Browse the full
catalog' eyebrow so the panel reads as a self-contained search, parallel to 'Across Discover'.
Hide-owned and the saved 'My services' pref stay single/global by design (they apply page-wide);
the Browse panel's provider chips remain its own grid filter.
Hide-owned + language + my-services were inside the Browse-all filter panel, making them read
as grid-only when they actually affect every rail. Moved them into a labelled 'Across Discover'
strip above the Browse panel (JS finds them by data-attribute, so no logic change). Browse panel
now holds only its grid filters (kind/sort/genre/source/decade).
A saved streaming-services preference drives a personalized 'On your streaming services' rail:
- GET/POST /discover/providers-pref (TMDB provider ids); /discover/list OR-joins multiple
providers (comma->pipe) into with_watch_providers.
- A 📺 multi-select in the toolbar (Netflix/Prime/Disney+/Max/Apple TV+/Hulu/Paramount+/Peacock);
selecting services saves the preference and rebuilds the rails.
- The rail (high priority, after taste) appears once you've picked services, showing what's
streaming on yours.
- A ✕ 'Not interested' button on every un-owned Discover card (hover) — adds to the ignore list
and fades the card out instantly.
- A '🚫 Ignore List' button top-right of the hero opens a vibey glassmorphic modal: a header
explaining what it is, a search box to hide any movie/show directly (TMDB search), and a poster
grid of everything hidden with one-click 'Un-hide'. Empty state guides the user.
- Card button + modal both POST /discover/ignore; ignored titles vanish from every rail (via
_stamp_owned). Video-only, additive.
Add 'Hidden Gems' (movies) + 'Critically Acclaimed Shows' rails — vote_average.desc with the
backend's vote_count floor filtering out single-vote noise, and the language preference applied.
Slot them above the decade/foreign rails.
A 🌐 multi-select chip row in the Discover toolbar (EN/KO/JA/ES/FR/HI/DE/IT) to pick which
original languages appear in the general/curated rails. Loads the current preference from
/discover/languages, toggling a chip POSTs the new set and rebuilds the rails (never empty —
at least one stays on). Extracted reloadRails() (now shared by the hide-owned toggle + language
chips). Default EN, so the rails are English unless you opt more in.
The general/curated rails (Popular/Trending/Top Rated + genre/decade) pull TMDB's GLOBAL lists,
flooding feeds with foreign-language titles (Bollywood). Add a multi-language preference:
- _disc_map now carries original_language (+ popularity) on each item.
- discover_languages setting (default 'en'); /discover/list post-filters general/curated rails
to it (dropping known non-preferred-language titles) and pages deeper to keep rails full.
Rails with an explicit lang (the dedicated foreign rails) bypass the filter.
- GET/POST /discover/languages to read/set the preference.
- Removed the hardcoded lang=en on general rails (the setting drives it now).
Default 'en' immediately fixes the Bollywood flood; UI to pick languages next.
A single personalized wall aggregating TMDB recommendations across many of your owned titles
(random_owned_titles seeds), ranked by consensus — a title recommended by more of your library
ranks higher (ties by rating then popularity), owned + seed titles excluded.
- core/video/discovery_recs.py: pure blend_recommendations (dedup/consensus/exclude), 7 tests.
- /api/video/discover/foryou aggregates ~12 seeds' recommendations.
- loadForYou() prepends the 'Recommended for you' rail on top of the stack; re-runs on the
hide-owned toggle.
Two Discover UX issues:
- Foreign-language titles leaked into the general genre/decade rails. Added an
original-language filter (with_original_language) through client.discover -> discover_filter
-> /discover/list (?lang=); the genre/decade/'because you like' rails now pin lang=en, and a
handful of dedicated foreign rails (Korean/Japanese/Spanish/French/Hindi) house non-English.
- 'Hide owned' + a huge library = nearly-empty rails (a 2-page batch was mostly owned, then
CSS-hidden to almost nothing). /discover/list now takes hide_owned=1: it drops owned
server-side and pages DEEPER (up to 8) until a rail has ~24 un-owned. fillShelf passes
hide_owned when the toggle's on; toggling re-renders the rails (+ personalized rows) instead
of just CSS-hiding cards.
Already-matched movies predate the tmdb_collection_id column, so the collection gap rails
were empty (only newly-enriched movies got the id). Add a self-healing backfill: each
/discover/gaps load fills the franchise id for up to 20 owned movies missing it
(eng.movie_collection reuses the matcher's belongs_to_collection read), recording 0 for
movies with no franchise so they're not re-checked. The 'no-franchise' 0 is excluded from
the rails. Backfill is wrapped/isolated so it can never break the gap response. Over a few
Discover visits the whole library fills in and 'Complete the <franchise>' rails populate.
The #902 'paste cookies.txt' feature added a 'custom' sentinel value for
youtube.cookies_browser, but that feature wasn't merged to this branch — and ~7 call sites
(core/youtube_client.py x5, core/video/youtube.py, web_server.py) pass cookies_browser raw to
yt-dlp's cookiesfrombrowser, which rejects 'custom' ('ERROR: unsupported browser: custom') and
broke YouTube download/enrichment. Sanitize 'custom' -> '' (no browser) at every site:
youtube_client reads via a walrus filter, the other two guard the condition. 'custom' now
means 'no browser cookies' here (the cookiefile feature isn't on this branch). Latent on dev
too — only _youtube_cookie_opts was fixed there.
The new index on movies.tmdb_collection_id was in video_schema.sql, which executescript runs
BEFORE _ensure_columns adds the column on existing DBs — so 'CREATE INDEX ... ON
movies(tmdb_collection_id)' failed with 'no such column' and the whole video DB init aborted
(500s on every /api/video/* call). Moved the index to _POST_INDEXES (runs after the ALTERs),
matching the pattern the code comments already prescribe. The CREATE TABLE columns stay (fresh
DBs) + the ALTER migration stays (existing DBs); only the index moved.
loadGaps() fetches /discover/gaps and prepends the gap rails ('Complete the <franchise>',
'More from <director/creator>') above the rail stack, mirroring loadMoreLike. Cards are the
standard un-owned TMDB cards — already actionable (VideoGet add-to-watchlist/get), so a
missing franchise entry or director film is one click from your queue. Best-effort/additive.
- video_database: owned_movie_tmdb_ids (diff set), owned_movie_collections (franchises you've
started, most-invested first), top_owned_people (directors/creators you own the most).
- engine.collection(id): cached + owned-annotated franchise film list (person_detail already
gives owned-annotated filmography).
- /api/video/discover/gaps: builds 'Complete the <franchise>' rails (collection_gaps) + 'More
from <person>' rails (filmography_gaps, movies, vote-filtered) — the 'what am I missing' section.
All additive; gap diffs are the pure tested core.
core/video/discovery_gaps.py — two pure diffs powering the 'what am I missing' rails:
collection_gaps (franchise entries you don't own, in collection order) and
filmography_gaps (a person's titles you don't own, deduped, kind/vote-filtered, ranked
by popularity). No I/O — the API wires owned-ids/collection-items/person-credits in.
9 tests.
Data layer for the 'complete your collections' gap engine. People/credits/genres are already
normalized + indexed, so the only missing signal was franchise membership:
- movies: + tmdb_collection_id (indexed) + tmdb_collection_name (schema + _COLUMN_MIGRATIONS,
SCHEMA_VERSION 17->18, _ENRICH_META_COLS whitelist so enrichment_apply backfills them)
- enrichment match() reads belongs_to_collection (a standard movie-detail field, no extra call)
and writes the id/name into the match metadata.
Additive + backfill-only (COALESCE), nothing existing rewired. (also noqa'd a pre-existing
OMDb S110 in the touched file to keep ruff clean.)
This is the tool originally asked for — DISTINCT from the Library Scan (where
SoulSync reads the server into video.db). Server Scan tells Plex/Jellyfin to
rescan its OWN folders so newly-downloaded files get indexed, then a Library Scan
pulls them in. It's the manual twin of the post-download 'Scan Video Server'
automation, and targets Movies / TV / both like the Library Scan.
- POST /api/video/scan/server {media_type} -> refresh_video_server_sections (trigger)
- GET /api/video/scan/server/status?media_type -> {scanning:true|false|null} (live poll)
- new Server Scan card on the video Tools page + video-server-scan.js controller,
mirroring the music live-status UX (phase + working bar); resumes if the page
opens mid-scan. Server scans have no % (Plex doesn't report one) so the bar is a
working indicator. Both backend functions already existed + are media-type aware.
Seam tests: trigger threads media_type (movie / default all), status reports the
scanning flag (True / null passthrough), and the blueprint exposes both routes.
Adding the Movies/TV target gave the scan card three controls (target + mode +
button), one more than music's two, overflowing the shared no-wrap flex row and
clipping the Scan Library button past the card edge. Scoped CSS on the video Tools
page lets the row wrap: two selects share the top row, the button takes its own
full-width row. Music's .tool-card-controls is untouched.
Unlike the cleanup twins, backup can't share the music handler — it's a different
DB file. Extract the music backup body into _backup_db_at(db_path, ...) (music
behaviour byte-identical, now a thin wrapper over DATABASE_PATH) and add
auto_backup_video_database pointing at VIDEO_DATABASE_PATH (video_library.db).
New video_backup_database action (scope='video' block + registry), owned_by='video'
system automation on the music cadence (every 3 days).
Tests: a REAL backup behaviour test — music backup lands next to music_library.db,
video backup next to video_library.db, no cross-contamination (this is the whole
reason it can't be shared); scope isolation; single video-owned seed; own handler.
Existing music maintenance tests (22) still green — refactor is non-regressing.
EXPECTED_ACTION_NAMES updated.
ruff S110 flagged two try/except/pass in video handlers that predate this work.
Both are deliberate (a progress-log failure must not abort pruning; a probe's
uncertainty just keeps probing) — extend the existing BLE001 noqa to S110 with
the rationale. ruff check . is clean again.
Same pattern: video_full_cleanup action (scope='video' block + registry), reuses
the shared auto_full_cleanup handler, owned_by='video' system automation on the
music cadence (every 12h). Music copy untouched. Seam tests + EXPECTED_ACTION_NAMES.
Same pattern as phase 2: video_clean_completed_downloads action (scope='video'
block + registry), reuses the shared auto_clean_completed_downloads handler, and
an owned_by='video' system automation on the music cadence (every 5 min). Music
copy untouched. Seam tests for scope isolation, single video-owned seed, and
shared-handler reuse; EXPECTED_ACTION_NAMES updated.
The music side's 'Clean Search History' automation now has a video counterpart so
it appears on the video Automations page too. Distinct action_type
video_clean_search_history (the system seeder keys on action_type, so reusing the
music key would collide), registered to the SAME shared handler so behaviour is
identical, scope='video' block (registry — users can build their own), and an
owned_by='video' system automation on the same 1h cadence. The music action/row
is untouched.
Seam tests: video-scoped only (not on music), music action still music-scoped,
exactly one video-owned system row at the 1h cadence, and it reuses the music
handler. Registration contract (EXPECTED_ACTION_NAMES) updated.
The video Library Scan tool only scanned 'all' — but movies and TV are
independent libraries (unlike music's single library). The scanner backend
already supported media_type='movie'|'show'|'all'; this just wires it up:
- /api/video/scan/request now reads media_type and threads it to request_scan
- the Tools card gains a target selector (All / Movies Only / TV Shows Only)
alongside the existing mode dropdown, matching the music scan's UX
- the live status detail reflects the target (no confusing '0 shows' on a
movies-only scan)
Seam test: the endpoint passes both mode and media_type through (default all/full,
explicit movie/deep, TV-only). Existing scanner media-type/scope tests unchanged.
You can eye-add a show to the watchlist before we know its status, so ended/canceled
shows leak in (auto-airing LIBRARY shows already exclude ended ones; explicit follows
don't). Fix it as cleanup-on-process, per Boulder: the daily 'Wishlist Today's Airings'
automation now runs a watchlist-tidy pass first — scans every explicit show follow,
resolves its status (local for owned, TMDB for tmdb-only follows), and removes any
that have ended/been canceled/completed. Only prunes on a DEFINITIVE terminal status;
unknown/lookup-error → left alone. Toggle prune_ended (default on); returns shows_pruned.
DB: followed_shows(). Pure prune_ended_show_follows() with injected seams; seam tests.
The TMDB-source show detail page rendered an empty action bar — renderActions
early-returned for source='tmdb' (a stale "previews have no actions" assumption that
predates the curated, tmdb_id-keyed watchlist), so the Watchlist button never showed
and the rest was skipped. Now an AIRING show gets the Watchlist button whether it's
owned or a TMDB preview (ended/cancelled stay terminal → no button); Trailer renders
from the payload; Get Missing stays library-only. Also fixed toggleWatchlist sending
a bogus library_id + 404 poster proxy for tmdb previews (data.id is the tmdb id there)
— it now omits library_id and uses the proxied TMDB poster, mirroring the card-hover add.
The probe fired the instant a batch finished, but a fresh drop takes ~1-2 min to
appear even with the server's auto-scan ON — so it always missed and we crawled
anyway, defeating the optimization. Now probe_present_libraries POLLS each candidate
over a grace window (probe_grace_minutes, default 2), skipping a library's crawl as
soon as the server reports it has the item, and only crawling what's still missing
when grace expires. The probe target for a media type you DIDN'T just download is an
old item the server already has → confirmed instantly, no wait. grace=0 probes once.
Scanning is expensive and most servers auto-ingest new files, so a full crawl after
every download is usually wasted. Stage 1 now probes per library: take the newest
completed grab of that type from download history and ask the server (cheap targeted
search) whether it already has it. If yes, the server auto-picked it up (and the
earlier ones) → skip that library's crawl + poll entirely. Only libraries the server
is missing get rescanned. Always emits so stage 2 still reads the new items in.
- sources: PlexVideoSource.has_item / JellyfinVideoSource.has_item (match movie by
title+year, episode by show+SxE) + video_server_has_item() — conservative, any
uncertainty → False so we scan.
- handler: per-scope skip decision fed by latest_completed + server_has_item seams;
narrows the scan scope to only the missing libraries; toggle skip_if_present
(default on). Returns scanned/skipped for visibility.
Seam tests: skip-both, scan-only-missing, no-history, toggle-off, probe-error→scan;
Plex has_item match tests.
GET /api/video/downloads/history (paged, ?kind/search/outcome) + /history/<id>, both
returning the live tab counts. New self-contained modal (video-download-history.js,
.vdh-* styles) opened from a History button on the Downloads page: day-grouped
timeline of every grab with poster, title, S/E, quality/resolution/codec/size and an
outcome badge; rows expand in place to reveal the full detail (release, source/uploader,
codecs, dest path, grabbed/finished times, error). Tabs (All/Movies/TV), search,
load-more, and a live count badge on the button.
video_downloads is a transient queue (hard-deleted on cleanup), so there was no record
of what SoulSync actually grabbed. Add a permanent video_download_history table +
capture: the monitor snapshots every terminal download (completed/import_failed/
cancelled/failed) into it, with rich metadata (title, year, S/E from search_ctx,
release, source, size, quality + parsed resolution/codec, dest path, poster, outcome,
timestamps). Idempotent per (download_id, outcome, dest_path).
DB methods: record_download_history, query_download_history (paged/kind/search),
download_history_detail, download_history_counts, latest_completed_download(media_type)
— the last is the probe target for the upcoming smart post-download scan. Schema v17.
A fixed debounce can't fit a big library — 8500 movies + 4500 shows scan sequentially
through Plex's queue and can take 10-20 min, so the old 120s wait read the DB before
Plex finished and fresh downloads showed up late. Now Stage 1 (video_scan_server)
fires the rescan then POLLS the server until its scan queue goes idle, then emits the
done event.
- sources: PlexVideoSource.is_scanning (section.refreshing + activity feed, scoped by
media_type) and JellyfinVideoSource.is_scanning (scheduled-task state), plus
video_server_scan_in_progress() returning True/False/None.
- handler: pure wait_for_server_scan(scan_status, sleep, …) — grace, then poll every
interval until idle or a generous cap; falls back to the fixed wait only when the
server can't report status (None). debounce_seconds is now that fallback; new
max_wait_minutes caps the poll.
Seam tests for the poll logic (idle/poll/fallback/cap/lost-status), the handler wiring,
and Plex scan-status detection.
A deep scan is the equivalent of music's full refresh — it READS the server's
current state into video.db and prunes what's gone. It should NOT tell Plex to
rescan its disk. The deep-scan action types were wired to auto_video_scan_library
(nudge Plex + read); point them at the read-only auto_video_update_database in
'deep' mode instead. Update-db phase wording no longer says "new" for a full re-read;
deep-scan block descriptions clarify it's a read, not a disk-scan. Registration test
asserts the deep scans route to the read-only handler and never nudge the server.
The deep-scan action types weren't selectable builder actions, and Scan Video Server
/ Update Video Database had no movie-vs-TV dimension — inconsistent with the rest.
- video_deep_scan_tv / video_deep_scan_movies are now proper builder blocks
(Deep Scan TV/Movie Library), not just system-automation action types.
- video_scan_server + video_update_database gain a media_type ('all'|'movie'|'show')
config + selector, threaded through. The post-download chain carries the scope on
the scan-done event, so a TV-only rescan updates only TV (stage 2 inherits it).
- refresh_video_server_sections / Plex+Jellyfin refresh_sections scope the server
nudge to the chosen library; auto_video_scan_library now nudges only its library.
- shared normalize_media_type() in sources; update_database skips cleanly when the
singleton scanner is busy. Defaults stay 'all' so existing chains are unchanged.
Seam tests for refresh scoping, scan-server scope+event, update-db scope/inherit/skip.
Switch the two deep-scan system automations from a rolling 7-day interval to
weekly_time at 02:00 server-local — TV Mondays, Movies Tuesdays. Different days
means they never overlap, and a fixed wall-clock time doesn't drift with restarts.
Drop initial_delay (the seeder arms timed system triggers). _fix_deep_scan_schedules
migrates the original interval rows to the weekly schedule (the seeder only creates
rows, never updates a drifted trigger); it skips once trigger_type is weekly_time so
a hand-tuned day/time sticks. Idempotent.
Video twin of music's 'Auto-Deep Scan Library', split in two because Movies and TV
are separate libraries — scanning the TV library must not pull in new movies and
vice-versa.
- scanner: add a media_type param ('all'|'movie'|'show', friendly aliases) that
gates the movies vs shows passes (and their pruning), plus an in_progress busy
guard so the singleton scanner can't be stomped by an overlapping run.
- video_scan_library handler: thread media_type through, skip cleanly when the
scanner is busy, and name only the scanned library in the summary.
- two system automations (owned_by=video, weekly deep scan, staggered start delays):
'Auto-Deep Scan Movie Library' + 'Auto-Deep Scan TV Library'. Distinct action
types (video_deep_scan_movies / _tv) because the seeder keys on action_type; both
reuse the one handler, scoped via action_config.
- builder block gains a Library selector (Movies+TV / Movies / TV) so custom scans
can scope too; card label/icon maps cover the video action types.
Seam tests for scanner scope + busy guard, handler scope + skip, registration set.
The Automations page reuses the music builder, whose .automations-builder-view is
height:100% so its trigger/action sidebar + canvas scroll independently. On music it
fills #automations-page (a .page at height:100%); on video it sat in a .video-subpage
with no height, so height:100% collapsed to content height and the sidebar grew
instead of scrolling (looked unformatted). #video-page-host is itself a .page, so
give just the automations subpage a definite height to resolve the chain. Scoped to
automations so every other video page keeps its natural document-flow scroll.
The job shipped as a 24h 'schedule' because the system-automation seeder only armed
next_run for interval specs — a 'daily_time' spec sat idle and never fired. The
interval fired reliably but drifted with every restart (5min after startup, then
+24h) instead of a fixed wall-clock time, which is worse for 'today's airings' (you
want it queued overnight).
Fix, the robust way:
- Seeder now arms timed system triggers (daily/weekly/monthly) via next_run_at, not
just interval ones. Event-based triggers still return None and are left alone.
- Spec -> daily_time {time:'01:00'} for fresh installs.
- _fix_airing_automation_schedule migrates the existing 24h-interval row to daily
01:00 (the seeder only creates rows, never updates a drifted trigger). Idempotent.
_finish_run already reschedules daily_time to the next 1am, so it stays pinned.
The Movies/TV/YouTube (and Shows/People/Channels) tabs, search bar, sort select and
clear-all read as generic dark glass. Align them to the video side's polished
language: selected tab now lights up with an accent outline + ring glow (the same
focus treatment as the search field) instead of a filled accent block; search is a
focus-ring shell with an accent icon; sort drops the native OS arrow for a custom
chevron; every control shares one 42px height + 12px radius + accent-ring focus.
Same treatment applied to the watchlist page so the two match.
Field-by-field against the working manual 'add to wishlist', the automation now
matches it on every column EXCEPT the show poster: the get-modal stores
poster_url = '/api/video/poster/show/<library_id>', the automation stored None — so
the wishlist orb fell back to the show's initials and read as 'not matched'. Carry
the same proxy path. With library_id (last commit) + poster_url (this) + the
tmdb_season stills/overviews, an auto-added row is now identical to a manual one.
The real difference from a manual add: the wishlist resolves a show's synopsis +
cast from /api/video/detail/show/<library_id>, and falls back to the TMDB endpoint
only when library_id is absent (which redirects/lacks cast for owned shows). A
manual add sends show.library_id; the automation sent none — so auto-added shows
read as 'not matched' with no synopsis/actors. The handler now carries the show's
library id (the calendar's show_id) through to the wishlist.
The system automation used trigger_type 'daily_time' with no initial_delay, but
the seeder only arms a next_run when a spec has initial_delay (and
_calc_delay_seconds doesn't parse a daily_time clock anyway) — so it registered
as 'event-based' and never auto-ran; it only fired when triggered by hand.
Switched to the proven scheduled pattern (24h 'schedule' + initial_delay, like
Auto-Scan Watchlist) so it runs once a day on its own.