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Author SHA1 Message Date
bvandeusen 611715154b Merge pull request 'M9 diagnostics follow-ups: playback relabel, sort, connected fix, per-skip + track-identity' (#105) from dev into main
test-go / test (push) Successful in 38s
test-web / test (push) Successful in 47s
android / Build + lint + test (push) Successful in 4m18s
test-go / integration (push) Successful in 4m39s
release / Build signed APK (tag releases only) (push) Successful in 3m46s
release / Build + push container image (push) Successful in 16s
2026-06-30 19:19:15 -04:00
bvandeusen 392454b249 feat(android/diagnostics): track-identity enrichment + zero stale Sonos state
android / Build + lint + test (push) Successful in 3m27s
Numeric indices wobble across re-casts (offset +1↔0 seen during output
toggling), making "same track?" ambiguous. Enrich both the track_change
event and the heartbeat with local_track_id (TrackRef.id) and sonos_uri
(RemotePlayerState.currentTrackUri — the URL the speaker is actually
streaming), so a desync is unambiguous.

Also fixes the cast→phone stale-state pollution (#1211): sonos_* is now
zeroed unless a remote route is active, via a shared putSonos() helper —
so a just-ended cast's RemotePlayerState can't masquerade as live Sonos
data in the diagnostics.

Refs Scribe M9 (#119), tasks #1210 #1211.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Claude-Session: https://claude.ai/code/session_01K55iTxn95BtshocgdE1shW
2026-06-30 19:15:12 -04:00
bvandeusen cdfc79e6ab feat(android/diagnostics): per-skip track-change event
android / Build + lint + test (push) Successful in 3m35s
Heartbeats are 45s apart and missed a rapid skip burst (local_index
16→22 in one gap). Add a 'playback' track_change event emitted on each
queue-index / current-track change, snapshotting local vs Sonos
index+position + server_health + upnp_loading + route — so a transient
skip-induced desync is captured at the instant it happens. (uiState is a
conflated StateFlow, so a very rapid burst may coalesce intermediate
indices; we still get the boundaries + the snapshot.)

Refs Scribe M9 (#119), task #1210.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Claude-Session: https://claude.ai/code/session_01K55iTxn95BtshocgdE1shW
2026-06-30 18:48:35 -04:00
bvandeusen 79f2d79a2e feat(diagnostics): 'playback' kind, newest-first sort, fix active-route subtitle
test-go / test (push) Successful in 32s
test-web / test (push) Successful in 41s
android / Build + lint + test (push) Successful in 3m40s
test-go / integration (push) Successful in 4m30s
Relabel (#1204): route + player_state events fire for every output route,
not just UPnP — split them into a new 'playback' kind; 'upnp_sync' now
means genuinely UPnP/Sonos signal (drops, resync). Migration 0037 adds
'playback' to the kind CHECK; server whitelist, Android reporter labels,
and the web kind filter updated.

Web sort: the diagnostics list gains a Newest/Oldest-first sort (default
newest at top); export follows the displayed order.

Fix (#1205): OutputRoute.isConnected was derived from RouteInfo.connectionState,
which stays DISCONNECTED for local SYSTEM routes even when active — so a
connected Bluetooth device showed "Available" and reported connected:false.
The picker subtitle now uses isSelected (route == selected route); the dead
isConnected field is removed and the misleading `connected` field dropped
from the diagnostics route event (it only ever logs the active route).

Refs Scribe M9 (#119), tasks #1204 #1205.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Claude-Session: https://claude.ai/code/session_01K55iTxn95BtshocgdE1shW
2026-06-30 16:33:01 -04:00
bvandeusen 96b15b75e6 feat(web/diagnostics): default to recent 500, move time window to Advanced
test-web / test (push) Successful in 39s
The diagnostics view already defaulted to the most recent 500 events (no
window); make that the obvious path. Device/Kind stay primary; the
start/end window + row cap move into a collapsed "Advanced filters"
disclosure (auto-opens when a window is active) with a "Reset to recent
500" action. Caption now states whether you're seeing the recent default
or a windowed slice.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Claude-Session: https://claude.ai/code/session_01K55iTxn95BtshocgdE1shW
2026-06-30 12:42:25 -04:00
bvandeusen 23a82fb38d Merge pull request 'M9 — Device diagnostics & debug reporting (connectivity + UPnP desync)' (#104) from dev into main
test-go / test (push) Successful in 35s
test-web / test (push) Successful in 47s
android / Build + lint + test (push) Successful in 4m6s
test-go / integration (push) Successful in 4m37s
release / Build signed APK (tag releases only) (push) Successful in 3m56s
release / Build + push container image (push) Successful in 1m38s
2026-06-29 19:24:16 -04:00
bvandeusen 782f152d37 test(web/admin): AdminTabs now has seven tabs (Diagnostics added)
test-web / test (push) Successful in 31s
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Claude-Session: https://claude.ai/code/session_01K55iTxn95BtshocgdE1shW
2026-06-29 19:11:39 -04:00
bvandeusen bffa5b28bd fix(diagnostics): StateFlow distinctUntilChanged build error + AdminUser test fixtures
test-web / test (push) Failing after 33s
android / Build + lint + test (push) Successful in 3m29s
- DiagnosticsReporter.collectServerHealth: drop distinctUntilChanged() on
  networkStatus.state (StateFlow is already distinct; the deprecation
  warning is a hard error under allWarningsAsErrors).
- web users.test.ts: add debug_mode_enabled to the alice/bob AdminUser
  fixtures now that the field is required on the type.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Claude-Session: https://claude.ai/code/session_01K55iTxn95BtshocgdE1shW
2026-06-29 19:05:50 -04:00
bvandeusen 8a58f07237 fix(android/diagnostics): keep uploader drain within ReturnCount gate
android / Build + lint + test (push) Failing after 2m28s
drainSafe/drain each had 3 returns (detekt ReturnCount ≤ 2). Collapse the
guard clauses and convert drain's loop to a `more` flag — same behavior,
zero/two returns.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Claude-Session: https://claude.ai/code/session_01K55iTxn95BtshocgdE1shW
2026-06-29 18:59:05 -04:00
bvandeusen 4d42e298dd feat(android+web/diagnostics): on-device debug reporter + admin timeline (M9)
test-web / test (push) Failing after 11s
android / Build + lint + test (push) Failing after 1m19s
Android: a gated DiagnosticsReporter taps connectivity, server-health,
UPnP drops/player-state/route, power (Doze/battery-opt/screen), and
app fg/bg, plus a heartbeat snapshotting Sonos-vs-local position — the
locked-phone desync signal. Events buffer in a Room ring buffer
(deliberately NOT the MutationQueue: high-volume best-effort telemetry
that must survive the dead zone being debugged) and DiagnosticsUploader
drains them on a tick / health-recovery / sign-in.

Gating: the account flag (users.debug_mode_enabled) reaches the device
via a new /api/me refresh in AuthController; a per-device local OFF
switch lives in Settings. Reporter runs only when enabled && !optOut;
disabling drops the unsent buffer.

Web admin: /admin/diagnostics — pick account+device+kind+time-window,
see a chronological timeline, flip an account's debug mode remotely, and
Copy-JSON / Download-NDJSON the slice for analysis.

Room schema 6→7 (new diagnostic_events table + auth_session.diagnosticsOptOut;
pre-v1 destructive fallback).

Refs Scribe M9 (#119), tasks #1174 #1175 #1176 #1177.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Claude-Session: https://claude.ai/code/session_01K55iTxn95BtshocgdE1shW
2026-06-29 18:56:36 -04:00
bvandeusen 4ed831d9c3 feat(server/diagnostics): device debug-reporting ingest + admin timeline + retention (M9)
test-go / test (push) Successful in 37s
test-go / integration (push) Successful in 4m44s
New diagnostic_events table + per-account users.debug_mode_enabled flag.
When an account's flag is on, its client(s) POST a batch timeseries of
connectivity / UPnP-sync / power / lifecycle events to /api/diagnostics
(no-op 204 when off, kind whitelist mirrors the CHECK constraint).

Admin surface: GET /api/admin/diagnostics (optional account/device/kind/
time-window filters, RFC3339-or-epoch-ms, export-sized paging) + a
/diagnostics/devices overview + PUT /api/admin/users/{id}/debug-mode to
flip an account remotely while a bug is live. debug_mode_enabled is now
exposed on /api/me (client gate) and the admin user views.

Retention: a 30-day gc-worker sweep (GcPruneDiagnostics), keyed on the
server clock so a skewed device clock can't keep rows alive.

Refs Scribe M9 (#119), tasks #1172 #1173.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Claude-Session: https://claude.ai/code/session_01K55iTxn95BtshocgdE1shW
2026-06-29 18:38:56 -04:00
bvandeusen 0de2437689 Merge pull request 'Image rendering + player resilience (#968, #980)' (#103) from dev into main
test-go / test (push) Successful in 46s
test-web / test (push) Successful in 55s
android / Build + lint + test (push) Successful in 4m11s
test-go / integration (push) Successful in 4m44s
release / Build signed APK (tag releases only) (push) Successful in 3m53s
release / Build + push container image (push) Successful in 1m41s
2026-06-20 20:57:39 -04:00
bvandeusen f4f4df7708 feat(android/playlists): stale-view snackbar + Refresh on open system playlist after rebuild
android / Build + lint + test (push) Successful in 3m38s
#980, parity with web e932ab43. When playlist.system_rebuilt arrives (SSE)
while a system-playlist detail screen is open, the ViewModel marks it stale and
the screen shows an indefinite "This mix was refreshed · Refresh" snackbar.
Refresh re-resolves the rotated variant via PlaylistsRepository.systemShuffle
and reuses the existing regenerated navigate-replace flow to land on the fresh
playlist id — without triggering another server rebuild (unlike the manual
regenerate button). Dismiss clears the flag. Functional behaviors were already
correct; this closes the cosmetic stale-list gap.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 19:52:13 -04:00
bvandeusen e932ab438c feat(web/playlists): stale-view banner + Refresh on an open system-playlist after rebuild
test-web / test (push) Successful in 39s
#980. When the daily rebuild fires while a system-playlist detail page is
open, its cached data goes stale and can't be refetched in place — the
playlist id rotated, so the old id 404s. serverEvents now exposes a monotonic
rebuild counter; the detail page shows a "this mix was refreshed" banner with
a Refresh that re-resolves the variant (systemShuffle) to the new playlist id
and navigates there. No forced redirect, no auto-reload — the user refreshes
on their terms. Functional behaviors were already correct (tapping a song
plays it; tiles load the current mix); this closes the cosmetic list-staleness.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 19:48:52 -04:00
bvandeusen d05264ff80 fix(web/playlists): attribute source when playing a system playlist from its detail page
test-web / test (push) Successful in 38s
Playing a system playlist from /playlists/<id> previously sent no source, so
it never advanced that playlist's rotation — inconsistent with the home tile
(and the Android detail screen, which already tags the variant). Pass
source: variant alongside the existing self-heal closure so a play is
attributed regardless of the surface it started from. Issue #968.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 17:35:45 -04:00
bvandeusen a23e2e36ca feat(android/home): refresh Home on playlist.system_rebuilt
android / Build + lint + test (push) Successful in 3m46s
Parity with the web SSE consumer (5a80a1e4). HomeViewModel now subscribes to
EventsStream and re-pulls Home (refreshIndex + system-playlist status) when
the server emits playlist.system_rebuilt — the daily 03:00 rebuild or a
manual refresh — so the system-playlist tiles and You-might-like rows reflect
the new snapshot without a manual reload. Browse-only: the active playback
queue is left to self-heal on the failure path. Issue #968.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 15:46:35 -04:00
bvandeusen 5a80a1e460 feat(web): subscribe to SSE and refresh home/playlists on playlist.system_rebuilt
test-web / test (push) Successful in 39s
The web client only ever SENT events; it had no inbound SSE listener, so a
tab left open across the daily system-playlist rebuild kept showing
yesterday's home + playlist snapshots until a manual reload (the stale-
browse-view bug behind #968). Add useServerEvents(): opens /api/events/stream
while authenticated and, on playlist.system_rebuilt, invalidates the home,
playlists, and system-playlist-status query caches. Deliberately does not
disturb the active playback queue — that self-heals on the failure path.
Issue #968.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 15:44:05 -04:00
bvandeusen 16f76ea707 feat(server): emit playlist.system_rebuilt on daily + manual system-playlist rebuild
test-go / test (push) Successful in 28s
test-go / integration (push) Successful in 4m27s
The daily 03:00 scheduler rebuild (and the manual refresh endpoint) replace
a user's system playlists + You-might-like rows but published no event, so a
client left open across the rebuild served yesterday's snapshot until a
manual reload — the stale-tab case behind #968. Add a user-scoped
playlist.system_rebuilt event (envelope {kind,user_id,data:{}}) from both the
scheduler (bus threaded into NewScheduler) and handleSystemPlaylistRefresh.
Clients consume it to invalidate home / system-playlist views and proactively
re-pull a stale active queue. Issue #968.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 12:59:27 -04:00
bvandeusen d4cc177db4 feat(android/player): self-heal a stale system-playlist / radio queue on total failure
android / Build + lint + test (push) Successful in 3m56s
Web parity with 27766ae0. When a load error exhausts a fully-unplayable
queue, re-pull the source instead of stopping: a bare-variant source is a
refreshable system playlist (re-pull via PlaylistsRepository.systemShuffle),
"radio:<seed>" re-seeds via RadioController. Reads the source from the
current MediaItem extra; bounded to one re-pull per exhaustion (reset when
a track next loads with real audio) so a still-stale refresh can't loop.
Album / artist / user-playlist / offline sources have nothing to refresh
and still stop. Issue #968.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 12:56:01 -04:00
bvandeusen 27766ae063 feat(web/player): self-heal a stale system-playlist / radio queue on total failure
test-web / test (push) Successful in 39s
When the whole queue proves unplayable (e.g. a tab left open across the
daily system-playlist rebuild — the exact stale-snapshot case), the player
now re-pulls the fresh snapshot and resumes instead of dead-ending on
"Try again". The seeder hands the store an opaque refetch closure so the
store stays decoupled from the playlist API and the per-artist
(songs_like_artist) identity problem: single-instance variants re-pull via
systemShuffle, per-artist mixes via getPlaylist(id), radio re-seeds from
its track. Bounded to one self-heal per exhaustion (reset on the next
successful play) so a still-broken refresh can't loop; "Try again" stays
the genuine last resort. Wired from PlaylistCard, the playlist detail page,
and playRadio. Issue #968.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 12:51:47 -04:00
bvandeusen 335d782215 fix(android/player): auto-skip a failed track on load error, not just zero-duration
android / Build + lint + test (push) Successful in 3m47s
onPlayerError fired a `load_failed` event and the snackbar reporter coalesced
it into "Skipped N unplayable tracks" — but nothing actually skipped, so a
bad/stale track stranded playback while the toast claimed otherwise. Mirror
the zero_duration path: advance to the next item and re-prepare (a load error
leaves the player IDLE), or stop at the end. Forward-only bounds a fully-
unplayable queue. Web parity with 2a8de82a. Issue #968.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 12:41:30 -04:00
bvandeusen 2a8de82a17 fix(web/player): auto-skip a failed track instead of dead-ending on "Try again"
test-web / test (push) Successful in 39s
A track that fails to load (e.g. a stale system-playlist snapshot pointing
at a rebuilt/removed file) hard-set the player to the 'error' state and
stranded the user on a "Try again" button that just re-queued the same
failing track. Now a load error advances to the next track; the error
state only surfaces once the whole queue has proven unplayable — every
track failed, or we reached the end. A failure streak capped at queue
length stops a fully-broken queue from cycling, and resets on the next
successful play.

Next (Track B cont.): self-heal a stale system-playlist / radio queue by
re-pulling the fresh snapshot on total failure, plus the Android
equivalent. Issue #968.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 12:40:08 -04:00
bvandeusen 096a3c0b15 fix(clients): never leave cover tiles blank — shared web <Cover> + Android Coil placeholder/error
test-web / test (push) Successful in 48s
android / Build + lint + test (push) Successful in 4m10s
Cover tiles (worst in the "You might like" home row, which surfaces
unplayed items whose art is often not yet backfilled) sat empty while
loading and stayed blank on a 404. The server returns a fast 404; the
gap was missing client-side loading/fallback states.

Web: new shared Cover.svelte owns the loading placeholder + onerror
fallback (static cover, or Disc3 for artists). AlbumCard, ArtistCard and
CompactTrackCard now reuse it instead of three hand-rolled <img> tags
that disagreed on fallback handling — notably ArtistCard had no onerror.

Android: ServerImage tracks Coil's load state so the per-caller fallback
doubles as a placeholder (loading) and an error state (404 / unreachable),
instead of only guarding the null-URL case. All five call sites pass an
explicit size modifier, so the new Box wrapper is layout-safe.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 12:29:05 -04:00
bvandeusen a251dce7e3 Merge pull request 'feat: scan on startup by default + README first-run walkthrough & screenshots' (#102) from dev into main
release / Build signed APK (tag releases only) (push) Has been skipped
test-go / test (push) Successful in 37s
release / Build + push container image (push) Successful in 1m44s
test-go / integration (push) Successful in 4m35s
2026-06-20 11:40:56 -04:00
bvandeusen 97e0e88483 feat(server): scan library on startup by default + README first-run walkthrough
test-go / test (push) Successful in 37s
test-go / integration (push) Successful in 4m38s
Make a fresh install usable out of the box and document the first-run flow
for the public-facing repo.

- Default scan_on_startup to true (Default() + config.example.yaml, which is
  the live config baked into the image). Previously false, so a fresh stack
  came up with an empty library and no hint to scan. Scans are incremental
  (mtime skip), so the per-restart cost is just a directory walk. Re-point
  the env-override test to exercise the override against the new default.
- README: add a "First run" walkthrough (register -> scan -> integrations ->
  install Android app -> invite users), each grounded in a real route.
- Add docs/screenshots/ with six captures, referenced via width-constrained
  <img> wrapped in a link (shrink inline + click to open full size).
  API token and invite token were cropped/redacted out of the captures
  before commit so no live credential lands in the public history.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 11:35:22 -04:00
bvandeusen 938dae7163 Merge pull request 'docs: correct README setup/OOBE + fix data-volume mount' (#101) from dev into main 2026-06-20 10:58:07 -04:00
bvandeusen ad37937949 docs: correct README setup/OOBE + fix data-volume mount
Bring the README and client/README in line with the current product and
release pipeline ahead of making the repo public-facing:

- Highlights: replace the retired "Flutter client in flight" bullet with
  the native-Android-APK-bundled-in-the-image story.
- Quickstart: document the purpose of each compose volume mount, and fix
  the minstrel-data mount (/data -> /app/data) so it matches the image's
  MINSTREL_STORAGE_DATA_DIR and generated artefacts actually persist.
- Configuration: tie MINSTREL_STORAGE_DATA_DIR to the /app/data mount.
- Updating: replace the bogus :v1.0.x scheme with the real tag model
  (:latest, immutable :vYYYY.MM.DD, :main) and note the bundled APK.
- client/README: rewrite the Production section to match release.yml
  (android-release + needs: ordering, non-tag :latest bundle path).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 10:57:28 -04:00
bvandeusen 93365cb555 Merge pull request 'ci(release): bundle the latest release APK into non-tag :latest builds' (#100) from dev into main
release / Build signed APK (tag releases only) (push) Has been skipped
release / Build + push container image (push) Successful in 17s
2026-06-14 22:55:23 -04:00
bvandeusen 2c5c477a0d ci(release): bundle the latest release APK into non-tag :latest builds
Every main push moves :latest, but main builds don't build an APK — so the
in-app update channel silently vanished from :latest until the next tag.

Now the image-release job, on non-tag builds, pulls the most-recent
release's signed APK from the gitea API and reconstructs its exact
versionName (${TAG#v}.$(git rev-list --count TAG) — the same formula
android-release bakes in) for the version sidecar. No rebuild, just
rebundle; tag builds still bundle their own freshly-built APK. Checkout
gains fetch-depth:0 + fetch-tags so the commit count resolves. Degrades to
an empty client/ (404 update channel) — never a wrong version — if no
release / APK asset / tag count can be resolved.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-14 22:54:54 -04:00
bvandeusen eeabdf1f2c Merge pull request 'Web UI: Most Played hover fix, narrower seek bar, Android-parity track kebab' (#99) from dev into main
release / Build signed APK (tag releases only) (push) Has been skipped
test-web / test (push) Successful in 35s
release / Build + push container image (push) Successful in 1m50s
2026-06-14 22:26:52 -04:00
bvandeusen f7278f2417 feat(web): drop "Remove from library" from the track kebab
test-web / test (push) Successful in 32s
No single-click destructive action belongs in the kebab. Removing the item
orphaned its whole path (RemoveTrackPopover was its only caller, and the
admin/tracks API client was the popover's only caller), so per the repo's
no-dead-code convention the chain is fully removed: the menu item + its
admin/isAdmin plumbing in TrackMenu, RemoveTrackPopover(.svelte/.test),
src/lib/api/admin/tracks(.ts/.test), and the now-needless transitive mocks
in the CompactTrackCard / PlaylistTrackRow / playlist specs.

The kebab is now an 8-item, admin-agnostic menu. The DELETE /api/admin/tracks
server endpoint is untouched — a future safer admin surface can rebind it.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-14 22:17:35 -04:00
bvandeusen 9a166f9032 test(web): update TrackMenu spec for Android-parity kebab
test-web / test (push) Successful in 32s
The kebab gained "Start radio" and dropped the duplicate "Flag this track…"
(its action now lives solely under "Hide", which opens the same FlagPopover).
Net item count is unchanged (9 admin / 8 non-admin), but the named-item and
flag-entry assertions needed updating:
- mock playRadio in the store mock; assert Start radio dispatches playRadio.
- swap the flag-item presence check for start-radio.
- replace the "click Flag" test with "click Hide opens the popover".

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-14 21:48:57 -04:00
bvandeusen b3d6785543 feat(web): match track kebab to Android + add it to full-screen Now Playing
test-web / test (push) Failing after 32s
Bring the web TrackMenu to parity with Android's canonical TrackActionsSheet
so the kebab reads the same on both clients:
- Reorder to Android's groups: queue → like/add-to-playlist/start-radio →
  go-to-album/artist → hide.
- Drop the duplicate "Flag this track…" item — it opened the very same
  FlagPopover as "Hide" (Android folds flag into a single Hide).
- Align icons (ListVideo / ListMusic / ListPlus / Disc3 / User).
- Admin-only "Remove from library" stays as a web superset (Android has no
  surface for it), past its own divider.

Mount the kebab on the full-screen /now-playing route with hideQueueActions,
mirroring Android's NowPlayingScreen — Start radio / Add to playlist / Hide
were previously unreachable there (only like + volume + queue existed).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-14 21:46:54 -04:00
bvandeusen 773275e916 feat(web): surface "Start radio" in the track kebab menu
test-web / test (push) Failing after 31s
Radio was fully wired (playRadio → /api/radio + 80% auto-refresh) but its
only entry point was TrackRow's inline 📻 button, so it was unreachable from
the kebab — i.e. missing on the Most Played compact cards and the mini-player.
Add a "Start radio" item to TrackMenu, shown even under hideQueueActions since
reseeding a station from the current track is meaningful there.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-14 21:40:16 -04:00
bvandeusen 066616e196 fix(web): de-overlap Most Played hover controls + narrow desktop seek bar
test-web / test (push) Successful in 40s
CompactTrackCard is a short one-line row but reused CardActionCluster,
which corner-splits Like+Add (top) and the kebab menu (bottom). That split
is right for the tall square Album/Artist cards but makes the two groups
collide on the compact row's hover state. Give the compact card a single
inline, vertically-centred right cluster (Like + Add + menu in one group)
and widen its right padding reserve to match.

In the desktop PlayerBar, the left info column was a fixed w-72 (title kept
truncating) while the seek column was flex-1 (the scrubber hogged the slack
on wide screens). Let the left column grow up to max-w-md while holding its
288px floor at md, and cap the seek/transport column at max-w-xl centred, so
freed width flows to the title instead of stretching the bar.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-14 21:36:26 -04:00
bvandeusen 3e258507bb Merge pull request 'fix(android): UPnP cast resilience — drop-suppression, session adopt, recovery hardening' (#98) from dev into main
android / Build + lint + test (push) Successful in 4m39s
release / Build signed APK (tag releases only) (push) Successful in 4m31s
release / Build + push container image (push) Successful in 15s
2026-06-12 21:25:25 -04:00
bvandeusen fd7d6dac4c feat(android): adopt a running UPnP session + tighten cast recovery/anti-stickiness
android / Build + lint + test (push) Successful in 3m53s
Three related improvements to UPnP/Sonos session handling, on top of the
WiFi-lock + drop-suppression fixes.

1. Adopt a running session instead of clear+reload (the headline).
   Selecting a renderer always did removeAllTracksFromQueue + full reload --
   a jarring restart if the speaker was already playing our queue (e.g. after
   the phone got disconnected but the autonomous Sonos kept going). selectUpnp
   now probes the renderer first; if it's mid-playback on the same track id at
   the same queue index, we ATTACH in place: sync the local cursor to its
   position, wire ActiveUpnpHolder, start polling -- no clear, no reload, and
   skip/seek immediately drive its live queue. Falls through to clear+reload
   when it isn't our queue. New PlayerController.moveCursorTo aligns the local
   cursor without auto-playing.

2. Discovery expiry + selection revert (anti-stickiness). upsertRoute only
   ever added, so a powered-off renderer lingered in the picker forever and
   could pin a stale selection. Stamp lastSeen per route; after the picker's
   active M-SEARCH scan, prune routes that didn't re-announce. A collector
   reverts the selection to the phone when the selected route leaves discovery
   while we're not actively casting -- so a later play never targets a ghost.
   Pruning is tied to picker-open scans only (no background timer -> no row
   flicker).

3. Reconcile immediately on network recovery. When NetworkStatus flips back to
   Healthy while a route is active, nudge an immediate poll instead of waiting
   up to POLL_INTERVAL_MS -- the held session re-confirms the renderer in one
   round-trip.

Verified (read-only): the tap-play-onto-dead-route fallback still fires when
the phone's network is Healthy (the poll-loop drop path is unchanged for that
case); the drop-suppression gate only holds during phone-side outages, where a
local fallback couldn't play either.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-12 21:20:26 -04:00
bvandeusen d6290a3ef0 fix(android): don't drop Sonos (or blast local audio) when the phone's own network is down
android / Build + lint + test (push) Successful in 3m43s
Observed on device: casting to Sonos on battery + screen locked, a
transient ~67s reachability gap (NetworkStatus -> ServerDown while WiFi
itself stayed associated) starved the 1 Hz poll past DROP_THRESHOLD. The
poll loop then dropped the route and fell back to the local player, which
honored the play-intent -- so the phone suddenly started playing the song
out loud locally while the Sonos was still happily streaming it.

A poll failure during a phone-side network outage means "we can't see the
renderer right now," not "the renderer died": a UPnP renderer streams
autonomously and keeps playing, and the local player we'd fall back to
can't reach the server either. Dropping is strictly worse than waiting.

Gate the drop on NetworkStatusController: only drop when the phone's
network is Healthy (renderer genuinely unreachable on an otherwise-fine
link). While Unstable/ServerDown/Offline, hold the route, keep polling,
and clear the failure streak so recovery re-evaluates from scratch rather
than re-dropping on the first post-recovery hiccup. The poll reconciles to
the renderer's real (advanced) position once the network returns.

Complements the CastNetworkLock fix: the lock reduces how often these gaps
happen; this stops a gap that does happen from punishing the user.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-12 20:48:40 -04:00
bvandeusen 9550d8daaf Merge pull request 'fix(android): hold WiFi+wake lock during UPnP cast (locked-screen poll starvation)' (#97) from dev into main
android / Build + lint + test (push) Successful in 4m5s
release / Build signed APK (tag releases only) (push) Successful in 4m4s
release / Build + push container image (push) Successful in 13s
2026-06-12 19:45:44 -04:00
bvandeusen 4d5af3599e fix(android): hold WiFi+wake lock during UPnP cast so a locked screen doesn't starve the poll
android / Build + lint + test (push) Successful in 3m46s
While casting, the wrapped ExoPlayer is paused, releasing its
WAKE_MODE_NETWORK locks -- so nothing kept the phone's radio awake. On a
locked, on-battery phone the WiFi power-saves within seconds and the CPU
dozes, stalling the 1 Hz liveness poll to the renderer and the
queue-extend calls to the server. The poll then trips DROP_THRESHOLD and
playback falls back to a phone that also has no network: silence, while
the Sonos was streaming fine the whole time.

Diagnosed from logcat: ~12s after screen-off the phone logged
"Unable to resolve host minstrel.fabledsword.com" (its own DNS, not the
server), the extend aborted (1/58 appended), then the drop tripped and
the local fallback came up active=null. USB charging masks it (no Doze
while charging), which is why it only bit on battery.

Add CastNetworkLock: a high-perf/low-latency WifiLock + partial WakeLock
acquired when a UPnP route goes active and released on drop/switch-back
(every teardown path funnels through holder.set(null) -> onActiveChanged).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-12 19:39:42 -04:00
bvandeusen db393bbe65 Merge PR #96: recommendation batch (You-might-like fallback + taste 2b + observability)
test-go / test (push) Successful in 41s
test-web / test (push) Successful in 43s
release / Build signed APK (tag releases only) (push) Successful in 4m2s
test-go / integration (push) Successful in 4m38s
release / Build + push container image (push) Successful in 13s
2026-06-12 01:10:09 -04:00
bvandeusen 1a7515e6ea feat(taste): phase 4 — recommendation observability (#796)
test-go / test (push) Successful in 33s
test-web / test (push) Successful in 41s
test-go / integration (push) Successful in 4m24s
Per-source play outcomes so the operator can see whether each recommendation
surface is landing and tune the now-operator-tunable taste weights.

Server:
- query RecommendationSourceMetricsForUser: groups the user's play_events by
  source (system-playlist surface), reporting plays / skips / avg completion
  over a window; NULL-source (library/radio) plays excluded.
- GET /api/me/recommendation-metrics?days=30 (default 30, capped 365) →
  {window_days, sources:[{source, plays, skips, skip_rate, avg_completion}]}.
- handler test: 401 unauth; per-source aggregation + NULL-source exclusion +
  skip_rate / avg_completion math.

Web:
- lib/api/metrics.ts: query + friendly source labels.
- settings page gains a "Recommendation metrics" card (table of surface / plays
  / skip rate / avg completion), with loading/error/empty states.
- settings tests mock the new query (manual subscribe-store, hoisting-safe).

Note: You-might-like plays aren't source-tagged (it's a Home row, not a system
playlist), so this covers For-You / Discover / the mixes. Tagging YML plays
would be a client follow-up.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-12 00:28:30 -04:00
bvandeusen 6c26ba807e feat(taste): phase 2b — taste_overlap candidate arm (#796)
test-go / test (push) Successful in 37s
test-go / integration (push) Successful in 4m41s
2a re-ranks the existing pool by TasteMatch; this ensures taste-relevant tracks
ARE in the pool. Adds a 6th arm to LoadRadioCandidatesV2: in-library tracks by
the user's top positively-weighted taste-profile artists ($10 K, weight > 0,
deterministic weight-DESC,id order so it doesn't reintroduce same-day
nondeterminism). Pool-inclusion only (sim_score 0) — TasteMatch already scores
the fit. Empty for cold-start users (no profile).

- CandidateSourceLimits.TasteOverlap; default 20 (radio), 80 for For-You via
  systemForYouSourceLimits.
- You-might-like deliberately sets TasteOverlap=0: it surfaces NOT-actively-
  engaged artists, so flooding its pool with top-taste (mostly already-played)
  artists would just feed the read-time dedup.
- Test: positive-weight artist's track enters via the arm; negative-weight one
  is excluded (weight > 0). Existing pool tests unaffected (no profile seeded).

Deferred within 2b: profile-seeded For-You — marginal given the arm + TasteMatch
already inject taste broadly (top-played seed ≈ top-taste artist).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-12 00:05:50 -04:00
bvandeusen c7adf2c87a fix(recommendation): broaden You-might-like fallback to liked album/track artists (#790)
test-go / test (push) Successful in 29s
test-go / integration (push) Successful in 4m36s
The fallback pulled artists only from explicit artist-likes (general_likes_artists),
but most users like albums and tracks far more than artists — so the artists row
still came up thin (a couple of tiles) even with a rich library, while the albums
row filled fine.

Broaden both fallbacks to "entities you've shown affinity for":
- artist fallback = explicit artist-likes ∪ artists of liked albums ∪ artists of
  liked tracks.
- album fallback = explicit album-likes ∪ albums of liked tracks.
New dedicated queries (ListYouMightLike{Artist,Album}FallbackForUser) replace the
narrow Rediscover-fallback reuse; same projection so the Go layer still converts
directly. (Aliased + fully-qualified the UNION arms — sqlc merges UNION scopes,
so unqualified user_id was ambiguous across the three like tables.)

Test: 12 liked TRACKS by distinct artists, no artist-likes → the artist row now
fills from their artists (was empty before).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 23:55:08 -04:00
bvandeusen 7b7bd0c3e8 Merge PR #95: You-might-like liked-entity fallback (#790)
test-go / test (push) Successful in 30s
release / Build signed APK (tag releases only) (push) Successful in 3m55s
test-go / integration (push) Successful in 4m38s
release / Build + push container image (push) Successful in 13s
2026-06-11 23:33:25 -04:00
bvandeusen 26c368c35e fix(recommendation): use type conversion for fallback rows (staticcheck S1016)
test-go / test (push) Successful in 28s
test-go / integration (push) Successful in 4m35s
golangci-lint v2 (CI-only; local is v1) flagged the field-by-field struct
literals — the fallback and you-might-like row types are identical, so convert
directly instead.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 23:26:35 -04:00
bvandeusen 36786defd1 feat(recommendation): fall back to liked entities when You-might-like is thin (#790)
test-go / test (push) Failing after 14s
test-go / integration (push) Has been cancelled
The taste roll-up surfaces top-similar albums/artists, which for a heavy
listener are mostly ones they already play — so the read-time dedup (vs Most
Played + Rediscover + Last Played) can strip the section down to a single tile
(reported on the artists row). The code was sound; the section was just starved.

Adds a read-time fallback: when a You-might-like row comes up short after dedup,
top it up from the user's LIKED artists/albums — a far larger pool than the
12-entity similarity roll-up, so the same exclusions still leave plenty. Reuses
the existing Rediscover-fallback queries (no new SQL), applies the same
exclusions (already-shown + Rediscover + Most/Last Played) so it never
duplicates a tile or suggests an actively-played entity, and is best-effort
(a query error leaves the section as-is). Takes effect immediately — no rebuild.

A cold-start user with no likes gets nothing from the fallback, so the
new-user-empty behaviour is preserved (test still passes).

Test: 20 liked artists, none played → Rediscover fills 10, You-might-like
fallback fills the other 10, disjoint.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 23:24:21 -04:00
bvandeusen 8019537b02 Merge PR #94: "You might like" web client row (#790)
test-web / test (push) Successful in 35s
release / Build signed APK (tag releases only) (push) Successful in 3m50s
release / Build + push container image (push) Successful in 1m56s
2026-06-11 23:01:38 -04:00
bvandeusen 3f240bc777 feat(web): "You might like" Home row (#790 web client slice)
test-web / test (push) Successful in 32s
The web UI rendered a fixed set of Home sections and had no code for the
server's you_might_like_albums / you_might_like_artists (shipped in
v2026.06.11), so the row was absent in the web client. Adds it, mirroring
the Rediscover block, positioned directly under the system-playlists row.

- types.ts HomePayload: two new slices (server always emits them; web ships
  in lockstep with the server).
- +page.svelte: a "You might like" section (albums + artists scrollers) as the
  first section under the playlists row, with a "still learning your taste"
  empty state for the cold-start/gated case. Reuses existing AlbumCard /
  ArtistCard / HorizontalScrollRow.
- home.test.ts / page.test.ts: mock payloads gain the two fields.

Completes the You-might-like row across all three clients (server already
emits it; Android in v2026.06.11; web here).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 22:59:58 -04:00
bvandeusen e41d603c12 Merge PR #93: move "You might like" under system-playlists row
android / Build + lint + test (push) Successful in 4m24s
release / Build signed APK (tag releases only) (push) Successful in 4m29s
release / Build + push container image (push) Successful in 14s
2026-06-11 22:55:52 -04:00
bvandeusen 1cc9553d1f fix(android): move "You might like" directly under the system-playlists row
android / Build + lint + test (push) Successful in 3m37s
Operator expected the row immediately beneath the system-generated playlists
section, not below Rediscover. Reorders the section call (presentation only —
no logic/state change) and updates the doc comment.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 22:50:02 -04:00
bvandeusen a62f07bd3a Merge PR #92: "You might like" Android client row (#790)
android / Build + lint + test (push) Successful in 4m19s
release / Build signed APK (tag releases only) (push) Successful in 4m12s
release / Build + push container image (push) Successful in 15s
2026-06-11 22:36:22 -04:00
bvandeusen c2f9bbaff4 fix(android): suppress detekt TooManyFunctions on HomeRepository
android / Build + lint + test (push) Successful in 3m32s
The two new you-might-like observe accessors pushed HomeRepository from 11 to
13 functions, tripping detekt's per-class default. It's accessor density (one
observe method per Home row) on a thin pass-through repository, not complexity —
suppressed with a one-line rationale per the project convention. ktlint already
passed; this was the only detekt finding.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 22:19:13 -04:00
bvandeusen abc225e12a feat(android): "You might like" Home rows (#790 client slice)
android / Build + lint + test (push) Failing after 1m17s
Surface the server's you_might_like_albums / you_might_like_artists sections
(daily-built, cold-start gated, taste-aware) on the Home screen, mirroring the
Rediscover block.

- HomeIndexWire: two new slices, defaulted to emptyList() so decode is safe
  against older servers that don't emit them (Class-B discipline).
- HomeRepository: two section constants + observeYouMightLikeAlbums/Artists
  (reusing the existing album/artist hydration helpers) + refreshIndex now
  replaces both sections and pre-warms their artists. No Room schema change —
  cached_home_index stores the section string verbatim.
- HomeScreen: HomeSections gains the two fields (+ isAllEmpty); the ViewModel
  combine is split (core 5 → +2 you-might-like → +playlists) to stay within the
  coroutines 5-arity limit; a YouMightLikeBlock + youMightLikeSection render an
  albums-then-artists block below Rediscover, with a "still learning your taste"
  empty state for the cold-start/gated case.

Server side already shipped in v2026.06.11; this makes it visible on device.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 22:16:32 -04:00
bvandeusen 3c646c6974 Merge PR #91: "You might like" rows + taste profile (learn + apply)
test-go / test (push) Successful in 29s
test-go / integration (push) Successful in 4m34s
release / Build signed APK (tag releases only) (push) Successful in 4m5s
release / Build + push container image (push) Successful in 15s
2026-06-11 21:41:17 -04:00
bvandeusen aff346c731 feat(taste): phase 2a — apply the taste profile via a TasteMatch scoring term (#796)
test-go / test (push) Successful in 39s
test-go / integration (push) Successful in 4m34s
The profile built in phase 1 now changes what gets surfaced. Adds a TasteMatch
term to the weighted-shuffle score so candidates are re-ranked by their fit to
the user's learned taste (positive draws toward it; negative reflects passive
avoidance; 0 at cold start).

- recommendation/score.go: ScoringInputs.TasteMatchScore ([-1,+1]) +
  ScoringWeights.TasteWeight + the term in Score.
- recommendation/taste.go: LoadTasteProfile reads the taste_profile_* tables;
  TasteProfile.Match blends the candidate's artist weight (0.7) and avg genre-tag
  weight (0.3), each tanh-squashed by a fixed scale so one outlier artist can't
  compress the rest. Unknown artist/tags and empty profiles → 0 (neutral).
- candidates.go: both candidate loaders set TasteMatchScore per candidate, so
  every Score caller (system playlists incl. You-might-like, radio) becomes
  taste-aware automatically.
- weights: systemMixWeights.TasteWeight = 1.5 (daily mixes are the primary
  taste surface); config.RecommendationConfig gains taste_weight (default 1.0,
  lighter — radio is seed-directed) wired into the radio handler.
- tests: pure (Match curve incl. saturation/clamp/empty-neutral, Score term
  add+subtract) + DB round-trip (seed taste rows → Match positive). All green
  vs real Postgres; existing playlist/radio tests unaffected (empty profile →
  zero taste effect).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 21:29:42 -04:00
bvandeusen 13b3fca949 fix(taste): drop unused now param + tighten test (golangci-lint revive)
test-go / test (push) Successful in 28s
test-go / integration (push) Successful in 4m25s
golangci-lint v2 (CI-only; local is v1) flagged two unused-parameter issues:
- BuildTasteProfile's `now` was genuinely dead — decay/windowing are computed
  DB-side via now(), so no Go-side timestamp is threaded. Removed it (a
  phase-3 context model that needs a pinned reference time would re-add it);
  updated the scheduler call site.
- the degenerate-params engagement test ignored t; reworked it to assert the
  result stays in [-1,1], which also strengthens the test.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 20:58:43 -04:00
bvandeusen 6e0d0e5723 feat(taste): phase 1 — persistent per-user taste profile from graded engagement (#796)
test-go / test (push) Failing after 25s
test-go / integration (push) Has been cancelled
Build a persistent, decaying model of each user's taste, recomputed daily,
that later phases consume across every recommendation surface. Phase 1 only
BUILDS the object — no behaviour change to what's surfaced yet.

Core mechanic — graded engagement (replaces binary was_skipped for learning;
was_skipped stays for History): a play's completion ratio maps to a signal in
[-1,+1] via two linear ramps (instant-skip → -1, ~0.30 neutral, ≥0.90 → +1).
Time-decayed (half-life ~75d) so recent behaviour dominates and the profile
tracks drift.

Per operator constraints:
- No explicit dislike button — negatives come only from passive behaviour
  (early skips). Nothing recorded to regret or opt out of.
- Negatives are track-scoped; artist/tag weight is the decayed SUM of their
  tracks' engagement, so one skip nets out against many good plays (a
  DB test asserts a liked artist stays positive despite an early-skipped
  track). A floor clamp bounds how negative any single entity can get.

- migration 0035: taste_profile_artists / taste_profile_tags (signed weight,
  indexed by (user, weight DESC)).
- internal/taste: engagement.go (pure curve + decay) + profile.go
  (accumulate plays + like bonuses, floor damping, size caps, atomic-replace).
- scheduler: rebuildUserDaily recomputes the profile before the playlist
  build (so phase 2 can read it), best-effort — a taste failure never blocks
  playlist building. Wired into the daily job + startup catch-up only (not
  manual/lazy rebuilds).
- tests: pure (engagement curve, decay, ranking, floor, genre split) +
  DB-backed (positive/negative weights, aggregation-protects-artist, like
  bonus, atomic replace). All green vs real Postgres.

Config knobs live in taste.DefaultConfig() for now; wiring them into the
server RecommendationConfig is a later follow-up.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 20:55:14 -04:00
bvandeusen 752906b054 fix(playlists): pin candidate order before jitter to make daily builds deterministic
test-go / test (push) Successful in 29s
test-go / integration (push) Successful in 4m33s
scoreAndSortCandidates drew per-candidate jitter by slice position, but
the candidate query (LoadRadioCandidatesV2) has ORDER BY random() arms and
no stable outer ordering, so DB row order varies call-to-call. When the
recency spread between candidates is smaller than the ±jitter (small or
recency-clustered libraries), two same-day rebuilds assigned jitter to
different tracks and reordered near-ties — so the build was not actually
deterministic-within-a-day as documented.

Pre-existing latent flake in TestBuildSystemPlaylists_DailyNonceDeterminism
(passed in isolation / by luck in CI; deterministically reproduced when the
system-build tests run in sequence). Confirmed independent of the
You-might-like change by neutralizing buildYouMightLike — the flake
persisted.

Fix: sort the candidate slice by track id before assigning jitter, so the
jitter for a track is a function of (track, day) alone, independent of DB
return order. Verified: full playlists package green 4/4 and the build-test
sequence green 5/5 (was 0/4 before).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 19:56:13 -04:00
bvandeusen fdd14ef04c feat(server): "You might like" album/artist Home rows (#790)
test-go / test (push) Successful in 39s
test-go / integration (push) Failing after 4m39s
Surface in-library albums/artists the listener doesn't actively spin but
is predicted to enjoy, derived from the same similarity + like-weighted
candidate engine that powers For-You — rolled up from track scores to
album/artist granularity. Built in the daily 3am BuildSystemPlaylists
pass, atomic-replaced alongside the system playlists, and read back by
/api/home (+ /api/home/index).

Cold-start gate: skips generation entirely below 20 distinct unskipped
tracks AND 5 distinct artists, so a thin profile ships empty rows rather
than near-random tiles.

- migration 0034: you_might_like_albums / you_might_like_artists (id+rank,
  CASCADE, per-user rank index).
- playlists/you_might_like.go: cold-start gate + similarity roll-up
  (sum-of-top-3 aggregation, per-artist album cap, daily-rotating via the
  same userIDHash jitter as For-You) + atomic-replace persist in the tx.
- recommendation/home.go: two new HomePayload sections with read-time
  cross-section dedup vs Most Played / Rediscover / Last Played, trimmed
  to 10 each.
- api: you_might_like_albums / you_might_like_artists on /api/home and
  /api/home/index, reusing albumRefFrom / artistRefFromCovered.
- tests: pure roll-up/aggregation/cap unit tests + DB-backed gate,
  sufficiency, and atomic-replace tests (all green vs real Postgres).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 19:33:46 -04:00
bvandeusen 9a57dc4bec Merge pull request 'Offline/playback recording robustness (contract-audit follow-ups)' (#90) from dev into main
test-go / test (push) Successful in 29s
android / Build + lint + test (push) Successful in 4m23s
test-go / integration (push) Successful in 4m25s
release / Build signed APK (tag releases only) (push) Successful in 4m20s
release / Build + push container image (push) Successful in 1m53s
2026-06-11 14:19:27 -04:00
bvandeusen 4ecb1680bf fix(android): drop second loop jump in supersededLikeToggleIds (detekt)
android / Build + lint + test (push) Successful in 3m51s
LoopWithTooManyJumpStatements — replace the two continues with a
filtered sequence + a single null guard.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 12:11:54 -04:00
bvandeusen d2a22e49e3 fix: harden offline/playback recording (contract-audit follow-ups)
test-go / test (push) Successful in 42s
android / Build + lint + test (push) Failing after 1m27s
test-go / integration (push) Successful in 4m42s
Audit of every Android↔server connection point (2026-06-11) cleared the
silent-contract class that caused the events `type` bug, but surfaced a
cluster of offline/playback-robustness defects. Fixes:

1. Playback double-count on background. PlayEventsReporter no longer
   enqueues a partial play_offline + leaves the live row open on every
   screen-lock. closeCurrent() now routes by whether the server has an
   open row: close-by-id (durable PLAY_ENDED on failure) when it does,
   offline only when no row exists, and a no-op while a play_started is
   in flight (the server auto-closes that orphan). onStop only durably
   closes a *paused* play — a still-playing one is left to the live path
   under the foreground service. Adds the PLAY_ENDED mutation kind.

2. Replayer poison rows. MutationReplayer now classifies each replay as
   SENT / DROP / RETRY: permanent 4xx (and corrupt payloads) are dropped
   instead of retried forever; 408/429/5xx/transport still retry.

3. Offline-play / close-by-id idempotency (server). RecordOfflinePlay
   dedups on (user, track, started_at); RecordPlayEnded skips a second
   skip_events insert when re-closing an already-ended row. Makes the
   at-least-once replay safe against lost-response duplicates.

4. Like-toggle collapse. Replayer drops like-toggles superseded by a
   later toggle for the same entity, so partial-failure + differential
   retry can't invert the final like state.

5. Connectivity-return trigger. MutationReplayer + SyncController now
   also drain/sync when NetworkStatusController recovers to Healthy, so
   an offline→online transition mid-session doesn't wait for a cold
   start. SyncController.syncSafe gains a single-in-flight mutex.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 12:05:35 -04:00
bvandeusen f167ddfbfb Merge pull request 'fix: restore native Android play-event recording (History was empty)' (#89) from dev into main
test-go / test (push) Successful in 38s
test-go / integration (push) Successful in 4m29s
android / Build + lint + test (push) Successful in 4m42s
release / Build signed APK (tag releases only) (push) Successful in 3m59s
release / Build + push container image (push) Successful in 14s
2026-06-11 09:08:20 -04:00
bvandeusen 653ed95f14 fix(android): always serialize event type so plays aren't dropped
android / Build + lint + test (push) Successful in 5m21s
The native client's /api/events requests omitted the `type`
discriminator entirely. The app's Json is configured with
encodeDefaults=false (AppModule), so a `type` left at its data-class
default ("play_started" etc.) is never written to the wire. The server
multiplexes on `type` and returns 400 "unknown event type" for an
empty one, which PlayEventsReporter's catch swallows — and the
play_started path has no offline fallback, so the play is lost with no
trace.

Net effect: EVERY native Android play event (started/ended/skipped/
offline) has 400'd since this code was written. Listening History only
ever populated from the Flutter/web clients; as usage moved to the
native app, History went sparse. Confirmed live in the server access
log: POST /api/events -> 400 on every play, while reads 200.

Force the discriminator onto the wire with
@EncodeDefault(Mode.ALWAYS) on each request type's `type` field.
Surgical (vs flipping encodeDefaults globally), and idiomatic for a
constant-valued discriminator.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-11 00:01:13 -04:00
bvandeusen b2c6f6f0e9 fix(server): apply skip rule on auto-close instead of force-hiding orphans
test-go / test (push) Successful in 35s
test-go / integration (push) Successful in 4m34s
autoClosePriorOpen hardcoded was_skipped=true for every orphaned
play_event (a play_started whose play_ended never arrived, e.g. the
client backgrounded mid-track). That hid fully-listened tracks from
History — a play that sat open past its own length was capped to the
track duration (ratio ~1) yet still flagged skipped. Observed live:
History showed 3 plays for a day of listening because most rows were
auto-closed orphans marked skipped.

Now the auto-close applies the same skip rule as RecordPlayEnded to the
duration-capped elapsed estimate: ratio >= threshold OR elapsed >= the
duration floor -> a real play that lands in History; a genuine
quick-abandon still classifies as a skip. Still writes no skip_events
row, so the ambiguous auto-close never feeds the skip-ratio /
recommendation signal.

This is the server half. The client-side root cause (backgrounded
track transitions never closed, orphaning the rows in the first place)
is tracked separately.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-10 23:15:22 -04:00
137 changed files with 7011 additions and 751 deletions
+54 -5
View File
@@ -2,8 +2,8 @@ name: release
# Builds and pushes the minstrel container image to the Gitea registry.
#
# push to main → :main and :latest (no APK bundled)
# push tag vYYYY.MM.DD → :vYYYY.MM.DD and :latest (APK bundled)
# push to main → :main and :latest (latest-release APK bundled)
# push tag vYYYY.MM.DD → :vYYYY.MM.DD and :latest (freshly-built APK bundled)
# workflow_dispatch → manual trigger (same rules based on the ref)
#
# Release model: per-day CalVer tags (no trailing patch digit). The day's
@@ -20,6 +20,14 @@ name: release
# happens in the same android-release job, so the Release-page download
# link and the in-image bundled APK are both populated atomically.
#
# :latest always carries an APK. Because every main push also moves
# :latest (not just tags), a main build with no APK would silently strip
# the in-app update channel off :latest until the next release. So on
# non-tag builds image-release pulls the MOST RECENT release's signed APK
# and reconstructs its exact versionName (tag + commit-count, the same
# formula android-release bakes in) for the version sidecar — no rebuild,
# just rebundle. Tag builds keep bundling their own freshly-built APK.
#
# Android testing (lint + detekt + unit tests, debug APK upload on main)
# lives in android.yml and runs independently on every push.
@@ -181,6 +189,12 @@ jobs:
steps:
- name: Checkout
uses: actions/checkout@v4
with:
# Full history + tags so non-tag :latest builds can resolve the
# latest release tag's commit count and reconstruct the bundled
# APK's exact versionName (see "Bundle latest release APK" below).
fetch-depth: 0
fetch-tags: true
- name: Detect buildable project
id: guard
@@ -221,9 +235,8 @@ jobs:
| docker login git.fabledsword.com -u "${{ github.actor }}" --password-stdin
- name: Download signed APK artifact
# Tag pushes only — android-release just produced this. Main
# pushes skip and the image ships with empty client/ (the
# /api/client/version endpoint then returns 404 by design).
# Tag pushes only — android-release just produced this. Non-tag
# builds take the "Bundle latest release APK" path below instead.
if: steps.guard.outputs.ready == 'true' && startsWith(github.ref, 'refs/tags/v')
uses: actions/download-artifact@v3
with:
@@ -247,6 +260,42 @@ jobs:
echo "${APK_VERSION_NAME}" > client/minstrel.apk.version
ls -lh client/
- name: Bundle latest release APK (non-tag :latest builds)
# Main pushes don't build an APK, but they DO move :latest — so
# without this the in-app update channel would vanish from :latest
# until the next tag. Pull the most-recent release's signed APK and
# reconstruct its exact versionName (${TAG#v}.$(git rev-list --count
# TAG) — identical to android-release's formula) so the version
# sidecar the server hands clients matches the installed build.
# Degrades to an empty client/ (404 update channel) — never a wrong
# version — if no release / APK asset / tag-count can be resolved.
if: steps.guard.outputs.ready == 'true' && !startsWith(github.ref, 'refs/tags/v')
shell: bash
env:
CI_TOKEN: ${{ secrets.CI_TOKEN }}
run: |
set -eu
REPO="${GITHUB_REPOSITORY}"
REL_JSON="$(curl -fsSL -H "Authorization: token ${CI_TOKEN}" \
"https://git.fabledsword.com/api/v1/repos/${REPO}/releases/latest" || true)"
if [ -z "${REL_JSON}" ]; then
echo "::notice::no published release — image ships without bundled APK"; exit 0
fi
TAG="$(printf '%s' "${REL_JSON}" | grep -oP '"tag_name":\s*"\K[^"]+' | head -1)"
APK_URL="$(printf '%s' "${REL_JSON}" | grep -oP '"browser_download_url":\s*"\K[^"]+' | grep -E '\.apk$' | head -1)"
if [ -z "${TAG}" ] || [ -z "${APK_URL}" ]; then
echo "::notice::latest release '${TAG:-?}' has no APK asset — image ships without bundled APK"; exit 0
fi
COUNT="$(git rev-list --count "${TAG}" 2>/dev/null || true)"
if [ -z "${COUNT}" ]; then
echo "::notice::could not resolve commit count for ${TAG} (tag not fetched?) — skipping APK bundle"; exit 0
fi
VERSION_NAME="${TAG#v}.${COUNT}"
curl -fsSL -H "Authorization: token ${CI_TOKEN}" -o client/minstrel.apk "${APK_URL}"
echo "${VERSION_NAME}" > client/minstrel.apk.version
echo "::notice::bundled release APK ${TAG} as version ${VERSION_NAME}"
ls -lh client/
- name: Build and push
if: steps.guard.outputs.ready == 'true'
run: |
+44 -7
View File
@@ -4,7 +4,7 @@ A self-hosted music server that thinks for you. Smart shuffle, contextual likes,
> State and intelligence belong on the server, not the client.
<!-- TODO: screenshot of the home page -->
<a href="docs/screenshots/home.png"><img src="docs/screenshots/home.png" width="820" alt="Minstrel home — your library at a glance"></a>
## Highlights
@@ -13,7 +13,7 @@ A self-hosted music server that thinks for you. Smart shuffle, contextual likes,
- **ListenBrainz radio.** Session-aware "more like this" pulls from ListenBrainz similarity data, not a static genre tag.
- **Lidarr integration.** Triggered scans, request-driven album imports, and a quarantine flow when something doesn't fit.
- **Built-in web SPA.** Full-feature library, search, queue, playlists, and admin — no separate frontend container to deploy.
- **Flutter mobile client in flight.** Tracking issue [#356](https://git.fabledsword.com/bvandeusen/minstrel/issues/356).
- **Native Android client, shipped with the server.** The signed APK is bundled into every image and attached to each [release](https://git.fabledsword.com/bvandeusen/minstrel/releases) — sideload it once, then the app self-updates straight from your own server (no app store, no separate download to track).
## Quickstart
@@ -24,10 +24,18 @@ services:
image: git.fabledsword.com/bvandeusen/minstrel:latest
ports: ['4533:4533']
volumes:
# Your music library. Point ./music at wherever your audio files
# live. Mounted read-only — Minstrel never writes to your library.
- ./music:/music:ro
- minstrel-data:/data
# Generated data: playlist cover collages, artist art, caches.
# The path must match MINSTREL_STORAGE_DATA_DIR, which the image
# sets to /app/data — keep this mount on /app/data or your cache
# won't survive a container recreate.
- minstrel-data:/app/data
environment:
MINSTREL_DATABASE_URL: postgres://minstrel:minstrel@db:5432/minstrel?sslmode=disable
# Colon-separated library roots to scan; must match the container
# path of the read-only music mount above (/music here).
MINSTREL_LIBRARY_SCAN_PATHS: /music
depends_on: [db]
@@ -37,6 +45,8 @@ services:
POSTGRES_USER: minstrel
POSTGRES_PASSWORD: minstrel
POSTGRES_DB: minstrel
# Postgres data dir — users, likes, play history, sessions, settings.
# The one volume you must never lose; back it up with pg_dump.
volumes: [pgdata:/var/lib/postgresql/data]
volumes:
@@ -48,7 +58,29 @@ volumes:
docker compose up -d
```
After the stack is up, visit `http://localhost:4533/register` and create your admin account. The first user to register on a fresh instance is automatically marked as the administrator; subsequent users can register through the same form (or via invite tokens generated from the admin Users panel, depending on how you configure registration).
## First run
With the stack up, a handful of in-app steps get you to a working library. Use your own host in place of `localhost` if you're reaching the server over a LAN/VPN address (plain `http://` is fine — no TLS required).
**1. Create your admin account.** Visit `http://localhost:4533/register`. The first account on a fresh instance is automatically the administrator; later users join through the same form or an invite token (step 5).
<a href="docs/screenshots/register.png"><img src="docs/screenshots/register.png" width="320" alt="Creating the first (admin) account on a fresh instance"></a>
**2. Let the first library scan finish.** `scan_on_startup` is on by default, so Minstrel walks your mounted library on boot and imports artists, albums, and tracks — no button to press. Watch progress (and re-scan any time) on the **Admin** page (`/admin`); the scan runs in stages and is incremental, so later restarts only pick up what changed.
<a href="docs/screenshots/library-scan.png"><img src="docs/screenshots/library-scan.png" width="820" alt="The Admin page, where the library scan runs and reports progress"></a>
**3. (Optional) Name the instance and wire up integrations.** In admin **Settings → Integrations** (`/admin/integrations`), add a ListenBrainz token (scrobbling + similarity radio) and/or a Lidarr URL + API key (the request flow). These live in the UI and apply without a restart; the display name can also be set via `MINSTREL_BRANDING_APP_NAME`.
<a href="docs/screenshots/integrations.png"><img src="docs/screenshots/integrations.png" width="820" alt="ListenBrainz and Lidarr integration cards in admin Settings"></a>
**4. Install the Android app.** Open **Settings** (`/settings`) and use the *Install the Android app* card to download the APK that ships inside this server image, then sign in with the same account. From then on the app self-updates straight from your server.
<a href="docs/screenshots/android-download.png"><img src="docs/screenshots/android-download.png" width="820" alt="The &quot;Install the Android app&quot; download card in Settings"></a>
**5. Invite the rest of the household.** From admin **Users** (`/admin/users`), generate an invite token (or enable open registration). Each person gets their own account, so likes, play history, and recommendations stay per-user.
<a href="docs/screenshots/invite-users.png"><img src="docs/screenshots/invite-users.png" width="820" alt="Generating an invite token in admin Users"></a>
For the full configuration surface, see [`config.example.yaml`](./config.example.yaml).
@@ -57,7 +89,7 @@ For the full configuration surface, see [`config.example.yaml`](./config.example
Most operators only need the env vars in the quickstart above. A few extras worth knowing:
- `MINSTREL_BRANDING_APP_NAME` — rename the instance ("Family Jukebox", "Office Music"). Surfaces in the header, browser tab, and OG share previews.
- `MINSTREL_STORAGE_DATA_DIR`defaults to `./data`. Holds playlist cover collages and other generated artefacts.
- `MINSTREL_STORAGE_DATA_DIR`where generated artefacts (playlist cover collages, artist art, caches) are written. The container image sets this to `/app/data`, which is why the quickstart mounts the `minstrel-data` volume there.
- `MINSTREL_LIBRARY_SCAN_PATHS` — colon-separated list of music library roots to scan. Supports multiple roots (`/music:/podcasts`).
ListenBrainz integration (per-user scrobble + similarity tokens) and Lidarr integration (URL + API key) are configured through the admin Settings UI rather than env vars or yaml — per Minstrel's "config in UI" rule, integration settings live where operators can edit them without restarting.
@@ -66,8 +98,13 @@ Most operational keys have a `MINSTREL_<SECTION>_<FIELD>` env override. Recommen
## Updating
- `:main` — rolling, follows the dev branch's tested tip. Recommended only for the operator who's running an upstream-watching deployment.
- `:v1.0.x` — pinned releases. Recommended default. Database migrations run automatically at startup; rollbacks require restoring a Postgres dump.
Image tags (`git.fabledsword.com/bvandeusen/minstrel:<tag>`):
- `:latest` — the newest blessed image. Moves on every `main` push **and** every release. Recommended for most operators.
- `:vYYYY.MM.DD` — immutable per-day release tags. Pin one of these for a deployment you don't want moving under you. (Per-day CalVer — no trailing patch digit; a same-day re-cut moves the tag forward.)
- `:main` — the rolling post-merge tip. Same image as `:latest` at push time; choose it if you want to track `main` explicitly rather than the release line.
Every `:latest` and every `:vYYYY.MM.DD` bundles the current signed Android APK, so the in-app update channel is always live. Database migrations run automatically at startup; rollbacks require restoring a Postgres dump.
## Specs
@@ -10,6 +10,8 @@ import com.fabledsword.minstrel.cache.CacheIndexer
import com.fabledsword.minstrel.cache.mutations.MutationReplayer
import com.fabledsword.minstrel.cache.sync.SyncController
import com.fabledsword.minstrel.di.ApplicationScope
import com.fabledsword.minstrel.diagnostics.DiagnosticsReporter
import com.fabledsword.minstrel.diagnostics.DiagnosticsUploader
import com.fabledsword.minstrel.events.EventsStream
import com.fabledsword.minstrel.events.LiveEventsDispatcher
import com.fabledsword.minstrel.metadata.FreshnessSweeper
@@ -155,6 +157,11 @@ class MinstrelApplication :
*/
@Suppress("unused") @Inject lateinit var liveEventsDispatcher: LiveEventsDispatcher
// Device diagnostics (M9). The reporter gates itself on the account's
// debug flag; the uploader drains its buffer on a tick / recovery.
@Suppress("unused") @Inject lateinit var diagnosticsReporter: DiagnosticsReporter
@Suppress("unused") @Inject lateinit var diagnosticsUploader: DiagnosticsUploader
@Inject @ApplicationScope lateinit var appScope: CoroutineScope
override fun onCreate() {
@@ -0,0 +1,36 @@
package com.fabledsword.minstrel.api.endpoints
import kotlinx.serialization.SerialName
import kotlinx.serialization.Serializable
import kotlinx.serialization.json.JsonElement
import retrofit2.http.Body
import retrofit2.http.POST
/**
* Retrofit interface for device diagnostics ingest (M9). One call
* uploads a batch of buffered events. The server stores them only when
* the account's debug_mode_enabled flag is on (it returns 204 otherwise,
* which the uploader treats as success so it can drop the batch).
*/
interface DiagnosticsApi {
@POST("api/diagnostics")
suspend fun report(@Body body: DiagnosticsReportRequest)
}
@Serializable
data class DiagnosticsReportRequest(
@SerialName("client_id") val clientId: String,
@SerialName("app_version") val appVersion: String? = null,
@SerialName("os_version") val osVersion: String? = null,
val events: List<DiagnosticEventWire>,
)
@Serializable
data class DiagnosticEventWire(
val kind: String,
// Device-clock epoch milliseconds. The server stamps its own
// received_at; both are stored so a skewed device clock is visible.
@SerialName("occurred_at") val occurredAt: Long,
// Opaque structured payload carrying the event sub-type + fields.
val payload: JsonElement,
)
@@ -1,6 +1,7 @@
package com.fabledsword.minstrel.auth
import com.fabledsword.minstrel.api.endpoints.AuthApi
import com.fabledsword.minstrel.api.endpoints.MeApi
import com.fabledsword.minstrel.di.ApplicationScope
import com.fabledsword.minstrel.models.UserRef
import com.fabledsword.minstrel.models.wire.LoginRequestBody
@@ -35,6 +36,7 @@ class AuthController @Inject constructor(
retrofit: Retrofit,
) {
private val api: AuthApi = retrofit.create()
private val meApi: MeApi = retrofit.create()
private val currentUserState = MutableStateFlow<UserRef?>(null)
val currentUser: StateFlow<UserRef?> = currentUserState.asStateFlow()
@@ -55,6 +57,10 @@ class AuthController @Inject constructor(
currentUserState.value = raw?.let { decodeUser(it) }
}
}
// Refresh from /api/me on startup so a remotely-changed account
// flag (e.g. admin enabling debug mode, M9) reaches the device
// without a re-login. Best-effort; failures keep the cached value.
scope.launch { refreshProfile() }
}
/**
@@ -72,9 +78,32 @@ class AuthController @Inject constructor(
)
currentUserState.value = user
authStore.setUserJson(json.encodeToString(UserRef.serializer(), user))
// Pull the fuller /me shape (carries debug_mode_enabled) right
// after login so the diagnostics gate is correct without waiting
// for the next startup refresh.
scope.launch { refreshProfile() }
return user
}
/**
* Re-fetch the caller's profile from /api/me and update currentUser
* + persisted userJson. Carries account-level flags (debug mode)
* that aren't in the login response. Best-effort: a network failure
* leaves the cached identity untouched. No-op when signed out.
*/
suspend fun refreshProfile() {
if (!isSignedIn) return
val p = runCatching { meApi.getProfile() }.getOrNull() ?: return
val user = UserRef(
id = p.id,
username = p.username,
isAdmin = p.isAdmin,
debugModeEnabled = p.debugModeEnabled,
)
currentUserState.value = user
authStore.setUserJson(json.encodeToString(UserRef.serializer(), user))
}
/**
* Clears the local session immediately and best-effort hits
* `/api/auth/logout` so the server can drop its session row.
@@ -59,6 +59,9 @@ class AuthStore @Inject constructor(
private val cacheSettingsState = MutableStateFlow(CacheSettings.DEFAULT)
val cacheSettings: StateFlow<CacheSettings> = cacheSettingsState.asStateFlow()
private val diagnosticsOptOutState = MutableStateFlow(false)
val diagnosticsOptOut: StateFlow<Boolean> = diagnosticsOptOutState.asStateFlow()
private val json = Json { ignoreUnknownKeys = true }
init {
@@ -70,6 +73,7 @@ class AuthStore @Inject constructor(
themeModeState.value = row?.themeMode
clientIdState.value = row?.clientId
cacheSettingsState.value = decodeCacheSettings(row?.cacheSettingsJson)
diagnosticsOptOutState.value = row?.diagnosticsOptOut ?: false
}
}
}
@@ -112,6 +116,11 @@ class AuthStore @Inject constructor(
scope.launch { persistCacheSettings(encoded) }
}
fun setDiagnosticsOptOut(value: Boolean) {
diagnosticsOptOutState.value = value
scope.launch { persistDiagnosticsOptOut(value) }
}
private suspend fun persistCookie(value: String?) {
if (dao.get() == null) {
dao.upsert(currentEntity().copy(sessionCookie = value))
@@ -160,6 +169,14 @@ class AuthStore @Inject constructor(
}
}
private suspend fun persistDiagnosticsOptOut(value: Boolean) {
if (dao.get() == null) {
dao.upsert(currentEntity().copy(diagnosticsOptOut = value))
} else {
dao.setDiagnosticsOptOut(value)
}
}
private fun currentEntity(): AuthSessionEntity = AuthSessionEntity(
id = ROW_ID,
sessionCookie = sessionCookieState.value,
@@ -171,6 +188,7 @@ class AuthStore @Inject constructor(
CacheSettings.serializer(),
cacheSettingsState.value,
),
diagnosticsOptOut = diagnosticsOptOutState.value,
)
companion object {
@@ -16,6 +16,7 @@ import com.fabledsword.minstrel.cache.db.dao.CachedResumeStateDao
import com.fabledsword.minstrel.cache.db.dao.CachedPlaylistTrackDao
import com.fabledsword.minstrel.cache.db.dao.CachedQuarantineDao
import com.fabledsword.minstrel.cache.db.dao.CachedTrackDao
import com.fabledsword.minstrel.cache.db.dao.DiagnosticEventDao
import com.fabledsword.minstrel.cache.db.dao.SyncMetadataDao
import com.fabledsword.minstrel.cache.db.entities.AudioCacheIndexEntity
import com.fabledsword.minstrel.cache.db.entities.AuthSessionEntity
@@ -30,6 +31,7 @@ import com.fabledsword.minstrel.cache.db.entities.CachedResumeStateEntity
import com.fabledsword.minstrel.cache.db.entities.CachedPlaylistTrackEntity
import com.fabledsword.minstrel.cache.db.entities.CachedQuarantineEntity
import com.fabledsword.minstrel.cache.db.entities.CachedTrackEntity
import com.fabledsword.minstrel.cache.db.entities.DiagnosticEventEntity
import com.fabledsword.minstrel.cache.db.entities.SyncMetadataEntity
/**
@@ -61,8 +63,11 @@ import com.fabledsword.minstrel.cache.db.entities.SyncMetadataEntity
CachedHomeIndexEntity::class,
CachedHistorySnapshotEntity::class,
AuthSessionEntity::class,
DiagnosticEventEntity::class,
],
version = 6,
// v7: + diagnostic_events table (M9) and the diagnosticsOptOut column
// on auth_session. Pre-v1 destructive fallback rebuilds on mismatch.
version = 7,
exportSchema = true,
)
@TypeConverters(MinstrelTypeConverters::class)
@@ -81,4 +86,5 @@ abstract class AppDatabase : RoomDatabase() {
abstract fun cachedHomeIndexDao(): CachedHomeIndexDao
abstract fun cachedHistorySnapshotDao(): CachedHistorySnapshotDao
abstract fun authSessionDao(): AuthSessionDao
abstract fun diagnosticEventDao(): DiagnosticEventDao
}
@@ -10,6 +10,7 @@ import com.fabledsword.minstrel.cache.db.dao.CachedHistorySnapshotDao
import com.fabledsword.minstrel.cache.db.dao.CachedHomeIndexDao
import com.fabledsword.minstrel.cache.db.dao.CachedLikeDao
import com.fabledsword.minstrel.cache.db.dao.CachedMutationDao
import com.fabledsword.minstrel.cache.db.dao.DiagnosticEventDao
import com.fabledsword.minstrel.cache.db.dao.CachedPlaylistDao
import com.fabledsword.minstrel.cache.db.dao.CachedPlaylistTrackDao
import com.fabledsword.minstrel.cache.db.dao.CachedQuarantineDao
@@ -105,5 +106,10 @@ object DatabaseModule {
fun provideAudioCacheIndexDao(db: AppDatabase): AudioCacheIndexDao =
db.audioCacheIndexDao()
@Provides
@Singleton
fun provideDiagnosticEventDao(db: AppDatabase): DiagnosticEventDao =
db.diagnosticEventDao()
private const val DATABASE_NAME = "minstrel.db"
}
@@ -42,4 +42,8 @@ interface AuthSessionDao {
/** Partial update: change only the serialized cache settings. */
@Query("UPDATE auth_session SET cacheSettingsJson = :json WHERE id = 0")
suspend fun setCacheSettingsJson(json: String?)
/** Partial update: change only the per-device diagnostics opt-out. */
@Query("UPDATE auth_session SET diagnosticsOptOut = :optOut WHERE id = 0")
suspend fun setDiagnosticsOptOut(optOut: Boolean)
}
@@ -0,0 +1,35 @@
package com.fabledsword.minstrel.cache.db.dao
import androidx.room.Dao
import androidx.room.Insert
import androidx.room.Query
import com.fabledsword.minstrel.cache.db.entities.DiagnosticEventEntity
@Dao
interface DiagnosticEventDao {
@Insert
suspend fun insert(row: DiagnosticEventEntity): Long
/** FIFO drain order so the uploader sends oldest-first. */
@Query("SELECT * FROM diagnostic_events ORDER BY id ASC LIMIT :limit")
suspend fun takeBatch(limit: Int): List<DiagnosticEventEntity>
@Query("SELECT COUNT(*) FROM diagnostic_events")
suspend fun count(): Int
@Query("DELETE FROM diagnostic_events WHERE id IN (:ids)")
suspend fun deleteByIds(ids: List<Long>)
/**
* Ring-buffer trim: drop the oldest rows beyond [keep]. Called after
* insert so a long offline stretch can't grow the buffer unbounded.
*/
@Query(
"DELETE FROM diagnostic_events WHERE id NOT IN " +
"(SELECT id FROM diagnostic_events ORDER BY id DESC LIMIT :keep)",
)
suspend fun trimToNewest(keep: Int)
@Query("DELETE FROM diagnostic_events")
suspend fun clear()
}
@@ -36,4 +36,11 @@ data class AuthSessionEntity(
* CacheSettings shape evolves.
*/
val cacheSettingsJson: String? = null,
/**
* Per-device opt-out of diagnostics reporting (M9). When the
* account's debug mode is enabled by an admin, the user can still
* turn reporting OFF on this device (battery/privacy) — that local
* choice lives here. Default false = honor the account flag.
*/
val diagnosticsOptOut: Boolean = false,
)
@@ -14,6 +14,11 @@ import kotlinx.datetime.Instant
* - "rediscover_artists"
* - "most_played_tracks"
* - "last_played_artists"
* - "you_might_like_albums"
* - "you_might_like_artists"
*
* New `section` values need no schema change — the column stores the
* string verbatim and the DAO keys on it.
*
* `entityType` is "album" | "artist" | "track" — dispatches hydration
* to the right per-entity endpoint when a tile is rendered.
@@ -0,0 +1,28 @@
package com.fabledsword.minstrel.cache.db.entities
import androidx.room.Entity
import androidx.room.PrimaryKey
/**
* One buffered device-diagnostics event (M9). The DiagnosticsReporter
* writes rows here when the account's debug mode is on; the
* DiagnosticsUploader drains them to POST /api/diagnostics and deletes
* on success.
*
* This is a deliberate ring buffer that is NOT routed through the offline
* MutationQueue: diagnostics are high-volume, best-effort telemetry, and
* the bug we're chasing (roaming / dead-zone recovery) happens WHILE
* offline — so events must persist locally through the dead zone and
* upload on recovery, without clogging the user-data mutation replay.
*
* `occurredAtMillis` is the device-clock epoch-ms when the event happened
* (the server also stamps its own received_at). `payloadJson` is an
* opaque JSON object carrying the event sub-type + fields.
*/
@Entity(tableName = "diagnostic_events")
data class DiagnosticEventEntity(
@PrimaryKey(autoGenerate = true) val id: Long = 0,
val kind: String,
val occurredAtMillis: Long,
val payloadJson: String,
)
@@ -28,6 +28,13 @@ object MutationKind {
const val PLAY_OFFLINE: String = "play_offline"
const val REQUEST_CANCEL: String = "request_cancel"
const val PLAYBACK_ERROR_REPORT: String = "playback_error_report"
// Durable close-by-id for a play whose server row is already open
// (play_started succeeded). Distinct from PLAY_OFFLINE, which records
// a *whole* play when no server row exists. Using close-by-id on
// background avoids the duplicate + orphan row the old offline-on-stop
// path produced (see 2026-06-11 contract audit).
const val PLAY_ENDED: String = "play_ended"
}
/**
@@ -167,6 +174,17 @@ class MutationQueue @Inject constructor(
),
)
/**
* Durable close-by-id for an already-open server play row. Background
* path only (no user hint) — same as [enqueuePlayOffline].
*/
suspend fun enqueuePlayEnded(payload: PlayEndedPayload): Long = dao.insert(
CachedMutationEntity(
kind = MutationKind.PLAY_ENDED,
payload = json.encodeToString(PlayEndedPayload.serializer(), payload),
),
)
private suspend fun insertUserDriven(kind: String, payload: String): Long {
val id = dao.insert(CachedMutationEntity(kind = kind, payload = payload))
_userEnqueueHints.tryEmit(QUEUED_MESSAGE)
@@ -223,6 +241,19 @@ data class PlayOfflinePayload(
val source: String? = null,
)
/**
* Persisted payload for `MutationKind.PLAY_ENDED`. The replayer re-fires
* `POST /api/events` with type=play_ended, closing the already-open server
* row [playEventId] at [durationPlayedMs]. Server-side close-by-id is
* idempotent (re-ending updates the same row and skips a duplicate
* skip_events insert), so a lost-response retry can't duplicate history.
*/
@Serializable
data class PlayEndedPayload(
val playEventId: String,
val durationPlayedMs: Long,
)
/**
* Persisted payload for `MutationKind.REQUEST_CANCEL` — the
* `POST /api/requests/{id}/cancel` call lost during a connectivity
@@ -1,3 +1,5 @@
@file:Suppress("TooManyFunctions") // one dispatcher per mutation kind + replay helpers
package com.fabledsword.minstrel.cache.mutations
import com.fabledsword.minstrel.api.endpoints.AppendTracksRequest
@@ -10,6 +12,9 @@ import com.fabledsword.minstrel.api.endpoints.PlaybackErrorsApi
import com.fabledsword.minstrel.api.endpoints.PlaylistsApi
import com.fabledsword.minstrel.api.endpoints.QuarantineApi
import com.fabledsword.minstrel.api.endpoints.RequestsApi
import com.fabledsword.minstrel.connectivity.NetworkStatusController
import com.fabledsword.minstrel.connectivity.ServerHealth
import com.fabledsword.minstrel.models.wire.PlayEndedRequest
import com.fabledsword.minstrel.models.wire.PlayOfflineRequest
import com.fabledsword.minstrel.auth.AuthStore
import com.fabledsword.minstrel.cache.db.dao.CachedMutationDao
@@ -19,12 +24,16 @@ import com.fabledsword.minstrel.likes.data.LikesRepository
import com.fabledsword.minstrel.models.wire.CreateRequestBody
import kotlinx.coroutines.CoroutineScope
import kotlinx.coroutines.flow.distinctUntilChanged
import kotlinx.coroutines.flow.filter
import kotlinx.coroutines.flow.filterNotNull
import kotlinx.coroutines.flow.map
import kotlinx.coroutines.launch
import kotlinx.coroutines.sync.Mutex
import kotlinx.coroutines.sync.withLock
import kotlinx.datetime.Clock
import kotlinx.serialization.SerializationException
import kotlinx.serialization.json.Json
import retrofit2.HttpException
import retrofit2.Retrofit
import retrofit2.create
import javax.inject.Inject
@@ -34,25 +43,24 @@ import javax.inject.Singleton
* Drains the offline MutationQueue. Reads pending rows in FIFO order,
* re-fires each call against the raw Retrofit API (NOT the high-level
* Repository, which would re-enqueue on failure → infinite loop), and
* deletes the row on 2xx success.
* resolves each to an [Outcome]:
* - SENT — server accepted (2xx) → delete the row.
* - DROP — permanently un-sendable (4xx, unknown kind/variant, corrupt
* payload) → delete the row so it can't wedge the queue forever.
* - RETRY — transient (transport, 5xx, 408, 429) → leave queued, bump
* attempts, retry on the next trigger.
*
* Triggered by:
* - app start (MinstrelApplication @Inject forces the singleton's
* init block to subscribe)
* - every time AuthStore.sessionCookie transitions to a non-null
* value (sign-in, app launch with persisted cookie)
* - app start (MinstrelApplication @Inject forces the singleton's init)
* - AuthStore.sessionCookie transitioning to non-null (sign-in / cold
* start with a persisted cookie)
* - NetworkStatusController recovering to Healthy (server reachable again
* mid-session — covers offline→online without needing a cold start)
*
* Single in-flight via the `mutex` — back-to-back triggers collapse
* into one drain pass. A proper connectivity-listener / WorkManager
* job that re-tries on Wi-Fi-came-back is a follow-up; for MVP the
* sign-in + app-open triggers cover the common offline → online
* transition (operator unlocks phone, opens app).
*
* Failed rows stay in the queue with their `attempts` and
* `lastAttemptAt` updated. They get another chance on the next
* trigger; no exponential backoff or max-attempts yet — the rows are
* small (low single-digit count for typical use) so retry-forever is
* cheap.
* Single in-flight via the [mutex]; back-to-back triggers collapse into one
* drain pass. No exponential backoff / max-attempts: the rows are few for
* typical use, and permanent failures are now dropped rather than retried
* forever.
*/
@Singleton
class MutationReplayer @Inject constructor(
@@ -60,6 +68,7 @@ class MutationReplayer @Inject constructor(
private val authStore: AuthStore,
private val json: Json,
@ApplicationScope private val scope: CoroutineScope,
networkStatus: NetworkStatusController,
retrofit: Retrofit,
) {
private val likesApi: LikesApi = retrofit.create()
@@ -72,6 +81,8 @@ class MutationReplayer @Inject constructor(
private val mutex = Mutex()
private enum class Outcome { SENT, DROP, RETRY }
init {
scope.launch {
authStore.sessionCookie
@@ -79,6 +90,16 @@ class MutationReplayer @Inject constructor(
.distinctUntilChanged()
.collect { drainSafe() }
}
// Server-reachable-again: replay queued writes the moment the
// health signal recovers, so an offline→online transition mid-
// session doesn't wait for the next cold start / re-auth.
scope.launch {
networkStatus.state
.map { it == ServerHealth.Healthy }
.distinctUntilChanged()
.filter { it }
.collect { drainSafe() }
}
}
/** Public entry-point; coalesces concurrent triggers via a Mutex. */
@@ -93,193 +114,185 @@ class MutationReplayer @Inject constructor(
private suspend fun drain() {
val rows = dao.getAll()
// Collapse superseded like-toggles: only the latest desired state per
// (entity) is replayed; older toggles for the same entity are dropped
// unsent. Without this, partial-failure + differential retry could
// replay an older toggle last and invert the final like state.
val superseded = supersededLikeToggleIds(rows)
for (row in rows) {
val sent = runCatching { dispatch(row) }.getOrDefault(false)
if (sent) {
if (row.id in superseded) {
dao.delete(row.id)
} else {
dao.recordAttempt(row.id, Clock.System.now())
continue
}
when (outcomeFor(row)) {
Outcome.SENT, Outcome.DROP -> dao.delete(row.id)
Outcome.RETRY -> dao.recordAttempt(row.id, Clock.System.now())
}
}
}
/** Row ids of like-toggles superseded by a later toggle for the same entity. */
private fun supersededLikeToggleIds(rows: List<CachedMutationEntity>): Set<Long> {
val latestByEntity = HashMap<String, Long>()
val superseded = HashSet<Long>()
rows.asSequence()
.filter { it.kind == MutationKind.LIKE_TOGGLE }
.forEach { row ->
val decoded = runCatching {
json.decodeFromString(LikeTogglePayload.serializer(), row.payload)
}.getOrNull()
if (decoded != null) {
val key = "${decoded.entityType}:${decoded.entityId}"
// `rows` is ascending by id, so a prior entry is always older.
latestByEntity.put(key, row.id)?.let(superseded::add)
}
}
return superseded
}
private suspend fun outcomeFor(row: CachedMutationEntity): Outcome = try {
dispatch(row)
} catch (e: HttpException) {
if (isPermanent(e.code())) Outcome.DROP else Outcome.RETRY
} catch (@Suppress("SwallowedException") e: SerializationException) {
// Corrupt / schema-incompatible payload — permanent, drop it.
Outcome.DROP
} catch (@Suppress("TooGenericExceptionCaught", "SwallowedException") e: Throwable) {
// Transport / unknown — leave queued for the next pass.
Outcome.RETRY
}
/** 4xx are permanent except the two "retry me" statuses. */
private fun isPermanent(code: Int): Boolean =
code in HTTP_CLIENT_ERR_MIN..HTTP_CLIENT_ERR_MAX &&
code != HTTP_TIMEOUT && code != HTTP_TOO_MANY
/**
* Returns true if the server accepted the call, false on any
* failure (transport, server error, decode). The replayer treats
* false as "leave the row for next pass" — it doesn't try to
* distinguish permanent rejections from transient ones; a row
* that consistently fails will accumulate attempt count and
* lastAttemptAt for diagnostics.
* Returns the outcome of replaying one row. SENT on a 2xx; DROP for an
* unknown kind/variant. Network / HTTP failures THROW and are classified
* by [outcomeFor] — dispatchers no longer swallow.
*/
private suspend fun dispatch(row: CachedMutationEntity): Boolean = when (row.kind) {
private suspend fun dispatch(row: CachedMutationEntity): Outcome = when (row.kind) {
MutationKind.LIKE_TOGGLE -> dispatchLikeToggle(row.payload)
MutationKind.REQUEST_CREATE -> dispatchRequestCreate(row.payload)
MutationKind.QUARANTINE_UNFLAG -> dispatchQuarantineUnflag(row.payload)
MutationKind.PLAYLIST_APPEND -> dispatchPlaylistAppend(row.payload)
MutationKind.QUARANTINE_FLAG -> dispatchQuarantineFlag(row.payload)
MutationKind.PLAY_OFFLINE -> dispatchPlayOffline(row.payload)
MutationKind.PLAY_ENDED -> dispatchPlayEnded(row.payload)
MutationKind.REQUEST_CANCEL -> dispatchRequestCancel(row.payload)
MutationKind.PLAYBACK_ERROR_REPORT -> dispatchPlaybackErrorReport(row.payload)
else -> {
// Unknown kind — drop the row by claiming success so a
// stale schema entry can't wedge the queue forever.
true
}
// Unknown kind — drop so a stale schema entry can't wedge the queue.
else -> Outcome.DROP
}
private suspend fun dispatchLikeToggle(payload: String): Boolean {
private suspend fun dispatchLikeToggle(payload: String): Outcome {
val decoded = json.decodeFromString(LikeTogglePayload.serializer(), payload)
val kindPath = when (decoded.entityType) {
LikesRepository.ENTITY_ARTIST -> "artists"
LikesRepository.ENTITY_ALBUM -> "albums"
LikesRepository.ENTITY_TRACK -> "tracks"
else -> return true // unknown variant — drop.
else -> return Outcome.DROP
}
return try {
if (decoded.desiredState) {
likesApi.like(kindPath, decoded.entityId)
} else {
likesApi.unlike(kindPath, decoded.entityId)
}
true
} catch (
@Suppress("TooGenericExceptionCaught", "SwallowedException") e: Throwable,
) {
// Intentional swallow: the row stays in the queue with
// attempts + lastAttemptAt incremented; next drain pass
// retries. Per-attempt diagnostic logging lands when we
// wire up Timber at the replayer level.
false
if (decoded.desiredState) {
likesApi.like(kindPath, decoded.entityId)
} else {
likesApi.unlike(kindPath, decoded.entityId)
}
return Outcome.SENT
}
private suspend fun dispatchRequestCreate(payload: String): Boolean {
private suspend fun dispatchRequestCreate(payload: String): Outcome {
val decoded = json.decodeFromString(RequestCreatePayload.serializer(), payload)
val body = CreateRequestBody(
kind = decoded.kind,
artistMbid = decoded.artistMbid,
artistName = decoded.artistName,
albumMbid = decoded.albumMbid,
albumTitle = decoded.albumTitle,
trackMbid = decoded.trackMbid,
trackTitle = decoded.trackTitle,
discoverApi.createRequest(
CreateRequestBody(
kind = decoded.kind,
artistMbid = decoded.artistMbid,
artistName = decoded.artistName,
albumMbid = decoded.albumMbid,
albumTitle = decoded.albumTitle,
trackMbid = decoded.trackMbid,
trackTitle = decoded.trackTitle,
),
)
return try {
discoverApi.createRequest(body)
true
} catch (
@Suppress("TooGenericExceptionCaught", "SwallowedException") e: Throwable,
) {
// Intentional swallow: the row stays in the queue with
// attempts + lastAttemptAt incremented; next drain pass
// retries. Per-attempt diagnostic logging lands when we
// wire up Timber at the replayer level.
false
}
return Outcome.SENT
}
private suspend fun dispatchQuarantineUnflag(payload: String): Boolean {
private suspend fun dispatchQuarantineUnflag(payload: String): Outcome {
val decoded = json.decodeFromString(QuarantineUnflagPayload.serializer(), payload)
return try {
quarantineApi.unflag(decoded.trackId)
true
} catch (
@Suppress("TooGenericExceptionCaught", "SwallowedException") e: Throwable,
) {
// Intentional swallow: the row stays in the queue with
// attempts + lastAttemptAt incremented; next drain pass
// retries. Per-attempt diagnostic logging lands when we
// wire up Timber at the replayer level.
false
}
quarantineApi.unflag(decoded.trackId)
return Outcome.SENT
}
private suspend fun dispatchPlaylistAppend(payload: String): Boolean {
private suspend fun dispatchPlaylistAppend(payload: String): Outcome {
val decoded = json.decodeFromString(PlaylistAppendPayload.serializer(), payload)
return try {
playlistsApi.appendTracks(
playlistId = decoded.playlistId,
body = AppendTracksRequest(trackIds = decoded.trackIds),
)
true
} catch (
@Suppress("TooGenericExceptionCaught", "SwallowedException") e: Throwable,
) {
// Intentional swallow: row stays queued; next drain pass retries.
false
}
playlistsApi.appendTracks(
playlistId = decoded.playlistId,
body = AppendTracksRequest(trackIds = decoded.trackIds),
)
return Outcome.SENT
}
private suspend fun dispatchQuarantineFlag(payload: String): Boolean {
private suspend fun dispatchQuarantineFlag(payload: String): Outcome {
val decoded = json.decodeFromString(QuarantineFlagPayload.serializer(), payload)
return try {
quarantineApi.flag(
FlagRequest(
trackId = decoded.trackId,
reason = decoded.reason,
notes = decoded.notes,
),
)
true
} catch (
@Suppress("TooGenericExceptionCaught", "SwallowedException") e: Throwable,
) {
// Intentional swallow: row stays queued; next drain pass retries.
false
}
quarantineApi.flag(
FlagRequest(
trackId = decoded.trackId,
reason = decoded.reason,
notes = decoded.notes,
),
)
return Outcome.SENT
}
private suspend fun dispatchPlayOffline(payload: String): Boolean {
private suspend fun dispatchPlayOffline(payload: String): Outcome {
val decoded = json.decodeFromString(PlayOfflinePayload.serializer(), payload)
return try {
eventsApi.playOffline(
PlayOfflineRequest(
trackId = decoded.trackId,
clientId = decoded.clientId,
at = decoded.atIso,
durationPlayedMs = decoded.durationPlayedMs,
source = decoded.source,
),
)
true
} catch (
@Suppress("TooGenericExceptionCaught", "SwallowedException") e: Throwable,
) {
// Intentional swallow: row stays queued; next drain pass retries.
false
}
eventsApi.playOffline(
PlayOfflineRequest(
trackId = decoded.trackId,
clientId = decoded.clientId,
at = decoded.atIso,
durationPlayedMs = decoded.durationPlayedMs,
source = decoded.source,
),
)
return Outcome.SENT
}
private suspend fun dispatchRequestCancel(payload: String): Boolean {
private suspend fun dispatchPlayEnded(payload: String): Outcome {
val decoded = json.decodeFromString(PlayEndedPayload.serializer(), payload)
eventsApi.playEnded(
PlayEndedRequest(
playEventId = decoded.playEventId,
durationPlayedMs = decoded.durationPlayedMs,
),
)
return Outcome.SENT
}
private suspend fun dispatchRequestCancel(payload: String): Outcome {
val decoded = json.decodeFromString(RequestCancelPayload.serializer(), payload)
return try {
requestsApi.cancel(decoded.requestId)
true
} catch (
@Suppress("TooGenericExceptionCaught", "SwallowedException") e: Throwable,
) {
// Intentional swallow: row stays queued; next drain pass retries.
false
}
requestsApi.cancel(decoded.requestId)
return Outcome.SENT
}
private suspend fun dispatchPlaybackErrorReport(payload: String): Boolean {
private suspend fun dispatchPlaybackErrorReport(payload: String): Outcome {
val decoded = json.decodeFromString(PlaybackErrorReportPayload.serializer(), payload)
return try {
playbackErrorsApi.report(
PlaybackErrorReportRequest(
trackId = decoded.trackId,
kind = decoded.kind,
detail = decoded.detail,
clientId = decoded.clientId,
),
)
true
} catch (
@Suppress("TooGenericExceptionCaught", "SwallowedException") e: Throwable,
) {
// Intentional swallow: row stays queued; next drain pass retries.
false
}
playbackErrorsApi.report(
PlaybackErrorReportRequest(
trackId = decoded.trackId,
kind = decoded.kind,
detail = decoded.detail,
clientId = decoded.clientId,
),
)
return Outcome.SENT
}
private companion object {
const val HTTP_CLIENT_ERR_MIN = 400
const val HTTP_CLIENT_ERR_MAX = 499
const val HTTP_TIMEOUT = 408
const val HTTP_TOO_MANY = 429
}
}
@@ -2,6 +2,8 @@ package com.fabledsword.minstrel.cache.sync
import com.fabledsword.minstrel.api.endpoints.SyncApi
import com.fabledsword.minstrel.auth.AuthStore
import com.fabledsword.minstrel.connectivity.NetworkStatusController
import com.fabledsword.minstrel.connectivity.ServerHealth
import com.fabledsword.minstrel.cache.db.dao.CachedAlbumDao
import com.fabledsword.minstrel.cache.db.dao.CachedArtistDao
import com.fabledsword.minstrel.cache.db.dao.CachedTrackDao
@@ -16,8 +18,11 @@ import com.fabledsword.minstrel.models.wire.SyncArtistWire
import com.fabledsword.minstrel.models.wire.SyncTrackWire
import kotlinx.coroutines.CoroutineScope
import kotlinx.coroutines.flow.distinctUntilChanged
import kotlinx.coroutines.flow.filter
import kotlinx.coroutines.flow.filterNotNull
import kotlinx.coroutines.flow.map
import kotlinx.coroutines.launch
import kotlinx.coroutines.sync.Mutex
import kotlinx.datetime.Clock
import retrofit2.Retrofit
import retrofit2.create
@@ -50,10 +55,15 @@ class SyncController @Inject constructor(
private val trackDao: CachedTrackDao,
private val authStore: AuthStore,
@ApplicationScope private val scope: CoroutineScope,
networkStatus: NetworkStatusController,
retrofit: Retrofit,
) {
private val api: SyncApi = retrofit.create()
// Single in-flight guard: the cookie + health-recovery triggers (and a
// pull-to-refresh) can fire concurrently; coalesce them into one pass.
private val mutex = Mutex()
init {
scope.launch {
authStore.sessionCookie
@@ -61,11 +71,25 @@ class SyncController @Inject constructor(
.distinctUntilChanged()
.collect { syncSafe() }
}
// Re-sync when the server becomes reachable again mid-session, so a
// delta missed while offline lands without waiting for a cold start.
scope.launch {
networkStatus.state
.map { it == ServerHealth.Healthy }
.distinctUntilChanged()
.filter { it }
.collect { syncSafe() }
}
}
/** Public entry-point for "Sync now" affordances. Swallows errors. */
suspend fun syncSafe() {
runCatching { sync() }
if (!mutex.tryLock()) return
try {
runCatching { sync() }
} finally {
mutex.unlock()
}
}
private suspend fun sync() {
@@ -0,0 +1,328 @@
package com.fabledsword.minstrel.diagnostics
import android.content.BroadcastReceiver
import android.content.Context
import android.content.Intent
import android.content.IntentFilter
import android.os.PowerManager
import androidx.lifecycle.DefaultLifecycleObserver
import androidx.lifecycle.LifecycleOwner
import androidx.core.content.ContextCompat
import androidx.lifecycle.ProcessLifecycleOwner
import com.fabledsword.minstrel.auth.AuthController
import com.fabledsword.minstrel.auth.AuthStore
import com.fabledsword.minstrel.cache.db.dao.DiagnosticEventDao
import com.fabledsword.minstrel.cache.db.entities.DiagnosticEventEntity
import com.fabledsword.minstrel.connectivity.ConnectivityObserver
import com.fabledsword.minstrel.connectivity.NetworkStatusController
import com.fabledsword.minstrel.di.ApplicationScope
import com.fabledsword.minstrel.player.PlayerController
import com.fabledsword.minstrel.player.RemotePlayerState
import com.fabledsword.minstrel.player.output.OutputPickerController
import com.fabledsword.minstrel.player.output.OutputRoute
import dagger.hilt.android.qualifiers.ApplicationContext
import kotlinx.coroutines.CoroutineScope
import kotlinx.coroutines.Dispatchers
import kotlinx.coroutines.Job
import kotlinx.coroutines.delay
import kotlinx.coroutines.flow.combine
import kotlinx.coroutines.flow.distinctUntilChanged
import kotlinx.coroutines.flow.map
import kotlinx.coroutines.launch
import kotlinx.serialization.json.Json
import kotlinx.serialization.json.JsonObject
import kotlinx.serialization.json.buildJsonObject
import kotlinx.serialization.json.put
import javax.inject.Inject
import javax.inject.Singleton
/**
* On-device diagnostics collector (M9). Active only while the account's
* debug mode is enabled (server flag, read via AuthController.currentUser)
* AND the user hasn't opted out locally. When active it taps existing
* connectivity / player / UPnP / power seams READ-ONLY and writes a
* timeseries of events into the [DiagnosticEventDao] ring buffer; the
* [DiagnosticsUploader] drains that buffer to the server.
*
* The aim is to explain two failure classes after the fact: roaming /
* poor-data recovery (connectivity + server-health transitions) and
* locked-phone UPnP desync (power/Doze transitions correlated with the
* Sonos-vs-local position deltas captured in the heartbeat).
*/
@Suppress("TooManyFunctions") // one collector + one (un)register pair per signal; cohesive
@Singleton
class DiagnosticsReporter @Inject constructor(
@ApplicationContext private val context: Context,
@ApplicationScope private val scope: CoroutineScope,
private val dao: DiagnosticEventDao,
private val authController: AuthController,
private val authStore: AuthStore,
private val connectivity: ConnectivityObserver,
private val networkStatus: NetworkStatusController,
private val playerController: PlayerController,
private val outputPicker: OutputPickerController,
private val remoteState: RemotePlayerState,
private val json: Json,
) {
@Volatile private var enabled = false
private var collectorJob: Job? = null
private var powerReceiver: BroadcastReceiver? = null
private var lifecycleObserver: DefaultLifecycleObserver? = null
init {
// Gate = account flag (currentUser.debugModeEnabled) AND not the
// per-device local opt-out.
scope.launch {
combine(authController.currentUser, authStore.diagnosticsOptOut) { user, optOut ->
(user?.debugModeEnabled == true) && !optOut
}.distinctUntilChanged().collect { setEnabled(it) }
}
// Periodically re-pull /me so a remote admin flip propagates
// without a re-login or app restart.
scope.launch {
while (true) {
delay(GATE_REFRESH_MS)
authController.refreshProfile()
}
}
}
private fun setEnabled(value: Boolean) {
if (value == enabled) return
enabled = value
if (value) start() else stop()
}
private fun start() {
registerPowerReceiver()
registerLifecycleObserver()
collectorJob = scope.launch {
record("lifecycle", buildJsonObject { put("event", "reporting_started") })
launch { collectConnectivity() }
launch { collectServerHealth() }
launch { collectUpnpDrops() }
launch { collectPlayerState() }
launch { collectTrackChanges() }
launch { collectRoutes() }
launch { heartbeatLoop() }
}
}
private fun stop() {
collectorJob?.cancel()
collectorJob = null
unregisterPowerReceiver()
unregisterLifecycleObserver()
// Off means off: drop any unsent buffer (honors the user OFF
// intent and avoids leaking data captured before disable).
scope.launch { runCatching { dao.clear() } }
}
private suspend fun collectConnectivity() {
connectivity.online.distinctUntilChanged().collect { online ->
record("connectivity", buildJsonObject {
put("event", "online_changed")
put("online", online)
})
}
}
private suspend fun collectServerHealth() {
// state is a StateFlow — already conflated/distinct, so no
// distinctUntilChanged (it's a deprecation warning = build error).
networkStatus.state.collect { s ->
record("connectivity", buildJsonObject {
put("event", "server_health")
put("state", s.name)
})
}
}
private suspend fun collectUpnpDrops() {
playerController.dropEvents.collect { msg ->
record("upnp_sync", buildJsonObject {
put("event", "drop")
put("message", msg)
})
}
}
private suspend fun collectPlayerState() {
// 'playback', not 'upnp_sync' — player state applies to every output
// route (phone speaker, Bluetooth, UPnP), not just casting.
playerController.uiState
.map { Triple(it.currentSource, it.isUpnpLoading, it.playbackError) }
.distinctUntilChanged()
.collect { (source, upnpLoading, err) ->
record("playback", buildJsonObject {
put("event", "player_state")
put("source", source ?: "")
put("upnp_loading", upnpLoading)
if (err != null) put("error", err)
})
}
}
// Emit a snapshot at each track/queue-index change — captures a
// skip-induced local↔Sonos desync at the INSTANT it happens, which the
// 45s heartbeat misses. Note: uiState is a conflated StateFlow, so a
// very rapid skip burst may coalesce intermediate indices (we still get
// the boundaries + the local-vs-Sonos snapshot).
private suspend fun collectTrackChanges() {
playerController.uiState
.map { it.queueIndex to it.currentTrack?.id }
.distinctUntilChanged()
.collect { (index, _) ->
val ui = playerController.uiState.value
val casting = outputPicker.routesState.value.current.protocol !=
OutputRoute.Protocol.SYSTEM
record("playback", buildJsonObject {
put("event", "track_change")
put("local_index", index)
// Track IDENTITY, not just index — indices wobble across
// re-casts, so the id + Sonos URI make a desync unambiguous.
put("local_track_id", ui.currentTrack?.id ?: "")
put("local_pos_ms", ui.positionMs)
putSonos(this, casting)
put("upnp_loading", ui.isUpnpLoading)
put("server_health", networkStatus.state.value.name)
put("route", outputPicker.routesState.value.current.name)
})
}
}
private suspend fun collectRoutes() {
// 'playback' — route changes happen for all outputs. This only ever
// logs the ACTIVE route (routesState.current), so no "connected" flag.
outputPicker.routesState.map { it.current }.distinctUntilChanged().collect { r ->
record("playback", buildJsonObject {
put("event", "route")
put("id", r.id)
put("name", r.name)
put("kind", r.kind.name)
put("protocol", r.protocol.name)
})
}
}
private suspend fun heartbeatLoop() {
while (true) {
delay(HEARTBEAT_MS)
val ui = playerController.uiState.value
val route = outputPicker.routesState.value.current
val routeActive = route.protocol != OutputRoute.Protocol.SYSTEM
// Idle = nothing worth sampling. Skip to keep the buffer lean.
if (!ui.isPlaying && !routeActive) continue
record("heartbeat", buildJsonObject {
put("server_health", networkStatus.state.value.name)
put("is_playing", ui.isPlaying)
put("source", ui.currentSource ?: "")
put("local_index", ui.queueIndex)
put("local_track_id", ui.currentTrack?.id ?: "")
put("local_pos_ms", ui.positionMs)
put("route", route.name)
put("route_protocol", route.protocol.name)
putSonos(this, routeActive)
addPowerFields(this)
})
}
}
// --- power + lifecycle taps -------------------------------------------
private fun registerPowerReceiver() {
if (powerReceiver != null) return
val receiver = object : BroadcastReceiver() {
override fun onReceive(c: Context?, intent: Intent?) {
val action = intent?.action ?: return
if (!enabled) return
scope.launch { record("power", powerEvent(action)) }
}
}
val filter = IntentFilter().apply {
addAction(Intent.ACTION_SCREEN_ON)
addAction(Intent.ACTION_SCREEN_OFF)
addAction(PowerManager.ACTION_DEVICE_IDLE_MODE_CHANGED)
}
// System-protected broadcasts, but pass NOT_EXPORTED explicitly so
// the API 34+ registerReceiver flag requirement is satisfied.
ContextCompat.registerReceiver(
context, receiver, filter, ContextCompat.RECEIVER_NOT_EXPORTED,
)
powerReceiver = receiver
}
private fun unregisterPowerReceiver() {
powerReceiver?.let { runCatching { context.unregisterReceiver(it) } }
powerReceiver = null
}
private fun registerLifecycleObserver() {
if (lifecycleObserver != null) return
val obs = object : DefaultLifecycleObserver {
override fun onStart(owner: LifecycleOwner) = logLifecycle("app_foreground")
override fun onStop(owner: LifecycleOwner) = logLifecycle("app_background")
}
lifecycleObserver = obs
scope.launch(Dispatchers.Main) {
ProcessLifecycleOwner.get().lifecycle.addObserver(obs)
}
}
private fun unregisterLifecycleObserver() {
val obs = lifecycleObserver ?: return
lifecycleObserver = null
scope.launch(Dispatchers.Main) {
ProcessLifecycleOwner.get().lifecycle.removeObserver(obs)
}
}
private fun logLifecycle(event: String) {
if (!enabled) return
scope.launch { record("lifecycle", buildJsonObject { put("event", event) }) }
}
private fun powerEvent(action: String): JsonObject = buildJsonObject {
put("event", action.substringAfterLast('.'))
addPowerFields(this)
}
// Sonos/UPnP remote-vs-local desync fields. Only meaningful while a
// remote route is active; zeroed otherwise so a stale RemotePlayerState
// from a just-ended cast can't masquerade as live Sonos data (the
// cast→phone handoff artifact). currentTrackUri is the desync ground
// truth — it carries the track the speaker is actually streaming.
private fun putSonos(builder: kotlinx.serialization.json.JsonObjectBuilder, casting: Boolean) {
builder.put("sonos_track", if (casting) remoteState.trackNumber else 0)
builder.put("sonos_pos_ms", if (casting) remoteState.positionMs else 0)
builder.put("sonos_playing", casting && remoteState.isPlaying)
if (casting) builder.put("sonos_uri", remoteState.currentTrackUri)
}
private fun addPowerFields(builder: kotlinx.serialization.json.JsonObjectBuilder) {
val pm = context.getSystemService(Context.POWER_SERVICE) as PowerManager
builder.put("doze", pm.isDeviceIdleMode)
builder.put("screen_on", pm.isInteractive)
builder.put("battery_opt_ignored", pm.isIgnoringBatteryOptimizations(context.packageName))
}
private suspend fun record(kind: String, payload: JsonObject) {
runCatching {
val id = dao.insert(
DiagnosticEventEntity(
kind = kind,
occurredAtMillis = System.currentTimeMillis(),
payloadJson = json.encodeToString(JsonObject.serializer(), payload),
),
)
if (id % TRIM_INTERVAL == 0L) dao.trimToNewest(MAX_BUFFER)
}
}
private companion object {
const val HEARTBEAT_MS = 45_000L
const val GATE_REFRESH_MS = 300_000L // re-pull /me every 5 min
const val MAX_BUFFER = 5_000 // ring-buffer ceiling, oldest dropped
const val TRIM_INTERVAL = 50L // trim every N inserts, not every one
}
}
@@ -0,0 +1,118 @@
package com.fabledsword.minstrel.diagnostics
import android.os.Build
import com.fabledsword.minstrel.BuildConfig
import com.fabledsword.minstrel.api.endpoints.DiagnosticEventWire
import com.fabledsword.minstrel.api.endpoints.DiagnosticsApi
import com.fabledsword.minstrel.api.endpoints.DiagnosticsReportRequest
import com.fabledsword.minstrel.auth.AuthStore
import com.fabledsword.minstrel.cache.db.dao.DiagnosticEventDao
import com.fabledsword.minstrel.cache.db.entities.DiagnosticEventEntity
import com.fabledsword.minstrel.connectivity.NetworkStatusController
import com.fabledsword.minstrel.connectivity.ServerHealth
import com.fabledsword.minstrel.di.ApplicationScope
import kotlinx.coroutines.CoroutineScope
import kotlinx.coroutines.delay
import kotlinx.coroutines.flow.distinctUntilChanged
import kotlinx.coroutines.flow.filter
import kotlinx.coroutines.flow.filterNotNull
import kotlinx.coroutines.flow.map
import kotlinx.coroutines.launch
import kotlinx.coroutines.sync.Mutex
import kotlinx.serialization.json.Json
import retrofit2.Retrofit
import retrofit2.create
import javax.inject.Inject
import javax.inject.Singleton
/**
* Drains the [DiagnosticEventDao] ring buffer to POST /api/diagnostics
* (M9). Triggers mirror [com.fabledsword.minstrel.cache.mutations.MutationReplayer]:
* a periodic tick, a sign-in (sessionCookie non-null), and a server-health
* recovery to [ServerHealth.Healthy] — so a dead-zone's buffered events
* upload the moment the link comes back.
*
* Deliberately NOT the MutationQueue: diagnostics are high-volume,
* best-effort telemetry. A failed upload just retries on the next tick;
* the server no-ops (204) when the account's debug flag is off, which the
* uploader treats as success so the buffer drains either way.
*/
@Singleton
class DiagnosticsUploader @Inject constructor(
private val dao: DiagnosticEventDao,
private val authStore: AuthStore,
private val json: Json,
@ApplicationScope private val scope: CoroutineScope,
networkStatus: NetworkStatusController,
retrofit: Retrofit,
) {
private val api: DiagnosticsApi = retrofit.create()
private val mutex = Mutex()
init {
scope.launch {
while (true) {
delay(UPLOAD_INTERVAL_MS)
drainSafe()
}
}
scope.launch {
authStore.sessionCookie.filterNotNull().distinctUntilChanged().collect { drainSafe() }
}
scope.launch {
networkStatus.state
.map { it == ServerHealth.Healthy }
.distinctUntilChanged()
.filter { it }
.collect { drainSafe() }
}
}
/** Coalesces concurrent triggers via tryLock — a drain in flight wins. */
private suspend fun drainSafe() {
val clientId = authStore.clientId.value
// Signed out / no client id yet → nothing to do. Single guard keeps
// the return count within the detekt gate.
if (authStore.sessionCookie.value.isNullOrEmpty() || clientId == null) return
if (!mutex.tryLock()) return
try {
drain(clientId)
} finally {
mutex.unlock()
}
}
private suspend fun drain(clientId: String) {
var more = true
while (more) {
val batch = runCatching { dao.takeBatch(BATCH_SIZE) }.getOrNull().orEmpty()
val sent = batch.isNotEmpty() && runCatching { upload(clientId, batch) }.isSuccess
if (sent) runCatching { dao.deleteByIds(batch.map { it.id }) }
// Keep going only while a full batch sent cleanly; otherwise stop
// (empty buffer, or a failure to retry on the next trigger).
more = sent && batch.size >= BATCH_SIZE
}
}
private suspend fun upload(clientId: String, batch: List<DiagnosticEventEntity>) {
api.report(
DiagnosticsReportRequest(
clientId = clientId,
appVersion = BuildConfig.VERSION_NAME,
osVersion = "Android ${Build.VERSION.RELEASE} (${Build.MODEL})",
events = batch.map { row ->
DiagnosticEventWire(
kind = row.kind,
occurredAt = row.occurredAtMillis,
payload = json.parseToJsonElement(row.payloadJson),
)
},
),
)
}
private companion object {
const val UPLOAD_INTERVAL_MS = 60_000L
const val BATCH_SIZE = 100
}
}
@@ -39,6 +39,9 @@ import javax.inject.Singleton
* pre-warms the top artists via [HomeArtistPrewarmer].
*/
@Singleton
// Per-section observe accessors (one per Home row) inflate the function
// count past detekt's 11 default — accessor density, not complexity.
@Suppress("TooManyFunctions")
class HomeRepository @Inject constructor(
private val homeIndexDao: CachedHomeIndexDao,
private val metadataProvider: MetadataProvider,
@@ -76,6 +79,12 @@ class HomeRepository @Inject constructor(
fun observeLastPlayedArtists(): Flow<List<HomeTile<ArtistRef>>> =
observeArtistSection(SECTION_LAST_PLAYED_ARTISTS)
fun observeYouMightLikeAlbums(): Flow<List<HomeTile<AlbumRef>>> =
observeAlbumSection(SECTION_YOU_MIGHT_LIKE_ALBUMS)
fun observeYouMightLikeArtists(): Flow<List<HomeTile<ArtistRef>>> =
observeArtistSection(SECTION_YOU_MIGHT_LIKE_ARTISTS)
/**
* Pulls /api/home/index, replaces each cached_home_index section,
* and pre-warms the top artists. The section Flows re-fire on the
@@ -88,7 +97,11 @@ class HomeRepository @Inject constructor(
replaceSection(SECTION_REDISCOVER_ARTISTS, "artist", wire.rediscoverArtists)
replaceSection(SECTION_MOST_PLAYED_TRACKS, "track", wire.mostPlayedTracks)
replaceSection(SECTION_LAST_PLAYED_ARTISTS, "artist", wire.lastPlayedArtists)
prewarmer.warm(wire.rediscoverArtists + wire.lastPlayedArtists)
replaceSection(SECTION_YOU_MIGHT_LIKE_ALBUMS, "album", wire.youMightLikeAlbums)
replaceSection(SECTION_YOU_MIGHT_LIKE_ARTISTS, "artist", wire.youMightLikeArtists)
prewarmer.warm(
wire.rediscoverArtists + wire.lastPlayedArtists + wire.youMightLikeArtists,
)
}
private suspend fun replaceSection(section: String, entityType: String, ids: List<String>) {
@@ -148,5 +161,7 @@ class HomeRepository @Inject constructor(
const val SECTION_REDISCOVER_ARTISTS = "rediscover_artists"
const val SECTION_MOST_PLAYED_TRACKS = "most_played_tracks"
const val SECTION_LAST_PLAYED_ARTISTS = "last_played_artists"
const val SECTION_YOU_MIGHT_LIKE_ALBUMS = "you_might_like_albums"
const val SECTION_YOU_MIGHT_LIKE_ARTISTS = "you_might_like_artists"
}
}
@@ -95,6 +95,7 @@ import kotlinx.coroutines.flow.combine
import kotlinx.coroutines.flow.map
import kotlinx.coroutines.flow.receiveAsFlow
import kotlinx.coroutines.flow.stateIn
import kotlinx.coroutines.flow.filter
import kotlinx.coroutines.launch
import javax.inject.Inject
@@ -116,6 +117,8 @@ data class HomeSections(
val rediscoverArtists: List<HomeTile<ArtistRef>> = emptyList(),
val mostPlayedTracks: List<HomeTile<TrackRef>> = emptyList(),
val lastPlayedArtists: List<HomeTile<ArtistRef>> = emptyList(),
val youMightLikeAlbums: List<HomeTile<AlbumRef>> = emptyList(),
val youMightLikeArtists: List<HomeTile<ArtistRef>> = emptyList(),
) {
val isAllEmpty: Boolean
get() = playlists.isEmpty() &&
@@ -123,7 +126,9 @@ data class HomeSections(
rediscoverAlbums.isEmpty() &&
rediscoverArtists.isEmpty() &&
mostPlayedTracks.isEmpty() &&
lastPlayedArtists.isEmpty()
lastPlayedArtists.isEmpty() &&
youMightLikeAlbums.isEmpty() &&
youMightLikeArtists.isEmpty()
}
// ─── ViewModel ───────────────────────────────────────────────────────
@@ -135,6 +140,7 @@ class HomeViewModel @Inject constructor(
private val libraryRepository: LibraryRepository,
private val player: com.fabledsword.minstrel.player.PlayerController,
private val shuffleSource: com.fabledsword.minstrel.cache.ShuffleSource,
private val eventsStream: com.fabledsword.minstrel.events.EventsStream,
networkStatus: com.fabledsword.minstrel.connectivity.NetworkStatusController,
) : ViewModel() {
@@ -163,6 +169,15 @@ class HomeViewModel @Inject constructor(
init {
refresh()
// #968: the daily 03:00 rebuild (and manual refresh) emit
// playlist.system_rebuilt; re-pull Home so the system-playlist tiles
// and You-might-like rows reflect the new snapshot without a manual
// reload. Mirrors the web SSE consumer.
viewModelScope.launch {
eventsStream.events
.filter { it.kind == "playlist.system_rebuilt" }
.collect { refresh() }
}
}
/**
@@ -289,13 +304,14 @@ class HomeViewModel @Inject constructor(
combineHomeFlows().asCacheFirstStateFlow(viewModelScope)
/**
* Five home-section flows merged into the sections struct without
* playlists; then merged with the playlists flow in [combineHomeFlows].
* Splitting it like this keeps each combine call inside the
* coroutines built-in arity limit (5) and avoids the typed-vararg
* acrobatics needed for a 6-flow combine across heterogeneous types.
* The core five section flows merged into the sections struct. Split
* out so each combine call stays inside the coroutines built-in arity
* limit (5) and avoids the typed-vararg acrobatics a wider combine
* across heterogeneous types would need. [observeHomeSections] then
* folds in the two you-might-like flows, and [combineHomeFlows] the
* playlists flow.
*/
private fun observeHomeSections() = combine(
private fun observeCoreSections() = combine(
homeRepository.observeRecentlyAddedAlbums(),
homeRepository.observeRediscoverAlbums(),
homeRepository.observeRediscoverArtists(),
@@ -311,6 +327,14 @@ class HomeViewModel @Inject constructor(
)
}
private fun observeHomeSections() = combine(
observeCoreSections(),
homeRepository.observeYouMightLikeAlbums(),
homeRepository.observeYouMightLikeArtists(),
) { core, ymlAlbums, ymlArtists ->
core.copy(youMightLikeAlbums = ymlAlbums, youMightLikeArtists = ymlArtists)
}
private fun combineHomeFlows() =
observeHomeSections().combine(playlistsRepository.observeAll()) { sections, playlists ->
val merged = sections.copy(playlists = playlists)
@@ -463,6 +487,14 @@ private fun HomeSuccessContent(
onPlayPlaylist = onPlayPlaylist,
)
}
youMightLikeSection(
albums = sections.youMightLikeAlbums,
artists = sections.youMightLikeArtists,
onAlbumClick = onAlbumClick,
onArtistClick = onArtistClick,
onPlayAlbum = onPlayAlbum,
onPlayArtist = onPlayArtist,
)
recentlyAddedSection(sections.recentlyAddedAlbums, onAlbumClick, onPlayAlbum)
rediscoverSection(
albums = sections.rediscoverAlbums,
@@ -667,6 +699,61 @@ private fun RediscoverBlock(
}
}
/**
* "You might like" — in-library albums/artists predicted from the user's
* taste that they don't actively spin (server section, daily-built, cold-
* start gated). Sits directly under the system-playlists row. Same
* albums-then-artists block shape as Rediscover; the artist sub-row drops
* its title when an album sub-row precedes it so the two read as one section.
*/
private fun LazyListScope.youMightLikeSection(
albums: List<HomeTile<AlbumRef>>,
artists: List<HomeTile<ArtistRef>>,
onAlbumClick: (String) -> Unit,
onArtistClick: (String) -> Unit,
onPlayAlbum: suspend (String) -> Unit,
onPlayArtist: suspend (String) -> Unit,
) {
item {
if (albums.isNotEmpty() || artists.isNotEmpty()) {
YouMightLikeBlock(
albums = albums,
artists = artists,
onAlbumClick = onAlbumClick,
onArtistClick = onArtistClick,
onPlayAlbum = onPlayAlbum,
onPlayArtist = onPlayArtist,
)
} else {
EmptySection(
title = "You might like",
body = "We're still learning your taste — keep listening and " +
"picks you might like will show up here.",
)
}
}
}
@Composable
private fun YouMightLikeBlock(
albums: List<HomeTile<AlbumRef>>,
artists: List<HomeTile<ArtistRef>>,
onAlbumClick: (String) -> Unit,
onArtistClick: (String) -> Unit,
onPlayAlbum: suspend (String) -> Unit,
onPlayArtist: suspend (String) -> Unit,
) {
Column {
if (albums.isNotEmpty()) {
AlbumsRow("You might like", albums, onAlbumClick, onPlayAlbum)
}
if (artists.isNotEmpty()) {
val title = if (albums.isEmpty()) "You might like" else ""
ArtistsRow(title, artists, onArtistClick, onPlayArtist)
}
}
}
@Composable
private fun AlbumsRow(
title: String,
@@ -16,4 +16,11 @@ data class UserRef(
val id: String,
val username: String,
val isAdmin: Boolean = false,
/**
* Account-level diagnostics opt-in (M9). NOT present in the login
* response (that's the narrow UserView) — populated by the /api/me
* refresh in AuthController so a remote admin flip reaches the
* device. Default false until the first refresh.
*/
val debugModeEnabled: Boolean = false,
)
@@ -1,5 +1,9 @@
@file:OptIn(ExperimentalSerializationApi::class)
package com.fabledsword.minstrel.models.wire
import kotlinx.serialization.EncodeDefault
import kotlinx.serialization.ExperimentalSerializationApi
import kotlinx.serialization.SerialName
import kotlinx.serialization.Serializable
@@ -15,7 +19,11 @@ import kotlinx.serialization.Serializable
@Serializable
data class PlayStartedRequest(
val type: String = "play_started",
// Discriminator MUST stay on the wire. The app's Json has
// encodeDefaults=false, so without this a `type` left at its
// default is omitted entirely and the server 400s the event as
// "unknown event type" — silently dropping every native play.
@EncodeDefault(EncodeDefault.Mode.ALWAYS) val type: String = "play_started",
@SerialName("track_id") val trackId: String,
@SerialName("client_id") val clientId: String,
val source: String? = null,
@@ -28,21 +36,21 @@ data class PlayStartedResponse(
@Serializable
data class PlayEndedRequest(
val type: String = "play_ended",
@EncodeDefault(EncodeDefault.Mode.ALWAYS) val type: String = "play_ended",
@SerialName("play_event_id") val playEventId: String,
@SerialName("duration_played_ms") val durationPlayedMs: Long,
)
@Serializable
data class PlaySkippedRequest(
val type: String = "play_skipped",
@EncodeDefault(EncodeDefault.Mode.ALWAYS) val type: String = "play_skipped",
@SerialName("play_event_id") val playEventId: String,
@SerialName("position_ms") val positionMs: Long,
)
@Serializable
data class PlayOfflineRequest(
val type: String = "play_offline",
@EncodeDefault(EncodeDefault.Mode.ALWAYS) val type: String = "play_offline",
@SerialName("track_id") val trackId: String,
@SerialName("client_id") val clientId: String,
val at: String,
@@ -10,13 +10,17 @@ import kotlinx.serialization.Serializable
* `internal/api/types.go HomeIndexPayload`).
*
* Section name implies entity type; no per-entry type tag is needed:
* - recentlyAddedAlbums → album
* - rediscoverAlbums → album
* - rediscoverArtists → artist
* - mostPlayedTracks → track
* - lastPlayedArtists → artist
* - recentlyAddedAlbums → album
* - rediscoverAlbums → album
* - rediscoverArtists → artist
* - mostPlayedTracks → track
* - lastPlayedArtists → artist
* - youMightLikeAlbums → album
* - youMightLikeArtists → artist
*
* All slices default to empty so missing keys don't throw on decode.
* All slices default to empty so missing keys don't throw on decode
* which also keeps the client safe against older servers that don't
* emit the you-might-like sections yet.
*/
@Serializable
data class HomeIndexWire(
@@ -25,4 +29,6 @@ data class HomeIndexWire(
@SerialName("rediscover_artists") val rediscoverArtists: List<String> = emptyList(),
@SerialName("most_played_tracks") val mostPlayedTracks: List<String> = emptyList(),
@SerialName("last_played_artists") val lastPlayedArtists: List<String> = emptyList(),
@SerialName("you_might_like_albums") val youMightLikeAlbums: List<String> = emptyList(),
@SerialName("you_might_like_artists") val youMightLikeArtists: List<String> = emptyList(),
)
@@ -18,4 +18,5 @@ data class MyProfileWire(
@SerialName("display_name") val displayName: String? = null,
val email: String? = null,
@SerialName("is_admin") val isAdmin: Boolean = false,
@SerialName("debug_mode_enabled") val debugModeEnabled: Boolean = false,
)
@@ -0,0 +1,77 @@
package com.fabledsword.minstrel.player
import android.content.Context
import android.net.wifi.WifiManager
import android.os.Build
import android.os.PowerManager
import timber.log.Timber
/**
* Holds a WiFi + CPU wake lock for the lifetime of an active UPnP cast.
*
* While casting, the wrapped ExoPlayer is paused, so its automatic
* `WAKE_MODE_NETWORK` locks are released and nothing keeps the phone's radio
* awake. On a locked, on-battery phone the WiFi enters power-save within
* seconds and the CPU dozes; that stalls the 1 Hz liveness poll to the
* renderer and the queue-extend calls to the server. The poll then trips the
* drop threshold and playback falls back to a phone that *also* has no
* network — silence, while the renderer was streaming fine the whole time.
*
* A high-performance / low-latency [WifiManager.WifiLock] keeps the radio out
* of power-save, and a partial [PowerManager.WakeLock] keeps the poll
* coroutine scheduled. Both are acquired when a route goes active and released
* the moment it drops or the user switches back to the phone.
*
* All methods are idempotent (`setReferenceCounted(false)` + held-checks) and
* synchronized, so they are safe to call from any thread.
*/
class CastNetworkLock(context: Context) {
private val appContext = context.applicationContext
private val wifiLock: WifiManager.WifiLock? =
(appContext.getSystemService(Context.WIFI_SERVICE) as? WifiManager)
?.createWifiLock(wifiLockMode(), LOCK_TAG)
?.apply { setReferenceCounted(false) }
private val wakeLock: PowerManager.WakeLock? =
(appContext.getSystemService(Context.POWER_SERVICE) as? PowerManager)
?.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, LOCK_TAG)
?.apply { setReferenceCounted(false) }
@Synchronized
fun acquire() {
runCatching { wifiLock?.takeUnless { it.isHeld }?.acquire() }
.onFailure { Timber.w(it, "CastNetworkLock: wifi acquire failed") }
runCatching { wakeLock?.takeUnless { it.isHeld }?.acquire() }
.onFailure { Timber.w(it, "CastNetworkLock: wake acquire failed") }
Timber.w(
"CastNetworkLock acquired (wifi=%s wake=%s)",
wifiLock?.isHeld, wakeLock?.isHeld,
)
}
@Synchronized
fun release() {
runCatching { wifiLock?.takeIf { it.isHeld }?.release() }
.onFailure { Timber.w(it, "CastNetworkLock: wifi release failed") }
runCatching { wakeLock?.takeIf { it.isHeld }?.release() }
.onFailure { Timber.w(it, "CastNetworkLock: wake release failed") }
Timber.w("CastNetworkLock released")
}
private companion object {
const val LOCK_TAG = "minstrel:upnp-cast"
// WIFI_MODE_FULL_LOW_LATENCY (API 29+) both disables power-save and
// lowers latency; FULL_HIGH_PERF is the pre-Q equivalent for keeping
// the radio fully awake.
fun wifiLockMode(): Int =
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.Q) {
WifiManager.WIFI_MODE_FULL_LOW_LATENCY
} else {
@Suppress("DEPRECATION")
WifiManager.WIFI_MODE_FULL_HIGH_PERF
}
}
}
@@ -10,6 +10,8 @@ import androidx.lifecycle.ProcessLifecycleOwner
import androidx.media3.common.ForwardingPlayer
import androidx.media3.common.MediaItem
import androidx.media3.common.Player
import com.fabledsword.minstrel.connectivity.NetworkStatusController
import com.fabledsword.minstrel.connectivity.ServerHealth
import com.fabledsword.minstrel.player.output.ActiveUpnp
import com.fabledsword.minstrel.player.output.ActiveUpnpHolder
import com.fabledsword.minstrel.player.output.upnp.SoapFaultException
@@ -63,6 +65,8 @@ class MinstrelForwardingPlayer(
private val delegate: Player,
private val holder: ActiveUpnpHolder,
private val remoteState: RemotePlayerState,
private val castNetworkLock: CastNetworkLock,
private val networkStatus: NetworkStatusController,
private val onDrop: (routeName: String) -> Unit,
) : ForwardingPlayer(delegate) {
@@ -116,6 +120,20 @@ class MinstrelForwardingPlayer(
scope.launch {
holder.active.collect { active -> onActiveChanged(active) }
}
scope.launch {
// When the phone's own network recovers, reconcile a held cast
// session immediately instead of waiting up to POLL_INTERVAL_MS:
// the renderer kept playing, so one round-trip re-confirms it and
// resyncs the cursor/position. Only a transition *into* Healthy
// while a route is active matters.
var prev = networkStatus.state.value
networkStatus.state.collect { next ->
if (next == ServerHealth.Healthy && prev != ServerHealth.Healthy && isRemote()) {
pollTrigger.trySend(Unit)
}
prev = next
}
}
// Process lifecycle is observed on the main thread; ProcessLifecycleOwner's
// addObserver requires it. The observer just trySend's to the channel.
handler.post {
@@ -438,6 +456,11 @@ class MinstrelForwardingPlayer(
lastNotifiedTrackIdx = -1
if (active != null) {
Timber.w("UPnP active: %s -- pollLoop starting", active.routeName)
// Hold the WiFi + CPU awake for the cast: the wrapped ExoPlayer is
// about to be paused (releasing its WAKE_MODE_NETWORK locks), so
// without this the radio power-saves on a locked screen and the
// poll below starves -- see [CastNetworkLock].
castNetworkLock.acquire()
// Pause the wrapped ExoPlayer so we are not playing local audio
// simultaneously with the remote renderer. handler.post targets the
// application looper, so this runs on the same thread that processes
@@ -447,20 +470,26 @@ class MinstrelForwardingPlayer(
handler.post { delegate.pause() }
pollJob = scope.launch { pollLoop(active) }
} else {
castNetworkLock.release()
remoteState.reset()
}
}
@OptIn(ExperimentalCoroutinesApi::class) // onTimeout / select.onReceive
private suspend fun pollLoop(active: ActiveUpnp) {
var networkDropSuppressed = false
while (scope.isActive && holder.active.value?.routeId == active.routeId) {
val outcome = runCatching { pollOnce(active) }
if (outcome.isSuccess) {
remoteState.recordPollSuccess()
networkDropSuppressed = false
} else if (remoteState.recordPollFailure()) {
Timber.w("UPnP drop threshold tripped for %s", active.routeName)
handler.post { onDrop(active.routeName) }
return
if (networkStatus.state.value == ServerHealth.Healthy) {
Timber.w("UPnP drop threshold tripped for %s", active.routeName)
handler.post { onDrop(active.routeName) }
return
}
networkDropSuppressed = suppressDropForNetwork(active, networkDropSuppressed)
}
// Race the normal cadence against any external wake (activity
// resume). Whichever wins continues to the next pollOnce.
@@ -471,6 +500,30 @@ class MinstrelForwardingPlayer(
}
}
/**
* The poll-failure threshold tripped, but the phone's *own* network is down
* (state is not [ServerHealth.Healthy]) -- so this is "we can't see the
* renderer right now," not "the renderer died." A UPnP renderer streams
* autonomously and is almost certainly still playing; meanwhile a local
* fallback couldn't reach the server either, so dropping would only blast
* local audio out of a pocketed phone while the speaker keeps going. Hold
* the route and keep polling -- a successful poll once the network returns
* reconciles to the renderer's real state. Clear the failure streak so
* recovery re-evaluates the renderer from scratch instead of re-dropping on
* the first post-recovery hiccup. Returns the (latched) suppression flag so
* the rationale logs once per outage, not every tick.
*/
private fun suppressDropForNetwork(active: ActiveUpnp, alreadySuppressed: Boolean): Boolean {
if (!alreadySuppressed) {
Timber.w(
"UPnP drop suppressed for %s -- phone network %s, holding route",
active.routeName, networkStatus.state.value,
)
}
remoteState.recordPollSuccess() // clear streak; not a renderer failure
return true
}
/**
* One poll tick: read position + transport state from Sonos, apply to
* [remoteState], and forward-sync the local cursor to Sonos's Track
@@ -6,6 +6,7 @@ import androidx.lifecycle.ProcessLifecycleOwner
import com.fabledsword.minstrel.api.endpoints.EventsApi
import com.fabledsword.minstrel.auth.AuthStore
import com.fabledsword.minstrel.cache.mutations.MutationQueue
import com.fabledsword.minstrel.cache.mutations.PlayEndedPayload
import com.fabledsword.minstrel.cache.mutations.PlayOfflinePayload
import com.fabledsword.minstrel.di.ApplicationScope
import com.fabledsword.minstrel.models.wire.PlayEndedRequest
@@ -64,11 +65,24 @@ class PlayEventsReporter @Inject constructor(
private var curLastPositionMs: Long = 0
private var curDurationMs: Long = 0
// Whether the currently-tracked play is actively playing (vs paused).
// onStop reads this: a backgrounded play that's still playing is left
// to the live path (the foreground service keeps us alive), while a
// paused one is durably closed so a kill can't orphan its open row.
private var curPlaying: Boolean = false
// Server play_event_id when the live play_started succeeded;
// null if start failed/offline — then the close is captured into
// the offline mutation queue instead of a live ended/skipped.
private var openPlayEventId: String? = null
// True from beginTrack until startLive's play_started resolves. When a
// close races an in-flight start (id still null), the server row is
// being created but we've lost its id — we must NOT also enqueue an
// offline play (that would duplicate); the server auto-closes the
// orphan on the next play_started instead.
private var startInFlight: Boolean = false
private var prevTrackId: String? = null
init {
@@ -95,7 +109,7 @@ class PlayEventsReporter @Inject constructor(
) {
// Track-change → close the prior tracked play.
if (trackId != prevTrackId && curTrackId != null) {
closeCurrent(viaOffline = false)
closeCurrent()
}
// Entered playing for a new track → begin tracking it.
@@ -110,6 +124,7 @@ class PlayEventsReporter @Inject constructor(
if (curTrackId != null && trackId == curTrackId) {
curLastPositionMs = positionMs
if (durationMs > 0) curDurationMs = durationMs
curPlaying = playing
}
prevTrackId = trackId
@@ -121,12 +136,18 @@ class PlayEventsReporter @Inject constructor(
curSource = source
curLastPositionMs = 0
curDurationMs = durationMs
curPlaying = true
openPlayEventId = null
startInFlight = true
startLive(trackId = trackId, source = source)
}
private fun startLive(trackId: String, source: String?) {
val cid = resolveClientId() ?: return
val cid = resolveClientId()
if (cid == null) {
startInFlight = false
return
}
scope.launch {
try {
val response = api.playStarted(
@@ -144,56 +165,72 @@ class PlayEventsReporter @Inject constructor(
) {
// Offline / flaky — openPlayEventId stays null; close
// path will enqueue the completed play for replay.
} finally {
startInFlight = false
}
}
}
private fun closeCurrent(viaOffline: Boolean) {
/**
* Closes the tracked play. Routes by whether the server already has an
* open row, NOT by caller context — this is what keeps background /
* track-change / failure paths from each minting a second row:
* - open server row (id) → close it by id; on failure enqueue a durable
* close-by-id (never an offline play).
* - start in flight (no id yet) → leave it; the server auto-closes the
* orphan on the next play_started. Enqueuing offline here would
* duplicate the in-flight row.
* - no server row at all → record the whole play offline.
*
* Always uses the actual position played; the server's skip rule
* (50%/30s defaults) classifies was_skipped from it.
*/
private fun closeCurrent() {
val trackId = curTrackId
val startedAt = curStartedAt
if (trackId == null || startedAt == null) {
resetCurrent()
return
}
// Always send the actual position played to; the server's
// skip rule (50%/30s defaults, configurable) classifies
// was_skipped from this. If the track ran to completion the
// last observed position is ~= duration, which gives ratio ~1
// and the server records a non-skip. The COMPLETION_TOLERANCE
// rounding the prior shape did is no longer needed — the
// server's threshold is the source of truth.
val durationMs = curLastPositionMs
val source = curSource
val id = openPlayEventId
if (!viaOffline && id != null) {
scope.launch {
try {
api.playEnded(
PlayEndedRequest(
playEventId = id,
durationPlayedMs = durationMs,
),
)
} catch (
@Suppress("TooGenericExceptionCaught", "SwallowedException") e: Throwable,
) {
enqueueOffline(trackId, startedAt, source, durationMs)
}
}
} else {
enqueueOffline(trackId, startedAt, source, durationMs)
val inFlight = startInFlight
when {
id != null -> closeById(id, durationMs)
inFlight -> Unit
else -> enqueueOffline(trackId, startedAt, source, durationMs)
}
resetCurrent()
}
private fun closeById(id: String, durationMs: Long) {
scope.launch {
try {
api.playEnded(
PlayEndedRequest(playEventId = id, durationPlayedMs = durationMs),
)
} catch (
@Suppress("TooGenericExceptionCaught", "SwallowedException") e: Throwable,
) {
// Durable close-by-id (idempotent server-side) — survives a
// process kill without orphaning the open row or duplicating.
mutationQueue.enqueuePlayEnded(
PlayEndedPayload(playEventId = id, durationPlayedMs = durationMs),
)
}
}
}
private fun resetCurrent() {
curTrackId = null
curStartedAt = null
curSource = null
curLastPositionMs = 0
curDurationMs = 0
curPlaying = false
openPlayEventId = null
startInFlight = false
}
private fun enqueueOffline(
@@ -232,8 +269,17 @@ class PlayEventsReporter @Inject constructor(
// ── Lifecycle: durable-close on app background / detach ────────
override fun onStop(owner: LifecycleOwner) {
if (curTrackId != null) {
closeCurrent(viaOffline = true)
// App backgrounded. If the tracked play is still PLAYING, leave it
// alone: the foreground media service keeps the process — and this
// app-scope uiState collector — alive, so the live state machine
// closes the play accurately on the next real track change. Closing
// here (the old always-offline behavior) raced the collector's
// re-begin and minted a duplicate, skip-misclassified row on every
// screen-lock. Only durably close a PAUSED play, where no further
// progress will happen and a process kill would otherwise orphan the
// open server row. See docs/superpowers/2026-06-11 contract audit.
if (curTrackId != null && !curPlaying) {
closeCurrent()
}
}
}
@@ -14,6 +14,8 @@ import androidx.media3.session.MediaController
import androidx.media3.session.SessionToken
import com.fabledsword.minstrel.di.ApplicationScope
import com.fabledsword.minstrel.models.TrackRef
import com.fabledsword.minstrel.playlists.data.PlaylistsRepository
import com.fabledsword.minstrel.playlists.data.toPlayableTrackRefs
import com.fabledsword.minstrel.shared.resolveServerUrl
import dagger.hilt.android.qualifiers.ApplicationContext
import kotlinx.coroutines.CoroutineScope
@@ -63,6 +65,7 @@ class PlayerController @Inject constructor(
@ApplicationContext private val context: Context,
@ApplicationScope private val scope: CoroutineScope,
private val radio: RadioController,
private val playlists: PlaylistsRepository,
private val playerFactory: PlayerFactory,
private val activeUpnpHolder: com.fabledsword.minstrel.player.output.ActiveUpnpHolder,
private val remoteState: RemotePlayerState,
@@ -111,6 +114,13 @@ class PlayerController @Inject constructor(
*/
private var lastEvaluatedItemIndex: Int = -1
/**
* #968: self-heal budget — re-pulls of a stale refreshable queue since
* the last successful play. Capped so a still-broken refresh can't loop;
* reset when any track loads with real audio.
*/
private var selfHealAttempts = 0
/**
* Stable queue snapshot kept in sync with the player's MediaItems —
* the player's own getMediaItem(index) returns Media3 types; we keep
@@ -192,6 +202,20 @@ class PlayerController @Inject constructor(
controller.play()
}
/**
* Align the local cursor to [index] + [positionMs] WITHOUT auto-playing.
* Used by the UPnP adopt path: when attaching to a renderer that's already
* playing our queue, we sync the local cursor to the renderer's current
* track/position so skip/seek and the UI map onto its live session — the
* renderer keeps the audio, the local player stays paused. Unlike
* [seekToIndex] this issues no play().
*/
fun moveCursorTo(index: Int, positionMs: Long) {
val controller = mediaController ?: return
if (index !in queueRefs.indices) return
runOnControllerThread(controller) { controller.seekTo(index, positionMs) }
}
/**
* Replace the queue with [tracks] starting at [initialIndex].
* [source] tags the queue with its origin (e.g. "for_you") so the
@@ -337,7 +361,12 @@ class PlayerController @Inject constructor(
if (current == null || upnpEngaged) return
val duration = controller.duration
val isZeroDuration = duration <= 0L || duration == androidx.media3.common.C.TIME_UNSET
if (!isZeroDuration) return
if (!isZeroDuration) {
// A track loaded with real audio — clear the self-heal budget so
// a later stale queue can recover again.
selfHealAttempts = 0
return
}
playbackErrorEventsChannel.trySend(
PlaybackErrorEvent(
trackId = current.id,
@@ -353,6 +382,58 @@ class PlayerController @Inject constructor(
}
}
/**
* #968: the queue is fully unplayable (every track failed to load). If it
* came from a refreshable source — a system playlist (bare-variant source)
* or radio ("radio:<seed>") — the snapshot is probably stale (app/tab left
* open across the daily rebuild); re-pull it and resume instead of stopping.
* Bounded by [selfHealAttempts]. Album / artist / user-playlist / offline
* sources have nothing to refresh — stop.
*/
private fun selfHealOrStop(controller: MediaController) {
val source = controller.currentMediaItem
?.mediaMetadata?.extras?.getString(MINSTREL_SOURCE_KEY)
if (source == null || selfHealAttempts >= MAX_SELF_HEAL_ATTEMPTS) {
controller.stop()
return
}
when {
source.startsWith("radio:") -> {
selfHealAttempts++
scope.launch { selfHealRadio(source.removePrefix("radio:")) }
}
!source.contains(':') -> { // bare variant = refreshable system playlist
selfHealAttempts++
scope.launch { selfHealSystem(source) }
}
else -> controller.stop()
}
}
private suspend fun selfHealSystem(variant: String) {
val refs = runCatching { playlists.systemShuffle(variant).tracks.toPlayableTrackRefs() }
.getOrDefault(emptyList())
if (refs.isEmpty()) {
stopOnControllerThread()
return
}
setQueue(refs, initialIndex = 0, source = variant)
}
private suspend fun selfHealRadio(seedTrackId: String) {
val refs = runCatching { radio.seed(seedTrackId) }.getOrDefault(emptyList())
if (refs.isEmpty()) {
stopOnControllerThread()
return
}
setQueue(refs, initialIndex = 0, source = "radio:$seedTrackId")
}
private fun stopOnControllerThread() {
val controller = mediaController ?: return
runOnControllerThread(controller) { controller.stop() }
}
// ── Internal: async connect + Listener-driven UI state sync ──────────
private suspend fun connectAndObserve() {
@@ -403,6 +484,17 @@ class PlayerController @Inject constructor(
detail = error.message,
),
)
// A failed load leaves the player IDLE; advance past the bad
// track and re-prepare so one unplayable item doesn't strand
// playback (mirrors the zero_duration skip). At the end of a
// fully-unplayable queue, try to self-heal a stale refreshable
// source before stopping.
if (controller.hasNextMediaItem()) {
controller.seekToNextMediaItem()
controller.prepare()
} else {
selfHealOrStop(controller)
}
}
override fun onMediaItemTransition(
@@ -749,6 +841,10 @@ class PlayerController @Inject constructor(
// they don't need this poll.
private const val POSITION_POLL_INTERVAL_MS = 500L
// #968: at most one stale-queue self-heal re-pull per exhaustion (reset on
// the next successful play) so a still-broken refresh can't loop.
private const val MAX_SELF_HEAL_ATTEMPTS = 1
/**
* Structured playback failure event for [PlaybackErrorReporter]. Drives
* both the user-facing snackbar ("Couldn't play X — skipping") and the
@@ -81,6 +81,8 @@ class PlayerFactory @Inject constructor(
delegate = exo,
holder = activeUpnpHolder,
remoteState = remoteState,
castNetworkLock = CastNetworkLock(context),
networkStatus = serverHealth,
onDrop = { name -> emitDrop(name) },
)
}
@@ -15,6 +15,7 @@ import com.fabledsword.minstrel.player.output.upnp.AVTransportClient
import com.fabledsword.minstrel.player.output.upnp.RenderingControlClient
import com.fabledsword.minstrel.player.output.upnp.SoapClient
import com.fabledsword.minstrel.player.output.upnp.SoapFaultException
import com.fabledsword.minstrel.player.output.upnp.TransportState
import com.fabledsword.minstrel.player.output.upnp.UpnpDiscoveryController
import com.fabledsword.minstrel.player.output.upnp.bareUdn
import dagger.hilt.android.qualifiers.ApplicationContext
@@ -29,6 +30,7 @@ import kotlinx.coroutines.flow.stateIn
import kotlinx.coroutines.launch
import kotlinx.coroutines.sync.Mutex
import kotlinx.coroutines.sync.withLock
import okhttp3.HttpUrl.Companion.toHttpUrlOrNull
import okhttp3.OkHttpClient
import timber.log.Timber
import javax.inject.Inject
@@ -172,6 +174,31 @@ class OutputPickerController @Inject constructor(
}
scope.launch { observeQueueChangesForSonosResync() }
scope.launch { observeIdleRevertWhileUpnp() }
scope.launch { observeSelectedRouteDisappearance() }
}
/**
* Revert the UPnP selection to the phone when the selected renderer leaves
* discovery (powered off / off the LAN) while we are NOT actively casting
* to it. Without this the selection could pin to a ghost route, so a later
* "play" would target a speaker that's gone. An *active* cast is left alone
* -- its own poll loop arbitrates liveness and won't drop on a mere
* discovery gap. Routes leave discovery via [UpnpDiscoveryController]'s
* post-picker-scan prune; this reacts to the resulting routes change.
*/
private suspend fun observeSelectedRouteDisappearance() {
upnpDiscovery.routes.collect { routes ->
val selected = selectedUpnpRouteIdInternal.value
val present = routes.any { it.id == selected }
val casting = activeUpnpHolder.active.value?.routeId == selected
if (selected != null && !present && !casting) {
Timber.w(
"Output: selected UPnP route %s left discovery; reverting to phone",
selected,
)
selectedUpnpRouteIdInternal.value = null
}
}
}
/**
@@ -541,6 +568,13 @@ class OutputPickerController @Inject constructor(
// local audio while we queue up Sonos.
playerController.pause()
selectedUpnpRouteIdInternal.value = effectiveRoute.id
// If the renderer is already playing this exact queue (a "stray"
// session we got disconnected from), attach to it in place instead of
// wiping + reloading -- no jarring restart, and skip/seek land on its
// live queue. Falls through to the clear+reload path when it isn't ours.
if (tryAdoptRunningSession(transport, rendering, effectiveRoute, uiState.queue)) {
return@withLock
}
// Mark UPnP loading. ForwardingPlayer overrides drop transport commands
// silently while target is set but active is null -- the user's premature
// taps don't hit Sonos's stale state from a prior session.
@@ -567,6 +601,102 @@ class OutputPickerController @Inject constructor(
}
}
/**
* The renderer's current position + transport state, validated as an
* adoptable continuation of our local queue: same track id at the same
* 1-based index. Null means "not ours / not playing" -> caller reloads.
*/
private data class AdoptPlan(
val localIndex: Int,
val positionMs: Long,
val durationMs: Long,
val trackUri: String,
val trackNumber: Int,
val playing: Boolean,
)
/**
* Attach to a renderer that is *already* playing our queue (a session the
* phone got disconnected from but the speaker kept streaming) instead of
* clearing + reloading it. Probes the renderer's live state, and if it's
* mid-playback on the same track id at the same queue index, syncs the
* local cursor to match and wires [ActiveUpnpHolder] -- the speaker never
* skips a beat, and skip/seek now drive its live queue. Returns false (and
* the caller does the full clear+reload) when the renderer isn't playing
* our queue. The local player is already paused by the caller.
*/
private suspend fun tryAdoptRunningSession(
transport: AVTransportClient,
rendering: RenderingControlClient?,
route: OutputRoute,
localQueue: List<TrackRef>,
): Boolean {
val plan = probeAdoptable(transport, route, localQueue) ?: return false
Timber.w(
"UPnP adopt: attaching to live session on %s at track %d (%dms)",
route.name, plan.trackNumber, plan.positionMs,
)
// active is still null here, so this aligns the *local* cursor without
// emitting SOAP; the holder.set below then starts the poll loop, which
// reconciles to the renderer's advancing position from here.
playerController.moveCursorTo(plan.localIndex, plan.positionMs)
remoteState.applyPositionInfo(
positionMs = plan.positionMs,
durationMs = plan.durationMs,
trackUri = plan.trackUri,
trackNumber = plan.trackNumber,
)
remoteState.setPlayIntent(plan.playing)
activeUpnpHolder.set(
ActiveUpnp(
routeId = route.id,
routeName = route.name,
avTransport = transport,
rendering = rendering,
),
)
return true
}
private suspend fun probeAdoptable(
transport: AVTransportClient,
route: OutputRoute,
localQueue: List<TrackRef>,
): AdoptPlan? {
val probe = runCatching {
transport.getTransportInfo() to transport.getPositionInfo()
}.getOrElse {
Timber.w(it, "UPnP adopt: probe failed for %s; will reload", route.name)
return null
}
val (info, pos) = probe
val idx0 = pos.track - 1
val playingId = trackIdFromStreamUrl(pos.trackUri)
val midPlayback =
info.state == TransportState.PLAYING || info.state == TransportState.PAUSED
val aligned = midPlayback && playingId != null &&
idx0 in localQueue.indices && localQueue[idx0].id == playingId
return if (aligned) {
AdoptPlan(
localIndex = idx0,
positionMs = pos.relTimeMs,
durationMs = pos.trackDurationMs,
trackUri = pos.trackUri,
trackNumber = pos.track,
playing = info.state == TransportState.PLAYING,
)
} else {
null
}
}
/** Extract our track id from a stream URL `.../api/tracks/<id>/stream...`. */
private fun trackIdFromStreamUrl(url: String): String? {
val segments = url.toHttpUrlOrNull()?.pathSegments ?: return null
val i = segments.indexOf("tracks")
return if (i >= 0) segments.getOrNull(i + 1) else null
}
private suspend fun loadQueueOnSonos(
transport: AVTransportClient,
route: OutputRoute,
@@ -133,7 +133,7 @@ private fun RouteRow(
maxLines = 2,
overflow = TextOverflow.Ellipsis,
)
val subtitle = route.description ?: defaultSubtitle(route)
val subtitle = route.description ?: defaultSubtitle(route, isSelected)
Text(
text = subtitle,
style = MaterialTheme.typography.bodySmall,
@@ -198,10 +198,13 @@ private fun MulticastHintRow() {
}
}
private fun defaultSubtitle(route: OutputRoute): String = when (route.kind) {
// isSelected (route == the active/selected route) drives the Bluetooth
// "Connected" subtitle. RouteInfo.connectionState can't — it stays
// DISCONNECTED for local SYSTEM routes even when they're in use.
private fun defaultSubtitle(route: OutputRoute, isSelected: Boolean): String = when (route.kind) {
OutputRoute.Kind.BuiltIn -> "Phone speaker"
OutputRoute.Kind.Wired -> "Wired"
OutputRoute.Kind.Bluetooth -> if (route.isConnected) "Connected" else "Available"
OutputRoute.Kind.Bluetooth -> if (isSelected) "Connected" else "Available"
OutputRoute.Kind.Cast -> "Cast"
OutputRoute.Kind.Other -> "Available"
}
@@ -21,7 +21,6 @@ data class OutputRoute(
val description: String?,
val kind: Kind,
val protocol: Protocol,
val isConnected: Boolean,
) {
enum class Kind { BuiltIn, Wired, Bluetooth, Cast, Other }
@@ -43,9 +42,11 @@ data class OutputRoute(
/**
* Lift a MediaRouter [route] into the domain model. Kind is
* inferred from [MediaRouter.RouteInfo.getDeviceType]; unknown
* device types fall through to [Kind.Other]. The
* `connectionState` proxy is good enough for the chip's
* "Connected"/"Available" subtitle.
* device types fall through to [Kind.Other]. "Active" is NOT an
* intrinsic of the route — the caller derives it by comparing to
* the selected route (RouteSnapshot.current), because
* RouteInfo.connectionState only reflects remote-route handshakes
* and stays DISCONNECTED for local SYSTEM routes even when in use.
*/
fun fromRouteInfo(route: MediaRouter.RouteInfo): OutputRoute {
val kind = when (route.deviceType) {
@@ -58,15 +59,12 @@ data class OutputRoute(
MediaRouter.RouteInfo.DEVICE_TYPE_SPEAKER -> Kind.Other
else -> Kind.Other
}
val connected =
route.connectionState == MediaRouter.RouteInfo.CONNECTION_STATE_CONNECTED
return OutputRoute(
id = route.id,
name = route.name,
description = route.description,
kind = kind,
protocol = Protocol.SYSTEM,
isConnected = connected,
)
}
@@ -76,10 +74,10 @@ data class OutputRoute(
* network speakers into the same `OutputPickerController`
* routes stream the system routes come through.
*
* `isConnected = false` because UPnP devices have no
* MediaRouter connection-state concept — they're always
* "available" on the LAN, and the picker's selected-route
* rendering handles the "currently playing" indicator.
* UPnP devices have no MediaRouter connection-state concept —
* they're always "available" on the LAN, and the picker's
* selected-route rendering handles the "currently playing"
* indicator.
*
* Subtitle is `manufacturer modelName` joined by a single
* space, falling back to "Network speaker" when both fields
@@ -96,7 +94,6 @@ data class OutputRoute(
description = description,
kind = Kind.Other,
protocol = Protocol.UPNP,
isConnected = false,
)
}
}
@@ -8,6 +8,7 @@ import com.fabledsword.minstrel.player.output.upnp.sonos.ZoneGroupTopologyClient
import dagger.hilt.android.qualifiers.ApplicationContext
import kotlinx.coroutines.CoroutineScope
import kotlinx.coroutines.Dispatchers
import kotlinx.coroutines.delay
import kotlinx.coroutines.flow.MutableStateFlow
import kotlinx.coroutines.flow.StateFlow
import kotlinx.coroutines.flow.asStateFlow
@@ -17,6 +18,7 @@ import okhttp3.HttpUrl.Companion.toHttpUrlOrNull
import okhttp3.OkHttpClient
import okhttp3.Request
import timber.log.Timber
import java.util.concurrent.ConcurrentHashMap
import java.util.concurrent.TimeUnit
import javax.inject.Inject
import javax.inject.Singleton
@@ -58,6 +60,12 @@ class UpnpDiscoveryController @Inject constructor(
private val routesInternal = MutableStateFlow<List<UpnpRoute>>(emptyList())
val routes: StateFlow<List<UpnpRoute>> = routesInternal.asStateFlow()
// Wall-clock of the last NOTIFY / M-SEARCH response per route id. Drives
// post-active-scan pruning so a powered-off renderer leaves the picker
// (and can't pin a stale selection) instead of lingering for the process
// lifetime -- upsert only ever added before.
private val lastSeenMs = ConcurrentHashMap<String, Long>()
private val sonosTopologyInternal = MutableStateFlow<List<SonosZoneGroup>>(emptyList())
val sonosTopology: StateFlow<List<SonosZoneGroup>> = sonosTopologyInternal.asStateFlow()
@@ -78,7 +86,31 @@ class UpnpDiscoveryController @Inject constructor(
* that just opened).
*/
fun upgradeDiscovery() {
appScope.launch { ssdp.requestActiveScan() }
appScope.launch {
val scanStartMs = System.currentTimeMillis()
ssdp.requestActiveScan()
// Give present devices time to answer the M-SEARCH (+ our follow-up
// description fetch), then drop any route that didn't re-announce.
// Pruning is tied to picker-open scans only -- no background timer,
// so route rows never flicker while the user isn't looking.
delay(ACTIVE_SCAN_PRUNE_DELAY_MS)
pruneRoutesNotSeenSince(scanStartMs)
}
}
/**
* Drop routes whose last NOTIFY / M-SEARCH response predates [cutoffMs]
* -- i.e. they didn't answer the active scan that just ran, so they're
* gone from the LAN. Called only after [upgradeDiscovery]'s scan window.
*/
private fun pruneRoutesNotSeenSince(cutoffMs: Long) {
val before = routesInternal.value
val survivors = before.filter { (lastSeenMs[it.id] ?: 0L) >= cutoffMs }
if (survivors.size == before.size) return
val removed = before.filterNot { it in survivors }.map { it.id }
removed.forEach { lastSeenMs.remove(it) }
Timber.w("UPnP discovery: pruned %d stale route(s): %s", removed.size, removed)
routesInternal.value = survivors
}
/**
@@ -115,6 +147,7 @@ class UpnpDiscoveryController @Inject constructor(
}
private fun upsertRoute(route: UpnpRoute) {
lastSeenMs[route.id] = System.currentTimeMillis()
val current = routesInternal.value
val idx = current.indexOfFirst { it.id == route.id }
routesInternal.value = if (idx < 0) {
@@ -240,6 +273,11 @@ class UpnpDiscoveryController @Inject constructor(
// trips the drop-recovery quickly. Conservative enough not to false-drop
// a slow-but-alive LAN; read timeout still inherits the shared client.
const val CONTROL_CONNECT_TIMEOUT_SECONDS = 2L
// Grace window after an M-SEARCH burst before pruning non-responders.
// Covers the SSDP round-trip plus our per-device description fetch;
// generous enough that a present-but-slow renderer isn't false-pruned.
const val ACTIVE_SCAN_PRUNE_DELAY_MS = 4_000L
}
}
@@ -28,6 +28,10 @@ import androidx.compose.material3.IconButton
import androidx.compose.material3.MaterialTheme
import androidx.compose.material3.OutlinedButton
import androidx.compose.material3.Scaffold
import androidx.compose.material3.SnackbarDuration
import androidx.compose.material3.SnackbarHost
import androidx.compose.material3.SnackbarHostState
import androidx.compose.material3.SnackbarResult
import androidx.compose.material3.Text
import androidx.compose.material3.TopAppBar
import androidx.compose.runtime.Composable
@@ -139,6 +143,15 @@ class PlaylistDetailViewModel @Inject constructor(
private val regeneratedChannel = Channel<String>(Channel.BUFFERED)
val regenerated: Flow<String> = regeneratedChannel.receiveAsFlow()
/**
* #980: a system-playlist rebuild landed (SSE) while this screen is open —
* its list is now stale and the uuid has rotated. Drives a "this mix was
* refreshed → Refresh" snackbar rather than yanking the user; Refresh
* re-resolves the variant via [reloadRebuilt].
*/
private val staleInternal = MutableStateFlow(false)
val stale: StateFlow<Boolean> = staleInternal.asStateFlow()
val likedTrackIds: StateFlow<Set<String>> =
likes.observeLikedTrackIds()
.stateIn(
@@ -163,6 +176,12 @@ class PlaylistDetailViewModel @Inject constructor(
* ignored — the playlists-list screen handles those.
*/
private fun handlePlaylistEvent(event: LiveEvent) {
// #980: a system rebuild carries no playlist_id (it rebuilds all of the
// user's system mixes at once) — handle it before the per-id filter.
if (event.kind == "playlist.system_rebuilt") {
markStaleIfSystem()
return
}
val eventPlaylistId = event.data["playlist_id"]?.jsonPrimitive?.contentOrNull
if (eventPlaylistId != playlistId) return
when (event.kind) {
@@ -171,6 +190,14 @@ class PlaylistDetailViewModel @Inject constructor(
}
}
private fun markStaleIfSystem() {
val playlist = (internal.value as? PlaylistDetailUiState.Success)
?.detail?.playlist ?: return
if (playlist.systemVariant?.takeIf { playlist.refreshable } != null) {
staleInternal.value = true
}
}
fun toggleLikeTrack(trackId: String) {
val desired = trackId !in likedTrackIds.value
viewModelScope.launch {
@@ -220,6 +247,30 @@ class PlaylistDetailViewModel @Inject constructor(
}
}
/**
* #980: user tapped Refresh on the stale-view snackbar. The rebuild
* already ran server-side (uuid rotated) — re-resolve the variant to the
* fresh playlist id and hand it to [regenerated] for navigate-replace.
* Unlike [regenerate] this does NOT trigger another rebuild.
*/
fun reloadRebuilt() {
val playlist = (internal.value as? PlaylistDetailUiState.Success)
?.detail?.playlist ?: return
val variant = playlist.systemVariant?.takeIf { playlist.refreshable } ?: return
staleInternal.value = false
viewModelScope.launch {
runCatching { repository.systemShuffle(variant).playlist.id }
.onSuccess { newId ->
if (newId.isNotEmpty()) regeneratedChannel.trySend(newId)
}
}
}
/** #980: user dismissed the stale-view snackbar without refreshing. */
fun dismissStale() {
staleInternal.value = false
}
/** Play the available tracks starting at [startTrackId] (or first available). */
fun play(tracks: List<PlaylistTrackRef>, startTrackId: String?) {
val refs = tracks.toPlayableTrackRefs()
@@ -261,8 +312,25 @@ fun PlaylistDetailScreen(
}
}
}
// #980: a rebuild landed while this system-playlist screen is open. Offer a
// non-intrusive "refreshed → Refresh" snackbar; Refresh re-resolves the
// rotated uuid (via the regenerated navigate-replace flow).
val snackbarHostState = remember { SnackbarHostState() }
val stale by viewModel.stale.collectAsState()
LaunchedEffect(stale) {
if (stale) {
val result = snackbarHostState.showSnackbar(
message = "This mix was refreshed",
actionLabel = "Refresh",
duration = SnackbarDuration.Indefinite,
)
if (result == SnackbarResult.ActionPerformed) viewModel.reloadRebuilt()
else viewModel.dismissStale()
}
}
Scaffold(
modifier = Modifier.fillMaxSize(),
snackbarHost = { SnackbarHost(snackbarHostState) },
topBar = {
TopAppBar(
title = { Text(currentTitle(state)) },
@@ -28,6 +28,7 @@ import androidx.compose.material3.Scaffold
import androidx.compose.material3.SegmentedButton
import androidx.compose.material3.SegmentedButtonDefaults
import androidx.compose.material3.SingleChoiceSegmentedButtonRow
import androidx.compose.material3.Switch
import androidx.compose.material3.Text
import androidx.compose.material3.TextButton
import androidx.compose.runtime.Composable
@@ -94,6 +95,7 @@ fun SettingsScreen(
onPickTheme = themeVm::setThemeMode,
onNavToRequests = { navController.navigate(Requests) },
onNavToAdmin = { navController.navigate(Admin) },
onToggleDiagnostics = viewModel::setDiagnosticsOptOut,
onSignOutClick = { showSignOutConfirm = true },
)
}
@@ -116,6 +118,7 @@ private fun SettingsList(
onPickTheme: (ThemeMode) -> Unit,
onNavToRequests: () -> Unit,
onNavToAdmin: () -> Unit,
onToggleDiagnostics: (Boolean) -> Unit,
onSignOutClick: () -> Unit,
) {
Column(
@@ -148,6 +151,12 @@ private fun SettingsList(
ProfileCard()
PasswordCard()
ListenBrainzCard()
if (state.diagnosticsEnabledByAdmin) {
DiagnosticsCard(
optOut = state.diagnosticsOptOut,
onToggle = onToggleDiagnostics,
)
}
AppearanceCard(themeMode = themeMode, onPick = onPickTheme)
StorageCard()
AboutCard()
@@ -262,6 +271,46 @@ private fun AccountCard(username: String, isAdmin: Boolean, serverUrl: String) {
}
}
// Shown only while an admin has enabled debug mode on this account. Lets
// the user turn reporting OFF on this device (battery/privacy) without
// touching the account flag. Checked = reporting on = NOT opted out.
@Composable
private fun DiagnosticsCard(optOut: Boolean, onToggle: (Boolean) -> Unit) {
ElevatedCard(modifier = Modifier.fillMaxWidth()) {
Column(
modifier = Modifier.padding(16.dp),
verticalArrangement = Arrangement.spacedBy(8.dp),
) {
Text(
text = "Diagnostics",
style = MaterialTheme.typography.titleMedium,
color = MaterialTheme.colorScheme.onSurface,
)
Row(verticalAlignment = Alignment.CenterVertically) {
Column(modifier = Modifier.weight(1f)) {
Text(
text = "Send diagnostic reports",
style = MaterialTheme.typography.bodyLarge,
color = MaterialTheme.colorScheme.onSurface,
)
Text(
text = "Your admin enabled debug mode to investigate an " +
"issue. This device streams connectivity and playback " +
"diagnostics. Turn off any time.",
style = MaterialTheme.typography.bodySmall,
color = MaterialTheme.colorScheme.onSurfaceVariant,
)
}
Spacer(Modifier.size(12.dp))
Switch(
checked = !optOut,
onCheckedChange = { checked -> onToggle(!checked) },
)
}
}
}
}
@OptIn(ExperimentalMaterial3Api::class)
@Composable
private fun AppearanceCard(themeMode: ThemeMode, onPick: (ThemeMode) -> Unit) {
@@ -19,12 +19,15 @@ data class SettingsState(
val isAdmin: Boolean = false,
val isSigningOut: Boolean = false,
val signedOut: Boolean = false,
// M9: account debug flag (admin-set) + this device's local opt-out.
val diagnosticsEnabledByAdmin: Boolean = false,
val diagnosticsOptOut: Boolean = false,
)
@HiltViewModel
class SettingsViewModel @Inject constructor(
private val authController: AuthController,
authStore: AuthStore,
private val authStore: AuthStore,
) : ViewModel() {
private val transient = MutableStateFlow(TransientState())
@@ -41,19 +44,27 @@ class SettingsViewModel @Inject constructor(
combine(
authStore.baseUrl,
authController.currentUser,
authStore.diagnosticsOptOut,
transient,
) { url, user, t ->
) { url, user, optOut, t ->
SettingsState(
serverUrl = url,
username = user?.username.orEmpty(),
isAdmin = user?.isAdmin == true,
isSigningOut = t.isSigningOut,
signedOut = t.signedOut,
diagnosticsEnabledByAdmin = user?.debugModeEnabled == true,
diagnosticsOptOut = optOut,
)
}.collect { internal.value = it }
}
}
/** Per-device opt-out of diagnostics while the account flag is on. */
fun setDiagnosticsOptOut(optOut: Boolean) {
authStore.setDiagnosticsOptOut(optOut)
}
fun signOut() {
if (transient.value.isSigningOut) return
viewModelScope.launch {
@@ -1,15 +1,25 @@
package com.fabledsword.minstrel.shared.widgets
import androidx.compose.foundation.layout.Box
import androidx.compose.foundation.layout.fillMaxSize
import androidx.compose.runtime.Composable
import androidx.compose.runtime.getValue
import androidx.compose.runtime.mutableStateOf
import androidx.compose.runtime.remember
import androidx.compose.runtime.setValue
import androidx.compose.ui.Alignment
import androidx.compose.ui.Modifier
import androidx.compose.ui.layout.ContentScale
import coil3.compose.AsyncImage
import coil3.compose.AsyncImagePainter
import com.fabledsword.minstrel.shared.resolveServerUrl
/**
* Renders a server-hosted image, resolving relative URLs centrally so
* every cover surface loads consistently. Shows [fallback] when the URL
* is blank or unresolvable.
* is blank/unresolvable, while the image is still loading, and when the
* load fails — so a tile is never left blank (e.g. art not yet backfilled,
* which the "You might like" row hits often).
*/
@Composable
fun ServerImage(
@@ -22,12 +32,26 @@ fun ServerImage(
val resolved = resolveServerUrl(url)
if (resolved == null) {
fallback()
} else {
return
}
// Track Coil's load state so the fallback doubles as a placeholder
// (loading) and an error state (404 / unreachable) — not just a
// null-URL guard, which left present-but-failing URLs blank.
var state by remember(resolved) {
mutableStateOf<AsyncImagePainter.State>(AsyncImagePainter.State.Empty)
}
Box(modifier = modifier, contentAlignment = Alignment.Center) {
AsyncImage(
model = resolved,
contentDescription = contentDescription,
modifier = modifier,
modifier = Modifier.fillMaxSize(),
contentScale = contentScale,
onState = { state = it },
)
if (state is AsyncImagePainter.State.Loading ||
state is AsyncImagePainter.State.Error
) {
fallback()
}
}
}
+18 -8
View File
@@ -6,17 +6,27 @@ in-app update flow (#397).
## Production
CI populates this directory on tag releases:
1. `flutter.yml` builds `app-release.apk` and attaches it to the
Gitea release as `minstrel-<TAG>.apk`.
2. `release.yml` waits for that asset to appear, downloads it into
this directory as `minstrel.apk`, writes the tag string to
`minstrel.apk.version`, and `docker buildx build` includes both
via `COPY client/ /app/client/`.
CI populates this directory in `release.yml` (no Flutter — the client is
native Android, built by the `android-release` job):
- **Tag release (`v*`):** the `android-release` job builds + signs the
APK, uploads it as a workflow artifact, and attaches it to the Gitea
release as `minstrel-<TAG>.apk`. The `image-release` job
(`needs: android-release`) downloads that artifact into this directory
as `minstrel.apk` and writes the computed versionName to
`minstrel.apk.version`.
- **Main push (non-tag `:latest` / `:main`):** no APK is built, but the
image still moves `:latest`, so `image-release` pulls the most-recent
release's signed APK from the Gitea API and reconstructs its exact
versionName — keeping the in-app update channel alive on `:latest`
instead of stripping it until the next tag.
Either way, `docker buildx build` bakes both files into the image via
`COPY client/ /app/client/`.
## Development
Empty directory works fine — the endpoints return 404 and the Flutter
Empty directory works fine — the endpoints return 404 and the Android
update banner stays hidden ("no update channel" graceful degradation).
To smoke-test the update flow locally, drop a real APK + a version
+6 -1
View File
@@ -242,7 +242,12 @@ func run() error {
// active user's daily build at 03:00 in their stored timezone.
// Replaces the 24h-anchored cron loop (removed in the next commit
// of this arc).
playlistScheduler, err := playlists.NewScheduler(pool, logger.With("component", "playlist_scheduler"), cfg.Storage.DataDir)
playlistScheduler, err := playlists.NewScheduler(
pool,
logger.With("component", "playlist_scheduler"),
cfg.Storage.DataDir,
bus,
)
if err != nil {
return fmt.Errorf("init playlist scheduler: %w", err)
}
+7 -2
View File
@@ -26,8 +26,13 @@ library:
# Filesystem roots to scan for music. Each path is walked recursively.
# Env: MINSTREL_LIBRARY_SCAN_PATHS (colon-separated, PATH-style)
scan_paths: []
# Kick off a scan on server startup. Env: MINSTREL_LIBRARY_SCAN_ON_STARTUP
scan_on_startup: false
# Kick off a scan on server startup. On by default so a fresh install
# populates its library on first boot with no manual step. Scans are
# incremental (unchanged files are skipped by mtime), so the cost on
# every later restart is just a directory walk, not a full re-index.
# Set false if you'd rather scan only on a schedule / via the admin UI.
# Env: MINSTREL_LIBRARY_SCAN_ON_STARTUP
scan_on_startup: true
# Per-instance branding. Operators can rename their instance ("Family
# Jukebox", "Office Music", etc.) and override the OG share-preview
+19
View File
@@ -0,0 +1,19 @@
# README screenshots
Drop the files below into this directory with these **exact names** — the
root `README.md` already references them, so no Markdown editing is needed.
Export as PNG. Capture while logged in as admin and *after* the first
library scan so nothing looks empty; keep the same browser width and theme
across all shots for a consistent look.
| Filename | Route | What to capture |
|---|---|---|
| `home.png` | `/` | The home page with a populated library (system playlists / recently added) |
| `register.png` | `/register` | The account-creation form on a fresh instance |
| `library-scan.png` | `/admin` | The library scan running in stages (grab it mid-scan so stage tallies show) |
| `integrations.png` | `/admin/integrations` | The ListenBrainz + Lidarr integration cards |
| `android-download.png` | `/settings` | The "Install the Android app" download card |
| `invite-users.png` | `/admin/users` | The invite-token generation / users list |
Tip: to control display width in the README, you can swap the Markdown
`![alt](path)` for an HTML tag, e.g. `<img src="docs/screenshots/home.png" width="800" alt="...">`.
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+5
View File
@@ -22,6 +22,7 @@ type adminUserView struct {
DisplayName *string `json:"display_name"`
IsAdmin bool `json:"is_admin"`
AutoApproveRequests bool `json:"auto_approve_requests"`
DebugModeEnabled bool `json:"debug_mode_enabled"`
CreatedAt string `json:"created_at"`
}
@@ -44,6 +45,7 @@ func (h *handlers) handleAdminListUsers(w http.ResponseWriter, r *http.Request)
DisplayName: row.DisplayName,
IsAdmin: row.IsAdmin,
AutoApproveRequests: row.AutoApproveRequests,
DebugModeEnabled: row.DebugModeEnabled,
CreatedAt: row.CreatedAt.Time.UTC().Format(time.RFC3339),
}
out = append(out, v)
@@ -120,6 +122,7 @@ func (h *handlers) handleUpdateUserAdmin(w http.ResponseWriter, r *http.Request)
DisplayName: updated.DisplayName,
IsAdmin: updated.IsAdmin,
AutoApproveRequests: updated.AutoApproveRequests,
DebugModeEnabled: updated.DebugModeEnabled,
CreatedAt: updated.CreatedAt.Time.UTC().Format(time.RFC3339),
})
}
@@ -189,6 +192,7 @@ func (h *handlers) handleAdminCreateUser(w http.ResponseWriter, r *http.Request)
DisplayName: user.DisplayName,
IsAdmin: user.IsAdmin,
AutoApproveRequests: user.AutoApproveRequests,
DebugModeEnabled: user.DebugModeEnabled,
CreatedAt: user.CreatedAt.Time.UTC().Format(time.RFC3339),
})
}
@@ -329,6 +333,7 @@ func (h *handlers) handleAdminAutoApproveToggle(w http.ResponseWriter, r *http.R
DisplayName: updated.DisplayName,
IsAdmin: updated.IsAdmin,
AutoApproveRequests: updated.AutoApproveRequests,
DebugModeEnabled: updated.DebugModeEnabled,
CreatedAt: updated.CreatedAt.Time.UTC().Format(time.RFC3339),
})
}
+12
View File
@@ -74,6 +74,7 @@ func Mount(r chi.Router, pool *pgxpool.Pool, logger *slog.Logger, events *playev
authed.Post("/auth/logout", h.handleLogout)
authed.Get("/me", h.handleGetMe)
authed.Get("/me/system-playlists-status", h.handleGetSystemPlaylistsStatus)
authed.Get("/me/recommendation-metrics", h.handleGetRecommendationMetrics)
authed.Get("/me/listenbrainz", h.handleGetListenBrainz)
authed.Put("/me/listenbrainz", h.handlePutListenBrainz)
authed.Get("/me/history", h.handleGetMyHistory)
@@ -134,6 +135,12 @@ func Mount(r chi.Router, pool *pgxpool.Pool, logger *slog.Logger, events *playev
// load failures). Admin-only inbox; any user can report.
authed.Post("/playback-errors", h.handleReportPlaybackError)
// Device diagnostics ingest (M9). Any signed-in user can
// POST a batch, but events are only stored when the
// account's debug_mode_enabled flag is on (handler no-ops
// otherwise). Admin views live under /admin/diagnostics.
authed.Post("/diagnostics", h.handleReportDiagnostics)
// Self-hosted in-app update channel (#397). Auth-gated to
// prevent anonymous bandwidth abuse on the APK stream;
// /apk additionally per-user rate-limited.
@@ -180,6 +187,11 @@ func Mount(r chi.Router, pool *pgxpool.Pool, logger *slog.Logger, events *playev
admin.Delete("/users/{id}", h.handleAdminDeleteUser)
admin.Post("/users/{id}/reset-password", h.handleAdminResetPassword)
admin.Put("/users/{id}/auto-approve", h.handleAdminAutoApproveToggle)
admin.Put("/users/{id}/debug-mode", h.handleAdminDebugModeToggle)
// Device diagnostics timeline + device overview (M9).
admin.Get("/diagnostics", h.handleListAdminDiagnostics)
admin.Get("/diagnostics/devices", h.handleListAdminDiagnosticDevices)
admin.Get("/cover-sources", h.handleListCoverSources)
admin.Patch("/cover-sources/{provider_id}", h.handleUpdateCoverSource)
+346
View File
@@ -0,0 +1,346 @@
package api
import (
"encoding/json"
"net/http"
"strconv"
"strings"
"time"
"github.com/jackc/pgx/v5"
"github.com/jackc/pgx/v5/pgtype"
"git.fabledsword.com/bvandeusen/minstrel/internal/apierror"
"git.fabledsword.com/bvandeusen/minstrel/internal/db/dbq"
)
// validDiagnosticKinds is the COARSE category whitelist. Mirrors the
// CHECK constraint in migration 0036 — keep both in sync (per the
// enum-CHECK-whitelist rule). The finer event discriminator + all
// event-specific fields live inside each event's payload, so new event
// variants do NOT require a new category here.
var validDiagnosticKinds = map[string]struct{}{
"connectivity": {},
"upnp_sync": {}, // genuinely UPnP/Sonos-specific (drops, resync)
"playback": {}, // route + player-state, any output (phone/BT/UPnP)
"power": {},
"lifecycle": {},
"heartbeat": {},
"http": {},
}
// maxDiagnosticBatch caps a single ingest call. The client buffers and
// flushes in batches of ~100; 500 leaves generous headroom while
// bounding a misbehaving client's per-request work.
const maxDiagnosticBatch = 500
// Diagnostics list paging. Larger than the generic parsePaging caps
// because the admin timeline is meant to be exported as a slice and
// handed off for analysis — a heartbeat-dense window has many rows.
const (
defaultDiagnosticPageSize = 500
maxDiagnosticPageSize = 5000
)
// diagnosticEventIn is one event in a POST /api/diagnostics batch.
// OccurredAt is the client device clock as epoch milliseconds (may be
// skewed — the server also stamps received_at). Payload is opaque JSON
// carrying the event's sub-type + fields.
type diagnosticEventIn struct {
Kind string `json:"kind"`
OccurredAt int64 `json:"occurred_at"`
Payload json.RawMessage `json:"payload"`
}
// reportDiagnosticsRequest is the body of POST /api/diagnostics — one
// batch from one device.
type reportDiagnosticsRequest struct {
ClientID string `json:"client_id"`
AppVersion *string `json:"app_version,omitempty"`
OsVersion *string `json:"os_version,omitempty"`
Events []diagnosticEventIn `json:"events"`
}
// handleReportDiagnostics implements POST /api/diagnostics. Any signed-in
// user can call it, but events are only stored when the account's
// debug_mode_enabled flag is on; otherwise the call is a 204 no-op so the
// client can safely drop the batch (it gates locally on /api/me, this is
// the race-safe backstop for "admin just disabled debug").
func (h *handlers) handleReportDiagnostics(w http.ResponseWriter, r *http.Request) {
user, ok := requireUser(w, r)
if !ok {
return
}
if !user.DebugModeEnabled {
w.WriteHeader(http.StatusNoContent)
return
}
var req reportDiagnosticsRequest
if !decodeBody(w, r, &req) {
return
}
if strings.TrimSpace(req.ClientID) == "" {
writeErr(w, apierror.BadRequest("bad_request", "client_id required"))
return
}
if len(req.Events) == 0 {
writeJSON(w, http.StatusAccepted, map[string]int{"accepted": 0})
return
}
if len(req.Events) > maxDiagnosticBatch {
writeErr(w, apierror.BadRequest("batch_too_large", "too many events in one batch"))
return
}
for i := range req.Events {
if _, valid := validDiagnosticKinds[req.Events[i].Kind]; !valid {
writeErr(w, apierror.BadRequest("invalid_kind", "unknown diagnostic kind"))
return
}
}
err := pgx.BeginFunc(r.Context(), h.pool, func(tx pgx.Tx) error {
q := dbq.New(tx)
for i := range req.Events {
ev := req.Events[i]
payload := ev.Payload
if len(payload) == 0 {
payload = json.RawMessage("{}")
}
if _, err := q.InsertDiagnosticEvent(r.Context(), dbq.InsertDiagnosticEventParams{
UserID: user.ID,
ClientID: req.ClientID,
AppVersion: req.AppVersion,
OsVersion: req.OsVersion,
Kind: ev.Kind,
Payload: payload,
OccurredAt: pgtype.Timestamptz{Time: time.UnixMilli(ev.OccurredAt).UTC(), Valid: true},
}); err != nil {
return err
}
}
return nil
})
if err != nil {
writeErrWithLog(w, h.logger, "diagnostics: insert batch failed", apierror.Internal(err))
return
}
writeJSON(w, http.StatusAccepted, map[string]int{"accepted": len(req.Events)})
}
// adminDiagnosticView is one row in the admin timeline response. Payload
// is passed through verbatim as raw JSON so the SPA can render / export
// the structured event without the server re-shaping it.
type adminDiagnosticView struct {
ID string `json:"id"`
UserID string `json:"user_id"`
Username string `json:"username"`
ClientID string `json:"client_id"`
AppVersion *string `json:"app_version,omitempty"`
OsVersion *string `json:"os_version,omitempty"`
Kind string `json:"kind"`
Payload json.RawMessage `json:"payload"`
OccurredAt string `json:"occurred_at"`
ReceivedAt string `json:"received_at"`
}
// handleListAdminDiagnostics implements GET /api/admin/diagnostics with
// optional filters user_id, client_id, kind, from, to (RFC3339 or epoch
// millis) plus limit/offset. Newest-first; the SPA reverses for a
// chronological timeline + export.
func (h *handlers) handleListAdminDiagnostics(w http.ResponseWriter, r *http.Request) {
q := r.URL.Query()
params, ok := h.buildDiagnosticsFilter(w, q)
if !ok {
return
}
rows, err := dbq.New(h.pool).ListAdminDiagnostics(r.Context(), params)
if err != nil {
writeErrWithLog(w, h.logger, "admin: list diagnostics failed", apierror.Internal(err))
return
}
out := make([]adminDiagnosticView, 0, len(rows))
for _, row := range rows {
out = append(out, adminDiagnosticView{
ID: uuidToString(row.ID),
UserID: uuidToString(row.UserID),
Username: row.Username,
ClientID: row.ClientID,
AppVersion: row.AppVersion,
OsVersion: row.OsVersion,
Kind: row.Kind,
Payload: json.RawMessage(row.Payload),
OccurredAt: formatTimestamp(row.OccurredAt),
ReceivedAt: formatTimestamp(row.ReceivedAt),
})
}
writeJSON(w, http.StatusOK, out)
}
// buildDiagnosticsFilter parses the query string into a query param
// struct, writing a 400 and returning ok=false on a malformed time.
func (h *handlers) buildDiagnosticsFilter(
w http.ResponseWriter, q map[string][]string,
) (dbq.ListAdminDiagnosticsParams, bool) {
get := func(k string) string {
if v, present := q[k]; present && len(v) > 0 {
return v[0]
}
return ""
}
limit, offset, err := parseDiagPaging(get("limit"), get("offset"))
if err != nil {
writeErr(w, apierror.BadRequest("bad_request", "invalid limit or offset"))
return dbq.ListAdminDiagnosticsParams{}, false
}
from, okFrom := parseDiagTime(get("from"))
to, okTo := parseDiagTime(get("to"))
if !okFrom || !okTo {
writeErr(w, apierror.BadRequest("bad_request", "invalid from/to timestamp"))
return dbq.ListAdminDiagnosticsParams{}, false
}
params := dbq.ListAdminDiagnosticsParams{
ClientID: optionalQuery(get("client_id")),
Kind: optionalQuery(get("kind")),
FromTs: from,
ToTs: to,
Off: int32(offset),
Lim: int32(limit),
}
if uid, valid := parseUUID(get("user_id")); valid {
params.UserID = uid
}
return params, true
}
// adminDiagnosticDeviceView is one device in the "who is reporting"
// overview / device filter dropdown.
type adminDiagnosticDeviceView struct {
ClientID string `json:"client_id"`
UserID string `json:"user_id"`
Username string `json:"username"`
AppVersion string `json:"app_version"`
OsVersion string `json:"os_version"`
LastSeen string `json:"last_seen"`
EventCount int64 `json:"event_count"`
}
// handleListAdminDiagnosticDevices implements GET
// /api/admin/diagnostics/devices?user_id=. Lists distinct reporting
// devices so the admin UI can populate its device filter.
func (h *handlers) handleListAdminDiagnosticDevices(w http.ResponseWriter, r *http.Request) {
var userID pgtype.UUID
if uid, valid := parseUUID(r.URL.Query().Get("user_id")); valid {
userID = uid
}
rows, err := dbq.New(h.pool).ListDiagnosticDevices(r.Context(), userID)
if err != nil {
writeErrWithLog(w, h.logger, "admin: list diagnostic devices failed", apierror.Internal(err))
return
}
out := make([]adminDiagnosticDeviceView, 0, len(rows))
for _, row := range rows {
out = append(out, adminDiagnosticDeviceView{
ClientID: row.ClientID,
UserID: uuidToString(row.UserID),
Username: row.Username,
AppVersion: row.AppVersion,
OsVersion: row.OsVersion,
LastSeen: formatTimestamp(row.LastSeen),
EventCount: row.EventCount,
})
}
writeJSON(w, http.StatusOK, out)
}
// adminDebugModeReq is the body of PUT /api/admin/users/{id}/debug-mode.
type adminDebugModeReq struct {
Enabled bool `json:"enabled"`
}
// handleAdminDebugModeToggle implements PUT
// /api/admin/users/{id}/debug-mode — flip an account's diagnostics
// opt-in remotely while a bug is live. Echoes the updated user.
func (h *handlers) handleAdminDebugModeToggle(w http.ResponseWriter, r *http.Request) {
targetID, ok := requireURLUUID(w, r, "id")
if !ok {
return
}
var req adminDebugModeReq
if !decodeBody(w, r, &req) {
return
}
updated, err := dbq.New(h.pool).SetDebugMode(r.Context(), dbq.SetDebugModeParams{
ID: targetID,
DebugModeEnabled: req.Enabled,
})
if err != nil {
writeErrWithLog(w, h.logger, "admin: set debug mode failed", apierror.Internal(err))
return
}
h.logger.Info("admin: debug mode toggled",
"target_user", uuidToString(targetID), "enabled", req.Enabled)
writeJSON(w, http.StatusOK, adminUserView{
ID: uuidToString(updated.ID),
Username: updated.Username,
DisplayName: updated.DisplayName,
IsAdmin: updated.IsAdmin,
AutoApproveRequests: updated.AutoApproveRequests,
DebugModeEnabled: updated.DebugModeEnabled,
CreatedAt: updated.CreatedAt.Time.UTC().Format(time.RFC3339),
})
}
// parseDiagPaging reads limit/offset with diagnostics-specific caps.
// Blank → defaults; out-of-range clamps; non-numeric → error.
func parseDiagPaging(rawLimit, rawOffset string) (limit, offset int, err error) {
limit = defaultDiagnosticPageSize
if s := strings.TrimSpace(rawLimit); s != "" {
n, perr := strconv.Atoi(s)
if perr != nil {
return 0, 0, perr
}
if n < 1 {
n = 1
}
if n > maxDiagnosticPageSize {
n = maxDiagnosticPageSize
}
limit = n
}
if s := strings.TrimSpace(rawOffset); s != "" {
n, perr := strconv.Atoi(s)
if perr != nil {
return 0, 0, perr
}
if n > 0 {
offset = n
}
}
return limit, offset, nil
}
// optionalQuery returns nil for an absent/blank query value so the sqlc
// NULL-or-equals filter treats it as "no filter."
func optionalQuery(raw string) *string {
raw = strings.TrimSpace(raw)
if raw == "" {
return nil
}
return &raw
}
// parseDiagTime accepts RFC3339 or epoch-millis. Empty = absent (NULL
// filter, ok=true). Returns ok=false only on a non-empty unparseable value.
func parseDiagTime(raw string) (pgtype.Timestamptz, bool) {
raw = strings.TrimSpace(raw)
if raw == "" {
return pgtype.Timestamptz{}, true
}
if t, err := time.Parse(time.RFC3339, raw); err == nil {
return pgtype.Timestamptz{Time: t.UTC(), Valid: true}, true
}
if ms, err := strconv.ParseInt(raw, 10, 64); err == nil {
return pgtype.Timestamptz{Time: time.UnixMilli(ms).UTC(), Valid: true}, true
}
return pgtype.Timestamptz{}, false
}
+15
View File
@@ -88,6 +88,21 @@ func (h *handlers) publishPlaylistEvent(kind string, ownerID, playlistID pgtype.
})
}
// publishSystemRebuilt notifies the owner's clients that their system
// playlists (and You-might-like rows) were regenerated, so they invalidate
// the home / system-playlist providers and a stale active queue can re-pull.
// Mirrors the daily scheduler's event; fired here from the manual refresh.
func (h *handlers) publishSystemRebuilt(userID pgtype.UUID) {
if h.eventbus == nil {
return
}
h.eventbus.Publish(eventbus.Event{
Kind: "playlist.system_rebuilt",
UserID: uuidToString(userID),
Data: map[string]any{},
})
}
// publishRequestStatusChanged broadcasts a Lidarr request status flip to
// the request's original requester so their /requests page reflects the
// new state without manual refresh. Admin actors (approve / reject) still
+16
View File
@@ -30,6 +30,8 @@ func (h *handlers) handleGetHome(w http.ResponseWriter, r *http.Request) {
RediscoverArtists: make([]ArtistRef, 0, len(data.RediscoverArtists)),
MostPlayedTracks: make([]TrackRef, 0, len(data.MostPlayedTracks)),
LastPlayedArtists: make([]ArtistRef, 0, len(data.LastPlayedArtists)),
YouMightLikeAlbums: make([]AlbumRef, 0, len(data.YouMightLikeAlbums)),
YouMightLikeArtists: make([]ArtistRef, 0, len(data.YouMightLikeArtists)),
}
for _, row := range data.RecentlyAddedAlbums {
out.RecentlyAddedAlbums = append(out.RecentlyAddedAlbums, albumRefFrom(row.Album, row.ArtistName, 0, 0))
@@ -46,6 +48,12 @@ func (h *handlers) handleGetHome(w http.ResponseWriter, r *http.Request) {
for _, row := range data.LastPlayedArtists {
out.LastPlayedArtists = append(out.LastPlayedArtists, artistRefFromCovered(row.Artist, int(row.AlbumCount), row.CoverAlbumID))
}
for _, row := range data.YouMightLikeAlbums {
out.YouMightLikeAlbums = append(out.YouMightLikeAlbums, albumRefFrom(row.Album, row.ArtistName, 0, 0))
}
for _, row := range data.YouMightLikeArtists {
out.YouMightLikeArtists = append(out.YouMightLikeArtists, artistRefFromCovered(row.Artist, int(row.AlbumCount), row.CoverAlbumID))
}
writeJSON(w, http.StatusOK, out)
}
@@ -78,6 +86,8 @@ func (h *handlers) handleGetHomeIndex(w http.ResponseWriter, r *http.Request) {
RediscoverArtists: make([]string, 0, len(data.RediscoverArtists)),
MostPlayedTracks: make([]string, 0, len(data.MostPlayedTracks)),
LastPlayedArtists: make([]string, 0, len(data.LastPlayedArtists)),
YouMightLikeAlbums: make([]string, 0, len(data.YouMightLikeAlbums)),
YouMightLikeArtists: make([]string, 0, len(data.YouMightLikeArtists)),
}
for _, row := range data.RecentlyAddedAlbums {
out.RecentlyAddedAlbums = append(out.RecentlyAddedAlbums, uuidToString(row.Album.ID))
@@ -94,6 +104,12 @@ func (h *handlers) handleGetHomeIndex(w http.ResponseWriter, r *http.Request) {
for _, row := range data.LastPlayedArtists {
out.LastPlayedArtists = append(out.LastPlayedArtists, uuidToString(row.Artist.ID))
}
for _, row := range data.YouMightLikeAlbums {
out.YouMightLikeAlbums = append(out.YouMightLikeAlbums, uuidToString(row.Album.ID))
}
for _, row := range data.YouMightLikeArtists {
out.YouMightLikeArtists = append(out.YouMightLikeArtists, uuidToString(row.Artist.ID))
}
writeJSON(w, http.StatusOK, out)
}
+10 -5
View File
@@ -35,6 +35,10 @@ type meProfileResp struct {
DisplayName *string `json:"display_name"`
Email *string `json:"email"`
IsAdmin bool `json:"is_admin"`
// DebugModeEnabled is the account's diagnostics opt-in. The client
// reads it here to decide whether to run the on-device diagnostics
// reporter (M9). Admin-set; the client also has a local OFF switch.
DebugModeEnabled bool `json:"debug_mode_enabled"`
}
func (h *handlers) handleUpdateMyProfile(w http.ResponseWriter, r *http.Request) {
@@ -120,10 +124,11 @@ func (h *handlers) handleUpdateMyProfile(w http.ResponseWriter, r *http.Request)
func profileViewFromUser(u dbq.User) meProfileResp {
return meProfileResp{
ID: uuidToString(u.ID),
Username: u.Username,
DisplayName: u.DisplayName,
Email: u.Email,
IsAdmin: u.IsAdmin,
ID: uuidToString(u.ID),
Username: u.Username,
DisplayName: u.DisplayName,
Email: u.Email,
IsAdmin: u.IsAdmin,
DebugModeEnabled: u.DebugModeEnabled,
}
}
+94
View File
@@ -0,0 +1,94 @@
package api
import (
"net/http"
"strconv"
"git.fabledsword.com/bvandeusen/minstrel/internal/apierror"
"git.fabledsword.com/bvandeusen/minstrel/internal/db/dbq"
)
const (
recMetricsDefaultDays = 30
recMetricsMaxDays = 365
)
// recommendationMetric is one recommendation surface's outcomes.
type recommendationMetric struct {
Source string `json:"source"` // 'for_you' | 'discover' | mixes
Plays int64 `json:"plays"` // plays launched from this surface
Skips int64 `json:"skips"` // of those, marked skipped
SkipRate float64 `json:"skip_rate"` // skips / plays, [0,1]
AvgCompletion float64 `json:"avg_completion"` // mean completion ratio, [0,1]
}
type recommendationMetricsResp struct {
WindowDays int `json:"window_days"`
Sources []recommendationMetric `json:"sources"`
}
// handleGetRecommendationMetrics implements GET /api/me/recommendation-metrics.
// Per-source play outcomes (plays / skips / skip-rate / avg-completion) for the
// caller over the last `days` (default 30, capped at 365), so the operator can
// see which recommendation surfaces are landing and tune the taste weights.
// Only plays tagged with a system-playlist source count; library/radio plays
// (no source) are excluded.
func (h *handlers) handleGetRecommendationMetrics(w http.ResponseWriter, r *http.Request) {
caller, ok := requireUser(w, r)
if !ok {
return
}
days, ok := parseMetricsDays(w, r)
if !ok {
return
}
rows, err := dbq.New(h.pool).RecommendationSourceMetricsForUser(r.Context(),
dbq.RecommendationSourceMetricsForUserParams{UserID: caller.ID, Column2: float64(days)})
if err != nil {
h.logger.Error("api: recommendation metrics", "err", err)
writeErr(w, apierror.InternalMsg("lookup failed", err))
return
}
out := recommendationMetricsResp{
WindowDays: days,
Sources: make([]recommendationMetric, 0, len(rows)),
}
for _, row := range rows {
source := ""
if row.Source != nil {
source = *row.Source
}
var skipRate float64
if row.Plays > 0 {
skipRate = float64(row.Skips) / float64(row.Plays)
}
out.Sources = append(out.Sources, recommendationMetric{
Source: source,
Plays: row.Plays,
Skips: row.Skips,
SkipRate: skipRate,
AvgCompletion: row.AvgCompletion,
})
}
writeJSON(w, http.StatusOK, out)
}
// parseMetricsDays reads the `days` query param (default 30, capped at 365).
// Writes a 400 and returns ok=false on a malformed value.
func parseMetricsDays(w http.ResponseWriter, r *http.Request) (int, bool) {
v := r.URL.Query().Get("days")
if v == "" {
return recMetricsDefaultDays, true
}
n, err := strconv.Atoi(v)
if err != nil || n < 1 {
writeErr(w, apierror.BadRequest("bad_request", "invalid days"))
return 0, false
}
if n > recMetricsMaxDays {
n = recMetricsMaxDays
}
return n, true
}
@@ -0,0 +1,108 @@
package api
import (
"context"
"encoding/json"
"net/http"
"net/http/httptest"
"os"
"testing"
"time"
"github.com/go-chi/chi/v5"
"github.com/jackc/pgx/v5/pgtype"
)
func newMetricsRouter(h *handlers) chi.Router {
r := chi.NewRouter()
r.Get("/api/me/recommendation-metrics", h.handleGetRecommendationMetrics)
return r
}
// seedSourcedPlay inserts a play_event with an explicit source + completion +
// skip flag. A nil source inserts NULL (library/radio play).
func seedSourcedPlay(
t *testing.T, h *handlers, userID, trackID, sessionID pgtype.UUID,
source *string, completion float64, skipped bool,
) {
t.Helper()
if _, err := h.pool.Exec(context.Background(),
`INSERT INTO play_events
(user_id, track_id, session_id, started_at, source, completion_ratio, was_skipped)
VALUES ($1, $2, $3, now(), $4, $5, $6)`,
userID, trackID, sessionID, source, completion, skipped); err != nil {
t.Fatalf("seed sourced play: %v", err)
}
}
func TestRecommendationMetrics_NoSession401(t *testing.T) {
h, _ := testHandlers(t)
req := httptest.NewRequest(http.MethodGet, "/api/me/recommendation-metrics", nil)
rec := httptest.NewRecorder()
newMetricsRouter(h).ServeHTTP(rec, req)
if rec.Code != http.StatusUnauthorized {
t.Errorf("status = %d, want 401", rec.Code)
}
}
func TestRecommendationMetrics_AggregatesBySourceExcludingNull(t *testing.T) {
if os.Getenv("MINSTREL_TEST_DATABASE_URL") == "" {
t.Skip("MINSTREL_TEST_DATABASE_URL not set")
}
h, pool := testHandlers(t)
user := seedUser(t, pool, "metrics", "pw", false)
artist := seedArtist(t, pool, "MetricArtist")
album := seedAlbum(t, pool, artist.ID, "MetricAlbum", 2020)
tk := seedTrack(t, pool, album.ID, artist.ID, "MetricTrack", 1, 200000)
session := seedPlaySession(t, pool, user.ID, time.Now())
forYou := "for_you"
discover := "discover"
// for_you: 3 plays, 1 skipped; completions 1.0, 0.95, 0.05 → mean 0.6667.
seedSourcedPlay(t, h, user.ID, tk.ID, session, &forYou, 1.0, false)
seedSourcedPlay(t, h, user.ID, tk.ID, session, &forYou, 0.95, false)
seedSourcedPlay(t, h, user.ID, tk.ID, session, &forYou, 0.05, true)
// discover: 1 play.
seedSourcedPlay(t, h, user.ID, tk.ID, session, &discover, 0.8, false)
// library play (NULL source) — must be excluded.
seedSourcedPlay(t, h, user.ID, tk.ID, session, nil, 1.0, false)
req := httptest.NewRequest(http.MethodGet, "/api/me/recommendation-metrics", nil)
req = withUser(req, user)
rec := httptest.NewRecorder()
newMetricsRouter(h).ServeHTTP(rec, req)
if rec.Code != http.StatusOK {
t.Fatalf("status = %d, want 200", rec.Code)
}
var resp recommendationMetricsResp
if err := json.Unmarshal(rec.Body.Bytes(), &resp); err != nil {
t.Fatalf("decode: %v", err)
}
if resp.WindowDays != recMetricsDefaultDays {
t.Errorf("window_days = %d, want %d", resp.WindowDays, recMetricsDefaultDays)
}
bySource := map[string]recommendationMetric{}
for _, m := range resp.Sources {
bySource[m.Source] = m
}
if _, present := bySource[""]; present {
t.Error("NULL-source (library) plays should be excluded")
}
fy, ok := bySource["for_you"]
if !ok {
t.Fatal("for_you metrics missing")
}
if fy.Plays != 3 || fy.Skips != 1 {
t.Errorf("for_you plays/skips = %d/%d, want 3/1", fy.Plays, fy.Skips)
}
if fy.SkipRate < 0.32 || fy.SkipRate > 0.34 {
t.Errorf("for_you skip_rate = %.3f, want ~0.333", fy.SkipRate)
}
if fy.AvgCompletion < 0.66 || fy.AvgCompletion > 0.67 {
t.Errorf("for_you avg_completion = %.4f, want ~0.6667", fy.AvgCompletion)
}
if d, ok := bySource["discover"]; !ok || d.Plays != 1 || d.Skips != 0 {
t.Errorf("discover metrics = %+v, want plays=1 skips=0", d)
}
}
+2
View File
@@ -73,6 +73,8 @@ func (h *handlers) handleSystemPlaylistRefresh(w http.ResponseWriter, r *http.Re
writeErr(w, apierror.InternalMsg("build failed", err))
return
}
// #968: announce the rebuild so the user's other clients refresh.
h.publishSystemRebuilt(user.ID)
q := dbq.New(h.pool)
v := kind
pl, err := q.GetSystemPlaylistByVariantForUser(r.Context(),
+1
View File
@@ -108,6 +108,7 @@ func (h *handlers) handleRadio(w http.ResponseWriter, r *http.Request) {
JitterMagnitude: h.recCfg.JitterMagnitude,
ContextWeight: h.recCfg.ContextWeight,
SimilarityWeight: h.recCfg.SimilarityWeight,
TasteWeight: h.recCfg.TasteWeight,
}
picks := recommendation.Shuffle(candidates, weights, time.Now().UTC(), h.rng, limit-1)
+7
View File
@@ -116,6 +116,11 @@ type HomePayload struct {
RediscoverArtists []ArtistRef `json:"rediscover_artists"`
MostPlayedTracks []TrackRef `json:"most_played_tracks"`
LastPlayedArtists []ArtistRef `json:"last_played_artists"`
// You-might-like: in-library albums/artists predicted from the user's
// listening that they don't actively spin. Built daily; gated on a
// minimum listening history so a thin profile gets empty rows.
YouMightLikeAlbums []AlbumRef `json:"you_might_like_albums"`
YouMightLikeArtists []ArtistRef `json:"you_might_like_artists"`
}
// HomeIndexPayload is the response body of GET /api/home/index — the
@@ -134,6 +139,8 @@ type HomeIndexPayload struct {
RediscoverArtists []string `json:"rediscover_artists"`
MostPlayedTracks []string `json:"most_played_tracks"`
LastPlayedArtists []string `json:"last_played_artists"`
YouMightLikeAlbums []string `json:"you_might_like_albums"`
YouMightLikeArtists []string `json:"you_might_like_artists"`
}
// HistoryEvent is one play in a user's listening history. Used by
+16 -7
View File
@@ -98,6 +98,7 @@ type RecommendationConfig struct {
JitterMagnitude float64 `yaml:"jitter_magnitude"`
ContextWeight float64 `yaml:"context_weight"`
SimilarityWeight float64 `yaml:"similarity_weight"`
TasteWeight float64 `yaml:"taste_weight"`
RecentlyPlayedHours int `yaml:"recently_played_hours"`
RadioSize int `yaml:"radio_size"`
RadioSizeMax int `yaml:"radio_size_max"`
@@ -119,18 +120,26 @@ func Default() Config {
SkipMaxDurationPlayedMs: 30000,
},
Recommendation: RecommendationConfig{
BaseWeight: 1.0,
LikeBoost: 2.0,
RecencyWeight: 1.0,
SkipPenalty: 1.0,
JitterMagnitude: 0.1,
ContextWeight: 2.0,
SimilarityWeight: 2.0,
BaseWeight: 1.0,
LikeBoost: 2.0,
RecencyWeight: 1.0,
SkipPenalty: 1.0,
JitterMagnitude: 0.1,
ContextWeight: 2.0,
SimilarityWeight: 2.0,
// Radio is seed-directed (the user picked a direction), so taste
// is a lighter nudge here than in the daily mixes (1.5).
TasteWeight: 1.0,
RecentlyPlayedHours: 1,
RadioSize: 50,
RadioSizeMax: 200,
},
Library: LibraryConfig{
// On by default so a fresh install populates its library on
// first boot without the operator hunting for a "scan now"
// button. Scans are incremental (unchanged files skipped by
// mtime), so every later restart is just a cheap directory walk.
ScanOnStartup: true,
CoverArtFromMBCAA: true,
},
}
+4 -3
View File
@@ -97,7 +97,8 @@ func TestEnvOverrides(t *testing.T) {
func TestLibraryEnvOverrides(t *testing.T) {
stubStreamSecret(t)
t.Setenv("MINSTREL_LIBRARY_SCAN_PATHS", "/music:/other::/third")
t.Setenv("MINSTREL_LIBRARY_SCAN_ON_STARTUP", "true")
// Default is true; set false so the override path is actually exercised.
t.Setenv("MINSTREL_LIBRARY_SCAN_ON_STARTUP", "false")
cfg, err := Load("")
if err != nil {
@@ -112,8 +113,8 @@ func TestLibraryEnvOverrides(t *testing.T) {
t.Errorf("scan_paths[%d] = %q, want %q", i, cfg.Library.ScanPaths[i], p)
}
}
if !cfg.Library.ScanOnStartup {
t.Error("scan_on_startup = false, want true")
if cfg.Library.ScanOnStartup {
t.Error("scan_on_startup = true, want false (env override of the true default)")
}
}
+221
View File
@@ -0,0 +1,221 @@
// Code generated by sqlc. DO NOT EDIT.
// versions:
// sqlc v1.31.1
// source: diagnostics.sql
package dbq
import (
"context"
"github.com/jackc/pgx/v5/pgtype"
)
const gcPruneDiagnostics = `-- name: GcPruneDiagnostics :execrows
DELETE FROM diagnostic_events WHERE received_at < now() - INTERVAL '30 days'
`
// Retention sweep for the gc worker. Deletes diagnostic_events older
// than 30 days by server clock (received_at) so a skewed client clock
// can't keep rows alive. Matches the other gc lifecycle sweeps'
// hardcoded-threshold style; diagnostics are debug telemetry, not user
// data, and 30 days is ample to investigate a live incident after the
// fact. Returns the affected row count for the sweep log line.
func (q *Queries) GcPruneDiagnostics(ctx context.Context) (int64, error) {
result, err := q.db.Exec(ctx, gcPruneDiagnostics)
if err != nil {
return 0, err
}
return result.RowsAffected(), nil
}
const insertDiagnosticEvent = `-- name: InsertDiagnosticEvent :one
INSERT INTO diagnostic_events (
user_id, client_id, app_version, os_version, kind, payload, occurred_at
)
VALUES ($1, $2, $3, $4, $5, $6, $7)
RETURNING id, received_at
`
type InsertDiagnosticEventParams struct {
UserID pgtype.UUID
ClientID string
AppVersion *string
OsVersion *string
Kind string
Payload []byte
OccurredAt pgtype.Timestamptz
}
type InsertDiagnosticEventRow struct {
ID pgtype.UUID
ReceivedAt pgtype.Timestamptz
}
// Records one client-reported diagnostic event. The writer validates the
// `kind` category against its whitelist before this runs; the CHECK
// constraint is the belt-and-braces guard. payload carries the finer
// event discriminator + all event-specific fields. Returns received_at
// so the caller can confirm ingest.
func (q *Queries) InsertDiagnosticEvent(ctx context.Context, arg InsertDiagnosticEventParams) (InsertDiagnosticEventRow, error) {
row := q.db.QueryRow(ctx, insertDiagnosticEvent,
arg.UserID,
arg.ClientID,
arg.AppVersion,
arg.OsVersion,
arg.Kind,
arg.Payload,
arg.OccurredAt,
)
var i InsertDiagnosticEventRow
err := row.Scan(&i.ID, &i.ReceivedAt)
return i, err
}
const listAdminDiagnostics = `-- name: ListAdminDiagnostics :many
SELECT
de.id AS id,
de.user_id AS user_id,
u.username AS username,
de.client_id AS client_id,
de.app_version AS app_version,
de.os_version AS os_version,
de.kind AS kind,
de.payload AS payload,
de.occurred_at AS occurred_at,
de.received_at AS received_at
FROM diagnostic_events de
JOIN users u ON u.id = de.user_id
WHERE ($1::uuid IS NULL OR de.user_id = $1::uuid)
AND ($2::text IS NULL OR de.client_id = $2::text)
AND ($3::text IS NULL OR de.kind = $3::text)
AND ($4::timestamptz IS NULL
OR de.occurred_at >= $4::timestamptz)
AND ($5::timestamptz IS NULL
OR de.occurred_at <= $5::timestamptz)
ORDER BY de.occurred_at DESC
LIMIT $7::int OFFSET $6::int
`
type ListAdminDiagnosticsParams struct {
UserID pgtype.UUID
ClientID *string
Kind *string
FromTs pgtype.Timestamptz
ToTs pgtype.Timestamptz
Off int32
Lim int32
}
type ListAdminDiagnosticsRow struct {
ID pgtype.UUID
UserID pgtype.UUID
Username string
ClientID string
AppVersion *string
OsVersion *string
Kind string
Payload []byte
OccurredAt pgtype.Timestamptz
ReceivedAt pgtype.Timestamptz
}
// Admin timeline query. All filters are optional (NULL = no filter):
// account (user_id), device (client_id), category (kind), and the
// occurred_at window (from_ts/to_ts). Newest-first; the SPA reverses for
// a chronological timeline / export. Joined with users for the username
// so the view renders without a second round-trip.
func (q *Queries) ListAdminDiagnostics(ctx context.Context, arg ListAdminDiagnosticsParams) ([]ListAdminDiagnosticsRow, error) {
rows, err := q.db.Query(ctx, listAdminDiagnostics,
arg.UserID,
arg.ClientID,
arg.Kind,
arg.FromTs,
arg.ToTs,
arg.Off,
arg.Lim,
)
if err != nil {
return nil, err
}
defer rows.Close()
var items []ListAdminDiagnosticsRow
for rows.Next() {
var i ListAdminDiagnosticsRow
if err := rows.Scan(
&i.ID,
&i.UserID,
&i.Username,
&i.ClientID,
&i.AppVersion,
&i.OsVersion,
&i.Kind,
&i.Payload,
&i.OccurredAt,
&i.ReceivedAt,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const listDiagnosticDevices = `-- name: ListDiagnosticDevices :many
SELECT
de.client_id AS client_id,
de.user_id AS user_id,
u.username AS username,
max(de.app_version)::text AS app_version,
max(de.os_version)::text AS os_version,
max(de.occurred_at)::timestamptz AS last_seen,
count(*) AS event_count
FROM diagnostic_events de
JOIN users u ON u.id = de.user_id
WHERE ($1::uuid IS NULL OR de.user_id = $1::uuid)
GROUP BY de.client_id, de.user_id, u.username
ORDER BY last_seen DESC
`
type ListDiagnosticDevicesRow struct {
ClientID string
UserID pgtype.UUID
Username string
AppVersion string
OsVersion string
LastSeen pgtype.Timestamptz
EventCount int64
}
// Distinct devices that have reported, for the admin device filter +
// "who is currently reporting" overview. Optionally scoped to one account.
func (q *Queries) ListDiagnosticDevices(ctx context.Context, userID pgtype.UUID) ([]ListDiagnosticDevicesRow, error) {
rows, err := q.db.Query(ctx, listDiagnosticDevices, userID)
if err != nil {
return nil, err
}
defer rows.Close()
var items []ListDiagnosticDevicesRow
for rows.Next() {
var i ListDiagnosticDevicesRow
if err := rows.Scan(
&i.ClientID,
&i.UserID,
&i.Username,
&i.AppVersion,
&i.OsVersion,
&i.LastSeen,
&i.EventCount,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
+41
View File
@@ -265,6 +265,18 @@ type CoverArtSourcesMetum struct {
LastRegisteredProvidersHash string
}
type DiagnosticEvent struct {
ID pgtype.UUID
UserID pgtype.UUID
ClientID string
AppVersion *string
OsVersion *string
Kind string
Payload []byte
OccurredAt pgtype.Timestamptz
ReceivedAt pgtype.Timestamptz
}
type GeneralLike struct {
UserID pgtype.UUID
TrackID pgtype.UUID
@@ -497,6 +509,20 @@ type SystemPlaylistRun struct {
LastError *string
}
type TasteProfileArtist struct {
UserID pgtype.UUID
ArtistID pgtype.UUID
Weight float64
UpdatedAt pgtype.Timestamptz
}
type TasteProfileTag struct {
UserID pgtype.UUID
Tag string
Weight float64
UpdatedAt pgtype.Timestamptz
}
type Track struct {
ID pgtype.UUID
Title string
@@ -538,6 +564,7 @@ type User struct {
Email *string
Timezone string
TimezoneUpdatedAt pgtype.Timestamptz
DebugModeEnabled bool
}
type UserInvite struct {
@@ -549,3 +576,17 @@ type UserInvite struct {
RedeemedAt pgtype.Timestamptz
RedeemedBy pgtype.UUID
}
type YouMightLikeAlbum struct {
UserID pgtype.UUID
AlbumID pgtype.UUID
Rank int32
BuiltAt pgtype.Timestamptz
}
type YouMightLikeArtist struct {
UserID pgtype.UUID
ArtistID pgtype.UUID
Rank int32
BuiltAt pgtype.Timestamptz
}
+21 -2
View File
@@ -737,6 +737,17 @@ likes_overlap AS (
ORDER BY random()
LIMIT $8
),
taste_overlap AS (
SELECT t.id AS track_id, 0.0::float8 AS sim_score
FROM taste_profile_artists tpa
JOIN tracks t ON t.artist_id = tpa.artist_id
WHERE tpa.user_id = $1
AND tpa.weight > 0
AND t.id NOT IN (SELECT id FROM excluded_ids)
AND t.id <> $2
ORDER BY tpa.weight DESC, t.id
LIMIT $10
),
random_fill AS (
SELECT t.id AS track_id, 0.0::float8 AS sim_score
FROM tracks t
@@ -747,6 +758,7 @@ random_fill AS (
UNION SELECT track_id FROM similar_artists
UNION SELECT track_id FROM tag_overlap
UNION SELECT track_id FROM likes_overlap
UNION SELECT track_id FROM taste_overlap
)
ORDER BY random()
LIMIT $9
@@ -763,6 +775,7 @@ FROM (
UNION ALL SELECT track_id, sim_score FROM similar_artists
UNION ALL SELECT track_id, sim_score FROM tag_overlap
UNION ALL SELECT track_id, sim_score FROM likes_overlap
UNION ALL SELECT track_id, sim_score FROM taste_overlap
UNION ALL SELECT track_id, sim_score FROM random_fill
) u
JOIN tracks t ON t.id = u.track_id
@@ -790,6 +803,7 @@ type LoadRadioCandidatesV2Params struct {
Limit_3 int32
Limit_4 int32
Limit_5 int32
Limit_6 int32
}
type LoadRadioCandidatesV2Row struct {
@@ -801,11 +815,15 @@ type LoadRadioCandidatesV2Row struct {
SimilarityScore interface{}
}
// M4c: similarity-driven candidate pool. 5-way UNION:
// M4c: similarity-driven candidate pool. 6-way UNION:
//
// $1 user_id, $2 seed_track_id, $3 recently_played_hours,
// $4 exclude (uuid[]), $5 lb_similar K, $6 similar_artists K,
// $7 tag_overlap K, $8 likes_overlap K, $9 random_fill K.
// $7 tag_overlap K, $8 likes_overlap K, $9 random_fill K,
// $10 taste_overlap K (#796 phase 2b — tracks by the user's top
// positively-weighted taste-profile artists, so taste-relevant tracks
// enter the pool even when the similarity/random arms miss them; scored
// in Go via TasteMatch, so sim_score here is 0 pool-inclusion).
//
// Returns same shape as LoadRadioCandidates plus similarity_score column.
func (q *Queries) LoadRadioCandidatesV2(ctx context.Context, arg LoadRadioCandidatesV2Params) ([]LoadRadioCandidatesV2Row, error) {
@@ -819,6 +837,7 @@ func (q *Queries) LoadRadioCandidatesV2(ctx context.Context, arg LoadRadioCandid
arg.Limit_3,
arg.Limit_4,
arg.Limit_5,
arg.Limit_6,
)
if err != nil {
return nil, err
@@ -0,0 +1,73 @@
// Code generated by sqlc. DO NOT EDIT.
// versions:
// sqlc v1.31.1
// source: recommendation_metrics.sql
package dbq
import (
"context"
"github.com/jackc/pgx/v5/pgtype"
)
const recommendationSourceMetricsForUser = `-- name: RecommendationSourceMetricsForUser :many
SELECT
pe.source,
count(*)::bigint AS plays,
count(*) FILTER (WHERE pe.was_skipped)::bigint AS skips,
COALESCE(
avg(pe.completion_ratio) FILTER (WHERE pe.completion_ratio IS NOT NULL),
0)::float8 AS avg_completion
FROM play_events pe
WHERE pe.user_id = $1
AND pe.source IS NOT NULL
AND pe.started_at > now() - ($2::float8 * INTERVAL '1 day')
GROUP BY pe.source
ORDER BY plays DESC
`
type RecommendationSourceMetricsForUserParams struct {
UserID pgtype.UUID
Column2 float64
}
type RecommendationSourceMetricsForUserRow struct {
Source *string
Plays int64
Skips int64
AvgCompletion float64
}
// Recommendation observability (#796 phase 4). Per-source play outcomes so the
// operator can see whether each recommendation surface is landing and tune the
// taste weights. Source is stamped on play_events when a play is launched from
// a system-playlist surface ('for_you' | 'discover' | the discovery mixes);
// NULL for library / radio / user-playlist plays, which are excluded here.
// $1 user_id, $2 window_days. plays/skips are counts; avg_completion is the
// mean completion ratio over plays that recorded one (0 when none did).
func (q *Queries) RecommendationSourceMetricsForUser(ctx context.Context, arg RecommendationSourceMetricsForUserParams) ([]RecommendationSourceMetricsForUserRow, error) {
rows, err := q.db.Query(ctx, recommendationSourceMetricsForUser, arg.UserID, arg.Column2)
if err != nil {
return nil, err
}
defer rows.Close()
var items []RecommendationSourceMetricsForUserRow
for rows.Next() {
var i RecommendationSourceMetricsForUserRow
if err := rows.Scan(
&i.Source,
&i.Plays,
&i.Skips,
&i.AvgCompletion,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
+262
View File
@@ -0,0 +1,262 @@
// Code generated by sqlc. DO NOT EDIT.
// versions:
// sqlc v1.31.1
// source: taste_profile.sql
package dbq
import (
"context"
"github.com/jackc/pgx/v5/pgtype"
)
const deleteTasteProfileArtistsForUser = `-- name: DeleteTasteProfileArtistsForUser :exec
DELETE FROM taste_profile_artists WHERE user_id = $1
`
func (q *Queries) DeleteTasteProfileArtistsForUser(ctx context.Context, userID pgtype.UUID) error {
_, err := q.db.Exec(ctx, deleteTasteProfileArtistsForUser, userID)
return err
}
const deleteTasteProfileTagsForUser = `-- name: DeleteTasteProfileTagsForUser :exec
DELETE FROM taste_profile_tags WHERE user_id = $1
`
func (q *Queries) DeleteTasteProfileTagsForUser(ctx context.Context, userID pgtype.UUID) error {
_, err := q.db.Exec(ctx, deleteTasteProfileTagsForUser, userID)
return err
}
const insertTasteProfileArtist = `-- name: InsertTasteProfileArtist :exec
INSERT INTO taste_profile_artists (user_id, artist_id, weight)
VALUES ($1, $2, $3)
`
type InsertTasteProfileArtistParams struct {
UserID pgtype.UUID
ArtistID pgtype.UUID
Weight float64
}
func (q *Queries) InsertTasteProfileArtist(ctx context.Context, arg InsertTasteProfileArtistParams) error {
_, err := q.db.Exec(ctx, insertTasteProfileArtist, arg.UserID, arg.ArtistID, arg.Weight)
return err
}
const insertTasteProfileTag = `-- name: InsertTasteProfileTag :exec
INSERT INTO taste_profile_tags (user_id, tag, weight)
VALUES ($1, $2, $3)
`
type InsertTasteProfileTagParams struct {
UserID pgtype.UUID
Tag string
Weight float64
}
func (q *Queries) InsertTasteProfileTag(ctx context.Context, arg InsertTasteProfileTagParams) error {
_, err := q.db.Exec(ctx, insertTasteProfileTag, arg.UserID, arg.Tag, arg.Weight)
return err
}
const listLikedArtistIDsForUser = `-- name: ListLikedArtistIDsForUser :many
SELECT artist_id FROM general_likes_artists WHERE user_id = $1
`
// Artists the user has explicitly liked; feeds the artist-like bonus.
func (q *Queries) ListLikedArtistIDsForUser(ctx context.Context, userID pgtype.UUID) ([]pgtype.UUID, error) {
rows, err := q.db.Query(ctx, listLikedArtistIDsForUser, userID)
if err != nil {
return nil, err
}
defer rows.Close()
var items []pgtype.UUID
for rows.Next() {
var artist_id pgtype.UUID
if err := rows.Scan(&artist_id); err != nil {
return nil, err
}
items = append(items, artist_id)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const listLikedTrackTasteInputsForUser = `-- name: ListLikedTrackTasteInputsForUser :many
SELECT t.artist_id, t.genre
FROM general_likes gl
JOIN tracks t ON t.id = gl.track_id
WHERE gl.user_id = $1
`
type ListLikedTrackTasteInputsForUserRow struct {
ArtistID pgtype.UUID
Genre *string
}
// (artist_id, genre) for each track the user has explicitly liked. Feeds the
// track-like bonus into the liked track's artist and tags.
func (q *Queries) ListLikedTrackTasteInputsForUser(ctx context.Context, userID pgtype.UUID) ([]ListLikedTrackTasteInputsForUserRow, error) {
rows, err := q.db.Query(ctx, listLikedTrackTasteInputsForUser, userID)
if err != nil {
return nil, err
}
defer rows.Close()
var items []ListLikedTrackTasteInputsForUserRow
for rows.Next() {
var i ListLikedTrackTasteInputsForUserRow
if err := rows.Scan(&i.ArtistID, &i.Genre); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const listPlayEngagementInputsForUser = `-- name: ListPlayEngagementInputsForUser :many
SELECT
t.artist_id,
t.genre,
LEAST(GREATEST(
COALESCE(pe.completion_ratio,
pe.duration_played_ms::float8 / NULLIF(t.duration_ms, 0),
0), 0), 1)::float8 AS completion,
(EXTRACT(epoch FROM now() - pe.started_at) / 86400.0)::float8 AS age_days
FROM play_events pe
JOIN tracks t ON t.id = pe.track_id
WHERE pe.user_id = $1
AND pe.started_at > now() - ($2::float8 * INTERVAL '1 day')
AND NOT EXISTS (
SELECT 1 FROM lidarr_quarantine q
WHERE q.user_id = $1 AND q.track_id = t.id
)
`
type ListPlayEngagementInputsForUserParams struct {
UserID pgtype.UUID
Column2 float64
}
type ListPlayEngagementInputsForUserRow struct {
ArtistID pgtype.UUID
Genre *string
Completion float64
AgeDays float64
}
// Taste profile (#796 phase 1). The daily build computes signed artist/tag
// weights in Go (graded engagement + decay + like bonus) and atomic-replaces
// them here. Read queries serve "top taste" lookups (used in phase 2).
// One row per play in the decay-relevant window. completion is the play's
// completion ratio (precomputed column when present, else duration_played /
// track duration, clamped to [0,1]); age_days drives the time-decay. Genre
// is split into tags in Go. Quarantined tracks are excluded.
func (q *Queries) ListPlayEngagementInputsForUser(ctx context.Context, arg ListPlayEngagementInputsForUserParams) ([]ListPlayEngagementInputsForUserRow, error) {
rows, err := q.db.Query(ctx, listPlayEngagementInputsForUser, arg.UserID, arg.Column2)
if err != nil {
return nil, err
}
defer rows.Close()
var items []ListPlayEngagementInputsForUserRow
for rows.Next() {
var i ListPlayEngagementInputsForUserRow
if err := rows.Scan(
&i.ArtistID,
&i.Genre,
&i.Completion,
&i.AgeDays,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const listTasteProfileArtistsForUser = `-- name: ListTasteProfileArtistsForUser :many
SELECT artist_id, weight
FROM taste_profile_artists
WHERE user_id = $1
ORDER BY weight DESC
LIMIT $2
`
type ListTasteProfileArtistsForUserParams struct {
UserID pgtype.UUID
Limit int32
}
type ListTasteProfileArtistsForUserRow struct {
ArtistID pgtype.UUID
Weight float64
}
// Top-weighted taste artists (phase-2 consumption + tests).
func (q *Queries) ListTasteProfileArtistsForUser(ctx context.Context, arg ListTasteProfileArtistsForUserParams) ([]ListTasteProfileArtistsForUserRow, error) {
rows, err := q.db.Query(ctx, listTasteProfileArtistsForUser, arg.UserID, arg.Limit)
if err != nil {
return nil, err
}
defer rows.Close()
var items []ListTasteProfileArtistsForUserRow
for rows.Next() {
var i ListTasteProfileArtistsForUserRow
if err := rows.Scan(&i.ArtistID, &i.Weight); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const listTasteProfileTagsForUser = `-- name: ListTasteProfileTagsForUser :many
SELECT tag, weight
FROM taste_profile_tags
WHERE user_id = $1
ORDER BY weight DESC
LIMIT $2
`
type ListTasteProfileTagsForUserParams struct {
UserID pgtype.UUID
Limit int32
}
type ListTasteProfileTagsForUserRow struct {
Tag string
Weight float64
}
func (q *Queries) ListTasteProfileTagsForUser(ctx context.Context, arg ListTasteProfileTagsForUserParams) ([]ListTasteProfileTagsForUserRow, error) {
rows, err := q.db.Query(ctx, listTasteProfileTagsForUser, arg.UserID, arg.Limit)
if err != nil {
return nil, err
}
defer rows.Close()
var items []ListTasteProfileTagsForUserRow
for rows.Next() {
var i ListTasteProfileTagsForUserRow
if err := rows.Scan(&i.Tag, &i.Weight); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
+64 -12
View File
@@ -54,7 +54,7 @@ func (q *Queries) CountUsers(ctx context.Context) (int64, error) {
const createUser = `-- name: CreateUser :one
INSERT INTO users (username, password_hash, api_token, is_admin, display_name)
VALUES ($1, $2, $3, $4, $5)
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at, debug_mode_enabled
`
type CreateUserParams struct {
@@ -89,6 +89,7 @@ func (q *Queries) CreateUser(ctx context.Context, arg CreateUserParams) (User, e
&i.Email,
&i.Timezone,
&i.TimezoneUpdatedAt,
&i.DebugModeEnabled,
)
return i, err
}
@@ -96,7 +97,7 @@ func (q *Queries) CreateUser(ctx context.Context, arg CreateUserParams) (User, e
const createUserAdmin = `-- name: CreateUserAdmin :one
INSERT INTO users (username, password_hash, api_token, is_admin, display_name)
VALUES ($1, $2, $3, $4, $5)
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at, debug_mode_enabled
`
type CreateUserAdminParams struct {
@@ -134,6 +135,7 @@ func (q *Queries) CreateUserAdmin(ctx context.Context, arg CreateUserAdminParams
&i.Email,
&i.Timezone,
&i.TimezoneUpdatedAt,
&i.DebugModeEnabled,
)
return i, err
}
@@ -145,7 +147,7 @@ VALUES (
(SELECT NOT EXISTS (SELECT 1 FROM users)),
$4
)
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at, debug_mode_enabled
`
type CreateUserFirstAdminRaceParams struct {
@@ -191,6 +193,7 @@ func (q *Queries) CreateUserFirstAdminRace(ctx context.Context, arg CreateUserFi
&i.Email,
&i.Timezone,
&i.TimezoneUpdatedAt,
&i.DebugModeEnabled,
)
return i, err
}
@@ -237,7 +240,7 @@ func (q *Queries) GetListenBrainzConfig(ctx context.Context, id pgtype.UUID) (Ge
}
const getUserByAPIToken = `-- name: GetUserByAPIToken :one
SELECT id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at FROM users WHERE api_token = $1
SELECT id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at, debug_mode_enabled FROM users WHERE api_token = $1
`
func (q *Queries) GetUserByAPIToken(ctx context.Context, apiToken string) (User, error) {
@@ -258,12 +261,13 @@ func (q *Queries) GetUserByAPIToken(ctx context.Context, apiToken string) (User,
&i.Email,
&i.Timezone,
&i.TimezoneUpdatedAt,
&i.DebugModeEnabled,
)
return i, err
}
const getUserByEmail = `-- name: GetUserByEmail :one
SELECT id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at FROM users WHERE lower(email) = lower($1)
SELECT id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at, debug_mode_enabled FROM users WHERE lower(email) = lower($1)
`
// Used by forgot-password lookup. Lowercase comparison both sides
@@ -287,12 +291,13 @@ func (q *Queries) GetUserByEmail(ctx context.Context, lower string) (User, error
&i.Email,
&i.Timezone,
&i.TimezoneUpdatedAt,
&i.DebugModeEnabled,
)
return i, err
}
const getUserByID = `-- name: GetUserByID :one
SELECT id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at FROM users WHERE id = $1
SELECT id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at, debug_mode_enabled FROM users WHERE id = $1
`
func (q *Queries) GetUserByID(ctx context.Context, id pgtype.UUID) (User, error) {
@@ -313,12 +318,13 @@ func (q *Queries) GetUserByID(ctx context.Context, id pgtype.UUID) (User, error)
&i.Email,
&i.Timezone,
&i.TimezoneUpdatedAt,
&i.DebugModeEnabled,
)
return i, err
}
const getUserByUsername = `-- name: GetUserByUsername :one
SELECT id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at FROM users WHERE username = $1
SELECT id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at, debug_mode_enabled FROM users WHERE username = $1
`
func (q *Queries) GetUserByUsername(ctx context.Context, username string) (User, error) {
@@ -339,6 +345,7 @@ func (q *Queries) GetUserByUsername(ctx context.Context, username string) (User,
&i.Email,
&i.Timezone,
&i.TimezoneUpdatedAt,
&i.DebugModeEnabled,
)
return i, err
}
@@ -382,7 +389,8 @@ func (q *Queries) ListActiveUsersWithTimezones(ctx context.Context) ([]ListActiv
}
const listUsers = `-- name: ListUsers :many
SELECT id, username, display_name, is_admin, auto_approve_requests, created_at
SELECT id, username, display_name, is_admin, auto_approve_requests,
debug_mode_enabled, created_at
FROM users
ORDER BY created_at DESC
`
@@ -393,6 +401,7 @@ type ListUsersRow struct {
DisplayName *string
IsAdmin bool
AutoApproveRequests bool
DebugModeEnabled bool
CreatedAt pgtype.Timestamptz
}
@@ -412,6 +421,7 @@ func (q *Queries) ListUsers(ctx context.Context) ([]ListUsersRow, error) {
&i.DisplayName,
&i.IsAdmin,
&i.AutoApproveRequests,
&i.DebugModeEnabled,
&i.CreatedAt,
); err != nil {
return nil, err
@@ -426,7 +436,7 @@ func (q *Queries) ListUsers(ctx context.Context) ([]ListUsersRow, error) {
const regenerateApiToken = `-- name: RegenerateApiToken :one
UPDATE users SET api_token = $2 WHERE id = $1
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at, debug_mode_enabled
`
type RegenerateApiTokenParams struct {
@@ -454,6 +464,7 @@ func (q *Queries) RegenerateApiToken(ctx context.Context, arg RegenerateApiToken
&i.Email,
&i.Timezone,
&i.TimezoneUpdatedAt,
&i.DebugModeEnabled,
)
return i, err
}
@@ -478,6 +489,44 @@ func (q *Queries) ResetUserPassword(ctx context.Context, arg ResetUserPasswordPa
return err
}
const setDebugMode = `-- name: SetDebugMode :one
UPDATE users
SET debug_mode_enabled = $2
WHERE id = $1
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at, debug_mode_enabled
`
type SetDebugModeParams struct {
ID pgtype.UUID
DebugModeEnabled bool
}
// Toggle the per-account diagnostics/debug-reporting opt-in. Admin-driven
// from /admin (flip remotely while a bug is live) or self-driven OFF from
// the client. Returns the updated row so the handler can echo it.
func (q *Queries) SetDebugMode(ctx context.Context, arg SetDebugModeParams) (User, error) {
row := q.db.QueryRow(ctx, setDebugMode, arg.ID, arg.DebugModeEnabled)
var i User
err := row.Scan(
&i.ID,
&i.Username,
&i.PasswordHash,
&i.ApiToken,
&i.IsAdmin,
&i.CreatedAt,
&i.SubsonicPassword,
&i.ListenbrainzToken,
&i.ListenbrainzEnabled,
&i.DisplayName,
&i.AutoApproveRequests,
&i.Email,
&i.Timezone,
&i.TimezoneUpdatedAt,
&i.DebugModeEnabled,
)
return i, err
}
const setListenBrainzEnabled = `-- name: SetListenBrainzEnabled :exec
UPDATE users
SET listenbrainz_enabled = $2
@@ -531,7 +580,7 @@ const updateUserAdmin = `-- name: UpdateUserAdmin :one
UPDATE users
SET is_admin = $2
WHERE id = $1
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at, debug_mode_enabled
`
type UpdateUserAdminParams struct {
@@ -559,6 +608,7 @@ func (q *Queries) UpdateUserAdmin(ctx context.Context, arg UpdateUserAdminParams
&i.Email,
&i.Timezone,
&i.TimezoneUpdatedAt,
&i.DebugModeEnabled,
)
return i, err
}
@@ -567,7 +617,7 @@ const updateUserAutoApprove = `-- name: UpdateUserAutoApprove :one
UPDATE users
SET auto_approve_requests = $2
WHERE id = $1
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at, debug_mode_enabled
`
type UpdateUserAutoApproveParams struct {
@@ -594,6 +644,7 @@ func (q *Queries) UpdateUserAutoApprove(ctx context.Context, arg UpdateUserAutoA
&i.Email,
&i.Timezone,
&i.TimezoneUpdatedAt,
&i.DebugModeEnabled,
)
return i, err
}
@@ -603,7 +654,7 @@ UPDATE users
SET display_name = $2,
email = $3
WHERE id = $1
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at
RETURNING id, username, password_hash, api_token, is_admin, created_at, subsonic_password, listenbrainz_token, listenbrainz_enabled, display_name, auto_approve_requests, email, timezone, timezone_updated_at, debug_mode_enabled
`
type UpdateUserProfileParams struct {
@@ -632,6 +683,7 @@ func (q *Queries) UpdateUserProfile(ctx context.Context, arg UpdateUserProfilePa
&i.Email,
&i.Timezone,
&i.TimezoneUpdatedAt,
&i.DebugModeEnabled,
)
return i, err
}
+365
View File
@@ -0,0 +1,365 @@
// Code generated by sqlc. DO NOT EDIT.
// versions:
// sqlc v1.31.1
// source: you_might_like.sql
package dbq
import (
"context"
"github.com/jackc/pgx/v5/pgtype"
)
const countListeningSignalForUser = `-- name: CountListeningSignalForUser :one
SELECT
count(DISTINCT pe.track_id)::bigint AS distinct_tracks,
count(DISTINCT t.artist_id)::bigint AS distinct_artists
FROM play_events pe
JOIN tracks t ON t.id = pe.track_id
WHERE pe.user_id = $1 AND pe.was_skipped = false
`
type CountListeningSignalForUserRow struct {
DistinctTracks int64
DistinctArtists int64
}
// "You might like" Home rows (#790). The daily build computes ranked
// album/artist IDs in Go (similarity roll-up + cold-start gate) and
// atomic-replaces them here; /api/home reads them back hydrated.
// Cold-start gate. Returns the breadth of the user's real listening:
// distinct unskipped tracks played and distinct artists played. The
// build skips You-might-like entirely below a threshold (a thin history
// yields near-random roll-ups). was_skipped=false so a user spamming
// next can't inflate the signal.
func (q *Queries) CountListeningSignalForUser(ctx context.Context, userID pgtype.UUID) (CountListeningSignalForUserRow, error) {
row := q.db.QueryRow(ctx, countListeningSignalForUser, userID)
var i CountListeningSignalForUserRow
err := row.Scan(&i.DistinctTracks, &i.DistinctArtists)
return i, err
}
const deleteYouMightLikeAlbumsForUser = `-- name: DeleteYouMightLikeAlbumsForUser :exec
DELETE FROM you_might_like_albums WHERE user_id = $1
`
func (q *Queries) DeleteYouMightLikeAlbumsForUser(ctx context.Context, userID pgtype.UUID) error {
_, err := q.db.Exec(ctx, deleteYouMightLikeAlbumsForUser, userID)
return err
}
const deleteYouMightLikeArtistsForUser = `-- name: DeleteYouMightLikeArtistsForUser :exec
DELETE FROM you_might_like_artists WHERE user_id = $1
`
func (q *Queries) DeleteYouMightLikeArtistsForUser(ctx context.Context, userID pgtype.UUID) error {
_, err := q.db.Exec(ctx, deleteYouMightLikeArtistsForUser, userID)
return err
}
const insertYouMightLikeAlbum = `-- name: InsertYouMightLikeAlbum :exec
INSERT INTO you_might_like_albums (user_id, album_id, rank)
VALUES ($1, $2, $3)
`
type InsertYouMightLikeAlbumParams struct {
UserID pgtype.UUID
AlbumID pgtype.UUID
Rank int32
}
func (q *Queries) InsertYouMightLikeAlbum(ctx context.Context, arg InsertYouMightLikeAlbumParams) error {
_, err := q.db.Exec(ctx, insertYouMightLikeAlbum, arg.UserID, arg.AlbumID, arg.Rank)
return err
}
const insertYouMightLikeArtist = `-- name: InsertYouMightLikeArtist :exec
INSERT INTO you_might_like_artists (user_id, artist_id, rank)
VALUES ($1, $2, $3)
`
type InsertYouMightLikeArtistParams struct {
UserID pgtype.UUID
ArtistID pgtype.UUID
Rank int32
}
func (q *Queries) InsertYouMightLikeArtist(ctx context.Context, arg InsertYouMightLikeArtistParams) error {
_, err := q.db.Exec(ctx, insertYouMightLikeArtist, arg.UserID, arg.ArtistID, arg.Rank)
return err
}
const listYouMightLikeAlbumFallbackForUser = `-- name: ListYouMightLikeAlbumFallbackForUser :many
WITH liked_album_ids AS (
SELECT likb.album_id AS album_id
FROM general_likes_albums likb
WHERE likb.user_id = $1
UNION
SELECT trk.album_id AS album_id
FROM general_likes likt
JOIN tracks trk ON trk.id = likt.track_id
WHERE likt.user_id = $1
)
SELECT albums.id, albums.title, albums.sort_title, albums.artist_id, albums.release_date, albums.mbid, albums.cover_art_path, albums.created_at, albums.updated_at, albums.cover_art_source, albums.cover_art_sources_version, artists.name AS artist_name
FROM liked_album_ids lai
JOIN albums ON albums.id = lai.album_id
JOIN artists ON artists.id = albums.artist_id
ORDER BY md5(albums.id::text || current_date::text)
LIMIT $2
`
type ListYouMightLikeAlbumFallbackForUserParams struct {
UserID pgtype.UUID
Limit int32
}
type ListYouMightLikeAlbumFallbackForUserRow struct {
Album Album
ArtistName string
}
// Broad "albums you've shown affinity for" pool: explicitly liked albums PLUS
// the albums of liked tracks. Same projection as ListYouMightLikeAlbumsForUser.
func (q *Queries) ListYouMightLikeAlbumFallbackForUser(ctx context.Context, arg ListYouMightLikeAlbumFallbackForUserParams) ([]ListYouMightLikeAlbumFallbackForUserRow, error) {
rows, err := q.db.Query(ctx, listYouMightLikeAlbumFallbackForUser, arg.UserID, arg.Limit)
if err != nil {
return nil, err
}
defer rows.Close()
var items []ListYouMightLikeAlbumFallbackForUserRow
for rows.Next() {
var i ListYouMightLikeAlbumFallbackForUserRow
if err := rows.Scan(
&i.Album.ID,
&i.Album.Title,
&i.Album.SortTitle,
&i.Album.ArtistID,
&i.Album.ReleaseDate,
&i.Album.Mbid,
&i.Album.CoverArtPath,
&i.Album.CreatedAt,
&i.Album.UpdatedAt,
&i.Album.CoverArtSource,
&i.Album.CoverArtSourcesVersion,
&i.ArtistName,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const listYouMightLikeAlbumsForUser = `-- name: ListYouMightLikeAlbumsForUser :many
SELECT albums.id, albums.title, albums.sort_title, albums.artist_id, albums.release_date, albums.mbid, albums.cover_art_path, albums.created_at, albums.updated_at, albums.cover_art_source, albums.cover_art_sources_version, artists.name AS artist_name
FROM you_might_like_albums yml
JOIN albums ON albums.id = yml.album_id
JOIN artists ON artists.id = albums.artist_id
WHERE yml.user_id = $1
ORDER BY yml.rank
LIMIT $2
`
type ListYouMightLikeAlbumsForUserParams struct {
UserID pgtype.UUID
Limit int32
}
type ListYouMightLikeAlbumsForUserRow struct {
Album Album
ArtistName string
}
// Read path. Same projection as ListRediscoverAlbumsForUser so the API
// layer reuses albumRefFrom(row.Album, row.ArtistName, …). Ordered by
// the rank persisted at build time. Final cross-section dedup (vs Most
// Played / Rediscover) and the output cap land in the Go layer
// (internal/recommendation/home.go).
func (q *Queries) ListYouMightLikeAlbumsForUser(ctx context.Context, arg ListYouMightLikeAlbumsForUserParams) ([]ListYouMightLikeAlbumsForUserRow, error) {
rows, err := q.db.Query(ctx, listYouMightLikeAlbumsForUser, arg.UserID, arg.Limit)
if err != nil {
return nil, err
}
defer rows.Close()
var items []ListYouMightLikeAlbumsForUserRow
for rows.Next() {
var i ListYouMightLikeAlbumsForUserRow
if err := rows.Scan(
&i.Album.ID,
&i.Album.Title,
&i.Album.SortTitle,
&i.Album.ArtistID,
&i.Album.ReleaseDate,
&i.Album.Mbid,
&i.Album.CoverArtPath,
&i.Album.CreatedAt,
&i.Album.UpdatedAt,
&i.Album.CoverArtSource,
&i.Album.CoverArtSourcesVersion,
&i.ArtistName,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const listYouMightLikeArtistFallbackForUser = `-- name: ListYouMightLikeArtistFallbackForUser :many
WITH liked_artist_ids AS (
SELECT lika.artist_id AS artist_id
FROM general_likes_artists lika
WHERE lika.user_id = $1
UNION
SELECT alb.artist_id AS artist_id
FROM general_likes_albums likb
JOIN albums alb ON alb.id = likb.album_id
WHERE likb.user_id = $1
UNION
SELECT trk.artist_id AS artist_id
FROM general_likes likt
JOIN tracks trk ON trk.id = likt.track_id
WHERE likt.user_id = $1
)
SELECT artists.id, artists.name, artists.sort_name, artists.mbid, artists.created_at, artists.updated_at, artists.artist_thumb_path, artists.artist_fanart_path, artists.artist_art_source, artists.artist_art_sources_version,
cov.id AS cover_album_id,
cnt.album_count::bigint AS album_count
FROM liked_artist_ids lai
JOIN artists ON artists.id = lai.artist_id
LEFT JOIN LATERAL (
SELECT id FROM albums
WHERE artist_id = artists.id AND cover_art_path IS NOT NULL
ORDER BY created_at DESC LIMIT 1
) cov ON true
LEFT JOIN LATERAL (
SELECT count(*) AS album_count
FROM albums WHERE artist_id = artists.id
) cnt ON true
ORDER BY md5(artists.id::text || current_date::text)
LIMIT $2
`
type ListYouMightLikeArtistFallbackForUserParams struct {
UserID pgtype.UUID
Limit int32
}
type ListYouMightLikeArtistFallbackForUserRow struct {
Artist Artist
CoverAlbumID pgtype.UUID
AlbumCount int64
}
// Broad "artists you've shown affinity for" pool to fill a thin
// You-might-like artists row: explicitly liked artists PLUS the artists of
// liked albums and liked tracks. Most users like albums/tracks far more than
// they like artists explicitly, so the union is much deeper than
// general_likes_artists alone. Daily-stable order; same projection as
// ListYouMightLikeArtistsForUser so the Go layer reuses it directly.
func (q *Queries) ListYouMightLikeArtistFallbackForUser(ctx context.Context, arg ListYouMightLikeArtistFallbackForUserParams) ([]ListYouMightLikeArtistFallbackForUserRow, error) {
rows, err := q.db.Query(ctx, listYouMightLikeArtistFallbackForUser, arg.UserID, arg.Limit)
if err != nil {
return nil, err
}
defer rows.Close()
var items []ListYouMightLikeArtistFallbackForUserRow
for rows.Next() {
var i ListYouMightLikeArtistFallbackForUserRow
if err := rows.Scan(
&i.Artist.ID,
&i.Artist.Name,
&i.Artist.SortName,
&i.Artist.Mbid,
&i.Artist.CreatedAt,
&i.Artist.UpdatedAt,
&i.Artist.ArtistThumbPath,
&i.Artist.ArtistFanartPath,
&i.Artist.ArtistArtSource,
&i.Artist.ArtistArtSourcesVersion,
&i.CoverAlbumID,
&i.AlbumCount,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const listYouMightLikeArtistsForUser = `-- name: ListYouMightLikeArtistsForUser :many
SELECT artists.id, artists.name, artists.sort_name, artists.mbid, artists.created_at, artists.updated_at, artists.artist_thumb_path, artists.artist_fanart_path, artists.artist_art_source, artists.artist_art_sources_version,
cov.id AS cover_album_id,
cnt.album_count::bigint AS album_count
FROM you_might_like_artists yml
JOIN artists ON artists.id = yml.artist_id
LEFT JOIN LATERAL (
SELECT id FROM albums
WHERE artist_id = artists.id AND cover_art_path IS NOT NULL
ORDER BY created_at DESC LIMIT 1
) cov ON true
LEFT JOIN LATERAL (
SELECT count(*) AS album_count
FROM albums WHERE artist_id = artists.id
) cnt ON true
WHERE yml.user_id = $1
ORDER BY yml.rank
LIMIT $2
`
type ListYouMightLikeArtistsForUserParams struct {
UserID pgtype.UUID
Limit int32
}
type ListYouMightLikeArtistsForUserRow struct {
Artist Artist
CoverAlbumID pgtype.UUID
AlbumCount int64
}
// Read path. Same projection as ListRediscoverArtistsForUser (embeds the
// artist + a representative cover_album_id + album_count) so the API
// layer reuses artistRefFromCovered. Ordered by persisted rank.
func (q *Queries) ListYouMightLikeArtistsForUser(ctx context.Context, arg ListYouMightLikeArtistsForUserParams) ([]ListYouMightLikeArtistsForUserRow, error) {
rows, err := q.db.Query(ctx, listYouMightLikeArtistsForUser, arg.UserID, arg.Limit)
if err != nil {
return nil, err
}
defer rows.Close()
var items []ListYouMightLikeArtistsForUserRow
for rows.Next() {
var i ListYouMightLikeArtistsForUserRow
if err := rows.Scan(
&i.Artist.ID,
&i.Artist.Name,
&i.Artist.SortName,
&i.Artist.Mbid,
&i.Artist.CreatedAt,
&i.Artist.UpdatedAt,
&i.Artist.ArtistThumbPath,
&i.Artist.ArtistFanartPath,
&i.Artist.ArtistArtSource,
&i.Artist.ArtistArtSourcesVersion,
&i.CoverAlbumID,
&i.AlbumCount,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
@@ -0,0 +1,3 @@
-- Reverse 0034_you_might_like.up.sql.
DROP TABLE IF EXISTS you_might_like_artists;
DROP TABLE IF EXISTS you_might_like_albums;
@@ -0,0 +1,36 @@
-- 0034_you_might_like.up.sql — "You might like" Home rows (#790).
--
-- Per-user ranked lists of IN-LIBRARY albums/artists the listener
-- doesn't actively spin but is predicted to enjoy, derived from the
-- same similarity + like-weighted candidate engine that powers For-You
-- (rolled up from track scores to album/artist). Built in the daily
-- 3am BuildSystemPlaylists pass and atomic-replaced, exactly like the
-- system playlists; read back by /api/home.
--
-- Two thin tables (id + rank) rather than denormalized snapshots: the
-- Home read path hydrates album/artist refs through the existing
-- albums/artists joins, so a later metadata edit is reflected without
-- a rebuild. CASCADE on user/album/artist deletes keeps them clean.
CREATE TABLE you_might_like_albums (
user_id uuid NOT NULL REFERENCES users(id) ON DELETE CASCADE,
album_id uuid NOT NULL REFERENCES albums(id) ON DELETE CASCADE,
rank integer NOT NULL,
built_at timestamptz NOT NULL DEFAULT now(),
PRIMARY KEY (user_id, album_id)
);
-- Read path orders by rank within a user; the index serves it directly.
CREATE INDEX you_might_like_albums_user_rank_idx
ON you_might_like_albums (user_id, rank);
CREATE TABLE you_might_like_artists (
user_id uuid NOT NULL REFERENCES users(id) ON DELETE CASCADE,
artist_id uuid NOT NULL REFERENCES artists(id) ON DELETE CASCADE,
rank integer NOT NULL,
built_at timestamptz NOT NULL DEFAULT now(),
PRIMARY KEY (user_id, artist_id)
);
CREATE INDEX you_might_like_artists_user_rank_idx
ON you_might_like_artists (user_id, rank);
@@ -0,0 +1,3 @@
-- Reverse 0035_taste_profile.up.sql.
DROP TABLE IF EXISTS taste_profile_tags;
DROP TABLE IF EXISTS taste_profile_artists;
@@ -0,0 +1,33 @@
-- 0035_taste_profile.up.sql — per-user taste profile (#796 phase 1).
--
-- A persistent, decaying model of each user's taste, rebuilt daily from
-- graded play engagement (completion + skip position) plus explicit
-- likes. Two facet tables: weighted artists and weighted genre tags.
-- Weight is a signed float — positive = drawn to, negative = (passively)
-- avoided; magnitude reflects decayed engagement. Phase 1 only BUILDS
-- these; consumption (candidate sourcing + scoring) lands in phase 2.
--
-- CASCADE on user/artist deletes keeps them clean. Indexed by
-- (user_id, weight DESC) to serve "top taste artists/tags" reads cheaply.
CREATE TABLE taste_profile_artists (
user_id uuid NOT NULL REFERENCES users(id) ON DELETE CASCADE,
artist_id uuid NOT NULL REFERENCES artists(id) ON DELETE CASCADE,
weight double precision NOT NULL,
updated_at timestamptz NOT NULL DEFAULT now(),
PRIMARY KEY (user_id, artist_id)
);
CREATE INDEX taste_profile_artists_user_weight_idx
ON taste_profile_artists (user_id, weight DESC);
CREATE TABLE taste_profile_tags (
user_id uuid NOT NULL REFERENCES users(id) ON DELETE CASCADE,
tag text NOT NULL,
weight double precision NOT NULL,
updated_at timestamptz NOT NULL DEFAULT now(),
PRIMARY KEY (user_id, tag)
);
CREATE INDEX taste_profile_tags_user_weight_idx
ON taste_profile_tags (user_id, weight DESC);
@@ -0,0 +1,2 @@
ALTER TABLE users DROP COLUMN IF EXISTS debug_mode_enabled;
DROP TABLE IF EXISTS diagnostic_events;
@@ -0,0 +1,54 @@
-- Device diagnostics / debug-reporting subsystem (M9).
--
-- When an account has users.debug_mode_enabled = true, that account's
-- client(s) stream a timeseries of device state here: connectivity +
-- server-health transitions (roaming / poor-data recovery), UPnP/Sonos
-- sync events (locked-phone desync), and power/lifecycle state (Doze /
-- battery-optimization, the prime suspect for the desync). The admin
-- /admin/diagnostics view filters by account + device + time window and
-- exports the slice as JSON for offline analysis.
--
-- `kind` is a COARSE category gated by a CHECK whitelist; the finer
-- event discriminator + all event-specific fields live in the `payload`
-- jsonb. This keeps the enum small and stable so new event variants
-- don't require a migration (per the enum-CHECK-whitelist rule, only a
-- new *category* would). If you add a category here, mirror it in the
-- handler whitelist in internal/api/diagnostics.go.
--
-- Two timestamps on purpose: occurred_at is the client device clock
-- (when the event happened on the phone — may be skewed/wrong, e.g. in
-- a dead zone), received_at is the server clock at ingest. Retention
-- pruning is keyed on received_at so a bad client clock can't keep rows
-- alive forever.
CREATE TABLE diagnostic_events (
id uuid PRIMARY KEY DEFAULT gen_random_uuid(),
user_id uuid NOT NULL REFERENCES users(id) ON DELETE CASCADE,
client_id text NOT NULL,
app_version text,
os_version text,
kind text NOT NULL,
payload jsonb NOT NULL DEFAULT '{}'::jsonb,
occurred_at timestamptz NOT NULL,
received_at timestamptz NOT NULL DEFAULT now(),
CONSTRAINT diagnostic_events_kind_check
CHECK (kind IN (
'connectivity', 'upnp_sync', 'power', 'lifecycle',
'heartbeat', 'http'
))
);
-- Admin reads filter by account then device, ordered newest-first.
CREATE INDEX idx_diagnostic_events_user
ON diagnostic_events (user_id, occurred_at DESC);
CREATE INDEX idx_diagnostic_events_client
ON diagnostic_events (client_id, occurred_at DESC);
-- Retention pruner deletes by server-clock age.
CREATE INDEX idx_diagnostic_events_received
ON diagnostic_events (received_at);
-- Per-account opt-in for diagnostics reporting. Admin-set primarily
-- (flip remotely while a bug is live); the client also exposes a local
-- OFF switch. Default false: no account reports until explicitly enabled.
ALTER TABLE users
ADD COLUMN IF NOT EXISTS debug_mode_enabled boolean NOT NULL DEFAULT false;
@@ -0,0 +1,9 @@
-- Drop rows using the new value first so they don't violate the restored
-- (narrower) constraint, then revert the whitelist.
DELETE FROM diagnostic_events WHERE kind = 'playback';
ALTER TABLE diagnostic_events DROP CONSTRAINT diagnostic_events_kind_check;
ALTER TABLE diagnostic_events ADD CONSTRAINT diagnostic_events_kind_check
CHECK (kind IN (
'connectivity', 'upnp_sync', 'power', 'lifecycle',
'heartbeat', 'http'
));
@@ -0,0 +1,19 @@
-- Add 'playback' to the diagnostic_events kind whitelist (M9 follow-up).
--
-- `route` and `player_state` events fire for EVERY output route (phone
-- speaker, Bluetooth, UPnP/Sonos), so bucketing them under 'upnp_sync'
-- was misleading — an operator on Bluetooth earbuds saw "upnp_sync"
-- rows. 'upnp_sync' now means genuinely UPnP/Sonos-specific signal
-- (drops, and future resync/desync); general playback + route telemetry
-- moves to the new 'playback' kind.
--
-- Per the enum-CHECK-whitelist rule, the new value lands by dropping and
-- re-adding the constraint in the same change. Existing rows tagged
-- 'upnp_sync' stay as-is (debug telemetry on a 30-day retention).
ALTER TABLE diagnostic_events DROP CONSTRAINT diagnostic_events_kind_check;
ALTER TABLE diagnostic_events ADD CONSTRAINT diagnostic_events_kind_check
CHECK (kind IN (
'connectivity', 'upnp_sync', 'power', 'lifecycle',
'heartbeat', 'http', 'playback'
));
+66
View File
@@ -0,0 +1,66 @@
-- name: InsertDiagnosticEvent :one
-- Records one client-reported diagnostic event. The writer validates the
-- `kind` category against its whitelist before this runs; the CHECK
-- constraint is the belt-and-braces guard. payload carries the finer
-- event discriminator + all event-specific fields. Returns received_at
-- so the caller can confirm ingest.
INSERT INTO diagnostic_events (
user_id, client_id, app_version, os_version, kind, payload, occurred_at
)
VALUES ($1, $2, $3, $4, $5, $6, $7)
RETURNING id, received_at;
-- name: ListAdminDiagnostics :many
-- Admin timeline query. All filters are optional (NULL = no filter):
-- account (user_id), device (client_id), category (kind), and the
-- occurred_at window (from_ts/to_ts). Newest-first; the SPA reverses for
-- a chronological timeline / export. Joined with users for the username
-- so the view renders without a second round-trip.
SELECT
de.id AS id,
de.user_id AS user_id,
u.username AS username,
de.client_id AS client_id,
de.app_version AS app_version,
de.os_version AS os_version,
de.kind AS kind,
de.payload AS payload,
de.occurred_at AS occurred_at,
de.received_at AS received_at
FROM diagnostic_events de
JOIN users u ON u.id = de.user_id
WHERE (sqlc.narg(user_id)::uuid IS NULL OR de.user_id = sqlc.narg(user_id)::uuid)
AND (sqlc.narg(client_id)::text IS NULL OR de.client_id = sqlc.narg(client_id)::text)
AND (sqlc.narg(kind)::text IS NULL OR de.kind = sqlc.narg(kind)::text)
AND (sqlc.narg(from_ts)::timestamptz IS NULL
OR de.occurred_at >= sqlc.narg(from_ts)::timestamptz)
AND (sqlc.narg(to_ts)::timestamptz IS NULL
OR de.occurred_at <= sqlc.narg(to_ts)::timestamptz)
ORDER BY de.occurred_at DESC
LIMIT sqlc.arg(lim)::int OFFSET sqlc.arg(off)::int;
-- name: ListDiagnosticDevices :many
-- Distinct devices that have reported, for the admin device filter +
-- "who is currently reporting" overview. Optionally scoped to one account.
SELECT
de.client_id AS client_id,
de.user_id AS user_id,
u.username AS username,
max(de.app_version)::text AS app_version,
max(de.os_version)::text AS os_version,
max(de.occurred_at)::timestamptz AS last_seen,
count(*) AS event_count
FROM diagnostic_events de
JOIN users u ON u.id = de.user_id
WHERE (sqlc.narg(user_id)::uuid IS NULL OR de.user_id = sqlc.narg(user_id)::uuid)
GROUP BY de.client_id, de.user_id, u.username
ORDER BY last_seen DESC;
-- name: GcPruneDiagnostics :execrows
-- Retention sweep for the gc worker. Deletes diagnostic_events older
-- than 30 days by server clock (received_at) so a skewed client clock
-- can't keep rows alive. Matches the other gc lifecycle sweeps'
-- hardcoded-threshold style; diagnostics are debug telemetry, not user
-- data, and 30 days is ample to investigate a live incident after the
-- fact. Returns the affected row count for the sweep log line.
DELETE FROM diagnostic_events WHERE received_at < now() - INTERVAL '30 days';
+19 -2
View File
@@ -33,10 +33,14 @@ WHERE t.id <> $2
);
-- name: LoadRadioCandidatesV2 :many
-- M4c: similarity-driven candidate pool. 5-way UNION:
-- M4c: similarity-driven candidate pool. 6-way UNION:
-- $1 user_id, $2 seed_track_id, $3 recently_played_hours,
-- $4 exclude (uuid[]), $5 lb_similar K, $6 similar_artists K,
-- $7 tag_overlap K, $8 likes_overlap K, $9 random_fill K.
-- $7 tag_overlap K, $8 likes_overlap K, $9 random_fill K,
-- $10 taste_overlap K (#796 phase 2b — tracks by the user's top
-- positively-weighted taste-profile artists, so taste-relevant tracks
-- enter the pool even when the similarity/random arms miss them; scored
-- in Go via TasteMatch, so sim_score here is 0 pool-inclusion).
-- Returns same shape as LoadRadioCandidates plus similarity_score column.
WITH
@@ -109,6 +113,17 @@ likes_overlap AS (
ORDER BY random()
LIMIT $8
),
taste_overlap AS (
SELECT t.id AS track_id, 0.0::float8 AS sim_score
FROM taste_profile_artists tpa
JOIN tracks t ON t.artist_id = tpa.artist_id
WHERE tpa.user_id = $1
AND tpa.weight > 0
AND t.id NOT IN (SELECT id FROM excluded_ids)
AND t.id <> $2
ORDER BY tpa.weight DESC, t.id
LIMIT $10
),
random_fill AS (
SELECT t.id AS track_id, 0.0::float8 AS sim_score
FROM tracks t
@@ -119,6 +134,7 @@ random_fill AS (
UNION SELECT track_id FROM similar_artists
UNION SELECT track_id FROM tag_overlap
UNION SELECT track_id FROM likes_overlap
UNION SELECT track_id FROM taste_overlap
)
ORDER BY random()
LIMIT $9
@@ -135,6 +151,7 @@ FROM (
UNION ALL SELECT track_id, sim_score FROM similar_artists
UNION ALL SELECT track_id, sim_score FROM tag_overlap
UNION ALL SELECT track_id, sim_score FROM likes_overlap
UNION ALL SELECT track_id, sim_score FROM taste_overlap
UNION ALL SELECT track_id, sim_score FROM random_fill
) u
JOIN tracks t ON t.id = u.track_id
@@ -0,0 +1,22 @@
-- Recommendation observability (#796 phase 4). Per-source play outcomes so the
-- operator can see whether each recommendation surface is landing and tune the
-- taste weights. Source is stamped on play_events when a play is launched from
-- a system-playlist surface ('for_you' | 'discover' | the discovery mixes);
-- NULL for library / radio / user-playlist plays, which are excluded here.
-- name: RecommendationSourceMetricsForUser :many
-- $1 user_id, $2 window_days. plays/skips are counts; avg_completion is the
-- mean completion ratio over plays that recorded one (0 when none did).
SELECT
pe.source,
count(*)::bigint AS plays,
count(*) FILTER (WHERE pe.was_skipped)::bigint AS skips,
COALESCE(
avg(pe.completion_ratio) FILTER (WHERE pe.completion_ratio IS NOT NULL),
0)::float8 AS avg_completion
FROM play_events pe
WHERE pe.user_id = $1
AND pe.source IS NOT NULL
AND pe.started_at > now() - ($2::float8 * INTERVAL '1 day')
GROUP BY pe.source
ORDER BY plays DESC;
+66
View File
@@ -0,0 +1,66 @@
-- Taste profile (#796 phase 1). The daily build computes signed artist/tag
-- weights in Go (graded engagement + decay + like bonus) and atomic-replaces
-- them here. Read queries serve "top taste" lookups (used in phase 2).
-- name: ListPlayEngagementInputsForUser :many
-- One row per play in the decay-relevant window. completion is the play's
-- completion ratio (precomputed column when present, else duration_played /
-- track duration, clamped to [0,1]); age_days drives the time-decay. Genre
-- is split into tags in Go. Quarantined tracks are excluded.
SELECT
t.artist_id,
t.genre,
LEAST(GREATEST(
COALESCE(pe.completion_ratio,
pe.duration_played_ms::float8 / NULLIF(t.duration_ms, 0),
0), 0), 1)::float8 AS completion,
(EXTRACT(epoch FROM now() - pe.started_at) / 86400.0)::float8 AS age_days
FROM play_events pe
JOIN tracks t ON t.id = pe.track_id
WHERE pe.user_id = $1
AND pe.started_at > now() - ($2::float8 * INTERVAL '1 day')
AND NOT EXISTS (
SELECT 1 FROM lidarr_quarantine q
WHERE q.user_id = $1 AND q.track_id = t.id
);
-- name: ListLikedTrackTasteInputsForUser :many
-- (artist_id, genre) for each track the user has explicitly liked. Feeds the
-- track-like bonus into the liked track's artist and tags.
SELECT t.artist_id, t.genre
FROM general_likes gl
JOIN tracks t ON t.id = gl.track_id
WHERE gl.user_id = $1;
-- name: ListLikedArtistIDsForUser :many
-- Artists the user has explicitly liked; feeds the artist-like bonus.
SELECT artist_id FROM general_likes_artists WHERE user_id = $1;
-- name: DeleteTasteProfileArtistsForUser :exec
DELETE FROM taste_profile_artists WHERE user_id = $1;
-- name: InsertTasteProfileArtist :exec
INSERT INTO taste_profile_artists (user_id, artist_id, weight)
VALUES ($1, $2, $3);
-- name: DeleteTasteProfileTagsForUser :exec
DELETE FROM taste_profile_tags WHERE user_id = $1;
-- name: InsertTasteProfileTag :exec
INSERT INTO taste_profile_tags (user_id, tag, weight)
VALUES ($1, $2, $3);
-- name: ListTasteProfileArtistsForUser :many
-- Top-weighted taste artists (phase-2 consumption + tests).
SELECT artist_id, weight
FROM taste_profile_artists
WHERE user_id = $1
ORDER BY weight DESC
LIMIT $2;
-- name: ListTasteProfileTagsForUser :many
SELECT tag, weight
FROM taste_profile_tags
WHERE user_id = $1
ORDER BY weight DESC
LIMIT $2;
+11 -1
View File
@@ -55,7 +55,8 @@ WHERE id = $1;
-- name: ListUsers :many
-- Admin user-management list. Sort newest-first.
SELECT id, username, display_name, is_admin, auto_approve_requests, created_at
SELECT id, username, display_name, is_admin, auto_approve_requests,
debug_mode_enabled, created_at
FROM users
ORDER BY created_at DESC;
@@ -115,6 +116,15 @@ UPDATE users
WHERE id = $1
RETURNING *;
-- name: SetDebugMode :one
-- Toggle the per-account diagnostics/debug-reporting opt-in. Admin-driven
-- from /admin (flip remotely while a bug is live) or self-driven OFF from
-- the client. Returns the updated row so the handler can echo it.
UPDATE users
SET debug_mode_enabled = $2
WHERE id = $1
RETURNING *;
-- name: ChangeUserPassword :exec
-- Self-service password change. Caller (HTTP handler) verifies the
-- current password before calling this. Distinct from
+125
View File
@@ -0,0 +1,125 @@
-- "You might like" Home rows (#790). The daily build computes ranked
-- album/artist IDs in Go (similarity roll-up + cold-start gate) and
-- atomic-replaces them here; /api/home reads them back hydrated.
-- name: CountListeningSignalForUser :one
-- Cold-start gate. Returns the breadth of the user's real listening:
-- distinct unskipped tracks played and distinct artists played. The
-- build skips You-might-like entirely below a threshold (a thin history
-- yields near-random roll-ups). was_skipped=false so a user spamming
-- next can't inflate the signal.
SELECT
count(DISTINCT pe.track_id)::bigint AS distinct_tracks,
count(DISTINCT t.artist_id)::bigint AS distinct_artists
FROM play_events pe
JOIN tracks t ON t.id = pe.track_id
WHERE pe.user_id = $1 AND pe.was_skipped = false;
-- name: DeleteYouMightLikeAlbumsForUser :exec
DELETE FROM you_might_like_albums WHERE user_id = $1;
-- name: InsertYouMightLikeAlbum :exec
INSERT INTO you_might_like_albums (user_id, album_id, rank)
VALUES ($1, $2, $3);
-- name: DeleteYouMightLikeArtistsForUser :exec
DELETE FROM you_might_like_artists WHERE user_id = $1;
-- name: InsertYouMightLikeArtist :exec
INSERT INTO you_might_like_artists (user_id, artist_id, rank)
VALUES ($1, $2, $3);
-- name: ListYouMightLikeAlbumsForUser :many
-- Read path. Same projection as ListRediscoverAlbumsForUser so the API
-- layer reuses albumRefFrom(row.Album, row.ArtistName, …). Ordered by
-- the rank persisted at build time. Final cross-section dedup (vs Most
-- Played / Rediscover) and the output cap land in the Go layer
-- (internal/recommendation/home.go).
SELECT sqlc.embed(albums), artists.name AS artist_name
FROM you_might_like_albums yml
JOIN albums ON albums.id = yml.album_id
JOIN artists ON artists.id = albums.artist_id
WHERE yml.user_id = $1
ORDER BY yml.rank
LIMIT $2;
-- name: ListYouMightLikeArtistsForUser :many
-- Read path. Same projection as ListRediscoverArtistsForUser (embeds the
-- artist + a representative cover_album_id + album_count) so the API
-- layer reuses artistRefFromCovered. Ordered by persisted rank.
SELECT sqlc.embed(artists),
cov.id AS cover_album_id,
cnt.album_count::bigint AS album_count
FROM you_might_like_artists yml
JOIN artists ON artists.id = yml.artist_id
LEFT JOIN LATERAL (
SELECT id FROM albums
WHERE artist_id = artists.id AND cover_art_path IS NOT NULL
ORDER BY created_at DESC LIMIT 1
) cov ON true
LEFT JOIN LATERAL (
SELECT count(*) AS album_count
FROM albums WHERE artist_id = artists.id
) cnt ON true
WHERE yml.user_id = $1
ORDER BY yml.rank
LIMIT $2;
-- name: ListYouMightLikeArtistFallbackForUser :many
-- Broad "artists you've shown affinity for" pool to fill a thin
-- You-might-like artists row: explicitly liked artists PLUS the artists of
-- liked albums and liked tracks. Most users like albums/tracks far more than
-- they like artists explicitly, so the union is much deeper than
-- general_likes_artists alone. Daily-stable order; same projection as
-- ListYouMightLikeArtistsForUser so the Go layer reuses it directly.
WITH liked_artist_ids AS (
SELECT lika.artist_id AS artist_id
FROM general_likes_artists lika
WHERE lika.user_id = $1
UNION
SELECT alb.artist_id AS artist_id
FROM general_likes_albums likb
JOIN albums alb ON alb.id = likb.album_id
WHERE likb.user_id = $1
UNION
SELECT trk.artist_id AS artist_id
FROM general_likes likt
JOIN tracks trk ON trk.id = likt.track_id
WHERE likt.user_id = $1
)
SELECT sqlc.embed(artists),
cov.id AS cover_album_id,
cnt.album_count::bigint AS album_count
FROM liked_artist_ids lai
JOIN artists ON artists.id = lai.artist_id
LEFT JOIN LATERAL (
SELECT id FROM albums
WHERE artist_id = artists.id AND cover_art_path IS NOT NULL
ORDER BY created_at DESC LIMIT 1
) cov ON true
LEFT JOIN LATERAL (
SELECT count(*) AS album_count
FROM albums WHERE artist_id = artists.id
) cnt ON true
ORDER BY md5(artists.id::text || current_date::text)
LIMIT $2;
-- name: ListYouMightLikeAlbumFallbackForUser :many
-- Broad "albums you've shown affinity for" pool: explicitly liked albums PLUS
-- the albums of liked tracks. Same projection as ListYouMightLikeAlbumsForUser.
WITH liked_album_ids AS (
SELECT likb.album_id AS album_id
FROM general_likes_albums likb
WHERE likb.user_id = $1
UNION
SELECT trk.album_id AS album_id
FROM general_likes likt
JOIN tracks trk ON trk.id = likt.track_id
WHERE likt.user_id = $1
)
SELECT sqlc.embed(albums), artists.name AS artist_name
FROM liked_album_ids lai
JOIN albums ON albums.id = lai.album_id
JOIN artists ON artists.id = albums.artist_id
ORDER BY md5(albums.id::text || current_date::text)
LIMIT $2;
+2
View File
@@ -16,6 +16,7 @@
// - GcExpireScrobbleQueueFailedRows (#567)
// - GcResetStuckSystemPlaylistRuns (#574)
// - GcDeleteExpiredPasswordResets (#575)
// - GcPruneDiagnostics (M9 — diagnostics 30d retention)
package gc
import (
@@ -82,6 +83,7 @@ func (w *Worker) tickOnce(ctx context.Context) {
w.runSweep(ctx, "expire_scrobble_failed", q.GcExpireScrobbleQueueFailedRows)
w.runSweep(ctx, "reset_stuck_system_runs", q.GcResetStuckSystemPlaylistRuns)
w.runSweep(ctx, "delete_expired_password_resets", q.GcDeleteExpiredPasswordResets)
w.runSweep(ctx, "prune_diagnostics", q.GcPruneDiagnostics)
}
// runSweep is a small adapter so each sweep call site is a one-liner
+37 -7
View File
@@ -180,6 +180,12 @@ func (w *Writer) RecordPlayEnded(
if err != nil {
return err
}
// Idempotency for the client's durable close-by-id replay: if the
// row is already closed, re-applying the close is harmless (the
// UPDATE is last-write-wins) but a second skip_events insert must
// NOT fire — a lost-response retry would otherwise double the
// skip signal. See the 2026-06-11 contract audit.
alreadyEnded := ev.EndedAt.Valid
ratio := 0.0
if track.DurationMs > 0 {
ratio = float64(durationPlayedMs) / float64(track.DurationMs)
@@ -196,7 +202,7 @@ func (w *Writer) RecordPlayEnded(
}); err != nil {
return err
}
if isSkip {
if isSkip && !alreadyEnded {
if _, err := q.InsertSkipEvent(ctx, dbq.InsertSkipEventParams{
UserID: ev.UserID,
TrackID: ev.TrackID,
@@ -356,6 +362,24 @@ func (w *Writer) RecordOfflinePlay(
if err != nil {
return err
}
// Idempotency: the offline queue is at-least-once, so a response lost
// after commit makes the client re-fire the same play. The replayed
// payload carries the original `at`, so an exact (user, track,
// started_at) match means we already recorded it — no-op instead of a
// duplicate history row. See the 2026-06-11 contract audit.
var dupID pgtype.UUID
err = tx.QueryRow(ctx,
`SELECT id FROM play_events
WHERE user_id = $1 AND track_id = $2 AND started_at = $3
LIMIT 1`,
userID, trackID, pgtype.Timestamptz{Time: at, Valid: true},
).Scan(&dupID)
if err == nil {
return nil
}
if !errors.Is(err, pgx.ErrNoRows) {
return err
}
if err := w.autoClosePriorOpen(ctx, q, userID, at); err != nil {
return err
}
@@ -471,10 +495,15 @@ func (w *Writer) captureSessionVector(
}
// autoClosePriorOpen closes any open (ended_at IS NULL) play_event for the
// user. Sets ended_at = at, duration_played_ms = min(at - started_at, track
// duration), was_skipped = true. Skip rule is NOT applied — auto-closed
// rows are flagged skipped regardless because we don't know what the user
// actually heard.
// user. Sets ended_at = at and duration_played_ms = min(at - started_at,
// track duration) — our best estimate of how long the orphan played when
// the client never sent play_ended (e.g. backgrounded mid-track). The same
// skip rule as RecordPlayEnded is then applied to that estimate: an orphan
// that sat open past the track's length reads as ratio ~1 → a real play, so
// a fully-listened track that lost its close still lands in history instead
// of being force-hidden. Deliberately writes no skip_events row — an
// auto-close is an ambiguous signal, not a deliberate skip, and must not
// feed the skip-ratio / recommendation signal.
func (w *Writer) autoClosePriorOpen(
ctx context.Context,
q *dbq.Queries,
@@ -503,6 +532,7 @@ func (w *Writer) autoClosePriorOpen(
if track.DurationMs > 0 {
ratio = float64(elapsedMs) / float64(track.DurationMs)
}
isSkip := ratio < w.skipMaxCompletionRatio && elapsedMs < w.skipMaxDurationPlayedMs
ratioPtr := ratio
durPtr := elapsedMs
if _, err := q.UpdatePlayEventEnded(ctx, dbq.UpdatePlayEventEndedParams{
@@ -510,11 +540,11 @@ func (w *Writer) autoClosePriorOpen(
EndedAt: pgtype.Timestamptz{Time: at, Valid: true},
DurationPlayedMs: &durPtr,
CompletionRatio: &ratioPtr,
WasSkipped: true,
WasSkipped: isSkip,
}); err != nil {
return err
}
w.logger.Info("playevents: auto-closed prior open row",
"play_event_id", prior.ID, "elapsed_ms", elapsedMs)
"play_event_id", prior.ID, "elapsed_ms", elapsedMs, "was_skipped", isSkip)
return nil
}
+69 -2
View File
@@ -122,14 +122,32 @@ func TestRecordPlayStarted_AutoClosesPriorOpenRow(t *testing.T) {
if !prior.EndedAt.Valid {
t.Errorf("prior should be closed")
}
if !prior.WasSkipped {
t.Errorf("prior should be marked was_skipped=true (auto-close convention)")
// 45s elapsed on a 200s track clears the 30s duration threshold, so the
// skip rule's AND fails -> NOT a skip. An orphan that played long enough
// to count must still land in history rather than being force-hidden.
if prior.WasSkipped {
t.Errorf("auto-close at 45s should apply the skip rule -> was_skipped=false")
}
if prior.DurationPlayedMs == nil || *prior.DurationPlayedMs != 45_000 {
t.Errorf("duration_played_ms = %v, want 45000", prior.DurationPlayedMs)
}
}
func TestRecordPlayStarted_AutoCloseShortPlayIsSkip(t *testing.T) {
f := newFixture(t, 200_000)
t1 := time.Now().UTC()
first, _ := f.w.RecordPlayStarted(context.Background(), f.user, f.track, "c", t1)
// 5s elapsed: ratio 0.025 < 0.5 AND 5000 < 30000 -> both fail -> a skip.
t2 := t1.Add(5 * time.Second)
if _, err := f.w.RecordPlayStarted(context.Background(), f.user, f.track, "c", t2); err != nil {
t.Fatalf("second: %v", err)
}
prior, _ := f.q.GetPlayEventByID(context.Background(), first.PlayEventID)
if !prior.WasSkipped {
t.Errorf("auto-close at 5s should be was_skipped=true")
}
}
func TestRecordPlayStarted_AutoCloseCapsAtTrackDuration(t *testing.T) {
f := newFixture(t, 60_000) // 60s track
t1 := time.Now().UTC()
@@ -201,6 +219,55 @@ func TestRecordPlayEnded_DurationOver50Percent_NotSkip(t *testing.T) {
}
}
// A lost-response retry of an offline play (same user/track/started_at)
// must not create a second history row. Guards the at-least-once replay
// path added in the 2026-06-11 audit.
func TestRecordOfflinePlay_DedupsByUserTrackStartedAt(t *testing.T) {
f := newFixture(t, 200_000)
ctx := context.Background()
at := time.Now().UTC()
if err := f.w.RecordOfflinePlay(ctx, f.user, f.track, "c", "", at, 120_000); err != nil {
t.Fatalf("first offline: %v", err)
}
if err := f.w.RecordOfflinePlay(ctx, f.user, f.track, "c", "", at, 120_000); err != nil {
t.Fatalf("replay offline: %v", err)
}
var count int
if err := f.pool.QueryRow(ctx,
"SELECT COUNT(*) FROM play_events WHERE user_id=$1 AND track_id=$2 AND started_at=$3",
f.user, f.track, pgtype.Timestamptz{Time: at, Valid: true}).Scan(&count); err != nil {
t.Fatalf("count: %v", err)
}
if count != 1 {
t.Errorf("play_events count = %d, want 1 (deduped)", count)
}
}
// Re-closing an already-ended row (the client's durable close-by-id replay)
// updates the row but must NOT insert a second skip_events row.
func TestRecordPlayEnded_IdempotentClose_NoDuplicateSkipEvent(t *testing.T) {
f := newFixture(t, 200_000)
ctx := context.Background()
t1 := time.Now().UTC()
res, _ := f.w.RecordPlayStarted(ctx, f.user, f.track, "c", t1)
t2 := t1.Add(10 * time.Second) // 5% / 10s -> skip
if err := f.w.RecordPlayEnded(ctx, res.PlayEventID, 10_000, t2); err != nil {
t.Fatalf("first end: %v", err)
}
if err := f.w.RecordPlayEnded(ctx, res.PlayEventID, 10_000, t2); err != nil {
t.Fatalf("replay end: %v", err)
}
var count int
if err := f.pool.QueryRow(ctx,
"SELECT COUNT(*) FROM skip_events WHERE user_id=$1 AND track_id=$2",
f.user, f.track).Scan(&count); err != nil {
t.Fatalf("count: %v", err)
}
if count != 1 {
t.Errorf("skip_events count = %d, want 1 (idempotent close)", count)
}
}
func TestRecordPlaySkipped_AlwaysSkipFlagAndSkipEventRow(t *testing.T) {
f := newFixture(t, 200_000)
t1 := time.Now().UTC()
+48 -10
View File
@@ -28,6 +28,8 @@ import (
"github.com/jackc/pgx/v5/pgxpool"
"git.fabledsword.com/bvandeusen/minstrel/internal/db/dbq"
"git.fabledsword.com/bvandeusen/minstrel/internal/eventbus"
"git.fabledsword.com/bvandeusen/minstrel/internal/taste"
)
// dailyRebuildHour is the local-time hour at which each user's system
@@ -46,14 +48,21 @@ type Scheduler struct {
pool *pgxpool.Pool
logger *slog.Logger
dataDir string
bus *eventbus.Bus // #968: announce rebuilds so clients self-refresh
mu sync.Mutex
jobs map[pgtype.UUID]uuid.UUID // user_id → gocron job id
}
// NewScheduler builds an idle scheduler. Caller must invoke Start
// before any builds fire.
func NewScheduler(pool *pgxpool.Pool, logger *slog.Logger, dataDir string) (*Scheduler, error) {
// before any builds fire. bus may be nil (tests); rebuild events are
// then skipped.
func NewScheduler(
pool *pgxpool.Pool,
logger *slog.Logger,
dataDir string,
bus *eventbus.Bus,
) (*Scheduler, error) {
g, err := gocron.NewScheduler()
if err != nil {
return nil, fmt.Errorf("init gocron: %w", err)
@@ -63,6 +72,7 @@ func NewScheduler(pool *pgxpool.Pool, logger *slog.Logger, dataDir string) (*Sch
pool: pool,
logger: logger,
dataDir: dataDir,
bus: bus,
jobs: map[pgtype.UUID]uuid.UUID{},
}, nil
}
@@ -158,10 +168,7 @@ func (s *Scheduler) registerLocked(ctx context.Context, userID pgtype.UUID, tz s
job, err := s.gocron.NewJob(
gocron.CronJob(cronExpr, false /* withSeconds */),
gocron.NewTask(func() {
if err := BuildSystemPlaylists(ctx, s.pool, s.logger, userID, time.Now(), s.dataDir); err != nil {
s.logger.Warn("scheduler: build failed",
"user_id", uuidStringPL(userID), "err", err)
}
s.rebuildUserDaily(ctx, userID, time.Now())
}),
)
if err != nil {
@@ -220,13 +227,44 @@ func (s *Scheduler) reconcile(ctx context.Context) {
// whose scheduled fire was missed during downtime get caught up.
func (s *Scheduler) runStartupCatchUp(ctx context.Context, users []dbq.ListActiveUsersWithTimezonesRow) {
for _, u := range users {
if err := BuildSystemPlaylists(ctx, s.pool, s.logger, u.ID, time.Now(), s.dataDir); err != nil {
s.logger.Warn("scheduler: startup catch-up build failed",
"user_id", uuidStringPL(u.ID), "err", err)
}
s.rebuildUserDaily(ctx, u.ID, time.Now())
}
}
// rebuildUserDaily recomputes the user's taste profile, then rebuilds their
// system playlists + You-might-like rows. Taste runs first so the playlist
// build can read a fresh profile (phase-2 consumption); both steps are
// best-effort and a failure in one is logged without blocking the other.
func (s *Scheduler) rebuildUserDaily(ctx context.Context, userID pgtype.UUID, now time.Time) {
if err := taste.BuildTasteProfile(ctx, s.pool, s.logger, userID, taste.DefaultConfig()); err != nil {
s.logger.Warn("scheduler: taste profile rebuild failed",
"user_id", uuidStringPL(userID), "err", err)
}
if err := BuildSystemPlaylists(ctx, s.pool, s.logger, userID, now, s.dataDir); err != nil {
s.logger.Warn("scheduler: build failed",
"user_id", uuidStringPL(userID), "err", err)
return
}
// #968: tell the user's connected clients their home content was
// regenerated, so a tab/app left open across the rebuild refreshes its
// system-playlist + You-might-like views (and a stale active queue can
// re-pull) instead of serving yesterday's snapshot until a manual reload.
s.publishRebuilt(userID)
}
// publishRebuilt broadcasts a user-scoped "system playlists rebuilt" event.
// No-op when the bus is nil (test construction).
func (s *Scheduler) publishRebuilt(userID pgtype.UUID) {
if s.bus == nil {
return
}
s.bus.Publish(eventbus.Event{
Kind: "playlist.system_rebuilt",
UserID: uuidStringPL(userID),
Data: map[string]any{},
})
}
// Stop drains gocron and stops the scheduler loop.
func (s *Scheduler) Stop() {
if err := s.gocron.Shutdown(); err != nil {
+45 -2
View File
@@ -5,6 +5,7 @@
package playlists
import (
"bytes"
"context"
"crypto/sha256"
"encoding/binary"
@@ -147,6 +148,11 @@ var systemMixWeights = recommendation.ScoringWeights{
JitterMagnitude: 0.1,
ContextWeight: 0.5,
SimilarityWeight: 1.5,
// Taste profile (#796 phase 2): the daily mixes are the primary
// taste-driven surface, so they lean on it. TasteMatchScore is in
// [-1,+1], so 1.5 makes a strong taste fit comparable to a like boost
// while passive avoidance (negative) gently demotes.
TasteWeight: 1.5,
}
// forYouHeadN is the number of top-scored tracks that anchor the For-You
@@ -180,8 +186,21 @@ func scoreAndSortCandidates(cands []recommendation.Candidate, userID pgtype.UUID
c recommendation.Candidate
score float64
}
pairs := make([]scored, len(cands))
for i, c := range cands {
// Pin candidate order by track id before drawing jitter. The candidate
// query (LoadRadioCandidatesV2) has ORDER BY random() arms and no
// stable outer ordering, so DB row order varies call-to-call. Since
// the i-th candidate gets the i-th seeded jitter draw, an unstable
// input order would assign different jitter to the same track across
// same-day rebuilds and reorder near-ties — breaking the daily
// determinism this function promises. Sorting by id first makes the
// jitter assignment a function of (track, day) alone.
ordered := make([]recommendation.Candidate, len(cands))
copy(ordered, cands)
sort.SliceStable(ordered, func(i, j int) bool {
return uuidLessPL(ordered[i].Track.ID, ordered[j].Track.ID)
})
pairs := make([]scored, len(ordered))
for i, c := range ordered {
pairs[i] = scored{c: c, score: recommendation.Score(c.Inputs, systemMixWeights, now, rng.Float64)}
}
sort.SliceStable(pairs, func(i, j int) bool {
@@ -310,6 +329,10 @@ func systemForYouSourceLimits() recommendation.CandidateSourceLimits {
TagOverlap: 60,
LikesOverlap: 40,
RandomFill: 150,
// For-You / You-might-like are the taste-driven surfaces, so pull a
// deep slice of the user's top taste-profile artists into the pool
// (#796 phase 2b). Empty for cold-start users (no profile yet).
TasteOverlap: 80,
}
}
@@ -497,6 +520,13 @@ func BuildSystemPlaylists(ctx context.Context, pool *pgxpool.Pool, logger *slog.
built = append(built, out...)
}
// "You might like" Home rows reuse the same similarity engine but
// persist to dedicated album/artist tables (not playlist_tracks).
// Computed here (reads only) and atomic-replaced inside the tx below,
// alongside the system playlists. A failed/gated computation is
// handled by yml.built (leave prior rows vs. clear) — never fatal.
yml := buildYouMightLike(ctx, q, logger, userID, dateStr, now)
// Atomic replace inside a transaction.
tx, err := pool.Begin(ctx)
if err != nil {
@@ -530,6 +560,13 @@ func BuildSystemPlaylists(ctx context.Context, pool *pgxpool.Pool, logger *slog.
createdIDs = append(createdIDs, id)
}
if yml.built {
if err := persistYouMightLike(ctx, qtx, userID, yml); err != nil {
buildErr = fmt.Errorf("persist you-might-like: %w", err)
return buildErr
}
}
if err := tx.Commit(ctx); err != nil {
buildErr = fmt.Errorf("commit tx: %w", err)
return buildErr
@@ -695,6 +732,12 @@ func insertSystemPlaylist(ctx context.Context, qtx *dbq.Queries, userID pgtype.U
// (pgtype.UUID's String method exists on some pgx versions but not others;
// also the playlists package needs this independent of test helpers.)
// Suffix `PL` distinguishes it from any test helper named uuidString.
// uuidLessPL reports whether a sorts before b by raw 16-byte value. Used
// to pin candidate order deterministically before jitter assignment.
func uuidLessPL(a, b pgtype.UUID) bool {
return bytes.Compare(a.Bytes[:], b.Bytes[:]) < 0
}
func uuidStringPL(u pgtype.UUID) string {
if !u.Valid {
return "<nil>"
+233
View File
@@ -0,0 +1,233 @@
// you_might_like.go builds the per-user "You might like" Home rows
// (#790): in-library albums/artists the listener doesn't actively spin
// but is predicted to enjoy. It reuses the For-You candidate engine
// (similarity + like-weighted scoring) and rolls the per-track scores up
// to album/artist granularity, gated on a minimum listening history so a
// near-empty profile ships nothing rather than noise.
//
// Built in the same daily BuildSystemPlaylists pass and atomic-replaced
// alongside the system playlists; read back by /api/home.
package playlists
import (
"context"
"fmt"
"log/slog"
"math/rand"
"sort"
"time"
"github.com/jackc/pgx/v5/pgtype"
"git.fabledsword.com/bvandeusen/minstrel/internal/db/dbq"
"git.fabledsword.com/bvandeusen/minstrel/internal/recommendation"
)
const (
// Cold-start gate. Below this much *real* listening the similarity
// roll-up degrades toward random fill, so You-might-like ships
// nothing rather than arbitrary tiles. Both bars must clear: distinct
// tracks rules out "played 3 songs on repeat," distinct artists rules
// out "hammered one album." Conservative defaults; raise if early
// rows feel random on thin libraries.
youMightLikeMinDistinctTracks = 20
youMightLikeMinDistinctArtists = 5
// Persisted depth — a few more than the rendered HomeYouMightLikeLimit
// so the read-time cross-section dedup (vs Most Played / Rediscover)
// has headroom before trimming.
youMightLikeAlbumsN = 12
youMightLikeArtistsN = 12
// One strongly-matched artist shouldn't fill the albums row.
youMightLikeMaxAlbumsPerArtist = 2
// Aggregation: sum of an entity's top-K track scores. Favors albums/
// artists with several good matches over a single outlier track.
youMightLikeAggTopK = 3
)
// youMightLikeResult carries one day's roll-up. built=false means the
// computation failed and the caller must leave any existing rows intact;
// built=true with nil slices means "explicitly empty" (cold-start gate or
// no candidates) and the caller should clear the user's rows.
type youMightLikeResult struct {
albumIDs []pgtype.UUID
artistIDs []pgtype.UUID
built bool
}
// buildYouMightLike computes the user's daily album/artist rolls. Reads
// only — the caller persists inside the build tx. Never returns an error:
// a failure logs and yields built=false so the prior day's rows survive.
func buildYouMightLike(
ctx context.Context, q *dbq.Queries, logger *slog.Logger,
userID pgtype.UUID, dateStr string, now time.Time,
) youMightLikeResult {
signal, err := q.CountListeningSignalForUser(ctx, userID)
if err != nil {
logger.Warn("you-might-like: listening-signal query failed; skipping",
"user_id", uuidStringPL(userID), "err", err)
return youMightLikeResult{built: false}
}
if signal.DistinctTracks < youMightLikeMinDistinctTracks ||
signal.DistinctArtists < youMightLikeMinDistinctArtists {
// Cold start: not enough listening to recommend from. built=true
// clears any stale rows (normally none) and ships an empty row.
return youMightLikeResult{built: true}
}
seeds, err := q.PickTopPlayedTracksForUser(ctx, userID)
if err != nil {
logger.Warn("you-might-like: seed query failed; skipping",
"user_id", uuidStringPL(userID), "err", err)
return youMightLikeResult{built: false}
}
seed := pickForYouSeedForDay(seeds, userID, dateStr)
if !seed.Valid {
return youMightLikeResult{built: true}
}
zeroVec := recommendation.SessionVector{Seed: true}
// You-might-like surfaces in-library artists the user does NOT actively
// engage with, so it deliberately skips the taste_overlap arm — that arm
// pulls top-taste (mostly already-played) artists, which would crowd the
// pool with entities the read-time dedup then strips. For-You/radio keep it.
ymlLimits := systemForYouSourceLimits()
ymlLimits.TasteOverlap = 0
cands, err := recommendation.LoadCandidatesFromSimilarity(
ctx, q, userID, seed, 1, zeroVec,
[]pgtype.UUID{seed}, ymlLimits,
)
if err != nil {
logger.Warn("you-might-like: candidate load failed; skipping",
"user_id", uuidStringPL(userID), "err", err)
return youMightLikeResult{built: false}
}
albumIDs, artistIDs := rollUpCandidates(cands, userID, dateStr, now)
return youMightLikeResult{albumIDs: albumIDs, artistIDs: artistIDs, built: true}
}
// scoredEntity is an album or artist with its aggregated score.
type scoredEntity struct {
id pgtype.UUID
score float64
}
// rollUpCandidates scores every candidate track (systemMixWeights, jitter
// seeded by userIDHash so near-ties rotate day-to-day) and aggregates the
// scores up to album and artist via sum-of-top-K. Returns the top-N album
// and artist IDs, with a per-artist cap on the album list.
func rollUpCandidates(
cands []recommendation.Candidate, userID pgtype.UUID, dateStr string, now time.Time,
) (albumIDs, artistIDs []pgtype.UUID) {
rng := rand.New(rand.NewSource(int64(userIDHash(userID, dateStr))))
albumScores := map[pgtype.UUID][]float64{}
artistScores := map[pgtype.UUID][]float64{}
albumArtist := map[pgtype.UUID]pgtype.UUID{}
for _, c := range cands {
s := recommendation.Score(c.Inputs, systemMixWeights, now, rng.Float64)
if c.Track.AlbumID.Valid {
albumScores[c.Track.AlbumID] = append(albumScores[c.Track.AlbumID], s)
albumArtist[c.Track.AlbumID] = c.Track.ArtistID
}
if c.Track.ArtistID.Valid {
artistScores[c.Track.ArtistID] = append(artistScores[c.Track.ArtistID], s)
}
}
rankedAlbums := capAlbumsPerArtist(
rankEntities(albumScores, dateStr), albumArtist, youMightLikeMaxAlbumsPerArtist)
albumIDs = topNEntityIDs(rankedAlbums, youMightLikeAlbumsN)
artistIDs = topNEntityIDs(rankEntities(artistScores, dateStr), youMightLikeArtistsN)
return albumIDs, artistIDs
}
// rankEntities aggregates each entity's track scores (sum-of-top-K) and
// returns them sorted by score DESC, ties broken deterministically by
// tieBreakHash(id, dateStr) so ordering is stable within a day.
func rankEntities(scoresByEntity map[pgtype.UUID][]float64, dateStr string) []scoredEntity {
out := make([]scoredEntity, 0, len(scoresByEntity))
for id, scores := range scoresByEntity {
out = append(out, scoredEntity{id: id, score: sumTopK(scores, youMightLikeAggTopK)})
}
sort.SliceStable(out, func(i, j int) bool {
if out[i].score != out[j].score {
return out[i].score > out[j].score
}
return tieBreakHash(out[i].id, dateStr) < tieBreakHash(out[j].id, dateStr)
})
return out
}
// sumTopK sorts scores DESC and sums the highest k.
func sumTopK(scores []float64, k int) float64 {
sort.Sort(sort.Reverse(sort.Float64Slice(scores)))
sum := 0.0
for i := 0; i < len(scores) && i < k; i++ {
sum += scores[i]
}
return sum
}
// capAlbumsPerArtist drops albums beyond maxPerArtist for any one artist,
// preserving input (score) order.
func capAlbumsPerArtist(
albums []scoredEntity, albumArtist map[pgtype.UUID]pgtype.UUID, maxPerArtist int,
) []scoredEntity {
perArtist := map[pgtype.UUID]int{}
out := make([]scoredEntity, 0, len(albums))
for _, a := range albums {
art := albumArtist[a.id]
if art.Valid {
if perArtist[art] >= maxPerArtist {
continue
}
perArtist[art]++
}
out = append(out, a)
}
return out
}
// topNEntityIDs truncates to n and projects the IDs in rank order.
func topNEntityIDs(entities []scoredEntity, n int) []pgtype.UUID {
if len(entities) > n {
entities = entities[:n]
}
out := make([]pgtype.UUID, 0, len(entities))
for _, e := range entities {
out = append(out, e.id)
}
return out
}
// persistYouMightLike atomic-replaces the user's You-might-like rows
// inside the build tx. Called only when the roll-up was freshly built;
// a failed computation leaves the prior rows untouched.
func persistYouMightLike(
ctx context.Context, qtx *dbq.Queries, userID pgtype.UUID, r youMightLikeResult,
) error {
if err := qtx.DeleteYouMightLikeAlbumsForUser(ctx, userID); err != nil {
return fmt.Errorf("delete you-might-like albums: %w", err)
}
for i, id := range r.albumIDs {
if err := qtx.InsertYouMightLikeAlbum(ctx, dbq.InsertYouMightLikeAlbumParams{
UserID: userID, AlbumID: id, Rank: int32(i),
}); err != nil {
return fmt.Errorf("insert you-might-like album: %w", err)
}
}
if err := qtx.DeleteYouMightLikeArtistsForUser(ctx, userID); err != nil {
return fmt.Errorf("delete you-might-like artists: %w", err)
}
for i, id := range r.artistIDs {
if err := qtx.InsertYouMightLikeArtist(ctx, dbq.InsertYouMightLikeArtistParams{
UserID: userID, ArtistID: id, Rank: int32(i),
}); err != nil {
return fmt.Errorf("insert you-might-like artist: %w", err)
}
}
return nil
}
@@ -0,0 +1,99 @@
package playlists_test
import (
"context"
"testing"
"time"
"github.com/jackc/pgx/v5/pgtype"
"github.com/jackc/pgx/v5/pgxpool"
"git.fabledsword.com/bvandeusen/minstrel/internal/playlists"
)
// countYouMightLike returns the persisted row counts for a user.
func countYouMightLike(t *testing.T, pool *pgxpool.Pool, userID pgtype.UUID) (albums, artists int) {
t.Helper()
ctx := context.Background()
if err := pool.QueryRow(ctx,
`SELECT count(*) FROM you_might_like_albums WHERE user_id = $1`, userID,
).Scan(&albums); err != nil {
t.Fatalf("count albums: %v", err)
}
if err := pool.QueryRow(ctx,
`SELECT count(*) FROM you_might_like_artists WHERE user_id = $1`, userID,
).Scan(&artists); err != nil {
t.Fatalf("count artists: %v", err)
}
return albums, artists
}
// TestYouMightLike_ColdStartGate: a thin profile (3 artists × 3 tracks =
// 9 distinct tracks, below the 20-track / 5-artist gate) must produce no
// You-might-like rows — the build ships nothing rather than near-random
// tiles.
func TestYouMightLike_ColdStartGate(t *testing.T) {
pool := newPool(t)
logger := discardLogger()
u, _ := seedActiveLibrary(t, pool, "ymlcold", 3, 3)
if err := playlists.BuildSystemPlaylists(
context.Background(), pool, logger, u.ID, time.Now().UTC(), t.TempDir(),
); err != nil {
t.Fatalf("build: %v", err)
}
albums, artists := countYouMightLike(t, pool, u.ID)
if albums != 0 || artists != 0 {
t.Errorf("cold-start user should have no you-might-like rows; got %d albums, %d artists",
albums, artists)
}
}
// TestYouMightLike_SufficientActivityPopulates: a rich profile (8 artists
// × 4 tracks = 32 distinct tracks, clearing both gate bars) populates the
// You-might-like tables in the daily build.
func TestYouMightLike_SufficientActivityPopulates(t *testing.T) {
pool := newPool(t)
logger := discardLogger()
u, _ := seedActiveLibrary(t, pool, "ymlrich", 8, 4)
if err := playlists.BuildSystemPlaylists(
context.Background(), pool, logger, u.ID, time.Now().UTC(), t.TempDir(),
); err != nil {
t.Fatalf("build: %v", err)
}
albums, artists := countYouMightLike(t, pool, u.ID)
if albums == 0 {
t.Error("rich user should have you-might-like album rows; got 0")
}
if artists == 0 {
t.Error("rich user should have you-might-like artist rows; got 0")
}
}
// TestYouMightLike_AtomicReplace: a second build replaces rather than
// appends, so counts stay bounded by the persisted depth.
func TestYouMightLike_AtomicReplace(t *testing.T) {
pool := newPool(t)
logger := discardLogger()
u, _ := seedActiveLibrary(t, pool, "ymlreplace", 8, 4)
ctx := context.Background()
for i := 0; i < 2; i++ {
if err := playlists.BuildSystemPlaylists(
ctx, pool, logger, u.ID, time.Now().UTC(), t.TempDir(),
); err != nil {
t.Fatalf("build %d: %v", i, err)
}
}
albums, artists := countYouMightLike(t, pool, u.ID)
if albums > 12 {
t.Errorf("albums = %d after two builds, want <= 12 (atomic replace)", albums)
}
if artists > 12 {
t.Errorf("artists = %d after two builds, want <= 12 (atomic replace)", artists)
}
}
+125
View File
@@ -0,0 +1,125 @@
package playlists
import (
"testing"
"time"
"github.com/jackc/pgx/v5/pgtype"
"git.fabledsword.com/bvandeusen/minstrel/internal/recommendation"
)
// fixedNow keeps recencyDecay stable across the pure roll-up tests.
var fixedNow = time.Date(2026, 6, 11, 12, 0, 0, 0, time.UTC)
// byteOf returns the per-test entity discriminator (makeCand sets it in
// Bytes[15]) so assertions can name albums/artists by their small int.
func byteOf(u pgtype.UUID) byte { return u.Bytes[15] }
// countWithByte reports how many of ids carry the given Bytes[15] marker.
func countWithByte(ids []pgtype.UUID, want byte) int {
n := 0
for _, id := range ids {
if byteOf(id) == want {
n++
}
}
return n
}
func TestSumTopK(t *testing.T) {
if got := sumTopK([]float64{1, 2, 3, 4}, 2); got != 7 {
t.Errorf("sumTopK top-2 of 1..4 = %v, want 7", got)
}
if got := sumTopK([]float64{5}, 3); got != 5 {
t.Errorf("sumTopK fewer-than-k = %v, want 5", got)
}
if got := sumTopK(nil, 3); got != 0 {
t.Errorf("sumTopK empty = %v, want 0", got)
}
}
func TestRollUpCandidates_MultiMatchAlbumRanksFirst(t *testing.T) {
// Album 10 (artist 100): three solid matches. Album 20 (artist 200):
// one slightly-stronger single match. Sum-of-top-3 should rank the
// multi-match album ahead of the single-match one. Similarity gaps are
// wide enough that the ±0.1 jitter can't reorder the result.
cands := []recommendation.Candidate{
makeCand(1, 10, 100, 0.8),
makeCand(2, 10, 100, 0.8),
makeCand(3, 10, 100, 0.8),
makeCand(4, 20, 200, 0.95),
}
albums, _ := rollUpCandidates(cands, testUserID, "2026-06-11", fixedNow)
if len(albums) < 2 {
t.Fatalf("want >=2 albums, got %d", len(albums))
}
if byteOf(albums[0]) != 10 {
t.Errorf("top album = %d, want 10 (multi-match beats single)", byteOf(albums[0]))
}
}
func TestRollUpCandidates_PerArtistAlbumCap(t *testing.T) {
// Artist 100 spans albums 10/11/12; the album row caps any one artist
// at youMightLikeMaxAlbumsPerArtist (2). Artist 200's album 20 should
// still appear.
cands := []recommendation.Candidate{
makeCand(1, 10, 100, 0.9),
makeCand(2, 11, 100, 0.85),
makeCand(3, 12, 100, 0.8),
makeCand(4, 20, 200, 0.7),
}
albums, _ := rollUpCandidates(cands, testUserID, "2026-06-11", fixedNow)
from100 := countWithByte(albums, 10) + countWithByte(albums, 11) + countWithByte(albums, 12)
if from100 > youMightLikeMaxAlbumsPerArtist {
t.Errorf("artist 100 contributed %d albums, want <= %d",
from100, youMightLikeMaxAlbumsPerArtist)
}
if countWithByte(albums, 20) != 1 {
t.Errorf("album 20 (artist 200) should survive the cap; got %d",
countWithByte(albums, 20))
}
}
func TestRollUpCandidates_ArtistRollupDistinct(t *testing.T) {
// Three artists; the artist roll-up should surface all three distinct
// artist IDs (no per-artist cap on the artist row).
cands := []recommendation.Candidate{
makeCand(1, 10, 100, 0.9),
makeCand(2, 11, 101, 0.6),
makeCand(3, 12, 102, 0.3),
}
_, artists := rollUpCandidates(cands, testUserID, "2026-06-11", fixedNow)
seen := map[byte]bool{}
for _, a := range artists {
seen[byteOf(a)] = true
}
for _, want := range []byte{100, 101, 102} {
if !seen[want] {
t.Errorf("artist %d missing from roll-up", want)
}
}
}
func TestCapAlbumsPerArtist_DropsBeyondCap(t *testing.T) {
mk := func(albumN, artistN int) (pgtype.UUID, pgtype.UUID) {
var al, ar pgtype.UUID
al.Valid, ar.Valid = true, true
al.Bytes[15], ar.Bytes[15] = byte(albumN), byte(artistN)
return al, ar
}
a10, ar1 := mk(10, 1)
a11, _ := mk(11, 1)
a12, _ := mk(12, 1)
a20, ar2 := mk(20, 2)
albumArtist := map[pgtype.UUID]pgtype.UUID{a10: ar1, a11: ar1, a12: ar1, a20: ar2}
in := []scoredEntity{{a10, 3}, {a11, 2}, {a12, 1}, {a20, 0.5}}
got := capAlbumsPerArtist(in, albumArtist, 2)
if len(got) != 3 {
t.Fatalf("len = %d, want 3 (artist 1 capped at 2 + artist 2's one)", len(got))
}
// Highest-scored two of artist 1 (albums 10, 11) kept; 12 dropped.
if byteOf(got[2].id) != 20 {
t.Errorf("third survivor = %d, want 20", byteOf(got[2].id))
}
}
+18
View File
@@ -36,6 +36,11 @@ func LoadCandidates(
return nil, err
}
profile, err := LoadTasteProfile(ctx, q, userID)
if err != nil {
return nil, err
}
out := make([]Candidate, 0, len(rows))
for _, r := range rows {
var lpt *time.Time
@@ -52,6 +57,7 @@ func LoadCandidates(
PlayCount: int(r.PlayCount),
SkipCount: int(r.SkipCount),
ContextualMatchScore: ctxScore,
TasteMatchScore: profile.Match(r.Track.ArtistID, r.Track.Genre),
},
})
}
@@ -66,6 +72,10 @@ type CandidateSourceLimits struct {
TagOverlap int
LikesOverlap int
RandomFill int
// TasteOverlap (#796 phase 2b): tracks by the user's top positively-
// weighted taste-profile artists. 0 disables the arm (e.g. cold-start
// users have an empty profile, so it contributes nothing anyway).
TasteOverlap int
}
// DefaultCandidateSourceLimits returns the v1 hardcoded constants per spec.
@@ -76,6 +86,7 @@ func DefaultCandidateSourceLimits() CandidateSourceLimits {
TagOverlap: 20,
LikesOverlap: 20,
RandomFill: 30,
TasteOverlap: 20,
}
}
@@ -107,6 +118,7 @@ func LoadCandidatesFromSimilarity(
Limit_3: int32(limits.TagOverlap),
Limit_4: int32(limits.LikesOverlap),
Limit_5: int32(limits.RandomFill),
Limit_6: int32(limits.TasteOverlap),
})
if err != nil {
return nil, err
@@ -117,6 +129,11 @@ func LoadCandidatesFromSimilarity(
return nil, err
}
profile, err := LoadTasteProfile(ctx, q, userID)
if err != nil {
return nil, err
}
out := make([]Candidate, 0, len(rows))
for _, r := range rows {
var lpt *time.Time
@@ -141,6 +158,7 @@ func LoadCandidatesFromSimilarity(
SkipCount: int(r.SkipCount),
ContextualMatchScore: ctxScore,
SimilarityScore: simScore,
TasteMatchScore: profile.Match(r.Track.ArtistID, r.Track.Genre),
},
})
}
@@ -262,6 +262,61 @@ func TestLoadCandidatesFromSimilarity_DedupTakesMaxScore(t *testing.T) {
}
}
// TestLoadCandidatesFromSimilarity_TasteOverlapArm (#796 phase 2b): a track by
// a positively-weighted taste-profile artist enters the pool via taste_overlap
// even with every other arm disabled; a negatively-weighted artist's track does
// not (the WHERE weight > 0 filter).
func TestLoadCandidatesFromSimilarity_TasteOverlapArm(t *testing.T) {
f := newFixture(t, 2) // seed + 1 other, both by the fixture artist
seed := f.tracks[0]
target := f.tracks[1]
ctx := context.Background()
// Fixture artist gets a positive taste weight.
if _, err := f.pool.Exec(ctx,
`INSERT INTO taste_profile_artists (user_id, artist_id, weight) VALUES ($1, $2, 5.0)`,
f.user, seed.ArtistID); err != nil {
t.Fatalf("insert taste (positive): %v", err)
}
// A second artist with a NEGATIVE weight — its track must be excluded.
negArtist, _ := f.q.UpsertArtist(ctx, dbq.UpsertArtistParams{Name: "NegArtist", SortName: "NegArtist"})
negAlbum, _ := f.q.UpsertAlbum(ctx, dbq.UpsertAlbumParams{Title: "NegAlbum", SortTitle: "NegAlbum", ArtistID: negArtist.ID})
negTrack, _ := f.q.UpsertTrack(ctx, dbq.UpsertTrackParams{
Title: "NegTrack", AlbumID: negAlbum.ID, ArtistID: negArtist.ID,
FilePath: "/tmp/neg.flac", DurationMs: 180_000,
})
if _, err := f.pool.Exec(ctx,
`INSERT INTO taste_profile_artists (user_id, artist_id, weight) VALUES ($1, $2, -3.0)`,
f.user, negArtist.ID); err != nil {
t.Fatalf("insert taste (negative): %v", err)
}
// Only the taste_overlap arm is enabled.
limits := CandidateSourceLimits{TasteOverlap: 10}
got, err := LoadCandidatesFromSimilarity(
ctx, f.q, f.user, seed.ID, 1, SessionVector{Seed: true}, nil, limits,
)
if err != nil {
t.Fatalf("load: %v", err)
}
var sawTarget, sawNeg bool
for _, c := range got {
switch c.Track.ID {
case target.ID:
sawTarget = true
case negTrack.ID:
sawNeg = true
}
}
if !sawTarget {
t.Error("positive-taste-artist track missing (taste_overlap arm didn't contribute)")
}
if sawNeg {
t.Error("negative-taste-artist track present (weight > 0 filter failed)")
}
}
func TestLoadCandidatesFromSimilarity_EmptyLibrary_NoError(t *testing.T) {
f := newFixture(t, 1) // just the seed
seed := f.tracks[0]
+180 -1
View File
@@ -34,6 +34,13 @@ const (
// artist from dominating the row. Two is enough variety; higher
// reads as "this artist's discography" instead of "rediscover".
maxAlbumsPerArtistInRediscover = 2
// HomeYouMightLikeLimit is the rendered count for each You-might-like
// row. The build persists a few more (youMightLikeAlbumsN/ArtistsN)
// so the read-time cross-section dedup has headroom; this query asks
// for the persisted depth and the Go layer trims to this after dedup.
HomeYouMightLikeLimit = 10
youMightLikeFetch = 12
)
// HomePayload is the composite returned by HomeData. All slices are
@@ -45,6 +52,8 @@ type HomePayload struct {
RediscoverArtists []dbq.ListRediscoverArtistsForUserRow
MostPlayedTracks []dbq.ListMostPlayedTracksForUserRow
LastPlayedArtists []dbq.ListLastPlayedArtistsForUserRow
YouMightLikeAlbums []dbq.ListYouMightLikeAlbumsForUserRow
YouMightLikeArtists []dbq.ListYouMightLikeArtistsForUserRow
}
// HomeData runs five queries in parallel and assembles the payload.
@@ -77,9 +86,11 @@ func HomeData(ctx context.Context, pool *pgxpool.Pool, userID pgtype.UUID) (*Hom
RediscoverArtists: []dbq.ListRediscoverArtistsForUserRow{},
MostPlayedTracks: []dbq.ListMostPlayedTracksForUserRow{},
LastPlayedArtists: []dbq.ListLastPlayedArtistsForUserRow{},
YouMightLikeAlbums: []dbq.ListYouMightLikeAlbumsForUserRow{},
YouMightLikeArtists: []dbq.ListYouMightLikeArtistsForUserRow{},
}
wg.Add(5)
wg.Add(7)
go func() {
defer wg.Done()
rows, err := q.ListRecentlyAddedAlbumsWithArtist(ctx, HomeRecentlyAddedLimit)
@@ -129,6 +140,28 @@ func HomeData(ctx context.Context, pool *pgxpool.Pool, userID pgtype.UUID) (*Hom
}
out.RediscoverArtists = rows
}()
go func() {
defer wg.Done()
rows, err := q.ListYouMightLikeAlbumsForUser(ctx, dbq.ListYouMightLikeAlbumsForUserParams{
UserID: userID, Limit: youMightLikeFetch,
})
if err != nil {
fail("you_might_like_albums", err)
return
}
out.YouMightLikeAlbums = rows
}()
go func() {
defer wg.Done()
rows, err := q.ListYouMightLikeArtistsForUser(ctx, dbq.ListYouMightLikeArtistsForUserParams{
UserID: userID, Limit: youMightLikeFetch,
})
if err != nil {
fail("you_might_like_artists", err)
return
}
out.YouMightLikeArtists = rows
}()
wg.Wait()
if firstErr != nil {
@@ -140,9 +173,155 @@ func HomeData(ctx context.Context, pool *pgxpool.Pool, userID pgtype.UUID) (*Hom
// the rediscover lists down toward HomeRediscoverLimit.
out.RediscoverAlbums = applyRediscoverAlbumFilters(out.RediscoverAlbums, out.MostPlayedTracks)
out.RediscoverArtists = applyRediscoverArtistFilters(out.RediscoverArtists, out.MostPlayedTracks)
// You-might-like dedups against what the user already engages with
// (Most Played) and against the other Home rows so a tile doesn't
// appear twice. Trims to HomeYouMightLikeLimit after dedup.
out.YouMightLikeAlbums = applyYouMightLikeAlbumFilters(
out.YouMightLikeAlbums, out.MostPlayedTracks, out.RediscoverAlbums)
out.YouMightLikeArtists = applyYouMightLikeArtistFilters(
out.YouMightLikeArtists, out.MostPlayedTracks, out.RediscoverArtists, out.LastPlayedArtists)
// The taste roll-up surfaces top-similar entities, which for a heavy
// listener are mostly ones they already play — so the dedup above can
// leave the section thin (often a single artist). Top up from the much
// larger pool of liked entities, applying the same exclusions so the
// fallback neither duplicates a tile nor suggests an actively-played one.
if len(out.YouMightLikeArtists) < HomeYouMightLikeLimit {
out.YouMightLikeArtists = topUpYouMightLikeArtists(ctx, q, userID, out)
}
if len(out.YouMightLikeAlbums) < HomeYouMightLikeLimit {
out.YouMightLikeAlbums = topUpYouMightLikeAlbums(ctx, q, userID, out)
}
return out, nil
}
// youMightLikeFallbackFetch is the liked-entity pool the fallback draws from.
// Generous so the dedup still leaves enough to fill the row.
const youMightLikeFallbackFetch = 100
// topUpYouMightLikeArtists fills a thin You-might-like artist row from the
// artists the user has shown affinity for — explicit artist-likes PLUS the
// artists of liked albums and liked tracks (most users like albums/tracks far
// more than artists, so the broad pool is what actually fills the row).
// Excludes what's already shown on Home (the section itself, Rediscover,
// Most/Last Played) so the fallback neither duplicates a tile nor suggests an
// actively-played artist. Best-effort: a query error leaves the section as-is.
func topUpYouMightLikeArtists(
ctx context.Context, q *dbq.Queries, userID pgtype.UUID, out *HomePayload,
) []dbq.ListYouMightLikeArtistsForUserRow {
excluded := mostPlayedArtistIDs(out.MostPlayedTracks)
for _, r := range out.RediscoverArtists {
excluded[r.Artist.ID] = struct{}{}
}
for _, r := range out.LastPlayedArtists {
excluded[r.Artist.ID] = struct{}{}
}
result := out.YouMightLikeArtists
for _, r := range result {
excluded[r.Artist.ID] = struct{}{}
}
fb, err := q.ListYouMightLikeArtistFallbackForUser(ctx, dbq.ListYouMightLikeArtistFallbackForUserParams{
UserID: userID, Limit: youMightLikeFallbackFetch,
})
if err != nil {
return result
}
for _, r := range fb {
if _, dup := excluded[r.Artist.ID]; dup {
continue
}
result = append(result, dbq.ListYouMightLikeArtistsForUserRow(r))
if len(result) >= HomeYouMightLikeLimit {
break
}
}
return result
}
// topUpYouMightLikeAlbums is the album-row counterpart to
// topUpYouMightLikeArtists, drawing from the user's liked albums.
func topUpYouMightLikeAlbums(
ctx context.Context, q *dbq.Queries, userID pgtype.UUID, out *HomePayload,
) []dbq.ListYouMightLikeAlbumsForUserRow {
excluded := mostPlayedAlbumIDs(out.MostPlayedTracks)
for _, r := range out.RediscoverAlbums {
excluded[r.Album.ID] = struct{}{}
}
result := out.YouMightLikeAlbums
for _, r := range result {
excluded[r.Album.ID] = struct{}{}
}
fb, err := q.ListYouMightLikeAlbumFallbackForUser(ctx, dbq.ListYouMightLikeAlbumFallbackForUserParams{
UserID: userID, Limit: youMightLikeFallbackFetch,
})
if err != nil {
return result
}
for _, r := range fb {
if _, dup := excluded[r.Album.ID]; dup {
continue
}
result = append(result, dbq.ListYouMightLikeAlbumsForUserRow(r))
if len(result) >= HomeYouMightLikeLimit {
break
}
}
return result
}
// applyYouMightLikeAlbumFilters drops albums the user actively plays
// (Most Played) or that already appear in Rediscover, then trims to
// HomeYouMightLikeLimit. Build-time rank order is preserved.
func applyYouMightLikeAlbumFilters(
rows []dbq.ListYouMightLikeAlbumsForUserRow,
mostPlayed []dbq.ListMostPlayedTracksForUserRow,
rediscover []dbq.ListRediscoverAlbumsForUserRow,
) []dbq.ListYouMightLikeAlbumsForUserRow {
excluded := mostPlayedAlbumIDs(mostPlayed)
for _, r := range rediscover {
excluded[r.Album.ID] = struct{}{}
}
out := make([]dbq.ListYouMightLikeAlbumsForUserRow, 0, HomeYouMightLikeLimit)
for _, r := range rows {
if _, dup := excluded[r.Album.ID]; dup {
continue
}
out = append(out, r)
if len(out) >= HomeYouMightLikeLimit {
break
}
}
return out
}
// applyYouMightLikeArtistFilters drops artists the user actively plays
// (Most Played), recently played (Last Played), or that already appear in
// Rediscover, then trims to HomeYouMightLikeLimit.
func applyYouMightLikeArtistFilters(
rows []dbq.ListYouMightLikeArtistsForUserRow,
mostPlayed []dbq.ListMostPlayedTracksForUserRow,
rediscover []dbq.ListRediscoverArtistsForUserRow,
lastPlayed []dbq.ListLastPlayedArtistsForUserRow,
) []dbq.ListYouMightLikeArtistsForUserRow {
excluded := mostPlayedArtistIDs(mostPlayed)
for _, r := range rediscover {
excluded[r.Artist.ID] = struct{}{}
}
for _, r := range lastPlayed {
excluded[r.Artist.ID] = struct{}{}
}
out := make([]dbq.ListYouMightLikeArtistsForUserRow, 0, HomeYouMightLikeLimit)
for _, r := range rows {
if _, dup := excluded[r.Artist.ID]; dup {
continue
}
out = append(out, r)
if len(out) >= HomeYouMightLikeLimit {
break
}
}
return out
}
// mostPlayedAlbumIDs returns the set of album IDs whose tracks appear
// in the Most Played row. Used to dedup Rediscover so it doesn't list
// albums the user is actively spinning.
@@ -2,6 +2,7 @@ package recommendation
import (
"context"
"fmt"
"testing"
"time"
@@ -10,6 +11,77 @@ import (
"git.fabledsword.com/bvandeusen/minstrel/internal/db/dbq"
)
// TestHomeData_YouMightLike_FallbackFillsFromLikedArtists: when the taste
// roll-up is empty/thin (no you_might_like_artists rows here), the section
// fills from the user's liked artists. Rediscover takes its share first; the
// You-might-like fallback fills the rest disjointly so no artist is shown
// twice. 20 liked artists, none played → Rediscover 10 + You-might-like 10.
func TestHomeData_YouMightLike_FallbackFillsFromLikedArtists(t *testing.T) {
pool := newPool(t)
user := seedUser(t, pool, "home-yml-fallback")
liked := make(map[pgtype.UUID]bool, 20)
for i := 0; i < 20; i++ {
a := seedArtist(t, pool, fmt.Sprintf("YmlArtist%02d", i), "")
likeArtist(t, pool, user.ID, a.ID)
liked[a.ID] = true
}
got, err := HomeData(context.Background(), pool, user.ID)
if err != nil {
t.Fatalf("HomeData: %v", err)
}
if len(got.YouMightLikeArtists) != HomeYouMightLikeLimit {
t.Fatalf("you-might-like artists = %d, want %d (filled by fallback)",
len(got.YouMightLikeArtists), HomeYouMightLikeLimit)
}
inRediscover := map[pgtype.UUID]bool{}
for _, r := range got.RediscoverArtists {
inRediscover[r.Artist.ID] = true
}
for _, r := range got.YouMightLikeArtists {
if !liked[r.Artist.ID] {
t.Errorf("you-might-like artist %s not from the liked pool", r.Artist.Name)
}
if inRediscover[r.Artist.ID] {
t.Errorf("artist %s shown in both Rediscover and You-might-like", r.Artist.Name)
}
}
}
// TestHomeData_YouMightLike_FallbackFromLikedTrackArtists: the broad fallback
// must surface the artists of LIKED TRACKS even with no explicit artist-likes
// (most users like tracks/albums, rarely artists). 12 liked tracks by distinct
// artists, no artist-likes, no plays → the artist row fills from them.
func TestHomeData_YouMightLike_FallbackFromLikedTrackArtists(t *testing.T) {
pool := newPool(t)
user := seedUser(t, pool, "home-yml-trackartists")
fromLiked := make(map[pgtype.UUID]bool, 12)
for i := 0; i < 12; i++ {
a := seedArtist(t, pool, fmt.Sprintf("TrkArtist%02d", i), "")
al := seedAlbumForArtist(t, pool, a.ID, fmt.Sprintf("Alb%02d", i))
tr := seedTrackOnAlbum(t, pool, al.ID, a.ID, fmt.Sprintf("Trk%02d", i))
if _, err := pool.Exec(context.Background(),
`INSERT INTO general_likes (user_id, track_id) VALUES ($1, $2)`, user.ID, tr.ID); err != nil {
t.Fatalf("like track: %v", err)
}
fromLiked[a.ID] = true
}
got, err := HomeData(context.Background(), pool, user.ID)
if err != nil {
t.Fatalf("HomeData: %v", err)
}
if len(got.YouMightLikeArtists) != HomeYouMightLikeLimit {
t.Fatalf("you-might-like artists = %d, want %d (from liked-track artists)",
len(got.YouMightLikeArtists), HomeYouMightLikeLimit)
}
for _, r := range got.YouMightLikeArtists {
if !fromLiked[r.Artist.ID] {
t.Errorf("artist %s not from the liked-track pool", r.Artist.Name)
}
}
}
func TestHomeData_NewUser_AllSectionsEmpty(t *testing.T) {
pool := newPool(t)
user := seedUser(t, pool, "home-newuser")
+8
View File
@@ -19,6 +19,11 @@ type ScoringInputs struct {
SkipCount int // play_events with was_skipped=true
ContextualMatchScore float64 // [0, 1]; 0 when no signal
SimilarityScore float64 // [0, 1]; 0 when no signal (random fill)
// TasteMatchScore is the candidate's fit to the user's learned taste
// profile (#796 phase 2), in [-1, +1]: positive draws a track toward the
// user's taste, negative reflects passive avoidance, 0 when there's no
// profile signal (cold start / artist+tags absent from the profile).
TasteMatchScore float64
}
// ScoringWeights are the operator-tunable knobs. Defaults live in
@@ -31,6 +36,7 @@ type ScoringWeights struct {
JitterMagnitude float64
ContextWeight float64
SimilarityWeight float64
TasteWeight float64
}
// Score computes the weighted-shuffle score per spec §6:
@@ -41,6 +47,7 @@ type ScoringWeights struct {
// - skip_ratio * SkipPenalty
// + contextual_match_score * ContextWeight
// + similarity_score * SimilarityWeight
// + taste_match_score * TasteWeight
// + small_random_jitter
//
// Higher score = more likely to surface. rng is a function returning a
@@ -55,6 +62,7 @@ func Score(in ScoringInputs, w ScoringWeights, now time.Time, rng func() float64
s -= skipRatio(in.PlayCount, in.SkipCount) * w.SkipPenalty
s += in.ContextualMatchScore * w.ContextWeight
s += in.SimilarityScore * w.SimilarityWeight
s += in.TasteMatchScore * w.TasteWeight
s += (rng()*2 - 1) * w.JitterMagnitude
return s
}
+91
View File
@@ -0,0 +1,91 @@
package recommendation
import (
"context"
"math"
"github.com/jackc/pgx/v5/pgtype"
"git.fabledsword.com/bvandeusen/minstrel/internal/db/dbq"
)
// Taste-match tuning. The taste profile (written by internal/taste) holds
// signed, unbounded artist/tag weights; these scales squash them into a
// bounded [-1, +1] match via tanh, so one outlier artist can't compress the
// rest toward zero (as a per-user max-normalisation would). A weight at the
// scale value maps to tanh(1) ≈ 0.76 — "clearly a preference."
const (
tasteArtistScale = 4.0
tasteTagScale = 3.0
tasteArtistShare = 0.7
tasteTagShare = 0.3
tasteProfileLimit = 2000 // read cap; profiles are size-capped on write
)
// TasteProfile is the read-side view of a user's learned taste: signed
// weights over artists and genre tags. The zero value (and any unknown
// artist/tag) contributes 0, so cold-start users get no taste effect.
type TasteProfile struct {
artists map[pgtype.UUID]float64
tags map[string]float64
}
// LoadTasteProfile reads the user's taste profile from the taste_profile_*
// tables (written daily by internal/taste). Returns an empty profile with no
// error when the user has none.
func LoadTasteProfile(ctx context.Context, q *dbq.Queries, userID pgtype.UUID) (TasteProfile, error) {
arts, err := q.ListTasteProfileArtistsForUser(ctx, dbq.ListTasteProfileArtistsForUserParams{
UserID: userID, Limit: tasteProfileLimit,
})
if err != nil {
return TasteProfile{}, err
}
tags, err := q.ListTasteProfileTagsForUser(ctx, dbq.ListTasteProfileTagsForUserParams{
UserID: userID, Limit: tasteProfileLimit,
})
if err != nil {
return TasteProfile{}, err
}
p := TasteProfile{
artists: make(map[pgtype.UUID]float64, len(arts)),
tags: make(map[string]float64, len(tags)),
}
for _, a := range arts {
p.artists[a.ArtistID] = a.Weight
}
for _, t := range tags {
p.tags[t.Tag] = t.Weight
}
return p, nil
}
// Match scores a candidate track's fit to the profile in [-1, +1]: a blend of
// the artist's taste weight and the average of its genre tags' weights, each
// tanh-squashed. Absent artist/tags contribute 0.
func (p TasteProfile) Match(artistID pgtype.UUID, genre *string) float64 {
a := math.Tanh(p.artists[artistID] / tasteArtistScale)
var tg float64
if genre != nil {
tags := splitGenres(*genre)
if len(tags) > 0 {
var sum float64
for _, t := range tags {
sum += p.tags[t]
}
tg = math.Tanh((sum / float64(len(tags))) / tasteTagScale)
}
}
return clampUnit(tasteArtistShare*a + tasteTagShare*tg)
}
// clampUnit constrains x to [-1, 1].
func clampUnit(x float64) float64 {
if x < -1 {
return -1
}
if x > 1 {
return 1
}
return x
}
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package recommendation
import (
"context"
"math"
"testing"
"time"
"github.com/jackc/pgx/v5/pgtype"
"git.fabledsword.com/bvandeusen/minstrel/internal/db/dbq"
)
func uuidN(n byte) pgtype.UUID {
return pgtype.UUID{Bytes: [16]byte{15: n}, Valid: true}
}
func strPtr(s string) *string { return &s }
func TestTasteProfile_Match(t *testing.T) {
loved := uuidN(1)
disliked := uuidN(2)
unknown := uuidN(3)
p := TasteProfile{
artists: map[pgtype.UUID]float64{loved: 8.0, disliked: -8.0},
tags: map[string]float64{"Jazz": 6.0, "Noise": -6.0},
}
if m := p.Match(loved, strPtr("Jazz")); m <= 0.5 {
t.Errorf("loved artist + loved tag = %.3f, want strongly positive", m)
}
if m := p.Match(disliked, strPtr("Noise")); m >= -0.5 {
t.Errorf("disliked artist + disliked tag = %.3f, want strongly negative", m)
}
if m := p.Match(unknown, nil); m != 0 {
t.Errorf("unknown artist, no genre = %.3f, want 0", m)
}
// Artist dominates (0.7 share): loved artist with an unknown tag is still
// clearly positive.
if m := p.Match(loved, strPtr("Unheard")); m <= 0 {
t.Errorf("loved artist + unknown tag = %.3f, want positive", m)
}
// Output stays within [-1, 1] even with saturated inputs.
for _, a := range []pgtype.UUID{loved, disliked, unknown} {
m := p.Match(a, strPtr("Jazz"))
if m < -1 || m > 1 {
t.Errorf("Match out of [-1,1]: %.3f", m)
}
}
}
func TestTasteProfile_EmptyIsNeutral(t *testing.T) {
var p TasteProfile // zero value: nil maps
if m := p.Match(uuidN(1), strPtr("Jazz")); m != 0 {
t.Errorf("empty profile Match = %.3f, want 0 (cold start neutral)", m)
}
}
func TestScore_TasteTermAddsAndSubtracts(t *testing.T) {
now := time.Now()
zeroJitter := func() float64 { return 0.5 } // (0.5*2-1)=0 with any magnitude
w := ScoringWeights{TasteWeight: 2.0} // all other weights 0
pos := Score(ScoringInputs{TasteMatchScore: 1.0}, w, now, zeroJitter)
if !almostEq(pos, 2.0) {
t.Errorf("positive taste: Score = %.3f, want 2.0", pos)
}
neg := Score(ScoringInputs{TasteMatchScore: -1.0}, w, now, zeroJitter)
if !almostEq(neg, -2.0) {
t.Errorf("negative taste: Score = %.3f, want -2.0 (demotes)", neg)
}
off := Score(ScoringInputs{TasteMatchScore: 1.0}, ScoringWeights{}, now, zeroJitter)
if !almostEq(off, 0.0) {
t.Errorf("TasteWeight 0: Score = %.3f, want 0 (no effect)", off)
}
}
func almostEq(a, b float64) bool { return math.Abs(a-b) < 1e-9 }
// TestLoadTasteProfile_RoundTrip seeds taste_profile rows and verifies the
// reader hydrates them into a profile that scores a matching track positively.
func TestLoadTasteProfile_RoundTrip(t *testing.T) {
pool := newPool(t)
ctx := context.Background()
u := seedUser(t, pool, "taste-rt")
art := seedArtist(t, pool, "Loved Artist", "")
if _, err := pool.Exec(ctx,
`INSERT INTO taste_profile_artists (user_id, artist_id, weight) VALUES ($1, $2, $3)`,
u.ID, art.ID, 8.0); err != nil {
t.Fatalf("seed taste artist: %v", err)
}
if _, err := pool.Exec(ctx,
`INSERT INTO taste_profile_tags (user_id, tag, weight) VALUES ($1, $2, $3)`,
u.ID, "Jazz", 6.0); err != nil {
t.Fatalf("seed taste tag: %v", err)
}
p, err := LoadTasteProfile(ctx, dbq.New(pool), u.ID)
if err != nil {
t.Fatalf("load: %v", err)
}
if m := p.Match(art.ID, strPtr("Jazz")); m <= 0.5 {
t.Errorf("round-trip Match = %.3f, want strongly positive", m)
}
if m := p.Match(uuidN(9), nil); m != 0 {
t.Errorf("absent artist Match = %.3f, want 0", m)
}
}
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// Package taste builds a persistent, decaying per-user taste profile (#796).
// engagement.go is the pure core: it turns a single play's completion ratio
// into a graded taste signal in [-1, +1], replacing the binary was_skipped
// for learning purposes (was_skipped stays as-is for History display).
package taste
import "math"
// EngagementParams tune the completion→engagement curve. All in [0,1] and
// ordered HardSkip < NeutralCompletion < FullCompletion.
type EngagementParams struct {
// HardSkip: completion at/below which a play is a strong reject (-1).
HardSkip float64
// NeutralCompletion: completion at which a play is neutral (0). Set low
// (~0.30) because people enjoy plenty of tracks they don't finish; only
// genuinely-early abandons read as negative.
NeutralCompletion float64
// FullCompletion: completion at/above which a play is a full positive
// (+1).
FullCompletion float64
}
// DefaultEngagementParams returns the tuned starting curve.
func DefaultEngagementParams() EngagementParams {
return EngagementParams{HardSkip: 0.05, NeutralCompletion: 0.30, FullCompletion: 0.90}
}
// Engagement maps a play's completion ratio to a taste signal in [-1, +1]
// via two linear ramps meeting at the neutral point:
//
// completion <= HardSkip → -1
// HardSkip < c < Neutral → ramp -1 → 0
// Neutral <= c < Full → ramp 0 → +1
// completion >= Full → +1
//
// Completion is clamped to [0,1]. Degenerate params (non-increasing
// thresholds) collapse the affected ramp to its endpoint rather than
// dividing by zero.
func Engagement(completion float64, p EngagementParams) float64 {
c := clamp01(completion)
if c <= p.HardSkip {
return -1
}
if c < p.NeutralCompletion {
span := p.NeutralCompletion - p.HardSkip
if span <= 0 {
return 0
}
return -1 + (c-p.HardSkip)/span
}
if c < p.FullCompletion {
span := p.FullCompletion - p.NeutralCompletion
if span <= 0 {
return 1
}
return (c - p.NeutralCompletion) / span
}
return 1
}
// decay is the exponential time-decay applied to a play's engagement:
// 1.0 at age 0, 0.5 at age == halfLifeDays. Negative ages clamp to 0.
func decay(ageDays, halfLifeDays float64) float64 {
if ageDays < 0 {
ageDays = 0
}
if halfLifeDays <= 0 {
return 1
}
return math.Exp(-math.Ln2 * ageDays / halfLifeDays)
}
func clamp01(x float64) float64 {
if x < 0 {
return 0
}
if x > 1 {
return 1
}
return x
}
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package taste
import (
"math"
"testing"
)
func almostEqual(a, b float64) bool { return math.Abs(a-b) < 1e-9 }
func TestEngagement_Curve(t *testing.T) {
p := DefaultEngagementParams() // HardSkip 0.05, Neutral 0.30, Full 0.90
cases := []struct {
name string
completion float64
want float64
}{
{"instant skip", 0.00, -1},
{"at hard-skip boundary", 0.05, -1},
{"neg ramp midpoint", 0.175, -0.5}, // (0.175-0.05)/(0.30-0.05)=0.5 → -0.5
{"neutral point", 0.30, 0},
{"pos ramp midpoint", 0.60, 0.5}, // (0.60-0.30)/(0.90-0.30)=0.5
{"at full boundary", 0.90, 1},
{"complete", 1.00, 1},
{"clamp above 1", 1.50, 1},
{"clamp below 0", -0.5, -1},
}
for _, c := range cases {
if got := Engagement(c.completion, p); !almostEqual(got, c.want) {
t.Errorf("%s: Engagement(%.3f) = %.4f, want %.4f", c.name, c.completion, got, c.want)
}
}
}
func TestEngagement_MonotonicNonDecreasing(t *testing.T) {
p := DefaultEngagementParams()
prev := math.Inf(-1)
for i := 0; i <= 100; i++ {
c := float64(i) / 100
got := Engagement(c, p)
if got < prev-1e-9 {
t.Fatalf("engagement decreased at completion %.2f: %.4f < %.4f", c, got, prev)
}
prev = got
}
}
func TestEngagement_DegenerateParamsStayInRange(t *testing.T) {
// Non-increasing thresholds must collapse ramps (no divide-by-zero) and
// still produce a value in [-1, 1].
p := EngagementParams{HardSkip: 0.5, NeutralCompletion: 0.5, FullCompletion: 0.5}
for _, c := range []float64{0, 0.25, 0.5, 0.75, 1} {
got := Engagement(c, p)
if got < -1 || got > 1 {
t.Errorf("Engagement(%.2f) = %.3f out of [-1,1]", c, got)
}
}
}
func TestDecay_HalfLife(t *testing.T) {
if got := decay(0, 75); !almostEqual(got, 1) {
t.Errorf("decay(0) = %.4f, want 1", got)
}
if got := decay(75, 75); !almostEqual(got, 0.5) {
t.Errorf("decay(halflife) = %.4f, want 0.5", got)
}
if got := decay(150, 75); !almostEqual(got, 0.25) {
t.Errorf("decay(2*halflife) = %.4f, want 0.25", got)
}
if got := decay(-5, 75); !almostEqual(got, 1) {
t.Errorf("decay(negative age) = %.4f, want 1 (clamped)", got)
}
if got := decay(10, 0); !almostEqual(got, 1) {
t.Errorf("decay(halflife=0) = %.4f, want 1 (guarded)", got)
}
}
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// profile.go assembles the per-user taste profile from graded play
// engagement (decayed over time) plus explicit-like bonuses, and
// atomic-replaces the taste_profile_* tables. Phase 1 only builds the
// object; candidate sourcing + scoring consume it in phase 2.
package taste
import (
"bytes"
"context"
"fmt"
"log/slog"
"sort"
"strings"
"github.com/jackc/pgx/v5/pgtype"
"github.com/jackc/pgx/v5/pgxpool"
"git.fabledsword.com/bvandeusen/minstrel/internal/db/dbq"
)
// Config holds the operator-tunable knobs. DefaultConfig supplies tuned
// starting values; wiring these into the server RecommendationConfig is a
// later follow-up (phase 1 uses the defaults).
type Config struct {
Engagement EngagementParams
// HalfLifeDays: a play's engagement halves every this-many days, so the
// profile tracks drift (recent behaviour dominates). WindowDays bounds
// the plays fetched — beyond ~3 half-lives the decayed contribution is
// negligible, so older plays are skipped for cost, not correctness.
HalfLifeDays float64
WindowDays float64
// Explicit-like bonuses. Likes stay the strongest single positive.
ArtistLikeBonus float64
TrackLikeBonus float64
TagLikeBonus float64
// ArtistFloor / TagFloor clamp how negative a single entity's weight may
// go. Aggregation already protects an artist the user likes (one skip
// nets out against many good plays); the floor additionally bounds the
// magnitude so a heavily-skipped entity can't dominate as an extreme
// negative.
ArtistFloor float64
TagFloor float64
// WeightEpsilon: entities with |weight| below this are dropped as noise.
WeightEpsilon float64
// Size caps (guard rails for pathological libraries). Persist the top
// MaxArtists by weight plus the most-negative MaxNegArtists; same for tags.
MaxArtists int
MaxNegArtists int
MaxTags int
MaxNegTags int
}
// DefaultConfig returns the tuned starting configuration.
func DefaultConfig() Config {
return Config{
Engagement: DefaultEngagementParams(),
HalfLifeDays: 75,
WindowDays: 270,
ArtistLikeBonus: 3.0,
TrackLikeBonus: 1.0,
TagLikeBonus: 0.5,
ArtistFloor: -3.0,
TagFloor: -3.0,
WeightEpsilon: 0.05,
MaxArtists: 500,
MaxNegArtists: 150,
MaxTags: 200,
MaxNegTags: 60,
}
}
// BuildTasteProfile recomputes and atomic-replaces the user's taste profile.
// Reads the decay-windowed play engagement + explicit likes, accumulates
// signed artist/tag weights, applies floor damping + size caps, and persists.
// Self-contained transaction for the replace. Returns an error only on a
// fatal DB failure; the daily caller logs and proceeds to playlist building
// regardless (best-effort).
//
// The decay reference time is the database clock (age is computed in SQL via
// now()), so no Go-side timestamp is threaded here; a phase-3 context model
// that needs a pinned reference time would add one.
func BuildTasteProfile(
ctx context.Context, pool *pgxpool.Pool, logger *slog.Logger,
userID pgtype.UUID, cfg Config,
) error {
q := dbq.New(pool)
artistW, tagW, err := accumulate(ctx, q, userID, cfg)
if err != nil {
return err
}
applyFloor(artistW, cfg.ArtistFloor)
applyFloor(tagW, cfg.TagFloor)
artists := rankWeighted(artistW, cfg.WeightEpsilon, cfg.MaxArtists, cfg.MaxNegArtists, uuidLess)
tags := rankWeighted(tagW, cfg.WeightEpsilon, cfg.MaxTags, cfg.MaxNegTags,
func(a, b string) bool { return a < b })
if err := persist(ctx, pool, userID, artists, tags); err != nil {
return err
}
logger.Debug("taste: profile rebuilt",
"user_id", uuidString(userID), "artists", len(artists), "tags", len(tags))
return nil
}
// accumulate sums decayed play engagement and like bonuses into artist/tag
// weight maps.
func accumulate(
ctx context.Context, q *dbq.Queries, userID pgtype.UUID, cfg Config,
) (map[pgtype.UUID]float64, map[string]float64, error) {
plays, err := q.ListPlayEngagementInputsForUser(ctx, dbq.ListPlayEngagementInputsForUserParams{
UserID: userID,
Column2: cfg.WindowDays,
})
if err != nil {
return nil, nil, fmt.Errorf("taste: load play engagement: %w", err)
}
artistW := make(map[pgtype.UUID]float64)
tagW := make(map[string]float64)
for _, p := range plays {
e := Engagement(p.Completion, cfg.Engagement) * decay(p.AgeDays, cfg.HalfLifeDays)
artistW[p.ArtistID] += e
for _, tag := range splitGenres(p.Genre) {
tagW[tag] += e
}
}
likedTracks, err := q.ListLikedTrackTasteInputsForUser(ctx, userID)
if err != nil {
return nil, nil, fmt.Errorf("taste: load liked tracks: %w", err)
}
for _, lt := range likedTracks {
artistW[lt.ArtistID] += cfg.TrackLikeBonus
for _, tag := range splitGenres(lt.Genre) {
tagW[tag] += cfg.TagLikeBonus
}
}
likedArtists, err := q.ListLikedArtistIDsForUser(ctx, userID)
if err != nil {
return nil, nil, fmt.Errorf("taste: load liked artists: %w", err)
}
for _, aid := range likedArtists {
artistW[aid] += cfg.ArtistLikeBonus
}
return artistW, tagW, nil
}
// persist atomic-replaces the user's profile rows inside one transaction.
func persist(
ctx context.Context, pool *pgxpool.Pool, userID pgtype.UUID,
artists []weighted[pgtype.UUID], tags []weighted[string],
) error {
tx, err := pool.Begin(ctx)
if err != nil {
return fmt.Errorf("taste: begin tx: %w", err)
}
defer func() { _ = tx.Rollback(ctx) }()
qtx := dbq.New(tx)
if err := qtx.DeleteTasteProfileArtistsForUser(ctx, userID); err != nil {
return fmt.Errorf("taste: delete artists: %w", err)
}
for _, a := range artists {
if err := qtx.InsertTasteProfileArtist(ctx, dbq.InsertTasteProfileArtistParams{
UserID: userID, ArtistID: a.Key, Weight: a.Weight,
}); err != nil {
return fmt.Errorf("taste: insert artist: %w", err)
}
}
if err := qtx.DeleteTasteProfileTagsForUser(ctx, userID); err != nil {
return fmt.Errorf("taste: delete tags: %w", err)
}
for _, t := range tags {
if err := qtx.InsertTasteProfileTag(ctx, dbq.InsertTasteProfileTagParams{
UserID: userID, Tag: t.Key, Weight: t.Weight,
}); err != nil {
return fmt.Errorf("taste: insert tag: %w", err)
}
}
if err := tx.Commit(ctx); err != nil {
return fmt.Errorf("taste: commit: %w", err)
}
return nil
}
// weighted is a key with its signed taste weight.
type weighted[K comparable] struct {
Key K
Weight float64
}
// rankWeighted drops near-zero entries, sorts by weight DESC (ties broken by
// keyLess for determinism), and caps to the top topN plus the most-negative
// botN so both ends of the signal survive without unbounded table growth.
func rankWeighted[K comparable](
m map[K]float64, eps float64, topN, botN int, keyLess func(a, b K) bool,
) []weighted[K] {
all := make([]weighted[K], 0, len(m))
for k, w := range m {
if w >= eps || w <= -eps {
all = append(all, weighted[K]{Key: k, Weight: w})
}
}
sort.Slice(all, func(i, j int) bool {
if all[i].Weight != all[j].Weight {
return all[i].Weight > all[j].Weight
}
return keyLess(all[i].Key, all[j].Key)
})
if topN+botN >= len(all) {
return all
}
out := make([]weighted[K], 0, topN+botN)
out = append(out, all[:topN]...)
out = append(out, all[len(all)-botN:]...)
return out
}
// applyFloor clamps every weight in m up to floor (no entity goes more
// negative than the floor).
func applyFloor[K comparable](m map[K]float64, floor float64) {
for k, w := range m {
if w < floor {
m[k] = floor
}
}
}
// uuidLess orders two UUIDs by raw bytes (deterministic tie-break).
func uuidLess(a, b pgtype.UUID) bool {
return bytes.Compare(a.Bytes[:], b.Bytes[:]) < 0
}
// uuidString renders a pgtype.UUID canonically for log lines.
func uuidString(u pgtype.UUID) string {
if !u.Valid {
return "<nil>"
}
return fmt.Sprintf("%x-%x-%x-%x-%x",
u.Bytes[0:4], u.Bytes[4:6], u.Bytes[6:8], u.Bytes[8:10], u.Bytes[10:16])
}
// splitGenres splits a track's denormalized genre string on the common
// multi-genre delimiters, trimming whitespace and dropping empties. Mirrors
// the recommendation package's splitter (kept local to avoid a dependency).
func splitGenres(genre *string) []string {
if genre == nil || *genre == "" {
return nil
}
parts := strings.FieldsFunc(*genre, func(r rune) bool {
return r == ';' || r == ','
})
out := make([]string, 0, len(parts))
for _, p := range parts {
if p = strings.TrimSpace(p); p != "" {
out = append(out, p)
}
}
return out
}
+249
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package taste
import (
"context"
"errors"
"fmt"
"io"
"log/slog"
"os"
"path/filepath"
"sync/atomic"
"testing"
"time"
"github.com/jackc/pgx/v5"
"github.com/jackc/pgx/v5/pgtype"
"github.com/jackc/pgx/v5/pgxpool"
"git.fabledsword.com/bvandeusen/minstrel/internal/db"
"git.fabledsword.com/bvandeusen/minstrel/internal/db/dbq"
"git.fabledsword.com/bvandeusen/minstrel/internal/dbtest"
)
var seedCounter uint64
func discardLogger() *slog.Logger { return slog.New(slog.NewTextHandler(io.Discard, nil)) }
func newPool(t *testing.T) *pgxpool.Pool {
t.Helper()
if testing.Short() {
t.Skip("skipping integration test in -short mode")
}
dsn := os.Getenv("MINSTREL_TEST_DATABASE_URL")
if dsn == "" {
t.Skip("MINSTREL_TEST_DATABASE_URL not set")
}
if err := db.Migrate(dsn, discardLogger()); err != nil {
t.Fatalf("migrate: %v", err)
}
pool, err := pgxpool.New(context.Background(), dsn)
if err != nil {
t.Fatalf("pool: %v", err)
}
t.Cleanup(pool.Close)
dbtest.ResetDB(t, pool)
return pool
}
func seedUser(t *testing.T, pool *pgxpool.Pool, name string) dbq.User {
t.Helper()
u, err := dbq.New(pool).CreateUser(context.Background(), dbq.CreateUserParams{
Username: dbtest.TestUserPrefix + name, PasswordHash: "x",
ApiToken: name + "-token", IsAdmin: false,
})
if err != nil {
t.Fatalf("seed user: %v", err)
}
return u
}
func seedArtist(t *testing.T, pool *pgxpool.Pool, name string) dbq.Artist {
t.Helper()
a, err := dbq.New(pool).UpsertArtist(context.Background(), dbq.UpsertArtistParams{
Name: name, SortName: name,
})
if err != nil {
t.Fatalf("seed artist: %v", err)
}
return a
}
// seedTrack creates an album + track under the given artist with a genre.
func seedTrack(t *testing.T, pool *pgxpool.Pool, artistID pgtype.UUID, genre string) dbq.Track {
t.Helper()
q := dbq.New(pool)
n := atomic.AddUint64(&seedCounter, 1)
al, err := q.UpsertAlbum(context.Background(), dbq.UpsertAlbumParams{
Title: fmt.Sprintf("Album %d", n), SortTitle: fmt.Sprintf("Album %d", n), ArtistID: artistID,
})
if err != nil {
t.Fatalf("seed album: %v", err)
}
g := genre
tk, err := q.UpsertTrack(context.Background(), dbq.UpsertTrackParams{
Title: fmt.Sprintf("Track %d", n), AlbumID: al.ID, ArtistID: artistID,
DurationMs: 200000, FilePath: filepath.Join(t.TempDir(), fmt.Sprintf("t%d.mp3", n)),
FileSize: 100, FileFormat: "mp3", Genre: &g,
})
if err != nil {
t.Fatalf("seed track: %v", err)
}
return tk
}
// seedPlay inserts a play with an explicit completion_ratio at startedAt.
func seedPlay(t *testing.T, pool *pgxpool.Pool, userID, trackID pgtype.UUID, startedAt time.Time, completion float64) {
t.Helper()
_, err := pool.Exec(context.Background(), `
WITH s AS (
INSERT INTO play_sessions (user_id, started_at, last_event_at)
VALUES ($1, $3, $3) RETURNING id
)
INSERT INTO play_events (user_id, track_id, session_id, started_at, completion_ratio, was_skipped)
SELECT $1, $2, s.id, $3, $4, false FROM s
`, userID, trackID, startedAt, completion)
if err != nil {
t.Fatalf("seed play: %v", err)
}
}
func artistWeight(t *testing.T, pool *pgxpool.Pool, userID, artistID pgtype.UUID) (float64, bool) {
t.Helper()
var w float64
err := pool.QueryRow(context.Background(),
`SELECT weight FROM taste_profile_artists WHERE user_id = $1 AND artist_id = $2`,
userID, artistID).Scan(&w)
if errors.Is(err, pgx.ErrNoRows) {
return 0, false
}
if err != nil {
t.Fatalf("artist weight: %v", err)
}
return w, true
}
func tagWeight(t *testing.T, pool *pgxpool.Pool, userID pgtype.UUID, tag string) (float64, bool) {
t.Helper()
var w float64
err := pool.QueryRow(context.Background(),
`SELECT weight FROM taste_profile_tags WHERE user_id = $1 AND tag = $2`,
userID, tag).Scan(&w)
if errors.Is(err, pgx.ErrNoRows) {
return 0, false
}
if err != nil {
t.Fatalf("tag weight: %v", err)
}
return w, true
}
// TestBuildTasteProfile_PositiveVsNegative: a completed-track artist earns a
// positive weight; an early-skipped artist earns a negative one. Genre tags
// follow the same sign.
func TestBuildTasteProfile_PositiveVsNegative(t *testing.T) {
pool := newPool(t)
now := time.Now().UTC()
u := seedUser(t, pool, "tp1")
loved := seedArtist(t, pool, "Loved")
lovedTrack := seedTrack(t, pool, loved.ID, "Rock")
skipped := seedArtist(t, pool, "Skipped")
skippedTrack := seedTrack(t, pool, skipped.ID, "Noise")
for i := 0; i < 3; i++ {
seedPlay(t, pool, u.ID, lovedTrack.ID, now.Add(-time.Duration(i+1)*time.Hour), 1.0)
seedPlay(t, pool, u.ID, skippedTrack.ID, now.Add(-time.Duration(i+1)*time.Hour), 0.02)
}
if err := BuildTasteProfile(context.Background(), pool, discardLogger(), u.ID, DefaultConfig()); err != nil {
t.Fatalf("build: %v", err)
}
lw, ok := artistWeight(t, pool, u.ID, loved.ID)
if !ok || lw <= 0 {
t.Errorf("loved artist weight = %.3f (present=%v), want > 0", lw, ok)
}
sw, ok := artistWeight(t, pool, u.ID, skipped.ID)
if !ok || sw >= 0 {
t.Errorf("skipped artist weight = %.3f (present=%v), want < 0", sw, ok)
}
if rw, ok := tagWeight(t, pool, u.ID, "Rock"); !ok || rw <= 0 {
t.Errorf("Rock tag weight = %.3f (present=%v), want > 0", rw, ok)
}
}
// TestBuildTasteProfile_AggregationProtectsArtist: one early-skip among many
// completed plays must NOT make a loved artist net-negative (the user's
// concern that a track-dislike shouldn't tank the artist).
func TestBuildTasteProfile_AggregationProtectsArtist(t *testing.T) {
pool := newPool(t)
now := time.Now().UTC()
u := seedUser(t, pool, "tp2")
fav := seedArtist(t, pool, "Fav")
for i := 0; i < 4; i++ {
tk := seedTrack(t, pool, fav.ID, "Indie")
seedPlay(t, pool, u.ID, tk.ID, now.Add(-time.Duration(i+1)*time.Hour), 1.0)
seedPlay(t, pool, u.ID, tk.ID, now.Add(-time.Duration(i+5)*time.Hour), 0.95)
}
// One early-skipped track by the same artist.
skipTrack := seedTrack(t, pool, fav.ID, "Indie")
seedPlay(t, pool, u.ID, skipTrack.ID, now.Add(-2*time.Hour), 0.02)
if err := BuildTasteProfile(context.Background(), pool, discardLogger(), u.ID, DefaultConfig()); err != nil {
t.Fatalf("build: %v", err)
}
w, ok := artistWeight(t, pool, u.ID, fav.ID)
if !ok || w <= 0 {
t.Errorf("fav artist weight = %.3f (present=%v), want > 0 despite one skip", w, ok)
}
}
// TestBuildTasteProfile_ArtistLikeBonus: an explicitly-liked artist with no
// plays still earns a positive weight from the like bonus.
func TestBuildTasteProfile_ArtistLikeBonus(t *testing.T) {
pool := newPool(t)
u := seedUser(t, pool, "tp3")
liked := seedArtist(t, pool, "LikedOnly")
if _, err := pool.Exec(context.Background(),
`INSERT INTO general_likes_artists (user_id, artist_id) VALUES ($1, $2)`,
u.ID, liked.ID); err != nil {
t.Fatalf("seed artist like: %v", err)
}
if err := BuildTasteProfile(context.Background(), pool, discardLogger(), u.ID, DefaultConfig()); err != nil {
t.Fatalf("build: %v", err)
}
w, ok := artistWeight(t, pool, u.ID, liked.ID)
if !ok || w <= 0 {
t.Errorf("liked-only artist weight = %.3f (present=%v), want > 0 from like bonus", w, ok)
}
}
// TestBuildTasteProfile_AtomicReplace: a second build replaces, not appends.
func TestBuildTasteProfile_AtomicReplace(t *testing.T) {
pool := newPool(t)
ctx := context.Background()
now := time.Now().UTC()
u := seedUser(t, pool, "tp4")
a := seedArtist(t, pool, "A")
tk := seedTrack(t, pool, a.ID, "Rock")
seedPlay(t, pool, u.ID, tk.ID, now.Add(-time.Hour), 1.0)
count := func() int {
var n int
if err := pool.QueryRow(ctx,
`SELECT count(*) FROM taste_profile_artists WHERE user_id = $1`, u.ID).Scan(&n); err != nil {
t.Fatalf("count: %v", err)
}
return n
}
for i := 0; i < 2; i++ {
if err := BuildTasteProfile(ctx, pool, discardLogger(), u.ID, DefaultConfig()); err != nil {
t.Fatalf("build %d: %v", i, err)
}
}
if got := count(); got != 1 {
t.Errorf("artist rows after two builds = %d, want 1 (atomic replace)", got)
}
}

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