Picks up the registry rename in the front-end and Tauri command layer:
- src/lib/types/app.ts: LlmModelIdStr now lists the four new ids
(qwen3_5_2b / qwen3_5_4b / qwen3_5_9b / qwen3_6_27b).
- src/lib/pages/SettingsPage.svelte: LLM_MODELS table rebuilt with
four tiers (Minimal / Standard / High / Maximum), matching subtitles
and download-size copy. selectedLlmModelId fallback, hardware-warning
thresholds, tier-availability check, and ensureRecommendedLlmTier
fallback all retargeted at the new ids. The Maximum tier surfaces a
64 GB / 24 GB warning so users with mid-range hardware see honest
expectations.
- src-tauri/src/commands/llm.rs and commands/tasks.rs: doc-comment
examples refreshed (Qwen3 4B → Qwen3.5 4B, Qwen3's tokenizer →
Qwen's tokenizer — the BPE family is shared).
- src/lib/stores/llmStatus.svelte.ts: chip-detail example updated.
cargo build --workspace clean. cargo test --workspace clean.
npx svelte-check reports one pre-existing error in vite.config.js
(unused @ts-expect-error directive, dates back to the original
scaffold commit 9926a42); not introduced here, out of scope to fix.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Replace all instances of the legacy product names "Kon" and "Corbie" with
"Magnotia" across user-facing copy, code identifiers, package names, bundle
ids, file paths, and documentation. Preserves the unrelated "konsole" (KDE
terminal) reference and the parent CORBEL company name.
- Renames 10 Rust crates (kon-* → magnotia-*) and the tauri binary
- Updates package.json, tauri.conf.json (productName + identifier)
- Renames CSS classes (kon-rh-* → magnotia-rh-*) and animations
- Renames brand and roadmap docs
- Regenerates Cargo.lock and package-lock.json
Verified: svelte-check passes; pure-rust crates compile under new names.
Two small Phase 1 follow-ups for the Android target:
1. tauri.conf.json: add `bundle.android.minSdkVersion: 24`. Android 7.0
is the floor — gives us Vulkan availability (for the eventual GPU
feature flag), AAudio for cpal, and is what Pixel-class hardware
tests against. Keeps the global `identifier` on `uk.co.corbel.kon`
for now; the Corbie rebrand sweep will land `corbel.technology.corbie`
as a single coherent commit.
2. src/lib/utils/runtime.ts: add `isAndroid()` and `isMobile()` helpers
alongside the existing `hasTauriRuntime()`. Both use UA sniffing —
sufficient for feature-gating UI, never for security decisions.
These are how the Svelte side will hide:
- hotkey config (no global hotkey API on Android)
- paste-mode picker (auto-paste maps to a copy-only flow)
- meeting auto-capture toggle (process list unavailable)
- multi-window buttons (open-viewer, open-float, etc.)
- system-tray-related affordances
Tauri 2 doesn't expose a synchronous platform-detection helper that
works during initial render, so UA sniffing is the pragmatic choice.
https://claude.ai/code/session_0189xUb6ie6t9qHkzatGZ9Rb
Phase 1 of the Android same-repo target plan: make the workspace
compilable for `aarch64-linux-android` (and the other NDK ABIs) by
removing the desktop-only crate dependencies and command bodies from the
Android build. After this commit, `tauri android init` followed by
`cargo tauri android build` is structurally unblocked — the remaining
work is the SDK/NDK toolchain (off-sandbox), the Svelte single-window
refactor, and the Phase 3 MVP feature surface.
What's gated under `cfg(not(target_os = "android"))`:
- src-tauri/Cargo.toml: `tauri = { features = ["tray-icon"] }` is now
declared in the desktop-only target block. The `global-shortcut`,
`window-state`, and `autostart` plugins join it — none of the three
support Android natively. The base `tauri = "2"` plus `dialog`,
`opener`, and `notification` plugins remain unconditional because they
do support Android.
- src-tauri/src/lib.rs: `mod tray` declaration, the matching
`tray::setup(app)` call, the close-to-tray `WindowEvent::CloseRequested`
handler, and the `.plugin(tauri_plugin_global_shortcut::*)` /
`_autostart` / `_window_state` chain are all desktop-only. The
builder is split with a single `#[cfg(not(target_os = "android"))]`
branch that adds the desktop plugins on top of the universal base.
- src-tauri/src/commands/tts.rs: `tts_speak` previously had three
`#[cfg(target_os = ...)]` branches but no fallback, so on Android the
`spawned` binding was unbound and the function failed to compile.
Mirrored the existing `paste.rs` not-implemented fallback. Same fix
for `list_voices_impl`. Frontend will hide the Read Page Aloud button
on Android via `isAndroid()`.
- src-tauri/src/commands/windows.rs: all four multi-window commands
(`open_task_window`, `open_preview_window`, `close_preview_window`,
`open_viewer_window`) get an Android stub that returns a clear
"Multi-window is not supported on Android" error. Tauri on Android
is single-Activity; the previously-secondary content (preview overlay,
transcript viewer, task float) will live as routes inside the main
window, gated by `isAndroid()` on the frontend.
What's *not* changed:
- Top-level `identifier` in tauri.conf.json stays `uk.co.corbel.kon`.
The Phase 10b Kon → Corbie rename sweep will land
`corbel.technology.corbie` as part of a coherent rebrand commit
rather than fragmenting the rename across this branch.
- `bundle.android.minSdkVersion: 24` added so a future
`tauri android init` knows to target Android 7.0+ (Vulkan available,
scoped storage starts at 29 — we'll surface scoped-storage paths
via Tauri's dialog plugin on Phase 3).
- `kon-hotkey` already exports a non-Linux stub; no changes needed.
- `commands/meeting.rs` still calls `process_watch::list_running_process_names()`
which compiles on Android but returns an empty list (SELinux blocks
/proc walk on API 24+). Frontend will hide the toggle on Android.
Verification: 91/91 tests still pass on the buildable-in-sandbox crates
(kon-storage 60, kon-core 16, kon-mcp 9, kon-hotkey 4, kon-cloud-providers
2). svelte-check 0/0 across 3957 files. The src-tauri crate itself can't
be compiled in this sandbox (no webkit2gtk); CI's desktop builders will
exercise the desktop branch, and Jake's Android-equipped dev box will
exercise the Android branch via `tauri android init`.
https://claude.ai/code/session_0189xUb6ie6t9qHkzatGZ9Rb
`emit_live_result` already detected a lost result_channel listener: it
sent a one-shot status warning and from then on short-circuited future
result sends. But if the status_channel listener was also gone — which
is what happens when the user closes the main window without calling
stop_live_transcription_session — the worker kept polling inflight
inference every 10 ms forever, holding a model loaded on the GPU and
keeping the WAV writer file handle open until the process exited.
When the warning send to status_channel also returns Err, the entire
frontend channel pair is dead. Self-assert stop_flag from inside
emit_live_result so the worker drains and exits cleanly. Existing user-
initiated stop semantics are unchanged.
- Threaded `stop_flag: &Arc<AtomicBool>` through `emit_live_result` and
the free `poll_inference` (instance method already had access via
`self.stop_flag`).
- Existing `result_listener_loss_is_warned_once_*` test updated to pass
a stop_flag and assert it stays false when only result_channel fails.
- New test `dead_result_and_status_channels_self_assert_stop_flag` proves
the self-stop fires when both channels Err.
(src-tauri doesn't build in the audit sandbox — needs webkit2gtk; CI
cross-platform compiles it.)
https://claude.ai/code/session_0189xUb6ie6t9qHkzatGZ9Rb
The error_log table had no retention policy: every backend error was
appended forever, so across months of dogfooding it grew unbounded. That
silently bloats the diagnostic-bundle export and slows the
list_recent_errors query the Settings → About panel runs.
- New `kon_storage::prune_error_log(pool, keep_days)` does a single
`DELETE FROM error_log WHERE timestamp < datetime('now', '-Nd days')`
and returns the row count removed.
- src-tauri/src/lib.rs runs it once during setup() with a const
ERROR_LOG_RETENTION_DAYS = 90. Failure is logged to stderr but does not
block startup — a prune that fails is strictly less important than the
app coming up.
- Test: insert three rows at now / -30d / -200d, verify a 90-day prune
removes only the oldest, and a subsequent 14-day prune removes the
-30d row. Storage suite at 60/60.
https://claude.ai/code/session_0189xUb6ie6t9qHkzatGZ9Rb
`detect_meeting_processes` is called every 15 s when meeting-auto-capture
is enabled. The previous `list_running_process_names` allocated a fresh
`sysinfo::System` per call and walked /proc cold; on a busy host
(~300 processes) that's ~50–100 ms of work, every poll, forever.
Add `kon_core::process_watch::ProcessLister`, a thin wrapper around a
long-lived `System` whose process table is refreshed in place. The Tauri
host holds one behind a `Mutex<ProcessLister>` in a new `MeetingState`
managed at app setup. The free `list_running_process_names` is kept as a
convenience that constructs a fresh `ProcessLister` per call — its only
remaining caller is the existing smoke test.
- ProcessLister + Default in crates/core/src/process_watch.rs.
- MeetingState in src-tauri/src/commands/meeting.rs; the command takes
it via `tauri::State` and locks for the duration of the snapshot.
- src-tauri/src/lib.rs registers MeetingState alongside the other
managed states.
https://claude.ai/code/session_0189xUb6ie6t9qHkzatGZ9Rb
Adds llm_tags TEXT NOT NULL DEFAULT '' to the transcripts table via
new migration v14. SELECT statements + TranscriptRow + transcript_row_from
now carry the column. update_transcript_meta gains a sixth Option for
llm_tags following the existing COALESCE pattern; an
#[allow(too_many_arguments)] keeps clippy happy without inverting the
signature into a struct that would just shift the indirection.
The Tauri-side TranscriptDto + UpdateTranscriptMetaRequest + the
update_transcript_meta_cmd command pass llm_tags through unchanged.
Pre-existing manualTags persistence path now has a sibling for
llmTags ready for the frontend to call.
Phase 8 brittle test fix included: list_recent_completions_uses_local_day_boundary
was anchoring its "-2 days" UTC offset against the local-day spine,
which drifted across UTC midnight. Anchored to the local date directly
so it matches the spine regardless of clock.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Bridges LlmEngine::extract_content_tags to the frontend with the same
spawn_blocking + PowerAssertion guard the cleanup_text command uses.
Returns a ContentTags object serialised to camelCase JSON. Errors
surface as readable strings so the frontend toast shows actionable
text on the rare grammar-bypass path.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Thin UTF-8 writer used by the new save-dialog path. Caller owns path
safety; the source path is always OS-dialog-provided. Two unit tests:
roundtrips a small UTF-8 string with non-ASCII chars and asserts a
nonexistent parent path returns an actionable error.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Thin wrapper over kon_storage::list_recent_completions, parameterised
by day count. Serialises to camelCase JSON (day, count).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Small if-then automation layer. Rules persist in SQLite; the runner
lives on the frontend and binds to the Phase 6 event bus so the rule
pipeline reuses the same delivery primitives (timer events, TTS,
Tasks navigation).
Storage:
- Migration v12 adds implementation_rules (id, enabled, trigger_kind,
trigger_value, actions_json, last_fired_key, created_at,
updated_at) with enabled+trigger_kind index for the runner's hot
path.
- CRUD helpers: insert / list / get / set-enabled / mark-fired /
delete, plus a round-trip test.
Commands (all main-window-guarded via ensure_main_window):
- list_implementation_rules
- create_implementation_rule — validates HH:MM, checks the target
task exists at save time for surface-task actions, caps
speak-line at 240 chars, pins v1 timers to 5 minutes.
- set_implementation_rule_enabled
- mark_implementation_rule_fired — main-thread idempotency shim so
the runner can atomically claim a fire.
- delete_implementation_rule
Runner (implementationIntentions.svelte.ts):
- Subscribes to kon:task-completed and kon:morning-triage-finished
(MorningTriageModal now emits on all three exit paths — empty,
skipped, picked — so skip counts as finishing).
- 30 s poll for time-of-day rules, plus an immediate check on startup
so a rule whose time has already passed today catches up once.
- Idempotency via last_fired_key composed as YYYY-MM-DD@HH:MM for
time rules; new time rules whose HH:MM has already passed today
are pre-seeded so they don't fire retroactively on save.
- Rules are paused when Nudges "Mute for now" is on — a hard mute
stops all rule delivery in addition to OS notifications.
- Stale-task safety: if a surface-task action's target has been
deleted, the runner opens Tasks and warns clearly rather than
pretending to surface something that's gone.
Editor (ImplementationRulesEditor.svelte):
- Lives in Settings under a new "If-then rules" accordion section.
- `If` picker: time of day (with time input), a task completes,
morning triage finishes.
- `Then` composer: optional surface (inbox / today / all tasks /
specific task), optional 5-min timer, optional speak-aloud line.
- Saved rules list with enable toggle + delete.
Rules table integration for Phase 10b rename sweep: add
implementation_rules to the kon.db → corbie.db migration shim when
that phase lands.
Gates: fmt, clippy -D warnings, cargo test 265/0, svelte-check
0/0, npm build green. Pre-existing Vite chunk warning on sounds.ts
is unrelated to Phase 7.
Frontend-owned nudge bus that consumes in-app signals Corbie already
produces, applies suppression, and fans out to OS notification + an
optional TTS read-aloud. OS-wide keyboard/window activity detection
stays deferred per the revised roadmap — the plan before rewrite
would have been brittle on Wayland, permission-heavy on macOS, and
low-quality everywhere.
Triggers (v1, all in-app signals):
- inactivity_with_active_timer — timer running, window blurred ≥ 90 s,
at least 60 s into the timer.
- pending_morning_triage — ritual enabled, past 10:00 local, last
shown ≠ today. Polls every 5 min while focused.
- micro_step_idle — micro-step decomposition created, no child step
or parent task completed within 15 min.
Suppression:
- Respects nudgesEnabled + nudgesMuted.
- No nudge while the app has focus (document.hasFocus).
- Hard cap 3 per rolling hour.
- Permission requested via @tauri-apps/plugin-notification on first
delivery; denial is silently respected.
Rust side:
- tauri-plugin-notification registered + ACL entries on the main-
window capability only (secondary windows can't fire nudges).
- commands::nudges::deliver_nudge — thin wrapper, security-guarded
via ensure_main_window, delegates to the plugin. No DB writes —
the roadmap's nudges-audit table is deferred until a concrete need
emerges.
Frontend glue:
- nudgeBus.svelte.ts — subscribes to window events, applies
suppression, calls deliver_nudge (+ tts_speak when speakAloud is
on).
- kon:task-completed now dispatched on complete_task_cmd success.
- kon:microstep-generated + kon:step-completed dispatched from
MicroSteps so the idle trigger can clear itself on any engagement.
- kon:focus-timer-cancelled added to focusTimer so the bus can reset
its inactivity state on cancel, not only on natural completion.
- nudgeBus started from +layout.svelte onMount, stopped on destroy.
Settings:
- New "Nudges" section with three toggles: Enable nudges, Mute for
now (separate so a hard mute doesn't lose preferences),
Speak nudges aloud (reuses Phase 4 TTS).
- All default OFF. No first-run prompt — nudges are a Settings-found
feature rather than a walkthrough step.
Out of scope per the revised Phase 6 spec: OS-wide keyboard/window
hooks, biometric signals, custom trigger editor (Phase 7), notification
sound (platform variance too high for Layer-1 — revisit in Phase 9
polish with a bundled .wav).
Gates: fmt clean, clippy -D warnings clean, cargo test 262/0 (4
existing + 262 current), npm run check 0/0, npm run build green.
Three opt-in rituals, all default OFF. Research-anchored (Barkley's
point-of-performance, Sweller cognitive-load theory, Newport shutdown
ritual, Gollwitzer implementation intentions, Thaler/Sunstein nudge
with informed consent for the ADHD audience).
Morning triage: modal gated on ritualsMorning toggle, configurable
trigger time (default 08:00 to respect ADHD sleep inertia rather than
the spec's 06:00), "pick up to three for today" with a gentle swap
message on the fourth attempt. Skip sets last-shown-today so it never
re-prompts the same calendar day. last-shown persists via kon_storage.
Evening wind-down: dedicated page, user-triggered only (tray menu +
Settings button). Mechanical closure + physical reset + intentional
cue — the whole Newport template. Open loops are read-only reflection;
Tasks page owns transactions. Copy is additive throughout: "you
finished X today", never "you didn't finish Y".
Autostart: tauri-plugin-autostart registered (LaunchAgent on macOS,
.desktop on Linux, registry Run on Windows). No bespoke Rust commands
— frontend calls the plugin's invoke-handlers directly. Toggle in
Settings is one-way (click → OS call → state update) to avoid the UI
lying during the round-trip. First-run presents a forced-choice prompt
for all three options, with "skip all" escape hatches per step.
Copy audit against RSD literature: no "overdue", "failed", or
day-to-day comparison framing anywhere in ritual surfaces.
Post-v0.1 ideas captured in the roadmap: calendar integration
(read-only ICS as interim, cloud sync parked) and right-click-to-task
(in-app simple, system-wide a separate phase).
Platform-dispatched TTS (spd-say + espeak-ng fallback on Linux, say on
macOS, PowerShell System.Speech on Windows) with a shared SpeakerButton
component. Tap to speak, tap again to stop; only one button speaks at
a time so two surfaces don't talk over each other. Text always travels
via argv (or a PowerShell here-string delivered through -EncodedCommand
on Windows) so user content never enters a shell string.
Mount points: DictationPage transcript footer, transcript viewer header,
per-step in MicroSteps. Settings gains a "Read aloud" accordion with
voice picker (lazy-loaded from the OS synth), rate slider 0.5-2.0x,
and a British-English test utterance.
Rust tests cover rate mapping, NaN handling, and Windows here-string
terminator safety. No pause/resume, no SSML, no cloud voices — that
stays out of scope per the Layer-1 roadmap.
Closes Phase 3 of the 2026-04-23 feature-complete roadmap. Incorporates
the Codex plan-review fixes from this session: profile-free index, tri-
state update command, and de-prioritise-not-hide semantics.
Storage (kon-storage):
- Migration v11 adds `energy TEXT` to `tasks` with a CHECK constraint on
`high | medium | brain_dead | NULL`. Index `(energy, created_at DESC)`
— deliberately not per-profile because the tasks table carries no
profile_id column yet (tracked as a separate gap in HANDOVER).
- `TaskRow.energy: Option<String>` plus `task_row_from` read.
- `insert_task` signature grows by one optional arg (`energy`). Allowed
`too_many_arguments` with a rationale comment — the positional shape
matches the column order and flipping to a params struct would have
rippled through every caller for cosmetic benefit only.
- New `set_task_energy(pool, id, Option<&str>) -> TaskRow`. Lives as its
own function because `update_task` uses COALESCE to let `None` mean
"preserve" — which would make clearing the tag impossible.
- Two new tests: round-trip including explicit NULL clear, and CHECK
constraint rejection of unknown values.
- Tests updated for the v10 → v11 version bump.
Tauri (src-tauri):
- `TaskDto.energy`. `CreateTaskRequest.energy` (optional). Inline
validation against the allowed set before hitting the DB, so frontend
bugs surface as friendly errors instead of CHECK-constraint failures.
- New `set_task_energy_cmd` command mirroring the storage tri-state API.
Frontend (svelte):
- `EnergyLevel` type added to `types/app.ts`. `TaskDto`, `TaskEntry`, and
`TaskDraft` grow an `energy` field.
- `SettingsState.currentEnergy` (persisted) + `matchMyEnergy` (persisted
toggle). Defaults: null + false — no surface change until user opts in.
- `setTaskEnergy(id, EnergyLevel | null)` action on the task store.
Calls the dedicated Tauri command, updates local state, broadcasts to
sibling windows.
- `EnergyChip.svelte` — new component. Cycles unset → High → Medium →
Brain-Dead → unset on click. Colour tokens: accent / warning /
text-tertiary (deliberately not danger-red for Brain-Dead — the brief
is explicit that this state must not feel pathologised).
- Chip rendered on every task row in TasksPage and every row in
WipTaskList. Hidden-until-hover when energy is unset so untagged rows
stay calm; always visible once tagged because the colour is the signal.
- Tasks page header gains a "I feel" segmented control and a
"Match my energy" toggle. When both are active, matching tasks sort
to the top — unset tasks are treated as Medium-equivalent. Nothing is
ever hidden; this is a de-prioritisation, not a filter.
Deferred / out of scope:
- LLM-driven surfacing (brief says "The AI surfaces...") — deterministic
client-side sort is v1; LLM layer is a later phase.
- tasks.profile_id + per-profile energy sort — separate migration.
All green: cargo build + 251 tests + clippy -D warnings (0 warnings)
+ fmt + svelte-check (0/0) + npm run build.
Independent review surfaced three majors and one nit. All actioned.
MAJOR 1 — profile scoping:
`decompose_and_store` and `extract_tasks_from_transcript_cmd` now
accept an optional `profile_id` (wired from `profilesStore.activeProfileId`
in MicroSteps.svelte and DictationPage.svelte), and thread it into the
feedback-retrieval query so per-profile decomposition styles do not
leak into each other. `record_feedback` gets the same treatment.
MAJOR 2 — prompt-budget regression on long inputs:
New `trim_to_budget` helper + `FEW_SHOT_CHAR_BUDGET = 2000` char cap
in `src-tauri/src/commands/tasks.rs`. Retrieval still pulls up to 5
rows but they are char-counted and truncated against the budget
before being sent to the LLM. Char cost matches the `Input: ...\n
Good output: ...` render path so the budget maps cleanly to ~570
Qwen3 tokens, well inside the 8192-context reserve after the 512-
or 768-token response allocation. Oldest-first drop order (iteration
stops at cost exceeded) preserves the most recent correction which
is the one carrying the user's live preference.
MAJOR 3 — inline edit stale-rollback race:
`saveEdit` in MicroSteps.svelte now stamps a monotonic per-step
`saveToken`. Each edit bumps the token; on failure the rollback
only fires if `saveToken[step.id] === myToken`, so a slow-failing
first save can no longer overwrite a faster successful second save.
NIT — retrieval ordering stability:
`list_feedback_examples` ORDER BY now `created_at DESC, id DESC`.
SQLite timestamp precision is one second; without the secondary
key, bursty feedback within the same second would select
non-deterministically.
Also: malformed `context_json` now warns via eprintln! rather than
disappearing silently — Codex minor.
All green: cargo build + 249 tests + clippy -D warnings + fmt
+ svelte-check (0/0) + npm run build.
Closes the human-in-the-loop gap from docs/brief/feature-set.md and
Phase 2 of the 2026-04-23 feature-complete roadmap.
Storage (kon-storage):
- Migration v10 adds the `feedback` table: (target_type, target_id,
rating, original_text, corrected_text, context_json, profile_id,
created_at) with CHECK constraints on target_type and rating, plus
indexes on (target_type, rating, created_at DESC) for prompt-time
retrieval and (profile_id, target_type, created_at DESC) for
per-profile scoping.
- New public API: `FeedbackTargetType`, `RecordFeedbackParams`,
`FeedbackRow`, `record_feedback`, `list_feedback_examples`.
- Tests updated — the RB-02 rollback regression now discovers the
real max version at runtime instead of hard-coding v10 for its
poison migration.
LLM (kon-llm):
- `prompts::FeedbackExample` — local shape for few-shot exemplars so
kon-llm stays independent of kon-storage.
- `prompts::build_conditioned_system_prompt` — appends a "here is
the style this user prefers" block to the base system prompt
when examples are available; returns the base prompt unchanged
when empty, so new users and early sessions see generic output.
- `LlmEngine::decompose_task_with_feedback` and
`LlmEngine::extract_tasks_with_feedback` thread examples through
to the builder. The old one-arg variants are preserved and now
call through with an empty slice.
- 4 unit tests covering empty, empty-input-skip, correction-wins,
and thumbs-up-only fallback.
Tauri (src-tauri):
- New commands::feedback module: `record_feedback`,
`list_feedback_examples_cmd`.
- `decompose_and_store` and `extract_tasks_from_transcript_cmd`
now fetch the last 5 positive/neutral feedback rows for their
target type and pass them through to the LLM, wiring the
learning loop end-to-end.
- Shared `to_llm_examples` helper parses the `context_json.input`
field (where the recorder stashes the parent task text / transcript
chunk) back into the exemplar shape.
Frontend (MicroSteps.svelte):
- Thumbs-up and thumbs-down buttons on every micro-step row.
Hover-revealed; the vote recolours the icon; clicking again
clears the local highlight (the row itself stays in the audit
trail).
- Pencil icon + double-click to edit step text. Save flows through
update_task_cmd for persistence and records a correction feedback
row with (original_text, corrected_text) — the highest-value
training signal.
- Parent task text is captured in context_json.input at record time
so the prompt builder can reconstruct the (input, preferred-output)
pair on subsequent decompositions.
- Feedback capture is best-effort — a record_feedback failure never
interrupts the primary action.
What's deferred to a later phase:
- Thumbs + corrections on extracted tasks (same pipeline, different
surface — probably TasksPage after the AI-extraction path)
- Thumbs on transcript cleanup output
- Semantic retrieval over the feedback corpus (once there is enough
data to justify embedding infrastructure; the storage shape is
already ready for it)
Auto-applied cargo clippy --fix across 11 files — needless return,
unnecessary cast, map_or simplification, repeat().take() → repeat_n(),
iter().any() → contains(), manual char comparison, lifetime elision,
push_str single-char, reference immediately dereferenced.
Also fixed three lints on file_storage.rs manually: two doc-list-item
overindentations, plus the same needless-return. Baseline main was
not clippy-clean with -D warnings before; after this pass one
needless_range_loop warning remains (live.rs:1089) that clippy's
suggested rewrite would make less readable — left for a dedicated
refactor session.
Build + workspace tests remain green (245 passing, 0 failing, 1
ignored).
The accumulator task was fire-and-forget — `tokio::spawn` without
retaining the JoinHandle. `stop_native_capture` sent a stop signal,
slept 50ms, and returned; the worker could still be running its
final flush and appending to `all_samples` when the next
`start_native_capture` cleared it. Rapid start→stop→start could
leak tail samples from one session into another.
Replace `NativeCaptureState.stop_tx` with `worker:
AsyncMutex<Option<CaptureWorker>>`, where CaptureWorker owns both
the stop sender and the spawned task's JoinHandle. New helper
`stop_worker(worker)` sends stop, drops the sender, and `.await`s
the join. Both the prior-worker tear-down in `start_native_capture`
and `stop_native_capture` itself go through the helper, so the
worker is always fully terminated before any downstream read or
next-session cleanup.
AsyncMutex (not std::sync::Mutex) because the stop path awaits
while holding the lock. Also drops the 50ms sleep from
stop_native_capture — the join is an exact barrier.
Two regression tests:
- stop_worker_awaits_full_termination_no_writes_after_join:
synthetic worker with an atomic counter and a flush marker.
After stop_worker the flush must have run and no further
writes may appear.
- stop_worker_is_idempotent_on_a_worker_that_has_already_exited:
tasks that stop themselves must still join cleanly.
A full cpal-backed start→stop→start integration test is not
feasible in Linux CI without an audio device. The component tests
cover the invariant the real flow depends on.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
get_runtime_capabilities was returning `accelerators = ["cpu",
"vulkan"]` and `whisper.supports_gpu = true` regardless of build
config or runtime state. On a macOS build it falsely advertised
"vulkan" (the backend actually resolves via MoltenVK as Metal); on a
whisper-disabled build it claimed GPU support for an engine that
hadn't been linked.
Added `compose_accelerators(whisper_enabled, loader_available, target)`
— a pure helper that always emits "cpu" first and appends the
platform-appropriate GPU name only when whisper is compiled in AND the
Vulkan loader resolves. `supported_accelerators()` wraps it with the
live `cfg!(feature = "whisper")`, loader probe, and target OS.
`get_runtime_capabilities` now calls `supported_accelerators()` and
sets `whisper.supports_gpu = cfg!(feature = "whisper")`. Parakeet
stays CPU-only.
Five tests in `commands::models::tests` cover the permutation matrix:
whisper on/off, loader present/missing, macOS vs other. Both feature
configurations (`--features whisper` and `--no-default-features`)
build and pass tests.
Macos Metal-loader resolution on real hardware stays on the
ship-gate checklist — the detection logic is verifiable from Linux
but runtime behaviour is not.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
MINOR from the batch review of 6e9ed99: SystemTime::now() alone
cannot guarantee uniqueness under tight loops — two calls in the
same clock tick can return identical secs + nanos on some OS
timing resolutions. The filename reduction from "every second"
to "every nanosecond" addresses the flagged bug but leaves a
theoretical gap.
Adds a process-lifetime AtomicU64 counter, zero-padded to 4 digits,
as the third filename component. New shape:
kon-<secs>-<nanos_in_sec>-<counter>.wav
e.g. kon-1776828000-123456789-0000.wav
Across process restarts the counter resets to 0, but the wall-clock
secs/nanos have advanced — no cross-launch collisions possible.
Within a single process, the counter guarantees uniqueness regardless
of clock behaviour.
Test strengthened from ">=32 of 64 unique" (probabilistic) to
"1024 of 1024 unique" (absolute).
2026-04-22 review MINORs and NITs:
- crates/core/src/providers.rs: delete entire module. SpeechToText /
TextProcessor / ProviderRegistry were forward-looking traits that
never got wired — the Transcriber trait in kon-transcription
(A.2 #13) has since superseded SpeechToText, and the Registry
pattern was redundant against LocalEngine. Keeping them as dead
public surface signalled future direction that is no longer
accurate.
- crates/core/src/types.rs: delete TranscriptMetadata. Forward-
looking struct with an unfulfilled TODO; storage has evolved
independently through v7/v8 migrations without adopting it.
- crates/ai-formatting/src/llm_client.rs: remove #[allow(dead_code)]
from CLEANUP_PROMPT and format_dictionary_suffix. Both are
actively called; the suppressions would hide future genuine
dead-code warnings in this regression-sensitive prompt file.
- src-tauri/src/commands/live.rs: remove #[allow(dead_code)] from
LiveStatusMessage. Every variant (Warning, Overload, Error,
Finished) is constructed in the module today.
- README.md: update kon-transcription row from "SpeechToText
trait" to "Transcriber trait" and mention the new streaming/
module.
Workspace test gate green (225 lib tests across all crates).
MINOR from the 2026-04-22 review (build.rs:47-64): the guard used
strip_prefix("connect-src") to find the directive, which would also
match hypothetical future directives like connect-src-elem and
validate the wrong allow-list.
Switches to split_once(char::is_whitespace) on each directive and
requires the first token to equal "connect-src" exactly. Robust
against prefix collisions with any future CSP3 directive
additions.
MAJOR from the 2026-04-22 review (audio.rs:236-257): filenames were
derived from SystemTime::now().as_secs(), so two recordings started
within the same second resolved to the same path — possible overwrite
or merge.
Extracts the filename generation into a private helper and appends
the sub-second nanosecond component. Format is now
`kon-<secs>-<nanos_in_sec>.wav`, e.g. `kon-1776828000-123456789.wav`,
which stays human-readable, sortable by timestamp, and effectively
uncollidable under any realistic live-capture pattern.
Two tests cover the regression:
- recording_filenames_are_unique_across_rapid_calls: 64 tight-loop
calls must produce at least 32 unique names.
- recording_filename_has_expected_shape: prefix/suffix plus the
zero-padded 9-digit nanos component.
MAJOR from the 2026-04-22 review (paste.rs:181-217): unlike
paste_text, the replace flow did not snapshot the user's clipboard
before writing the raw transcript. A successful revert left the raw
transcript on the clipboard and destroyed whatever the user had
copied before invoking it — inconsistent with paste_text's Handy-#921
contract (brief item #3).
Extracts the snapshot+restore pattern into two helpers shared
between paste_text and paste_text_replacing:
- snapshot_clipboard_text() -> Option<String>
- schedule_clipboard_restore(prior, transcript)
Both paste_text and paste_text_replacing now run the same
capture-before-stomp, restore-after-fire sequence. The restore-
guard (only restore if clipboard still holds the transcript we set)
is shared too, so a user who copies something new within the 300 ms
window is still respected.
DRY: removes ~15 lines of inline clipboard bookkeeping from
paste_text while making the replace flow identical.
Review feedback: reported_audio_path was cached at writer-open time
and survived a mid-session writer drop. If an append error cleared
wav_writer (or hound's Drop ran instead of finalize), the Summary
still reported the path — risking StopLiveTranscriptionResponse
pointing at a file whose header did not reflect its data chunk.
Moves the decision to end-of-session. wav_writer.take() is inspected:
- writer present + finalize Ok → report the path,
- writer present + finalize Err → None, emit a Warning,
- writer absent (mid-session drop, or never opened) → None.
StopLiveTranscriptionResponse.audio_path now means "the recording is
known-good" rather than "a recording was attempted". Users can still
recover partial files via filesystem if needed; the warning toasts
already emitted by append_resampled_audio on write failure surface
that path implicitly.
Review feedback: src-tauri/src/commands/models.rs was still naming
load_whisper unconditionally, so a --no-default-features workspace
build (kon-transcription without the whisper feature) would have
compiled the transcription crate cleanly but failed in the kon crate
as soon as it tried to resolve the load_whisper symbol.
Adds a matching [features] section to src-tauri/Cargo.toml:
- default = ["whisper"]
- whisper = ["kon-transcription/whisper"]
and declares the kon-transcription dep with default-features = false so
the feature actually propagates rather than being forced-on by the
child crate's default. Cfg-gates the load_whisper import in models.rs
and adds a companion match arm that returns a runtime error when the
feature is off, keeping the API shape intact.
Verified with both cargo build -p kon and cargo build -p kon
--no-default-features.
The Vec<f32> in-memory accumulator on run_live_session had three
failure modes: (a) a crash during transcription took the recording
with it, (b) RAM grew linearly with session length, (c) OOM killed
the capture thread silently.
New kon_audio::WavWriter wraps hound::WavWriter<BufWriter<File>> with
an append-friendly API and a 500 ms-granularity header flush. On any
abort after a flush the on-disk file is a valid, playable WAV. Unit
test (brief item #19 acceptance) simulates the abort with
std::mem::forget and asserts the pre-flush samples are recoverable.
Live capture now:
- resolves the destination path at start_live_transcription_session
time via a new resolve_recording_path helper extracted from
persist_audio_samples,
- opens a WavWriter before any samples arrive, sample rate taken from
LocalEngine::capabilities() (#13 wiring) with 16 kHz fallback,
- feeds the resampler output through WavWriter::append inside
append_resampled_audio — drops the writer with a user-visible
warning if a write fails mid-session,
- calls flush() at stop (after resampler tail), finalise() on clean
exit, and drops-to-last-flushed state on abort.
LiveSessionSummary.audio_samples → audio_path: the path is already
written by the time stop_live_transcription_session runs; no
post-session write step remains for live capture.
persist_audio_samples is kept for the offline save_audio command.
New crates/transcription/src/transcriber.rs defines a Transcriber
trait (Send supertrait for spawn_blocking travel) with
TranscriberCapabilities (sample_rate, channels, supports_initial_prompt).
TranscriberCapabilities.sample_rate is load-bearing for the upcoming
progressive WAV writer (#19).
Concrete impls:
- SpeechModelAdapter wraps Box<dyn transcribe_rs::SpeechModel + Send>
for Parakeet (and any future transcribe-rs-backed engine).
- WhisperRsBackend moves its transcribe_sync body into the impl,
widening the signature from &self to &mut self so per-call
WhisperState can be created cleanly through the trait object.
LocalEngine now holds Box<dyn Transcriber + Send>; dispatch in
transcribe_sync collapses from a match to a direct call. Adds
LocalEngine::capabilities() for the WAV-writer.
Cargo feature flag "whisper" (default on) makes whisper-rs, num_cpus,
and the whole whisper_rs_backend module optional. cargo check
--no-default-features -p kon-transcription now builds without pulling
whisper-rs-sys — the escape hatch brief item #6 / #13 called for on
Windows / non-AVX2 / cloud-only builds. load_whisper is cfg-gated
behind the same feature.
src-tauri/src/commands/models.rs load_model_from_disk returns
Box<dyn Transcriber + Send> instead of SpeechBackend; caller chain
(ensure_model_loaded, prewarm_default_model) is unchanged.
transcriber_trait_is_object_safe test lands alongside the trait as a
compile-time witness against future Self-returning / generic-method
additions.
Review feedback: the original guard substring-searched the whole file
after the first "csp" token, which (a) false-passes if any unrelated
JSON value elsewhere in the config happens to contain a localhost URL
and (b) false-fails if the CSP is ever re-serialised with escaped
forward slashes.
Switches to serde_json + a /app/security/csp pointer lookup, then
splits the CSP on ';', finds the connect-src directive, tokenises its
allow-list on whitespace, and requires an exact match for both
http://127.0.0.1:* and ws://127.0.0.1:*. The error now also includes
the current connect-src value so a developer who breaks it can see
exactly what needs restoring.
Pins the connect-src CSP entries for http://127.0.0.1:* and
ws://127.0.0.1:* at build time. If a future edit to tauri.conf.json
strips the local-LLM permit, the kon crate fails to build rather than
shipping a binary whose webview fetch() silently 404s with an opaque
scope error (Vibe #438 / #487).
Closes item #2 of docs/whisper-ecosystem/brief.md — CSP widening itself
landed in an earlier commit; this is the regression-proofing the plan
calls for.
Two new Settings → AI knobs that compose cleanly with what already
shipped (aiTier, LLM model, translator prompt framing).
**B.1 #15 — Named cleanup presets.** LlmPromptPreset enum
(Default / Email / Notes / Code) appends a short context hint onto
the CLEANUP_PROMPT just before generation. Presets shape tone and
structure ("email paragraph", "bulleted meeting notes", "preserve
technical terms") without licensing the content-editing the
translator-not-editor framing forbids. cleanup_transcript_text_cmd
now takes `preset: Option<String>` which runs through the new
LlmPromptPreset::parse (normalises aliases like "meeting-notes",
collapses unknown values to Default).
**A.1 #28 — Sequential-GPU guard.** New LocalEngine::unload drops
the backend + model_id so a subsequent load actually reclaims VRAM.
load_llm_model, load_model, and load_parakeet_model Tauri commands
grow an optional `concurrent: bool` argument. When concurrent is
Some(false), loading LLM first unloads whisper+parakeet, and vice
versa — prevents VRAM OOM on tight-VRAM setups. Default is the
previous parallel behaviour so nothing changes for multi-GB cards.
Transcribe-in-progress paths (transcribe_pcm, transcribe_file, live)
pass None, so mid-dictation model loads don't accidentally tear
down the LLM.
Settings UI (AI section):
- Cleanup preset segmented button + descriptive copy for each option.
- GPU concurrency segmented button with explicit trade-off text
("faster transitions vs fits in tight VRAM").
Frontend wiring:
- settings.llmPromptPreset flows from DictationPage's
cleanupTranscriptIfEnabled into the Tauri command.
- settings.aiGpuConcurrency flows from both DictationPage (auto-load
on record) and SettingsPage (manual load/unload buttons) as
`concurrent: "parallel" === true` to the load commands.
Tests: three new preset cases in crates/ai-formatting/src/llm_client.rs
(parse aliases, suffix non-empty for non-default, default suffix
empty). All 139 existing lib tests still pass.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The brief's pain point is opaque load failures: llama-cpp-2's errors
bubble up as raw C++ strings ("cudaMalloc failed: out of memory",
"invalid gguf magic"). A user seeing that has no path to recovery.
New backend command test_llm_model runs a staged diagnostic:
1. Model not downloaded → `not-downloaded` + download hint.
2. File size ≤90% of expected → `incomplete` (stalled download)
+ re-download hint. Matters because llama-cpp-2 can segfault
on truncated GGUF rather than returning cleanly.
3. Requested model already loaded → `ready`, no side effects.
4. Otherwise attempt a real load. On failure, classify_llm_load_error
maps the raw string to one of:
- load-failed-vram (OOM / cudaMalloc / allocation)
- load-failed-corrupt (GGUF magic / unsupported format)
- load-failed-permission (permission denied / access denied)
- load-failed-other (catch-all)
Each category has a prewritten actionable hint pointing at the
specific Settings surface (tier picker, re-download, file perms).
classify_llm_load_error is pure-string and unit-tested — 8 cases
covering the main categories plus edge cases (OOM alias, Windows
"Access is denied", unknown errors). Ordered narrow-to-broad so
overlap doesn't misclassify.
Settings UI gets a "Test" button in the AI section's action row,
visible whenever the model is downloaded (both downloaded-idle and
loaded states). Shows inline hint below the status line when the
test surfaces one. Refreshes both local and global LLM status after
the test since a successful test implicitly loads the model.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Kon's ideology rule: raw Whisper output is the source of truth; LLM
cleanup is additive, never destructive. The preview overlay already
tracks both rawText and finalText across the listening → live →
cleanup → final phases — but until now the user had no one-click path
from final to raw if cleanup changed their meaning.
Frontend: a context-aware "Use raw" / "Copy raw" button appears in
the preview overlay's final phase, only when rawText and finalText
actually differ (Raw format mode or LLM-off leaves the button hidden).
Two behaviours depending on how the transcript reached the target:
- settings.autoPaste = true → invoke paste_text_replacing, which
sends the platform's undo keystroke to the focused app,
waits UNDO_PASTE_GAP_MS (60 ms) for the compositor / app to
process it, then pastes the raw transcript. The preview hides
itself beforehand so the keystroke doesn't race focus
(existing Wayland-hardening path).
- settings.autoPaste = false → nothing was pasted in the first
place, so just overwrite the clipboard with raw. User's own
paste yields raw.
Backend: new paste_text_replacing Tauri command plus a mirror of the
paste-backend matrix for undo (wtype -M ctrl z / xdotool key ctrl+z /
ydotool keycodes 29:1 44:1 44:0 29:0 / osascript cmd+z / SendKeys '^z').
Reuses the pick_linux_backend_order Wayland-vs-X11 preference.
Registered in the Tauri command handler.
Acceptance per the brief: "after paste, Ctrl+Z within 5 s replaces
LLM output with raw transcript" — satisfied via the 4 s auto-hide
window on the preview's final phase. The click extends auto-hide so
the user actually sees the confirmation.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
prewarm_default_model loaded the model and returned. That moves the
model into RAM, but whisper.cpp still allocates its context window +
fills GPU shader caches on the first inference call — producing the
~4–5 s cold-start latency documented in ufal/whisper_streaming #96
and #135 that feels like "Kon dropped my first sentence."
Extend the pre-warm task: after engine.load, feed one second of
silence (16000 zero samples at 16 kHz) through transcribe_sync with
default options. Silence returns empty segments; the *work* is the
context allocation, which now happens at app boot rather than on the
user's first hotkey press.
Net: the user's first real dictation should complete within ~1.5× the
steady-state RTF they'll see on subsequent runs, satisfying the A.1
#23 acceptance criterion. No new public API; all inside the existing
spawn_blocking.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The preview window was missing from the default capability's window
list. Its frontend calls core:window:allow-hide (getCurrentWindow().hide()
on dismiss / auto-hide) plus invoke('copy_to_clipboard') and a handful
of event listeners — none of those would have been permitted at runtime
because the capability never matched this window's label.
Add 'transcription-preview' alongside the other secondary windows so
the preview actually has access to the permissions it already relies on.
Regenerate gen/schemas/capabilities.json to match.
Co-authored-by: jars <jakejars@users.noreply.github.com>
Extends commands/paste.rs::paste_text with a pre-keystroke check:
if GetForegroundWindow (Windows) / xdotool getactivewindow (Linux
X11) / 'tell System Events ...' (macOS) reports a focused app class
matching KNOWN_TERMINAL_CLASSES, skip the synthesised Ctrl+V and
return an outcome with copied=true, pasted=false, and a user-facing
message ('Terminal detected (kitty) — use Ctrl+Shift+V to insert').
Matches Handy #692: Kitty/Alacritty/Windows Terminal/Codex CLI all
double-insert the transcript when a PTY sees both a synthesised
Ctrl+V and the terminal's own paste hotkey. The terminal list is
ordered most-specific-first so 'windowsterminal' wins over the
generic 'terminal' needle.
Adds classify_terminal() as a pure helper + seven unit tests. The
platform probe (detect_focused_window_class) isolates the fragile
shell-out so the classification rule is test-covered without
needing a real desktop. Wayland doesn't expose a reliable
focused-window API to unprivileged clients, so it conservatively
returns None and the normal paste path runs — consistent with
Kon's Wayland-Pipewire lane.
Prior-clipboard restore (#3) is intentionally skipped when terminal
mode takes over: the user's path to insert the transcript is their
own paste, which needs the transcript on the clipboard.
Co-authored-by: jars <jakejars@users.noreply.github.com>
Extends commands/paste.rs so that when auto-paste fires we:
1. capture the user's existing clipboard text BEFORE overwriting
it with the transcript (via arboard::Clipboard::get_text — a
non-text clipboard returns None and the restore step is
skipped, which keeps images / files safe),
2. after the paste keystroke lands, sleep 300 ms,
3. restore the snapshot only if the clipboard still holds the
transcript we wrote — respects any Cmd+C the user did in the
300 ms window.
Moves the decision to a pure should_restore(current, transcript)
helper with four unit tests. The existing paste-matrix regression
tests are unchanged.
Matches Handy #921 (workstream-B brief item #3). Coexists with the
Wayland preview-hide dance already in this file, and doesn't run
when the paste keystroke fails (transcript stays on the clipboard
for the user's own paste).
Co-authored-by: jars <jakejars@users.noreply.github.com>
Two issues with the previous #12 approach, both caught by CI:
1. tauri-build rejects the '_comment' json field as unknown when
parsing tauri.windows.conf.json:
unknown field `_comment`, expected one of `$schema`,
`product-name`, `productName`, ...
The schema is strict, so the doc-comment has to live elsewhere.
2. tauri-build's bundle.resources list is resolved at build-script
(cargo check) time, not at 'tauri build' time. With the DLLs
intentionally gitignored for licensing reasons (see the dir's
README), every cargo check run on Windows would fail.
Fix: delete tauri.windows.conf.json entirely. The intent of #12 —
'runtime falls back to CPU when Vulkan is absent' — is already
live in src-tauri/src/commands/models.rs::detect_active_compute_device,
unchanged.
Rewrite resources/windows/README.md to document a cargo tauri build
--resource ... invocation for the release engineer. That's the only
invocation that needs the DLLs present; everyone else (including
CI's cargo check) doesn't go near them.
This matches how Kon already handles CI/release split elsewhere
(macOS code-sign certs, Windows code-sign certs, etc. all stay out
of tauri.conf.json for the same reason).
Co-authored-by: jars <jakejars@users.noreply.github.com>
Adds src-tauri/tauri.windows.conf.json with a bundle.resources list
for vulkan-1.dll, libssl-3-x64.dll, and libcrypto-3-x64.dll shipped
side-by-side with kon.exe, plus a src-tauri/resources/windows/README.md
explaining how release engineers populate the directory (licensing
constraints keep it manual rather than scripted).
The runtime fallback is already live from commit A.1 #1: if the
Vulkan loader is missing after launch, emit_runtime_warnings() fires
a runtime-warning event (kind: vulkan-loader-missing) and
get_runtime_capabilities() reports activeComputeDevice=cpu with a
reason. The app starts and transcribes on CPU — degraded but never
broken — so the acceptance criterion 'launches cleanly on a VM with
no GPU' holds by construction.
Matches Whispering #840/#829 and Buzz #1459 pain patterns.
Co-authored-by: jars <jakejars@users.noreply.github.com>
Adds src-tauri/src/commands/power.rs exposing a PowerAssertion RAII
guard that macOS uses to pin NSProcessInfo.beginActivityWithOptions
around long-running work. Wired into:
- run_live_session (entire live-dictation lifetime)
- cleanup_transcript_text_cmd's spawn_blocking body (LLM run)
Non-macOS targets get a no-op guard so callers don't have to #cfg
the call sites. The actual Objective-C bridge to NSProcessInfo is
stubbed (begin_activity returns Err so the guard logs a warning
instead of silently pretending); the stub doesn't regress recording
or LLM behaviour on macOS — it just means App Nap is not yet
suppressed, which matches today's behaviour. Full objc2 integration
is a follow-up that can introduce objc2 cleanly in its own commit.
Matches Whispering #549/#559 pain-pattern; acceptance text ("10
minute background recording completes unattended") is satisfied
once the bridge is finished, and nothing regresses today.
Co-authored-by: jars <jakejars@users.noreply.github.com>
Extends get_runtime_capabilities() with three new fields:
- activeComputeDevice: {kind, label, reason} — "GPU (Vulkan)" on
the happy path, "CPU (fallback)" with a reason when the Vulkan
loader is absent at runtime. libloading::Library::new probes
libvulkan.so.1 / vulkan-1.dll / libMoltenVK.dylib per target OS.
- cpuFeatures: { avx2, avx512f, fma, sse4_2, neon, hasGgmlBaseline }
sourced from the new probe_cpu_features() helper. hasGgmlBaseline
is the one flag the Settings banner actually reads.
- parallelModeAvailable: placeholder false until Phase A.4 lands
the real GPU VRAM probe + GpuGuard semaphore permit logic.
Adds emit_runtime_warnings(&AppHandle) called once at setup() after
prewarm_default_model. Emits a runtime-warning event with kind
"avx2-missing" or "vulkan-loader-missing" so Workstream B can
render a dismissible Settings banner without polling capabilities.
Contract matches docs/whisper-ecosystem/workstream-A.md §Item #1 for
Workstream B to consume without waiting for Phase A.2 to land the
real whisper_print_system_info bridge.
Co-authored-by: jars <jakejars@users.noreply.github.com>
Extends hardware::CpuInfo with a CpuFeatures struct populated via
std::is_x86_feature_detected! on x86_64 and an architectural
assumption for aarch64 (NEON). Adds has_ggml_baseline() so callers
can cheaply ask 'will whisper.cpp / llama.cpp ship a fast path on
this CPU?' without knowing the arch-specific rule.
The point of #7 is giving the runtime a way to surface a clear
"non-AVX2 fallback" warning before the user hits a wall of silent
slowness. The banner itself ships in the next commit as part of
get_runtime_capabilities (item #1). Tests cover the baseline helper
on both x86 and non-x86 targets.
Co-authored-by: jars <jakejars@users.noreply.github.com>
Adds http://127.0.0.1:* and ws://127.0.0.1:* to the connect-src
allowlist so future BYO-cloud LLM integrations (Ollama on 11434,
llama.cpp server on 8080, LM Studio on 1234, etc.) can fetch(...)
without tripping the CSP.
Kon's bundled LLM (llama-cpp-2) is in-process and does not need HTTP,
but the localhost surface is the standard external LLM transport and
pre-approving it here lets Workstream B wire Ollama's Test Connection
(item #27) without re-spinning the CSP. No tauri-plugin-http is in
use today — when that lands the scope allowlist goes in capabilities.
Matches the pain pattern from Vibe #438 (Tauri scope blocking
127.0.0.1 LLM endpoints).
Co-authored-by: jars <jakejars@users.noreply.github.com>
sqlx 0.8's default feature set pulls in `any`, `macros`, `migrate`, and
`json`. Grepping the workspace confirms none of these are used — the
code calls sqlx::query() / query_scalar() at runtime, implements its own
migration sequencing in crates/storage/src/migrations.rs, is sqlite-only
(no `any` needed), and never derives FromRow / applies sqlx proc-macros.
Dropping them keeps only what's needed: runtime-tokio + sqlite.
Why it matters disproportionately on Windows: the `macros` feature pulls
sqlx-macros → sqlx-macros-core → proc-macro2 / syn / quote / async-trait
/ url / heck / dotenvy / sha2 / filetime. Each proc-macro crate on
Windows MSVC compiles to a .dll with a full linker invocation (slower
ABI than Linux/macOS proc-macro .so). Net: tens of seconds shaved off
every cold-cache CI run, compounding with the cache-path fix in the next
commit.
kon-mcp was already lean (default-features = false); matching that shape
across the workspace now.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>