A team launch creates many directories/files in quick succession (worktrees,
inboxes, session logs), and each addDir/unlinkDir event triggered a full
TeamTaskWatchRegistry reconcile that tore down and recreated the entire chokidar
watcher (re-opening a kqueue fd per watched file on macOS). Profiling a 6-member
mixed-team launch showed kqueue churn (kevent) as a top native cost and watcher
rebuild as the top remaining main-thread JS cost after the transcript fix.
Debounce the event-driven reconcile (250ms) so a burst collapses into one rebuild.
collectTargets re-reads the current directory state and emitExistingFilesForNewTargets
backfills files created before the rebuild, so no change is missed; requestReconcile,
startup, and the periodic 30s reconcile stay immediate. Adds a test asserting a
burst of addDir events yields a single rebuild.
The main process watched every team directory under ~/.claude/teams (one shallow
chokidar target per team root, per team inboxes, and per task dir). On macOS this
falls back to kqueue, which needs one fd per watched file, so a workspace with
many teams kept ~1600 descriptors open and made startup and reconcile work scale
with the number of teams on disk.
Scope the team-root and task watching to teams that are running or currently
engaged in the UI. The teams root and every team's inboxes are still watched for
all teams, so cross-team message delivery, the lead inbox->stdin relay, and
notifications are unchanged. Idle teams are static, so dropping their team-root/
task watches is safe; opening a team (getData) or launching it re-adds it via an
immediate watch-scope refresh. The provider falls back to watching every team
when unset, and the EMFILE polling fallback is intentionally left unscoped so a
scope change can never look like a deletion.
Measured on a 162-team workspace: open team fds 1600 -> 730, with team-root
watching restored the moment a team is opened or goes live.
Share watcher fallback behavior across project, todo, team, and task file monitoring. Add polling fallback coverage for watcher-limit and startup failure cases so Linux EMFILE conditions degrade instead of amplifying renderer crashes.
- Introduced CLI_INSTALLER_VERIFY_PROVIDER_MODELS IPC channel for on-demand model verification.
- Implemented handler for verifying provider models in the CliInstallerService.
- Enhanced CLI installation status management with model verification state and availability.
- Updated related components to support model verification feedback in the UI.