Desktop plugin details now route into the shared Skills, Agents, and MCP management surfaces instead of maintaining separate read-only drilldowns. This also extends the desktop/server skill aggregation so plugin-provided skills appear in the shared list, groups MCP entries by source, and preserves detail-view back navigation based on where the user entered the page.
The implementation keeps plugin detail as the high-level capability hub while pushing real inspection into the existing management pages. Disabled plugins no longer expose false navigation paths into shared views, and the agent-browser regression script was expanded to exercise the new end-to-end flows.
Constraint: Shared Agents data only includes enabled plugin agents, so disabled plugins cannot deep-link into agent detail
Rejected: Keep duplicating full Skills/Agents/MCP detail inside Plugin detail | creates divergent UI flows and stale data paths
Confidence: high
Scope-risk: moderate
Reversibility: clean
Directive: If a detail view can be opened from multiple entry points, keep the return target in store state rather than hardcoding a single back destination
Tested: desktop vitest for plugins/skills/agents/mcp; desktop tsc --noEmit; desktop vite build; server skills API test; agent-browser web regression on plugin->skill/mcp and plugin->agent back navigation
Not-tested: packaged desktop app regression after rebuilding the Tauri bundle
The desktop app could read plugin-produced skills and agents, but it had no
plugin control plane of its own. This adds a dedicated Settings tab backed by
server-side plugin APIs so installed plugins can be inspected, enabled,
disabled, updated, reloaded, and uninstalled from the WebUI.
The implementation also teaches browser-based desktop dev sessions to honor a
custom backend URL, which made it possible to run isolated worktree ports for
real UI automation. During verification, the long-lived desktop server kept a
stale installed-plugin snapshot after external CLI mutations, so cache clearing
now resets that session-level plugin installation state as well.
Constraint: Desktop WebUI needed an isolated backend URL instead of the hard-coded 127.0.0.1:3456 fallback
Constraint: Reuse existing plugin operations and loaders instead of rebuilding plugin lifecycle logic in the desktop layer
Rejected: Fold plugin management into Skills or Adapters | mixed unrelated lifecycles and hid plugin-specific health/actions
Rejected: Expose only read-only plugin status in desktop | did not satisfy enable-disable-reload-uninstall verification needs
Confidence: high
Scope-risk: moderate
Reversibility: clean
Directive: Keep desktop plugin actions routed through the shared plugin operation layer and clear installed-plugin session caches when plugin state changes externally
Tested: cd desktop && bun run lint
Tested: cd desktop && bun run test -- src/__tests__/pluginsSettings.test.tsx
Tested: bun test src/server/__tests__/plugins.test.ts src/server/__tests__/skills.test.ts
Tested: Browser automation against isolated ports 15120/38456 covering discord plugin list/detail/disable/apply/enable/update/uninstall flows
Not-tested: Full desktop session runtime parity with CLI /reload-plugins AppState refresh beyond the new desktop API path