optimize-tauri-backend — Tauri 后端优化
Use this skill to turn a growing Tauri backend into a smaller, more stable, more pleasant development surface. The goal is not magical Rust HMR. The goal is to reduce how often Rust changes are needed, make Rust restarts less disruptive, and keep the Tauri command boundary small, typed, and auditable.
When to Use
- The user is developing with
pnpm tauri dev/npm run tauri devand Rust file changes keep closing and reopening the app. src-tauri/src/lib.rshas become a God file.- The app exposes 100+ or 200+
#[tauri::command]functions. - Frontend code scatters raw
invoke("command_name")strings across many components. - Long-running
invoke/Channelcalls cause stale callback warnings after reload or HMR. - The user wants backend modularization, command consolidation, better dev scripts, or restart-state recovery.
Core Position
State this clearly when asked about hot reload:
| Surface | Dev behavior |
|---|---|
| Frontend Vite / React | real HMR |
| Rust / Tauri backend | recompile + restart native process |
| Best optimization | separate stable Tauri shell from volatile domain logic, then make restarts cheap |
Do not promise Rust backend HMR inside Tauri. Tauri's Rust-side "hot reload" means watch, rebuild, and restart.
Workflow
Step 1: Read Local Rules First
Before changing files, inspect project instructions and config:
pwd
find .. -name AGENTS.md -print
find .. -name CLAUDE.md -print
rg -n "beforeDevCommand|devUrl|frontendDist|tauri dev|--no-watch|invoke\\(|#\\[tauri::command\\]|generate_handler" package.json src-tauri src 2>/dev/null
Honor local constraints. If the repo says not to run pnpm build, do not run
it. Prefer rg and small file reads. Do not revert unrelated user changes.
Step 2: Baseline the Backend
Collect objective numbers before proposing or editing:
wc -l src-tauri/src/lib.rs 2>/dev/null
find src-tauri/src -maxdepth 3 -type f -name "*.rs" -print0 | xargs -0 wc -l | sort -n | tail
rg -n "#\\[tauri::command\\]" src-tauri/src | wc -l
rg -n "generate_handler!|invoke\\(" src-tauri/src src 2>/dev/null
Report:
lib.rsline count.- Largest Rust files.
- Number of Tauri commands.
- Whether command registration lives inside startup code.
- Whether frontend uses a centralized invoke adapter.
- Known long IPC streams or background tasks.
Step 3: Classify the Problem
Use these buckets:
| Bucket | Symptom | Preferred fix |
|---|---|---|
| Dev loop | Rust edits restart the app during UI work | add no-watch dev script |
| God module | lib.rs has thousands of lines | split into real Rust modules |
| Command sprawl | 100+ command functions | consolidate by domain with typed routers |
| Invoke sprawl | raw command strings everywhere | frontend invoke adapter / API layer |
| Long IPC | stale callback warnings after reload | stream id + cancel + send-error stop |
| Restart pain | route/session lost after app restart | dev resume state + flush pending saves |
| Compile pain | small domain edits rebuild huge surfaces | move volatile logic out of Tauri shell |
Step 4: Improve the Dev Loop
Add scripts without removing the existing full dev command:
{
"scripts": {
"dev:web": "vite",
"dev:app": "tauri dev",
"dev:app:no-watch": "tauri dev --no-watch"
}
}
Document usage:
dev:app: full Tauri development with Rust watcher.dev:app:no-watch: frontend-focused development; Vite HMR stays active and Rust file changes do not restart the app.dev:web: pure web frontend when the app supports browser-only work.
Keep the existing pnpm tauri dev route working unless the user explicitly
asks to remove it.
Step 5: Modularize the Rust Backend
Goal: src-tauri/src/lib.rs should be a thin entrypoint.
Target shape:
mod app;
mod diagnostics;
mod pty_manager;
pub use app::run;
Recommended backend shape:
src-tauri/src/
├── lib.rs
├── app/
│ ├── mod.rs
│ ├── run.rs
│ ├── command_registry.rs
│ ├── command_routers.rs
│ ├── settings_core.rs
│ ├── session_cache.rs
│ ├── session_listing.rs
│ └── ...
└── shared_runtime_modules.rs
Rules:
- Prefer real
modmodules over long-terminclude!. - During large migrations, a temporary
include!split is acceptable only as a compile-preserving checkpoint. Convert it to real modules before finishing. - Keep each file under roughly 1000 lines unless the user sets a stricter threshold.
- Move
generate_handler!out ofrun.rsintocommand_registry.rs. - Keep
run.rsfocused on app lifecycle, plugins, menus, windows, and watchers.
Step 6: Reduce Commands Without Destroying the Boundary
Do not replace 200 commands with do_anything(action, payload). That removes
type and permission boundaries.
Good consolidation pattern:
#[tauri::command]
async fn settings_command(action: String, payload: serde_json::Value) -> Result<serde_json::Value, String> {
match action.as_str() {
"patch_settings" => { /* typed deserialize + validate */ }
"get_settings" => { /* typed return */ }
_ => Err(format!("unknown settings action: {action}")),
}
}
Better when possible:
#[derive(Deserialize)]
#[serde(rename_all = "camelCase", tag = "kind")]
enum SettingsPatch {
SetEnv { key: String, value: String },
DeleteEnv { key: String },
TogglePlugin { plugin_id: String, enabled: bool },
}
Recommended domains to consolidate:
| Domain | Typical router |
|---|---|
| templates / marketplace install | template_command |
| file utilities | file_command |
| PTY lifecycle | pty_command |
| workspace state | workspace_command |
| MaaS/provider settings | maas_command |
| settings/env/permissions/plugins | patch_settings or settings_command |
Keep explicit commands for:
- High-risk operations where an explicit name improves auditability.
- Commands with distinct permission or capability requirements.
- Public app API surfaces that should remain stable.
Target: under 100 commands for medium-sized apps, lower only if domain routers stay typed and auditable.
Step 7: Centralize Frontend Invokes
Create one adapter such as src/lib/tauri.ts:
import { invoke as tauriInvoke, type InvokeArgs, type InvokeOptions } from "@tauri-apps/api/core";
const COMMAND_ROUTES: Record<string, { command: string; action: string }> = {
install_skill_template: { command: "template_command", action: "install_skill_template" },
pty_write: { command: "pty_command", action: "pty_write" },
};
export function invoke<T>(cmd: string, args?: InvokeArgs, options?: InvokeOptions): Promise<T> {
const route = COMMAND_ROUTES[cmd];
if (!route) return tauriInvoke<T>(cmd, args, options);
return tauriInvoke<T>(route.command, { action: route.action, payload: args ?? {} }, options);
}
Then replace component imports from @tauri-apps/api/core with the app adapter.
Use TanStack Query or a local query wrapper for server-state reads. Keep imperative side effects imperative.
Step 8: Fix Long IPC and Reload Warnings
When a command streams via Channel, use a request id and cancellation:
Frontend:
const streamId = crypto.randomUUID();
const channel = new Channel<Event>();
invoke("list_items_streamed", { streamId, onEvent: channel });
return () => {
invoke("cancel_items_stream", { streamId }).catch(() => {});
};
Also cancel on HMR / pagehide:
if (import.meta.hot) {
import.meta.hot.dispose(() => cancelStream("hmr-dispose"));
}
window.addEventListener("pagehide", () => cancelStream("pagehide"));
Rust:
static STREAM_CANCELS: LazyLock<Mutex<HashMap<String, Arc<AtomicBool>>>> =
LazyLock::new(|| Mutex::new(HashMap::new()));
Rules:
invokeshould resolve quickly after starting a background stream.- Every stream has a
streamId. - Cleanup removes the stream token.
- Sending to a dead channel must stop the loop.
- HMR / route unmount / pagehide should cancel active streams.
- Do not hide stale callback warnings globally with
console.warn = ....
Step 9: Restore State After Dev Restarts
Make restarts less disruptive:
- Persist current hash in development.
- Persist active workspace conversation/session id.
- Flush debounced workspace saves on
pagehide,visibilitychange, and HMR dispose. - On reload, if the app lands on an empty/default hash, restore the last hash.
- For expensive session lists, keep a memory/query cache and re-stream in the background.
Keep this dev-oriented unless the product requires production resume semantics.
Step 10: Verify
Run only checks allowed by local instructions:
cargo fmt
CARGO_TARGET_DIR=target/codex-check cargo check
pnpm exec tsc --noEmit --pretty false
Use a separate CARGO_TARGET_DIR when the user's tauri dev process holds the
normal Cargo build lock.
Report:
lib.rsline count.- Largest Rust file count.
- Tauri command count.
- Rust check result.
- TypeScript check result, including unrelated existing blockers.
- Scripts added and how to use them.
Output Checklist
Final answer must include:
- What changed in dev scripts.
- What changed in backend module/command structure.
- What changed in IPC/restart lifecycle.
- Exact verification commands run.
- Any remaining warnings or blocked checks.