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Author SHA1 Message Date
imbytecat
70b5d27493 chore(desktop): 添加 win-x64 构建目标 2026-02-07 21:04:39 +08:00
imbytecat
5d5d3a51f6 chore(desktop): 禁用 mac 和 win 平台的 CEF 捆绑 2026-02-07 20:57:58 +08:00
imbytecat
3306e18395 refactor(desktop): 使用预分配端口替代 stdout 解析获取服务器端口 2026-02-07 19:32:56 +08:00
imbytecat
14bcdb33af chore(deps): 升级 TanStack 路由和 Start 依赖版本 2026-02-07 19:11:28 +08:00
imbytecat
cc81d95178 chore(desktop): 升级 electrobun 至 1.12.0-beta.1 2026-02-07 19:10:33 +08:00
imbytecat
55d45e6a49 docs(desktop): 更新 AGENTS.md 文档与开发计划以反映最新实现 2026-02-07 18:49:50 +08:00
imbytecat
b7a6a793a3 feat(desktop): 实现生产模式下的内嵌服务器子进程支持 2026-02-07 18:49:41 +08:00
imbytecat
6b12745e50 chore(desktop): 更新应用名称、标识符和版本号 2026-02-07 17:46:00 +08:00
imbytecat
989d8973f5 chore(desktop): 简化构建和开发脚本 2026-02-07 17:16:32 +08:00
imbytecat
41e79449ce docs: 更新 AGENTS.md 适配 Electrobun 替代 Tauri 2026-02-07 17:00:52 +08:00
imbytecat
4bbb0c4a16 refactor(server): simplify build script, remove Effect dependency 2026-02-07 16:44:56 +08:00
imbytecat
2b3026cf69 chore(turbo): simplify and optimize monorepo configuration 2026-02-07 16:35:30 +08:00
imbytecat
adb14cff77 chore: 重构 Turbo 构建配置并强化 Bun 专用说明 
将应用特定的构建输出配置下沉至各自 turbo.json,根级 build 任务添加拓扑依赖;AGENTS.md 统一添加 Bun 专用运行时警告;桌面端启用 Linux CEF 渲染器。
 2026-02-07 16:14:55 +08:00
imbytecat
44ca7a0f5e chore: 扩展 Turbo build 任务的输出目录配置 2026-02-07 07:06:55 +08:00
imbytecat
59b4edc2d2 chore(desktop): 降级 electrobun 至 0.8.0 稳定版 2026-02-07 06:59:19 +08:00
imbytecat
9d0e9a6aac chore(desktop): 添加 .gitignore 和多平台构建脚本 2026-02-07 06:29:08 +08:00
imbytecat
f758fd5947 chore: 更新 bun.lock 锁文件 2026-02-07 06:15:52 +08:00
imbytecat
26f9421130 chore: 统一 Node/TypeScript 配置并修复桌面端类型环境 2026-02-07 05:53:38 +08:00
imbytecat
29969550ed refactor(desktop): 从 Tauri 迁移到 Electrobun 
- 移除 Tauri v2 代码 (src-tauri/, copy.ts)
- 添加 Electrobun 配置和入口 (electrobun.config.ts, src/bun/index.ts)
- 更新 package.json 使用 catalog 管理 electrobun 依赖
- 移除 server 中的 @tauri-apps/api 依赖
- 更新 AGENTS.md 文档
 2026-02-07 05:04:53 +08:00
imbytecat
9aa3b46ee5 chore(desktop): 更新 Cargo 依赖 2026-02-07 03:45:08 +08:00
imbytecat
f3ea0f0789 chore: 更新依赖版本 2026-02-07 03:32:42 +08:00
imbytecat
bde325d9ae chore: 更新 biome 和 turbo 依赖版本 2026-02-07 03:31:01 +08:00
imbytecat
e41c4e4515 docs: 更新 AGENTS.md 文档结构和内容 
- 新增根目录 AGENTS.md 作为 monorepo 总览
- 移动 desktop AGENTS.md 从 src-tauri/ 到 apps/desktop/
- 修正 server AGENTS.md 目录结构 (src/server/api/ 而非 src/orpc/)
- 明确 desktop 为纯 Tauri 壳子,无前端代码,通过 sidecar 加载 server
 2026-02-07 03:29:51 +08:00
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# Electrobun Desktop: Production Mode via Child Process Architecture
## TL;DR
> **Quick Summary**: Redesign the Electrobun desktop app to support production mode by spawning the TanStack Start server as a child process. Currently only dev mode works (hardcoded `localhost:3000`). The desktop will detect dev/prod mode, spawn the server with `PORT=0` in prod, parse the actual port from stdout, and open the BrowserWindow.
>
> **Deliverables**:
> - Rewritten `apps/desktop/src/bun/index.ts` with dev/prod mode support
> - Updated `apps/desktop/electrobun.config.ts` with `build.copy` and platform configs
> - Cross-workspace build dependency in turbo pipeline
> - Updated `apps/desktop/AGENTS.md` reflecting new architecture
>
> **Estimated Effort**: Medium
> **Parallel Execution**: YES - 2 waves
> **Critical Path**: Tasks 1,2,3 (parallel) → Task 4 → Task 5
---
## Context
### Original Request
Redesign the Electrobun desktop app to support production mode. The desktop app should spawn the TanStack Start server as a child process, detect dev vs prod mode at runtime, use system-assigned ports for security, and handle server lifecycle (crash, quit).
### Confirmed Decisions
- **Architecture**: Desktop spawns server as child process via `Bun.spawn`
- **Server artifact**: `.output/server/index.mjs` (not compiled binary) — Electrobun already bundles Bun
- **Port strategy**: `PORT=0` (system-assigned), `HOST=127.0.0.1`
- **Dev/Prod detection**: `process.env.ELECTROBUN_BUILD_ENV` (see Defaults Applied below)
- **Target platforms**: All (Linux, macOS, Windows)
- **DATABASE_URL**: Pass-through via env var, no special handling
- **Crash handling**: MVP — log error to stderr, exit process
### Research Findings
**Electrobun APIs (verified from source code):**
- `build.copy` supports paths outside the project directory (e.g., `../server/.output`). Source paths are resolved relative to the project root. Destinations map into `Resources/app/` in the bundle.
- `PATHS` exported from `electrobun/bun` provides `RESOURCES_FOLDER` (absolute path to `Resources/`) and `VIEWS_FOLDER` (`Resources/app/views/`).
- `process.execPath` in a bundled Electrobun app points to the bundled Bun binary.
- `Electrobun.events.on('before-quit', callback)` fires before app quit. Callback receives an event with `response({ allow: false })` to cancel quit.
- `ELECTROBUN_BUILD_ENV` is set by the Electrobun CLI: `"dev"` for `electrobun dev`, `"stable"` for `electrobun build --env=stable`.
**Server startup behavior (verified from built output):**
- `.output/server/index.mjs` uses `Bun.serve` via the `h3+srvx` adapter (Nitro bun preset).
- Startup log format: `➜ Listening on: http://<address>:<port>/`
- The log uses the actual assigned address/port, not the requested one. So `PORT=0` will log the real port.
- `DATABASE_URL` is validated at startup via Zod (`@t3-oss/env-core`). Missing = immediate crash.
- The `.output/server/` directory contains `index.mjs` plus `_libs/` with bundled dependencies.
**Turbo pipeline:**
- Root `turbo.json` has `build.dependsOn: ["^build"]` which only builds workspace *dependencies*.
- Desktop does NOT depend on server in `package.json`, so `^build` won't trigger server build.
- Need explicit cross-workspace dependency via desktop's `turbo.json`.
### Metis Review
**Identified Gaps** (addressed):
- Dev/prod detection mechanism: Switched from custom `ELECTROBUN_DEV` to built-in `ELECTROBUN_BUILD_ENV`
- Server startup timeout: Added explicit timeout with error reporting
- Port parsing failure: Plan includes fallback and error handling
- Server crash during runtime: Watching `subprocess.exited` promise
- `cwd` for spawned server: Must set to server directory for relative import resolution
- Cross-platform considerations: `ELECTROBUN_BUILD_ENV` works everywhere (no `cross-env` needed)
### Unknowns Resolved
| Unknown | Resolution |
|---------|------------|
| Does `build.copy` support paths outside project? | **YES** — uses `cpSync` with source resolved from project root. `../server/.output` works. |
| Runtime API for resolving bundled resource paths? | **`PATHS.RESOURCES_FOLDER`** from `electrobun/bun`. Copied files land in `Resources/app/{dest}/`. |
| Does Nitro log actual port with PORT=0? | **YES** — format: `➜ Listening on: http://<addr>:<port>/` via h3+srvx adapter. |
| How does Electrobun detect dev mode? | **`ELECTROBUN_BUILD_ENV`** env var set by CLI. Values: `dev`, `canary`, `stable`. |
---
## Work Objectives
### Core Objective
Enable the Electrobun desktop app to run in production mode by spawning the TanStack Start server as a managed child process, while preserving existing dev mode behavior.
### Concrete Deliverables
- `apps/desktop/src/bun/index.ts` — Complete rewrite with dual-mode support
- `apps/desktop/electrobun.config.ts``build.copy` + all-platform configs
- `apps/desktop/turbo.json` — Cross-workspace build dependency
- `apps/desktop/AGENTS.md` — Accurate documentation of new architecture
### Definition of Done
- [ ] `bun typecheck` passes from monorepo root (zero errors)
- [ ] `bun build` from root succeeds: server builds first, then desktop bundles server output
- [ ] `bun dev` from root still starts both apps (dev mode preserved)
- [ ] Desktop `index.ts` has zero hardcoded URLs (all dynamic)
### Must Have
- Dev mode: poll external `localhost:3000`, open window when ready (existing behavior, refactored)
- Prod mode: spawn server via `Bun.spawn`, parse port from stdout, open window
- Server bound to `127.0.0.1` only (no network exposure)
- `PORT=0` for system-assigned port (no conflicts)
- Server process killed on app quit (via `before-quit` event)
- Server crash detection (watch `exited` promise, log error, exit app)
- Startup timeout with clear error message
- Server `cwd` set to its own directory (for relative import resolution)
- `DATABASE_URL` passed through from parent environment
### Must NOT Have (Guardrails)
- No hardcoded port numbers (not even 3000 — use a named constant `DEV_SERVER_URL`)
- No `as any`, `@ts-ignore`, or `@ts-expect-error`
- No empty catch blocks — always handle or re-throw
- No `npm`, `npx`, `node` — Bun only
- No manual `useMemo`/`useCallback` (not relevant here, but per project rules)
- No suppressed type errors — fix them properly
- No custom env var for dev detection — use built-in `ELECTROBUN_BUILD_ENV`
- No compiled server binary — use `.output/server/index.mjs` with bundled Bun
- Do NOT edit `apps/server/` — only `apps/desktop/` files change
- Do NOT add `@furtherverse/server` as a package dependency of desktop (use turbo cross-workspace dependency instead)
---
## Verification Strategy
> **UNIVERSAL RULE: ZERO HUMAN INTERVENTION**
>
> ALL tasks in this plan MUST be verifiable WITHOUT any human action.
> Every criterion is verified by running a command or using a tool.
### Test Decision
- **Infrastructure exists**: NO (no test framework in this project)
- **Automated tests**: NO (per project state — `AGENTS.md` says "No test framework configured yet")
- **Framework**: None
- **Agent-Executed QA**: ALWAYS (mandatory for all tasks)
---
## Execution Strategy
### Parallel Execution Waves
```
Wave 1 (Start Immediately — all independent, different files):
├── Task 1: Update electrobun.config.ts (build.copy + platform configs)
├── Task 2: Update turbo.json (cross-workspace build dependency)
└── Task 3: Rewrite index.ts (complete dev/prod mode implementation)
Wave 2 (After Wave 1 — needs final state of all files):
├── Task 4: Rewrite AGENTS.md (documentation reflecting new architecture)
└── Task 5: End-to-end verification (typecheck + build pipeline)
```
### Dependency Matrix
| Task | Depends On | Blocks | Can Parallelize With |
|------|------------|--------|---------------------|
| 1 | None | 4, 5 | 2, 3 |
| 2 | None | 4, 5 | 1, 3 |
| 3 | None | 4, 5 | 1, 2 |
| 4 | 1, 2, 3 | 5 | None |
| 5 | 1, 2, 3, 4 | None | None (final) |
### Agent Dispatch Summary
| Wave | Tasks | Recommended Agents |
|------|-------|-------------------|
| 1 | 1, 2, 3 | Tasks 1,2: `delegate_task(category="quick")`. Task 3: `delegate_task(category="unspecified-high")` |
| 2 | 4, 5 | Task 4: `delegate_task(category="writing")`. Task 5: `delegate_task(category="quick")` |
---
## TODOs
- [ ] 1. Update `apps/desktop/electrobun.config.ts` — Add build.copy and platform configs
**What to do**:
- Add `build.copy` to include the server's Nitro build output in the desktop bundle:
```typescript
copy: {
'../server/.output': 'server-output',
}
```
This copies `apps/server/.output/` (the entire Nitro build output) into `Resources/app/server-output/` in the Electrobun bundle. The full server entry point will be at `Resources/app/server-output/server/index.mjs`.
- Add `macOS` platform config block (currently only `linux` exists):
```typescript
macOS: {
bundleCEF: true,
}
```
- Add `windows` platform config block:
```typescript
windows: {
bundleCEF: true,
}
```
- Verify the exact property names by checking Electrobun's `ElectrobunConfig` type definition. The `linux` block already uses `bundleCEF: true`, so follow the same pattern for other platforms. If the type doesn't support `macOS`/`windows` yet, skip those and leave a `// TODO:` comment explaining what's needed.
- Preserve existing config values exactly (app name, identifier, version, bun entrypoint, linux config).
**Must NOT do**:
- Do not change the app name, identifier, or version
- Do not change the bun entrypoint path
- Do not remove the existing `linux` config
- Do not add dependencies or scripts
**Recommended Agent Profile**:
- **Category**: `quick`
- Reason: Single file, small config change, clear specification
- **Skills**: `[]`
- No specialized skills needed — straightforward TypeScript config edit
- **Skills Evaluated but Omitted**:
- `frontend-ui-ux`: No UI work involved
**Parallelization**:
- **Can Run In Parallel**: YES
- **Parallel Group**: Wave 1 (with Tasks 2, 3)
- **Blocks**: Tasks 4, 5
- **Blocked By**: None (can start immediately)
**References**:
**Pattern References** (existing code to follow):
- `apps/desktop/electrobun.config.ts` — Current config structure. The `linux.bundleCEF: true` pattern should be replicated for other platforms. The `build.bun.entrypoint` key shows where build config lives.
**API/Type References** (contracts to implement against):
- The `ElectrobunConfig` type from `electrobun` — imported via `import type { ElectrobunConfig } from 'electrobun'`. Check its definition (likely in `node_modules/electrobun/`) to verify exact property names for `copy`, `macOS`, `windows`.
**External References**:
- Electrobun `build.copy` syntax: copies source (relative to project root) into `Resources/app/{dest}/` in the bundle. Uses `cpSync` with `dereference: true`.
**WHY Each Reference Matters**:
- `electrobun.config.ts`: You're editing this file — need to know its current shape to preserve existing values
- `ElectrobunConfig` type: Must match the type definition exactly — don't guess property names
**Acceptance Criteria**:
- [ ] `build.copy` key exists with `'../server/.output': 'server-output'` mapping
- [ ] Platform configs added for all three platforms (or TODO comments if types don't support them)
- [ ] Existing config values unchanged (app.name = 'Desktop', etc.)
- [ ] File passes `bun typecheck` (no type errors)
**Agent-Executed QA Scenarios:**
```
Scenario: Config file is valid TypeScript with correct types
Tool: Bash
Preconditions: None
Steps:
1. Run: bun typecheck (from apps/desktop/)
2. Assert: Exit code 0
3. Assert: No errors mentioning electrobun.config.ts
Expected Result: TypeScript compilation succeeds
Evidence: Terminal output captured
Scenario: build.copy key has correct structure
Tool: Bash (grep)
Preconditions: File has been edited
Steps:
1. Read apps/desktop/electrobun.config.ts
2. Assert: Contains '../server/.output'
3. Assert: Contains 'server-output'
4. Assert: File still contains 'satisfies ElectrobunConfig'
Expected Result: Config has copy mapping and type annotation
Evidence: File contents
```
**Commit**: YES (groups with 2)
- Message: `feat(desktop): add build.copy for server bundle and platform configs`
- Files: `apps/desktop/electrobun.config.ts`
- Pre-commit: `bun typecheck` (from `apps/desktop/`)
---
- [ ] 2. Update `apps/desktop/turbo.json` — Add cross-workspace build dependency
**What to do**:
- Add `dependsOn` to the existing `build` task to ensure the server builds before the desktop:
```json
{
"tasks": {
"build": {
"dependsOn": ["@furtherverse/server#build"],
"outputs": ["build/**", "artifacts/**"]
}
}
}
```
- This tells Turbo: "before running `build` for `@furtherverse/desktop`, first run `build` for `@furtherverse/server`."
- This ensures `apps/server/.output/` exists when `electrobun build` runs and tries to `build.copy` from `../server/.output`.
- Preserve the existing `outputs` array exactly.
**Must NOT do**:
- Do not modify the root `turbo.json` — only `apps/desktop/turbo.json`
- Do not remove existing `outputs`
- Do not add other tasks or change other config
**Recommended Agent Profile**:
- **Category**: `quick`
- Reason: Single file, one-line JSON change
- **Skills**: `[]`
- No specialized skills needed
- **Skills Evaluated but Omitted**:
- `git-master`: Commit will be grouped with Task 1
**Parallelization**:
- **Can Run In Parallel**: YES
- **Parallel Group**: Wave 1 (with Tasks 1, 3)
- **Blocks**: Tasks 4, 5
- **Blocked By**: None (can start immediately)
**References**:
**Pattern References** (existing code to follow):
- `apps/desktop/turbo.json` — Current file with `build.outputs` already defined. You're adding `dependsOn` alongside it.
- `turbo.json` (root) — Shows existing turbo patterns like `build.dependsOn: ["^build"]`. The root already uses `^build` for workspace dependencies, but since desktop doesn't list server as a package dependency, we need an explicit cross-workspace reference.
**API/Type References**:
- Turbo `dependsOn` syntax: `"@furtherverse/server#build"` means "run the `build` task in the `@furtherverse/server` workspace".
**Documentation References**:
- `apps/server/package.json` — The package name is `@furtherverse/server` (verify this is the exact name used in the `dependsOn` reference).
**WHY Each Reference Matters**:
- `apps/desktop/turbo.json`: You're editing this file — preserve existing outputs
- `apps/server/package.json`: Need exact package name for the cross-workspace reference
- Root `turbo.json`: Context for existing turbo patterns in this project
**Acceptance Criteria**:
- [ ] `apps/desktop/turbo.json` has `dependsOn: ["@furtherverse/server#build"]` in the build task
- [ ] Existing `outputs` array is preserved
- [ ] Valid JSON (no syntax errors)
**Agent-Executed QA Scenarios:**
```
Scenario: turbo.json is valid JSON with correct structure
Tool: Bash
Preconditions: File has been edited
Steps:
1. Run: bun -e "JSON.parse(require('fs').readFileSync('apps/desktop/turbo.json', 'utf8'))"
2. Assert: Exit code 0 (valid JSON)
3. Read the file and verify structure contains both dependsOn and outputs
Expected Result: Valid JSON with both keys present
Evidence: Terminal output captured
Scenario: Turbo resolves the cross-workspace dependency
Tool: Bash
Preconditions: turbo.json updated
Steps:
1. Run: bunx turbo build --dry-run --filter=@furtherverse/desktop (from monorepo root)
2. Assert: Output shows @furtherverse/server#build runs BEFORE @furtherverse/desktop#build
Expected Result: Server build is listed as a dependency in the dry-run output
Evidence: Terminal output showing task execution order
```
**Commit**: YES (groups with 1)
- Message: `feat(desktop): add build.copy for server bundle and platform configs`
- Files: `apps/desktop/turbo.json`
- Pre-commit: Valid JSON check
---
- [ ] 3. Rewrite `apps/desktop/src/bun/index.ts` — Complete dev/prod mode implementation
**What to do**:
This is the core task. Completely rewrite `index.ts` to support both dev and prod modes. The new file should have this structure:
**A. Imports and Constants**:
```typescript
import Electrobun, { BrowserWindow } from 'electrobun/bun'
// Import PATHS — verify exact import syntax from electrobun/bun type definitions
// It may be: import { PATHS } from 'electrobun/bun'
// Or it may be on the Electrobun default export: Electrobun.PATHS
// CHECK the type definitions in node_modules/electrobun/ before writing
import { join, dirname } from 'path'
const DEV_SERVER_URL = 'http://localhost:3000'
const SERVER_READY_TIMEOUT_MS = 30_000
const PORT_PATTERN = /Listening on:?\s*https?:\/\/[^\s:]+:(\d+)/
```
**B. `isDev()` function**:
- Check `process.env.ELECTROBUN_BUILD_ENV === 'dev'`
- If `ELECTROBUN_BUILD_ENV` is not set, default to `true` (dev mode) — safe fallback
- Return a boolean
**C. `getServerEntryPath()` function**:
- Use `PATHS.RESOURCES_FOLDER` (or equivalent) to resolve the bundled server entry
- Path: `join(PATHS.RESOURCES_FOLDER, 'app', 'server-output', 'server', 'index.mjs')`
- **IMPORTANT**: Verify `PATHS.RESOURCES_FOLDER` points to `Resources/` and that `build.copy` destinations land in `Resources/app/`. If the pathing is different, adjust accordingly. The executor MUST verify by checking Electrobun's source or type definitions.
**D. `waitForServer(url, timeoutMs)` function** (preserved from current code):
- Polls a URL with `fetch` HEAD requests
- Returns `true` when server responds with `response.ok`
- Returns `false` on timeout
- Uses `Bun.sleep(100)` between attempts
- Catches fetch errors silently (server not up yet)
**E. `spawnServer()` function** (NEW — the critical piece):
- Returns a `Promise<{ process: Subprocess; url: string }>`
- Implementation:
1. Resolve the server entry path via `getServerEntryPath()`
2. Resolve the server directory via `dirname(serverEntryPath)` — used as `cwd`
3. Spawn with `Bun.spawn`:
```typescript
const serverProc = Bun.spawn([process.execPath, serverEntryPath], {
cwd: serverDir,
env: {
...process.env,
PORT: '0',
HOST: '127.0.0.1',
},
stdout: 'pipe',
stderr: 'pipe',
})
```
4. Read stdout as a stream to find the port:
- Use `serverProc.stdout` (a `ReadableStream<Uint8Array>`)
- Create a reader, accumulate chunks into a text buffer
- Test buffer against `PORT_PATTERN` regex after each chunk
- When match found: extract port, resolve promise with `{ process: serverProc, url: 'http://127.0.0.1:${port}' }`
5. Implement a timeout:
- Use `setTimeout` to reject the promise after `SERVER_READY_TIMEOUT_MS`
- On timeout, kill the server process before rejecting
6. Handle early exit:
- If stdout ends (stream done) before port is found, reject with error
- Include any stderr output in the error message for debugging
**F. `main()` async function**:
- Log startup message
- Branch on `isDev()`:
- **Dev mode**:
1. Log: "Dev mode: waiting for external server..."
2. Call `waitForServer(DEV_SERVER_URL)`
3. If timeout: log error with instructions (`"Run: bun dev in apps/server"`), `process.exit(1)`
4. Set `serverUrl = DEV_SERVER_URL`
- **Prod mode**:
1. Log: "Production mode: starting embedded server..."
2. Call `spawnServer()`
3. If error: log error, `process.exit(1)`
4. Store returned `process` and `url`
- Create `BrowserWindow` with the resolved `serverUrl`:
```typescript
new BrowserWindow({
title: 'Furtherverse',
url: serverUrl,
frame: { x: 100, y: 100, width: 1200, height: 800 },
renderer: 'cef',
})
```
- Register lifecycle handlers:
- `Electrobun.events.on('before-quit', ...)`: Kill server process if it exists
- Watch `serverProcess.exited` (if in prod mode): When server exits unexpectedly, log the exit code and stderr, then `process.exit(1)`
**G. Top-level execution**:
```typescript
main().catch((error) => {
console.error('Failed to start:', error)
process.exit(1)
})
```
**Critical implementation details**:
- The `PORT_PATTERN` regex must handle multiple log formats:
- `➜ Listening on: http://localhost:54321/` (srvx format)
- `Listening on http://127.0.0.1:54321` (node-server format)
- `Listening on http://[::]:54321` (IPv6 format)
- The regex `/Listening on:?\s*https?:\/\/[^\s:]+:(\d+)/` captures the port from all these formats.
- `cwd` MUST be set to the server directory (`dirname(serverEntryPath)`), not the app root. Nitro resolves internal `_libs/` imports relative to its directory.
- `process.execPath` in an Electrobun bundle points to the bundled Bun binary — this is what runs the server.
- `stderr: 'pipe'` — capture stderr for crash diagnostics but don't block on it during startup.
**Must NOT do**:
- Do not hardcode port numbers anywhere (use `PORT=0` and parse result)
- Do not use `as any` or type assertions to work around issues
- Do not use `child_process` module — use `Bun.spawn` (native Bun API)
- Do not bind server to `0.0.0.0` — always use `127.0.0.1`
- Do not leave the `waitForServer` function unused in dev mode
- Do not use synchronous I/O for stdout reading
**Recommended Agent Profile**:
- **Category**: `unspecified-high`
- Reason: Complex async logic (stream parsing, subprocess lifecycle, timeout management), multiple code paths (dev/prod), error handling across process boundaries. This is the architectural centerpiece.
- **Skills**: `[]`
- No specialized skills needed — pure Bun/TypeScript with Electrobun APIs
- **Skills Evaluated but Omitted**:
- `frontend-ui-ux`: No UI work — this is backend/process management code
- `playwright`: No browser testing needed for this task
**Parallelization**:
- **Can Run In Parallel**: YES
- **Parallel Group**: Wave 1 (with Tasks 1, 2)
- **Blocks**: Tasks 4, 5
- **Blocked By**: None (can start immediately — edits a different file from Tasks 1, 2)
**References**:
**Pattern References** (existing code to follow):
- `apps/desktop/src/bun/index.ts` — Current implementation. Preserve the `waitForServer` polling pattern (slightly refactored). Keep the `BrowserWindow` config (title, frame dimensions, renderer). Keep the top-level `main().catch(...)` pattern.
- `apps/desktop/src/bun/index.ts:1` — Current import: `import Electrobun, { BrowserWindow } from 'electrobun/bun'`. Extend this to also import `PATHS` (verify exact export name from type definitions).
**API/Type References** (contracts to implement against):
- `electrobun/bun` module — Exports `Electrobun` (default), `BrowserWindow` (named), and `PATHS` (named — verify). Check `node_modules/electrobun/` for exact type definitions.
- `Bun.spawn` API — Returns `Subprocess` with `.stdout` (ReadableStream when piped), `.stderr`, `.exited` (Promise<number>), `.kill()`.
- `PATHS.RESOURCES_FOLDER` — Absolute path to `Resources/` directory in the bundle. Verify by reading the Paths.ts source in electrobun package.
**Documentation References**:
- `apps/desktop/AGENTS.md` — Mentions production mode architecture (aspirational, but gives intent)
**External References**:
- Electrobun lifecycle events: `Electrobun.events.on('before-quit', callback)` — callback can call `event.response({ allow: false })` to cancel. Source: `electrobun/src/bun/core/Utils.ts`.
- Electrobun `PATHS`: Source at `electrobun/src/bun/core/Paths.ts`. Contains `RESOURCES_FOLDER` and `VIEWS_FOLDER`.
- Bun `Subprocess` docs: `stdout` is `ReadableStream<Uint8Array>` when `stdout: 'pipe'`.
**WHY Each Reference Matters**:
- Current `index.ts`: Preserving the `waitForServer` pattern, `BrowserWindow` config, and error handling style. You're rewriting this file, so understand what to keep vs. replace.
- `electrobun/bun` types: MUST verify `PATHS` export name and shape before using it. Don't assume — check.
- `Bun.spawn` API: Core to the entire prod mode implementation. Understand `stdout` stream reading.
- Lifecycle events: `before-quit` is where server cleanup happens. Understand the event contract.
**Acceptance Criteria**:
- [ ] File compiles: `bun typecheck` passes (from `apps/desktop/`)
- [ ] No hardcoded port numbers (grep for `:3000` — should only appear in `DEV_SERVER_URL` constant)
- [ ] `isDev()` function uses `process.env.ELECTROBUN_BUILD_ENV`
- [ ] `spawnServer()` uses `PORT=0`, `HOST=127.0.0.1`, `process.execPath`
- [ ] `spawnServer()` sets `cwd` to `dirname(serverEntryPath)`
- [ ] `before-quit` handler kills server process
- [ ] Server crash watcher exists (watches `subprocess.exited`)
- [ ] Timeout handling exists in both dev and prod paths
- [ ] All Biome rules pass: `bun fix` produces no changes
**Agent-Executed QA Scenarios:**
```
Scenario: File compiles with zero type errors
Tool: Bash
Preconditions: File has been rewritten
Steps:
1. Run: bun typecheck (from apps/desktop/)
2. Assert: Exit code 0
3. Assert: No errors in output
Expected Result: Clean TypeScript compilation
Evidence: Terminal output captured
Scenario: No hardcoded ports outside DEV_SERVER_URL
Tool: Bash (grep)
Preconditions: File has been rewritten
Steps:
1. Search apps/desktop/src/bun/index.ts for literal ':3000'
2. Assert: Only occurrence is in the DEV_SERVER_URL constant definition
3. Search for literal '3000' — should only appear once
Expected Result: Port 3000 only in constant, nowhere else
Evidence: Grep output
Scenario: Code passes Biome lint/format
Tool: Bash
Preconditions: File has been rewritten
Steps:
1. Run: bun fix (from apps/desktop/)
2. Run: git diff apps/desktop/src/bun/index.ts
3. Assert: No diff (bun fix made no changes)
Expected Result: Code already conforms to Biome rules
Evidence: Empty git diff
Scenario: Required patterns present in source
Tool: Bash (grep)
Preconditions: File has been rewritten
Steps:
1. Grep for 'ELECTROBUN_BUILD_ENV' — Assert: found
2. Grep for 'Bun.spawn' — Assert: found
3. Grep for 'process.execPath' — Assert: found
4. Grep for 'PORT.*0' — Assert: found
5. Grep for '127.0.0.1' — Assert: found
6. Grep for 'before-quit' — Assert: found
7. Grep for '.exited' — Assert: found (crash watcher)
8. Grep for 'dirname' — Assert: found (cwd for server)
Expected Result: All required patterns present
Evidence: Grep results for each pattern
```
**Commit**: YES
- Message: `feat(desktop): implement production mode with child process server`
- Files: `apps/desktop/src/bun/index.ts`
- Pre-commit: `bun typecheck && bun fix`
---
- [ ] 4. Rewrite `apps/desktop/AGENTS.md` — Document new architecture
**What to do**:
- Completely rewrite `AGENTS.md` to reflect the actual implemented architecture
- Document:
- **Architecture overview**: Desktop spawns server as child process in prod, connects to external server in dev
- **Dev mode**: How it works (polls localhost:3000, requires server running separately)
- **Prod mode**: How it works (spawns server from bundle, PORT=0, parses port from stdout)
- **Environment detection**: `ELECTROBUN_BUILD_ENV` values (`dev`, `canary`, `stable`)
- **Build pipeline**: Server must build before desktop (turbo dependency), `build.copy` bundles output
- **Key files**: `src/bun/index.ts` (main process), `electrobun.config.ts` (build config)
- **Environment variables**: `DATABASE_URL` (required, passed to server), `ELECTROBUN_BUILD_ENV` (auto-set by CLI)
- **Server lifecycle**: Spawned on start, killed on quit, crash = exit
- **Commands**: `bun dev`, `bun build`, `bun typecheck`, `bun fix`
- Follow the style and conventions of the root `AGENTS.md` and `apps/server/AGENTS.md`
- Be factual — only document what actually exists, not aspirational features
**Must NOT do**:
- Do not document features that don't exist
- Do not copy content from the server's AGENTS.md verbatim
- Do not include implementation details that belong in code comments
**Recommended Agent Profile**:
- **Category**: `writing`
- Reason: Documentation task requiring clear technical writing
- **Skills**: `[]`
- No specialized skills needed
- **Skills Evaluated but Omitted**:
- `frontend-ui-ux`: Not a UI task
**Parallelization**:
- **Can Run In Parallel**: NO
- **Parallel Group**: Wave 2
- **Blocks**: Task 5
- **Blocked By**: Tasks 1, 2, 3 (needs to know final state of all files)
**References**:
**Pattern References** (existing code to follow):
- `AGENTS.md` (root) — Follow same structure: Overview, Build Commands, Code Style, Directory Structure sections
- `apps/server/AGENTS.md` — Follow same style for app-specific documentation. Use this as a template for tone and detail level.
**Content References** (what to document):
- `apps/desktop/src/bun/index.ts` — The rewritten file (Task 3 output). Document its behavior, not its code.
- `apps/desktop/electrobun.config.ts` — The updated config (Task 1 output). Document build.copy and platform configs.
- `apps/desktop/turbo.json` — The updated turbo config (Task 2 output). Document the build dependency.
**WHY Each Reference Matters**:
- Root `AGENTS.md`: Template for documentation style
- Server `AGENTS.md`: Template for app-specific docs
- All Task 1-3 outputs: The actual implemented behavior that must be accurately documented
**Acceptance Criteria**:
- [ ] File exists and is valid Markdown
- [ ] Documents dev mode behavior accurately
- [ ] Documents prod mode behavior accurately
- [ ] Documents `ELECTROBUN_BUILD_ENV` mechanism
- [ ] Documents build pipeline (server → desktop dependency)
- [ ] Documents `DATABASE_URL` requirement
- [ ] Does NOT mention features that don't exist
- [ ] Follows conventions from root `AGENTS.md`
**Agent-Executed QA Scenarios:**
```
Scenario: AGENTS.md contains all required sections
Tool: Bash (grep)
Preconditions: File has been rewritten
Steps:
1. Grep for 'dev' or 'Dev' — Assert: found (dev mode documented)
2. Grep for 'prod' or 'Prod' or 'production' — Assert: found (prod mode documented)
3. Grep for 'ELECTROBUN_BUILD_ENV' — Assert: found
4. Grep for 'DATABASE_URL' — Assert: found
5. Grep for 'child process' or 'spawn' — Assert: found (architecture documented)
6. Grep for 'bun dev' — Assert: found (commands documented)
7. Grep for 'bun build' — Assert: found (commands documented)
Expected Result: All key topics are covered
Evidence: Grep results
Scenario: No aspirational/unimplemented features documented
Tool: Bash (grep)
Preconditions: File has been rewritten
Steps:
1. Grep for 'TODO' or 'planned' or 'future' or 'coming soon' — Assert: not found (or minimal)
2. Grep for 'auto-update' — Assert: not found (not implemented)
3. Grep for 'tray' — Assert: not found (not implemented)
Expected Result: Only implemented features documented
Evidence: Grep results showing no aspirational content
```
**Commit**: YES
- Message: `docs(desktop): rewrite AGENTS.md to reflect production mode architecture`
- Files: `apps/desktop/AGENTS.md`
- Pre-commit: None (Markdown file)
---
- [ ] 5. End-to-end verification — Typecheck and build pipeline
**What to do**:
- Run full monorepo typecheck to ensure no type errors were introduced
- Run full monorepo build to verify:
1. Server builds first (produces `.output/`)
2. Desktop builds second (copies server output into bundle)
3. No build errors
- Run Biome formatting/linting check on all changed files
- Verify dev mode still works conceptually (no runtime test — just verify the code path exists)
**Must NOT do**:
- Do not fix issues in server code — only desktop code
- Do not modify any files unless fixing issues found during verification
- Do not skip any verification step
**Recommended Agent Profile**:
- **Category**: `quick`
- Reason: Running commands and checking output, no creative work
- **Skills**: `[]`
- No specialized skills needed
- **Skills Evaluated but Omitted**:
- `playwright`: No browser testing in this verification
**Parallelization**:
- **Can Run In Parallel**: NO
- **Parallel Group**: Wave 2 (sequential after Task 4)
- **Blocks**: None (final task)
- **Blocked By**: Tasks 1, 2, 3, 4
**References**:
**Documentation References**:
- `AGENTS.md` (root) — Build/Lint/Test commands: `bun typecheck`, `bun fix`, `bun build`
- `apps/desktop/package.json` — Desktop-specific scripts
**WHY Each Reference Matters**:
- Root `AGENTS.md`: Canonical list of verification commands
- Desktop `package.json`: Desktop-specific build/typecheck commands
**Acceptance Criteria**:
- [ ] `bun typecheck` (monorepo root) exits with code 0
- [ ] `bun build` (monorepo root) exits with code 0
- [ ] `bun fix` (monorepo root) produces no changes (all code formatted)
- [ ] Build output shows server building before desktop
- [ ] Desktop build output includes server bundle (verify in build artifacts)
**Agent-Executed QA Scenarios:**
```
Scenario: Monorepo typecheck passes
Tool: Bash
Preconditions: All tasks 1-4 completed
Steps:
1. Run: bun typecheck (from monorepo root)
2. Assert: Exit code 0
3. Assert: No error output
Expected Result: Zero type errors across entire monorepo
Evidence: Terminal output captured
Scenario: Monorepo build succeeds with correct order
Tool: Bash
Preconditions: All tasks 1-4 completed
Steps:
1. Run: bun build (from monorepo root)
2. Assert: Exit code 0
3. Assert: Output shows @furtherverse/server build task runs
4. Assert: Output shows @furtherverse/desktop build task runs AFTER server
Expected Result: Build pipeline executes in correct order
Evidence: Terminal output showing task order
Scenario: Biome finds no issues
Tool: Bash
Preconditions: All tasks 1-4 completed
Steps:
1. Run: bun fix (from monorepo root)
2. Run: git diff
3. Assert: No changes (all code already formatted)
Expected Result: All code passes Biome rules
Evidence: Empty git diff
Scenario: Desktop build artifacts include server bundle
Tool: Bash
Preconditions: Build succeeded
Steps:
1. Search desktop build output directory for server-output/ or index.mjs
2. Assert: Server files are present in the desktop bundle
Expected Result: Server bundle is included in desktop build output
Evidence: File listing of build artifacts
```
**Commit**: NO (verification only — no file changes unless fixing issues)
---
## Commit Strategy
| After Task(s) | Message | Files | Verification |
|---------------|---------|-------|--------------|
| 1, 2 | `feat(desktop): add build.copy for server bundle and cross-workspace build dependency` | `electrobun.config.ts`, `turbo.json` | `bun typecheck` |
| 3 | `feat(desktop): implement production mode with child process server` | `src/bun/index.ts` | `bun typecheck && bun fix` |
| 4 | `docs(desktop): rewrite AGENTS.md to reflect production mode architecture` | `AGENTS.md` | None |
| 5 | (no commit — verification only) | — | — |
---
## Success Criteria
### Verification Commands
```bash
bun typecheck # Expected: exit 0, no errors
bun build # Expected: exit 0, server builds before desktop
bun fix # Expected: no changes (already formatted)
```
### Final Checklist
- [ ] All "Must Have" features present in `index.ts`
- [ ] All "Must NOT Have" exclusions verified absent
- [ ] All 3 verification commands pass
- [ ] `AGENTS.md` accurately reflects implemented architecture
- [ ] Server output is bundled into desktop build via `build.copy`
- [ ] Turbo builds server before desktop

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# AGENTS.md - AI Coding Agent Guidelines
Guidelines for AI agents working in this Bun monorepo.
## Project Overview
> **This project uses [Bun](https://bun.sh) exclusively as both the JavaScript runtime and package manager. Do NOT use Node.js / npm / yarn / pnpm. All commands start with `bun` — use `bun install` for dependencies and `bun run` / `bun <script>` for scripts. Never use `npm`, `npx`, or `node`.**
- **Monorepo**: Bun workspaces + Turborepo orchestration
- **Runtime**: Bun (see `mise.toml` for version) — **NOT Node.js**
- **Package Manager**: Bun — **NOT npm / yarn / pnpm**
- **Apps**:
- `apps/server` - TanStack Start fullstack web app (see `apps/server/AGENTS.md`)
- `apps/desktop` - Electrobun desktop shell, loads server in native window (see `apps/desktop/AGENTS.md`)
- **Packages**: `packages/utils`, `packages/tsconfig` (shared configs)
## Build / Lint / Test Commands
### Root Commands (via Turbo)
```bash
bun dev # Start all apps in dev mode
bun build # Build all apps
bun fix # Lint + format (Biome auto-fix)
bun typecheck # TypeScript check across monorepo
```
### Server App (`apps/server`)
```bash
bun dev # Vite dev server (localhost:3000)
bun build # Production build -> .output/
bun compile # Compile to standalone binary
bun fix # Biome auto-fix
bun typecheck # TypeScript check
# Database (Drizzle)
bun db:generate # Generate migrations from schema
bun db:migrate # Run migrations
bun db:push # Push schema (dev only)
bun db:studio # Open Drizzle Studio
```
### Desktop App (`apps/desktop`)
```bash
bun dev # Start Electrobun dev mode (requires server dev running)
bun build # Build canary release
bun build:stable # Build stable release
bun fix # Biome auto-fix
bun typecheck # TypeScript check
```
### Testing
No test framework configured yet. When adding tests:
```bash
bun test path/to/test.ts # Run single test file
bun test -t "pattern" # Run tests matching pattern
```
## Code Style (TypeScript)
### Formatting (Biome)
- **Indent**: 2 spaces | **Line endings**: LF
- **Quotes**: Single `'` | **Semicolons**: Omit (ASI)
- **Arrow parentheses**: Always `(x) => x`
### Imports
Biome auto-organizes. Order: 1) External packages → 2) Internal `@/*` aliases → 3) Type imports (`import type { ... }`)
```typescript
import { createFileRoute } from '@tanstack/react-router'
import { z } from 'zod'
import { db } from '@/server/db'
import type { ReactNode } from 'react'
```
### TypeScript Strictness
- `strict: true`, `noUncheckedIndexedAccess: true`, `noImplicitOverride: true`, `verbatimModuleSyntax: true`
- Use `@/*` path aliases (maps to `src/*`)
### Naming Conventions
| Type | Convention | Example |
|------|------------|---------|
| Files (utils) | kebab-case | `auth-utils.ts` |
| Files (components) | PascalCase | `UserProfile.tsx` |
| Components | PascalCase arrow | `const Button = () => {}` |
| Functions | camelCase | `getUserById` |
| Constants | UPPER_SNAKE | `MAX_RETRIES` |
| Types/Interfaces | PascalCase | `UserProfile` |
### React Patterns
- Components: arrow functions (enforced by Biome)
- Routes: TanStack Router file conventions (`export const Route = createFileRoute(...)`)
- Data fetching: `useSuspenseQuery(orpc.feature.list.queryOptions())`
- Let React Compiler handle memoization (no manual `useMemo`/`useCallback`)
### Error Handling
- Use `try-catch` for async operations; throw descriptive errors
- ORPC: Use `ORPCError` with proper codes (`NOT_FOUND`, `INPUT_VALIDATION_FAILED`)
- Never use empty catch blocks
## Database (Drizzle ORM)
```typescript
export const myTable = pgTable('my_table', {
id: uuid().primaryKey().default(sql`uuidv7()`),
name: text().notNull(),
createdAt: timestamp({ withTimezone: true }).notNull().defaultNow(),
updatedAt: timestamp({ withTimezone: true }).notNull().defaultNow().$onUpdateFn(() => new Date()),
})
```
## Environment Variables
- Use `@t3-oss/env-core` with Zod validation in `src/env.ts`
- Server vars: no prefix | Client vars: `VITE_` prefix required
- Never commit `.env` files
## Dependency Management
- All versions centralized in root `package.json` `catalog` field
- Workspace packages use `"catalog:"` — never hardcode versions
- Internal packages use `"workspace:*"` references
## Critical Rules
**DO:**
- Run `bun fix` before committing
- Use `@/*` path aliases (not relative imports)
- Include `createdAt`/`updatedAt` on all tables
- Use `catalog:` for dependency versions
**DON'T:**
- Use `npm`, `npx`, `node`, `yarn`, `pnpm` — always use `bun` / `bunx`
- Edit `src/routeTree.gen.ts` (auto-generated)
- Use `as any`, `@ts-ignore`, `@ts-expect-error`
- Commit `.env` files
- Use empty catch blocks `catch(e) {}`
- Hardcode dependency versions in workspace packages
## Git Workflow
1. Make changes following style guide
2. `bun fix` - auto-format and lint
3. `bun typecheck` - verify types
4. `bun dev` - test locally
5. Commit with descriptive message
## Directory Structure
```
.
├── apps/
│ ├── server/ # TanStack Start fullstack app
│ │ ├── src/
│ │ │ ├── client/ # ORPC client, Query client
│ │ │ ├── components/
│ │ │ ├── routes/ # File-based routing
│ │ │ └── server/ # API layer + database
│ │ │ ├── api/ # ORPC contracts, routers, middlewares
│ │ │ └── db/ # Drizzle schema
│ │ └── AGENTS.md
│ └── desktop/ # Electrobun desktop shell
│ ├── src/
│ │ └── bun/
│ │ └── index.ts # Main process entry
│ ├── electrobun.config.ts # Electrobun configuration
│ └── AGENTS.md
├── packages/
│ ├── tsconfig/ # Shared TS configs
│ └── utils/ # Shared utilities
├── biome.json # Linting/formatting config
├── turbo.json # Turbo task orchestration
└── package.json # Workspace root + dependency catalog
```
## See Also
- `apps/server/AGENTS.md` - Detailed TanStack Start / ORPC patterns
- `apps/desktop/AGENTS.md` - Electrobun desktop development guide

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@@ -1,24 +1,3 @@
# Logs
logs
*.log
npm-debug.log*
yarn-debug.log*
yarn-error.log*
pnpm-debug.log*
lerna-debug.log*
node_modules
dist
dist-ssr
*.local
# Editor directories and files
.vscode/*
!.vscode/extensions.json
.idea
.DS_Store
*.suo
*.ntvs*
*.njsproj
*.sln
*.sw?
# Electrobun build output
build/
artifacts/

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@@ -0,0 +1,131 @@
# AGENTS.md - Desktop App Guidelines
Thin Electrobun shell hosting the fullstack server app.
## Tech Stack
> **⚠️ This project uses Bun — NOT Node.js / npm. All commands use `bun`. Never use `npm`, `npx`, or `node`.**
- **Type**: Electrobun desktop application
- **Design**: Server-driven desktop (thin native shell hosting web app)
- **Runtime**: Bun (Main process) + CEF (Chromium Embedded Framework)
- **Framework**: Electrobun
- **Build**: Electrobun CLI + Turborepo
## Architecture
- **Server-driven design**: The desktop app is a "thin" native shell. It does not contain UI or business logic; it merely hosts the `apps/server` TanStack Start application in a native window.
- **Dev mode**: Connects to an external Vite dev server at `localhost:3000`. Requires `apps/server` to be running separately.
- **Prod mode**: Spawns an embedded TanStack Start server (Nitro) as a child process and loads the dynamically assigned local URL.
- **Config**: `electrobun.config.ts` manages app metadata (identifier, name), build entries, and asset bundling.
## Commands
```bash
# Development
bun dev # Start Electrobun dev mode (requires server dev running)
# Build
bun build # Build stable release (all platforms)
# Code Quality
bun fix # Biome auto-fix
bun typecheck # TypeScript check
```
## Directory Structure
```
.
├── src/
│ └── bun/
│ └── index.ts # Main process entry (Window management + server lifecycle)
├── electrobun.config.ts # App metadata and build/copy configuration
├── package.json # Scripts and dependencies
├── turbo.json # Build pipeline dependencies (depends on server build)
└── AGENTS.md # Desktop guidelines (this file)
```
## Development Workflow
1. **Start server**: In `apps/server`, run `bun dev`.
2. **Start desktop**: In `apps/desktop`, run `bun dev`.
3. **Connection**: The desktop app polls `localhost:3000` until responsive, then opens the native window.
## Production Architecture
### Build Pipeline
The desktop build is orchestrated by Turbo. It depends on the server's production build:
- `turbo.json`: `@furtherverse/desktop#build` depends on `@furtherverse/server#build`.
- `electrobun.config.ts`: Copies `../server/.output` to `server-output` folder within the app bundle.
### Server Lifecycle
In production, the main process manages the embedded server:
- **Spawn**: Spawns server from `server-output/server/index.mjs` using `Bun.spawn`.
- **Port Allocation**: A free port is pre-allocated via `node:net` (`createServer` on `127.0.0.1:0`), then passed to the server as the `PORT` environment variable.
- **Readiness Check**: The main process polls the server URL with `fetch` until it responds, rather than parsing stdout.
- **Retry**: If the server fails to become ready (timeout or early exit), the process is killed and a new attempt is made with a fresh port (up to 3 retries).
- **Lifecycle**: The server process is tied to the app; it is killed on `SIGTERM`, `SIGINT`, or app exit. If the server process crashes, the app exits with an error.
## Environment Detection
The application determines its environment via the `ELECTROBUN_BUILD_ENV` variable, automatically set by the Electrobun CLI:
```typescript
const isDev = () => {
const env = process.env.ELECTROBUN_BUILD_ENV
return !env || env === 'dev'
}
```
- **dev**: Development mode (connects to external host).
- **canary / stable**: Production mode (starts embedded server).
## Environment Variables
- `ELECTROBUN_BUILD_ENV`: Auto-set by CLI. Determines whether to use local dev server or embedded server.
- `DATABASE_URL`: Required by the server process. Must be passed through from the parent environment to the spawned child process.
## Electrobun Patterns
### BrowserWindow Configuration
The main window uses the CEF renderer for consistency across platforms.
```typescript
new BrowserWindow({
title: 'Furtherverse',
url: serverUrl,
frame: {
x: 100,
y: 100,
width: 1200,
height: 800,
},
renderer: 'cef',
})
```
### Path Aliases
The main process uses `electrobun/bun` for native APIs and `PATHS` for locating bundled assets.
```typescript
import { BrowserWindow, PATHS } from 'electrobun/bun'
// Locate the embedded server bundle
const serverEntryPath = join(PATHS.VIEWS_FOLDER, '..', 'server-output', 'server', 'index.mjs')
```
## Critical Rules
**DO:**
- Use arrow functions for all components and utility functions.
- Ensure `apps/server` is built before building `apps/desktop` (handled by Turbo).
- Pre-allocate a free port and pass it via `PORT` env var instead of parsing stdout.
- Handle server process termination to avoid orphan processes.
- Use `catalog:` for all dependency versions in `package.json`.
**DON'T:**
- Use `npm`, `npx`, `node`, `yarn`, or `pnpm`. Always use `bun`.
- Hardcode `localhost:3000` for production builds.
- Include UI components or business logic in the desktop app (keep it thin).
- Use `as any` or `@ts-ignore`.

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import * as path from 'node:path'
import { Schema } from '@effect/schema'
import { $ } from 'bun'
import { Console, Context, Data, Effect, Layer } from 'effect'
// ============================================================================
// Domain Models & Schema
// ============================================================================
/**
* Bun 构建目标后缀
*/
const BunTargetSuffixSchema = Schema.Literal(
'windows-x64',
'darwin-arm64',
'darwin-x64',
'linux-x64',
'linux-arm64',
)
/**
* Tauri sidecar 目标三元组
*/
const TauriTargetSchema = Schema.Literal(
'x86_64-pc-windows-msvc',
'aarch64-apple-darwin',
'x86_64-apple-darwin',
'x86_64-unknown-linux-gnu',
'aarch64-unknown-linux-gnu',
)
/**
* 目标映射配置
*/
const TargetMappingSchema = Schema.Struct({
bunSuffix: BunTargetSuffixSchema,
tauriTarget: TauriTargetSchema,
})
type TargetMapping = Schema.Schema.Type<typeof TargetMappingSchema>
/**
* 复制配置
*/
const CopyConfigSchema = Schema.Struct({
sourceDir: Schema.String.pipe(Schema.nonEmptyString()),
targetDir: Schema.String.pipe(Schema.nonEmptyString()),
baseName: Schema.String.pipe(Schema.nonEmptyString()),
mappings: Schema.Array(TargetMappingSchema).pipe(Schema.minItems(1)),
})
type CopyConfig = Schema.Schema.Type<typeof CopyConfigSchema>
/**
* 复制结果
*/
const CopyResultSchema = Schema.Struct({
bunSuffix: BunTargetSuffixSchema,
tauriTarget: TauriTargetSchema,
sourceFile: Schema.String,
targetFile: Schema.String,
success: Schema.Boolean,
})
type CopyResult = Schema.Schema.Type<typeof CopyResultSchema>
// ============================================================================
// Error Models
// ============================================================================
class ConfigError extends Data.TaggedError('ConfigError')<{
readonly message: string
readonly cause: unknown
}> {}
class FileSystemError extends Data.TaggedError('FileSystemError')<{
readonly operation: string
readonly path: string
readonly cause: unknown
}> {}
class CopyError extends Data.TaggedError('CopyError')<{
readonly source: string
readonly target: string
readonly cause: unknown
}> {}
// ============================================================================
// Services
// ============================================================================
/**
* 配置服务
*/
class CopyConfigService extends Context.Tag('CopyConfigService')<
CopyConfigService,
CopyConfig
>() {
/**
* 从原始数据创建并验证配置
*/
static fromRaw = (raw: unknown) =>
Effect.gen(function* () {
const decoded = yield* Schema.decodeUnknown(CopyConfigSchema)(raw)
return decoded
}).pipe(
Effect.catchAll((error) =>
Effect.fail(
new ConfigError({
message: '配置验证失败',
cause: error,
}),
),
),
)
/**
* 默认配置 Layer
*/
static readonly Live = Layer.effect(
CopyConfigService,
CopyConfigService.fromRaw({
sourceDir: path.join(__dirname, '..', 'server', 'out'),
targetDir: path.join(__dirname, 'src-tauri', 'binaries'),
baseName: 'server',
mappings: [
{
bunSuffix: 'windows-x64',
tauriTarget: 'x86_64-pc-windows-msvc',
},
{
bunSuffix: 'darwin-arm64',
tauriTarget: 'aarch64-apple-darwin',
},
{
bunSuffix: 'darwin-x64',
tauriTarget: 'x86_64-apple-darwin',
},
{
bunSuffix: 'linux-x64',
tauriTarget: 'x86_64-unknown-linux-gnu',
},
{
bunSuffix: 'linux-arm64',
tauriTarget: 'aarch64-unknown-linux-gnu',
},
],
} satisfies CopyConfig),
)
}
/**
* 文件系统服务
*/
class FileSystemService extends Context.Tag('FileSystemService')<
FileSystemService,
{
readonly ensureDir: (dir: string) => Effect.Effect<void, FileSystemError>
readonly fileExists: (
filePath: string,
) => Effect.Effect<boolean, FileSystemError>
readonly dirExists: (
dirPath: string,
) => Effect.Effect<boolean, FileSystemError>
readonly copyFile: (
source: string,
target: string,
) => Effect.Effect<void, CopyError>
}
>() {
static readonly Live = Layer.succeed(FileSystemService, {
ensureDir: (dir: string) =>
Effect.tryPromise({
try: async () => {
await $`mkdir -p ${dir}`
},
catch: (cause: unknown) =>
new FileSystemError({
operation: 'ensureDir',
path: dir,
cause,
}),
}),
fileExists: (filePath: string) =>
Effect.tryPromise({
try: async () => {
const file = Bun.file(filePath)
return await file.exists()
},
catch: (cause: unknown) =>
new FileSystemError({
operation: 'fileExists',
path: filePath,
cause,
}),
}),
dirExists: (dirPath: string) =>
Effect.tryPromise({
try: async () => {
const { default: fs } = await import('node:fs/promises')
try {
const stat = await fs.stat(dirPath)
return stat.isDirectory()
} catch {
return false
}
},
catch: (cause: unknown) =>
new FileSystemError({
operation: 'dirExists',
path: dirPath,
cause,
}),
}),
copyFile: (source: string, target: string) =>
Effect.tryPromise({
try: async () => {
await $`cp ${source} ${target}`
},
catch: (cause: unknown) =>
new CopyError({
source,
target,
cause,
}),
}),
})
}
/**
* 复制服务
*/
class CopyService extends Context.Tag('CopyService')<
CopyService,
{
readonly copyBinary: (
config: CopyConfig,
mapping: TargetMapping,
) => Effect.Effect<CopyResult, CopyError | FileSystemError>
readonly copyAllBinaries: (
config: CopyConfig,
) => Effect.Effect<ReadonlyArray<CopyResult>, CopyError | FileSystemError>
}
>() {
static readonly Live = Layer.effect(
CopyService,
Effect.gen(function* () {
const fs = yield* FileSystemService
return {
copyBinary: (config: CopyConfig, mapping: TargetMapping) =>
Effect.gen(function* () {
const { sourceDir, targetDir, baseName } = config
const { bunSuffix, tauriTarget } = mapping
// 确定文件扩展名Windows 需要 .exe
const ext = tauriTarget.includes('windows') ? '.exe' : ''
// 构建源文件和目标文件路径
const sourceFile = path.join(
sourceDir,
`${baseName}-${bunSuffix}${ext}`,
)
const targetFile = path.join(
targetDir,
`${baseName}-${tauriTarget}${ext}`,
)
// 检查源文件是否存在
const exists = yield* fs.fileExists(sourceFile)
if (!exists) {
yield* Console.log(`⚠️ 跳过 ${bunSuffix}: 源文件不存在`)
return {
bunSuffix,
tauriTarget,
sourceFile,
targetFile,
success: false,
} satisfies CopyResult
}
// 复制文件
yield* fs.copyFile(sourceFile, targetFile)
yield* Console.log(`${bunSuffix}${tauriTarget}`)
yield* Console.log(` ${sourceFile}`)
yield* Console.log(`${targetFile}\n`)
return {
bunSuffix,
tauriTarget,
sourceFile,
targetFile,
success: true,
} satisfies CopyResult
}),
copyAllBinaries: (config: CopyConfig) =>
Effect.gen(function* () {
const effects = config.mappings.map((mapping) =>
Effect.gen(function* () {
const { sourceDir, targetDir, baseName } = config
const { bunSuffix, tauriTarget } = mapping
const ext = tauriTarget.includes('windows') ? '.exe' : ''
const sourceFile = path.join(
sourceDir,
`${baseName}-${bunSuffix}${ext}`,
)
const targetFile = path.join(
targetDir,
`${baseName}-${tauriTarget}${ext}`,
)
const exists = yield* fs.fileExists(sourceFile)
if (!exists) {
yield* Console.log(`⚠️ 跳过 ${bunSuffix}: 源文件不存在`)
return {
bunSuffix,
tauriTarget,
sourceFile,
targetFile,
success: false,
} satisfies CopyResult
}
yield* fs.copyFile(sourceFile, targetFile)
yield* Console.log(`${bunSuffix}${tauriTarget}`)
yield* Console.log(` ${sourceFile}`)
yield* Console.log(`${targetFile}\n`)
return {
bunSuffix,
tauriTarget,
sourceFile,
targetFile,
success: true,
} satisfies CopyResult
}),
)
return yield* Effect.all(effects, { concurrency: 'unbounded' })
}),
}
}),
)
}
/**
* 报告服务
*/
class ReporterService extends Context.Tag('ReporterService')<
ReporterService,
{
readonly printSummary: (
results: ReadonlyArray<CopyResult>,
) => Effect.Effect<void>
}
>() {
static readonly Live = Layer.succeed(ReporterService, {
printSummary: (results: ReadonlyArray<CopyResult>) =>
Effect.gen(function* () {
const successful = results.filter((r) => r.success)
const failed = results.filter((r) => !r.success)
yield* Console.log('\n📦 复制摘要:')
yield* Console.log(` ✅ 成功: ${successful.length}`)
yield* Console.log(` ⚠️ 跳过: ${failed.length}`)
if (successful.length > 0) {
yield* Console.log('\n成功复制的文件:')
for (const result of successful) {
yield* Console.log(
`${result.bunSuffix}${result.tauriTarget}`,
)
}
}
if (failed.length > 0) {
yield* Console.log('\n跳过的文件:')
for (const result of failed) {
yield* Console.log(`${result.bunSuffix} (源文件不存在)`)
}
}
}),
})
}
// ============================================================================
// Main Program
// ============================================================================
const program = Effect.gen(function* () {
const config = yield* CopyConfigService
const fs = yield* FileSystemService
const copier = yield* CopyService
const reporter = yield* ReporterService
yield* Console.log('📦 开始复制二进制文件到 Tauri sidecar 目录...\n')
// 1. 检查源目录
const sourceExists = yield* fs.dirExists(config.sourceDir)
if (!sourceExists) {
yield* Console.error(`❌ 源目录不存在: ${config.sourceDir}`)
yield* Console.log(
'💡 提示: 请先在 apps/server 中运行 bun run compile 构建服务器二进制文件',
)
return yield* Effect.fail(
new FileSystemError({
operation: 'checkSourceDir',
path: config.sourceDir,
cause: '源目录不存在',
}),
)
}
// 2. 创建目标目录
yield* fs.ensureDir(config.targetDir)
yield* Console.log(`✓ 目标目录: ${config.targetDir}\n`)
// 3. 并行复制所有二进制文件
const results = yield* copier.copyAllBinaries(config)
// 4. 输出摘要
yield* reporter.printSummary(results)
return results
})
// ============================================================================
// Layer Composition
// ============================================================================
const MainLayer = Layer.mergeAll(
CopyConfigService.Live,
FileSystemService.Live,
CopyService.Live.pipe(Layer.provide(FileSystemService.Live)),
ReporterService.Live,
)
// ============================================================================
// Runner
// ============================================================================
const runnable = program.pipe(
Effect.provide(MainLayer),
Effect.catchTags({
ConfigError: (error) =>
Console.error(`❌ 配置错误: ${error.message}`, error.cause),
FileSystemError: (error) =>
Console.error(
`❌ 文件系统错误 [${error.operation}]: ${error.path}`,
error.cause,
),
CopyError: (error) =>
Console.error(
`❌ 复制失败: ${error.source}${error.target}`,
error.cause,
),
}),
Effect.tapErrorCause((cause) => Console.error('❌ 未预期的错误:', cause)),
)
Effect.runPromise(runnable).catch(() => {
process.exit(1)
})

27
apps/desktop/electrobun.config.ts Normal file
View File

@@ -0,0 +1,27 @@
import type { ElectrobunConfig } from 'electrobun'
export default {
app: {
name: 'Desktop',
identifier: 'com.furtherverse.desktop',
version: '1.0.0',
},
build: {
bun: {
entrypoint: 'src/bun/index.ts',
},
copy: {
'../server/.output': 'server-output',
},
targets: 'win-x64',
linux: {
bundleCEF: true,
},
mac: {
bundleCEF: false,
},
win: {
bundleCEF: false,
},
},
} satisfies ElectrobunConfig

16
apps/desktop/package.json
View File

@@ -4,16 +4,16 @@
"private": true,
"type": "module",
"scripts": {
"build": "bun run copy && tauri build",
"copy": "rm -rf binaries && bun --bun copy.ts",
"dev": "bun run copy && tauri dev"
"build": "electrobun build --env=stable",
"dev": "electrobun build && electrobun dev",
"fix": "biome check --write",
"typecheck": "tsc --noEmit"
},
"dependencies": {
"electrobun": "catalog:"
},
"devDependencies": {
"@effect/schema": "catalog:",
"@furtherverse/tsconfig": "workspace:*",
"@tauri-apps/cli": "catalog:",
"@types/bun": "catalog:",
"effect": "catalog:",
"typescript": "catalog:"
"@types/bun": "catalog:"
}
}

10
apps/desktop/src-tauri/.gitignore vendored
View File

@@ -1,10 +0,0 @@
# Generated by Cargo
# will have compiled files and executables
/target/
# Generated by Tauri
# will have schema files for capabilities auto-completion
/gen/schemas
# Tauri Sidecar
binaries/

357
apps/desktop/src-tauri/AGENTS.md
View File

@@ -1,357 +0,0 @@
# AGENTS.md - Tauri Shell 项目开发指南
本文档为 AI 编程助手和开发者提供项目规范、构建命令和代码风格指南。
## 项目概览
- **项目类型**: Tauri v2 桌面应用(轻量级壳子)
- **后端**: Rust (Edition 2021)
- **架构**: Sidecar 模式 - Sidecar App 承载主要业务逻辑
- **设计理念**: Tauri 仅提供原生桌面能力文件对话框、系统通知等Web 逻辑全部由 Sidecar App 处理
- **开发模式**: 使用 localhost:3000需手动启动开发服务器
- **生产模式**: 自动启动 Sidecar 二进制
- **异步运行时**: Tokio
- **Rust 版本**: 1.92.0+
- **工具管理**: 使用 mise 管理 Rust 和 Tauri CLI 版本(见 `mise.toml`
## 构建、测试、运行命令
### 开发运行
```bash
# 开发模式运行 (需要先启动开发服务器)
# 终端 1: 启动前端开发服务器
bun run dev
# 终端 2: 启动 Tauri 应用
tauri dev
# 或者使用单命令并行启动(需要配置 package.json
bun run dev:tauri
```
**开发模式说明**
- 开发模式下Tauri 直接连接到 `localhost:3000`(不启动 sidecar 二进制)
- 需要手动运行 `bun run dev` 来启动开发服务器
- 支持热重载HMR无需重启 Tauri 应用
### 构建
```bash
# 开发构建 (debug mode)
cargo build
# 生产构建
cargo build --release
# Tauri 应用打包 (生成安装程序)
tauri build
```
### 代码检查
```bash
# 编译检查 (不生成二进制)
cargo check
# Clippy 代码质量检查
cargo clippy
# Clippy 严格模式 (所有警告视为错误)
cargo clippy -- -D warnings
# 代码格式化检查
cargo fmt -- --check
# 自动格式化代码
cargo fmt
```
### 测试
```bash
# 运行所有测试
cargo test
# 运行单个测试 (按名称过滤)
cargo test test_function_name
# 运行特定模块的测试
cargo test module_name::
# 显示测试输出 (包括 println!)
cargo test -- --nocapture
# 运行单个测试并显示输出
cargo test test_name -- --nocapture
```
### 清理
```bash
# 清理构建产物
cargo clean
```
## 项目结构
```
server-desktop/
├── src/
│ ├── main.rs # 入口文件 (仅调用 lib::run)
│ ├── lib.rs # 核心应用逻辑 (注册插件、命令、状态)
│ ├── commands/
│ │ └── mod.rs # 原生桌面功能命令 (文件对话框、通知等)
│ └── sidecar.rs # Sidecar 进程管理 (启动、端口扫描、清理)
├── binaries/ # Sidecar 二进制文件
│ └── app-* # Sidecar App 可执行文件 (示例: app)
├── capabilities/ # Tauri v2 权限配置
│ └── default.json
├── icons/ # 应用图标资源
├── gen/schemas/ # 自动生成的 Schema (不要手动编辑)
├── Cargo.toml # Rust 项目配置
├── tauri.conf.json # Tauri 应用配置
├── build.rs # Rust 构建脚本
└── mise.toml # 开发工具版本管理
```
## Rust 代码风格指南
### 导入 (Imports)
- 使用标准库、外部 crate、当前 crate 的顺序,用空行分隔
- 按字母顺序排列
- 优先使用具体导入而非通配符 `*`
```rust
// ✅ 推荐
use std::sync::Mutex;
use std::time::Duration;
use tauri::Manager;
use tauri_plugin_shell::ShellExt;
use tauri_plugin_shell::process::{CommandEvent, CommandChild};
// ❌ 避免
use tauri::*;
```
### 命名规范
- **函数和变量**: `snake_case`
- **类型、结构体、枚举、Trait**: `PascalCase`
- **常量和静态变量**: `SCREAMING_SNAKE_CASE`
- **生命周期参数**: 简短小写字母,如 `'a`, `'b`
```rust
// ✅ 推荐
struct SidecarProcess(Mutex<Option<CommandChild>>);
const DEFAULT_PORT: u16 = 3000;
async fn find_available_port(start: u16) -> u16 { }
// ❌ 避免
struct sidecar_process { }
const defaultPort: u16 = 3000;
```
### 类型注解
- 函数参数必须有类型注解
- 函数返回值必须明确声明 (除非返回 `()`)
- 优先使用具体类型而非 `impl Trait` (除非必要)
- 使用 `&str` 而非 `String` 作为只读字符串参数
```rust
// ✅ 推荐
#[tauri::command]
fn greet(name: &str) -> String {
format!("Hello, {}!", name)
}
async fn is_port_available(port: u16) -> bool {
tokio::net::TcpListener::bind(format!("127.0.0.1:{}", port))
.await
.is_ok()
}
```
### 错误处理
- 使用 `Result<T, E>` 返回可能失败的操作
- 使用 `expect()` 时提供有意义的错误消息 (中文)
- 避免 `unwrap()` 在生产代码中,除非逻辑上保证不会 panic
- 使用 `?` 操作符传播错误
- 记录关键错误信息到控制台
```rust
// ✅ 推荐
let sidecar = app_handle
.shell()
.sidecar("app")
.expect("无法找到 app sidecar");
let (mut rx, child) = sidecar.spawn().expect("启动 sidecar 失败");
// 日志记录
eprintln!("✗ Sidecar App 启动失败");
println!("✓ Sidecar App 启动成功!");
// ❌ 避免
let data = read_file().unwrap(); // 无上下文信息
```
### 异步代码
- 使用 `async/await` 而非手动创建 Future
- Tauri 内部使用 `tauri::async_runtime::spawn` 启动异步任务
- 使用 Tokio 的异步 API (如 `tokio::net::TcpListener`)
- 避免阻塞异步运行时 (使用 `tokio::task::spawn_blocking`)
```rust
// ✅ 推荐
tauri::async_runtime::spawn(async move {
let port = find_available_port(3000).await;
// ...
});
```
### 格式化
- 使用 `cargo fmt` 自动格式化
- 缩进: 4 空格
- 行宽: 100 字符 (rustfmt 默认)
- 结构体和枚举的字段每行一个 (如果超过一定长度)
- 链式调用适当换行提高可读性
### 注释
- 使用中文注释说明复杂逻辑
- 代码块前添加简短说明注释
- 避免显而易见的注释
```rust
// ✅ 推荐
// 全局状态:存储 Sidecar App 进程句柄
struct SidecarProcess(Mutex<Option<CommandChild>>);
// 检查端口是否可用
async fn is_port_available(port: u16) -> bool { }
```
## Tauri 特定规范
### 模块组织
- **`lib.rs`**: 主入口,负责注册插件、命令、状态管理
- **`commands/mod.rs`**: 所有 Tauri 命令集中定义,命令必须是 `pub fn`
- **`sidecar.rs`**: Sidecar 进程管理逻辑,导出公共 API`spawn_sidecar`, `cleanup_sidecar_process`
```rust
// lib.rs - 模块声明
mod commands;
mod sidecar;
use sidecar::SidecarProcess;
// 注册命令时使用模块路径
.invoke_handler(tauri::generate_handler![commands::greet])
```
### 命令定义
- 使用 `#[tauri::command]` 宏标记命令
- 命令函数必须是公开的或在 `invoke_handler` 中注册
- 参数类型必须实现 `serde::Deserialize`
- 返回类型必须实现 `serde::Serialize`
```rust
#[tauri::command]
fn greet(name: &str) -> String {
format!("Hello, {}!", name)
}
// 在 Builder 中注册
.invoke_handler(tauri::generate_handler![greet])
```
### 状态管理
- 使用 `app.manage()` 注册全局状态
- 状态必须实现 `Send + Sync`
- 使用 `Mutex``RwLock` 保证线程安全
```rust
struct SidecarProcess(Mutex<Option<CommandChild>>);
// 注册状态
app.manage(SidecarProcess(Mutex::new(None)));
// 访问状态
if let Some(state) = app_handle.try_state::<SidecarProcess>() {
*state.0.lock().unwrap() = Some(child);
}
```
### Sidecar 进程管理
- Sidecar 二进制必须在 `tauri.conf.json``bundle.externalBin` 中声明
- 使用 `app.shell().sidecar()` 启动 sidecar
- 在应用退出时清理子进程 (监听 `RunEvent::ExitRequested`)
```rust
// 启动 sidecar
let sidecar = app_handle
.shell()
.sidecar("app")
.expect("无法找到 app sidecar")
.env("PORT", port.to_string());
// 清理进程
match event {
tauri::RunEvent::ExitRequested { .. } | tauri::RunEvent::Exit => {
if let Some(child) = process.take() {
let _ = child.kill();
}
}
_ => {}
}
```
## 依赖管理
-`Cargo.toml` 中明确声明依赖版本
- 使用语义化版本 (如 `"2"` 表示兼容 2.x.x)
- 仅启用需要的 feature 以减少编译时间和二进制大小
```toml
tauri = { version = "2", features = [] }
tauri-plugin-opener = "2"
tauri-plugin-shell = "2"
serde = { version = "1", features = ["derive"] }
tokio = { version = "1", features = ["net"] }
```
## 开发工具
推荐安装以下 VSCode 扩展:
- `tauri-apps.tauri-vscode` - Tauri 官方支持
- `rust-lang.rust-analyzer` - Rust 语言服务器
## 最佳实践
1. **开发环境配置**:
- 开发模式下需先启动前端开发服务器(`bun run dev`),再启动 Tauri`tauri dev`
- 生产构建自动打包 sidecar 二进制,无需额外配置
2. **进程生命周期**: 始终在应用退出时清理子进程和资源
3. **端口管理**:
- 开发模式固定使用 3000 端口(与开发服务器匹配)
- 生产模式使用端口扫描避免硬编码端口冲突
4. **超时处理**: 异步操作设置合理的超时时间 (如 5 秒)
5. **日志**: 使用表情符号 (✓/✗/🔧/🚀) 和中文消息提供清晰的状态反馈
6. **错误退出**: 关键错误时调用 `std::process::exit(1)`
7. **窗口配置**: 使用 `WebviewWindowBuilder` 动态创建窗口
## 提交代码前检查清单
- [ ] `cargo fmt` 格式化通过
- [ ] `cargo clippy` 无警告
- [ ] `cargo check` 编译通过
- [ ] `cargo test` 测试通过
- [ ] 更新相关注释和文档
- [ ] 检查是否有 `unwrap()` 需要替换为 `expect()`
- [ ] 验证 Tauri 应用正常启动和退出

4773
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24
apps/desktop/src-tauri/Cargo.toml
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@@ -1,24 +0,0 @@
[package]
name = "server-desktop"
version = "0.1.0"
description = "A Tauri App"
authors = ["imbytecat"]
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[lib]
# The `_lib` suffix may seem redundant but it is necessary
# to make the lib name unique and wouldn't conflict with the bin name.
# This seems to be only an issue on Windows, see https://github.com/rust-lang/cargo/issues/8519
name = "server_desktop_lib"
crate-type = ["staticlib", "cdylib", "rlib"]
[build-dependencies]
tauri-build = { version = "2", features = [] }
[dependencies]
tauri = { version = "2", features = [] }
tauri-plugin-shell = "2"
serde = { version = "1", features = ["derive"] }
tokio = { version = "1", features = ["net"] }

3
apps/desktop/src-tauri/build.rs
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fn main() {
tauri_build::build()
}

27
apps/desktop/src-tauri/capabilities/default.json
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{
"$schema": "../gen/schemas/desktop-schema.json",
"identifier": "default",
"description": "Capability for the main window",
"windows": ["main"],
"local": true,
"remote": {
"urls": [
"http://localhost:*",
"http://127.0.0.1:*",
"http{s}?://localhost(:\\d+)?/*"
]
},
"permissions": [
"core:default",
"core:window:allow-set-title",
{
"identifier": "shell:allow-execute",
"allow": [
{
"name": "binaries/app",
"sidecar": true
}
]
}
]
}

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8
apps/desktop/src-tauri/src/commands/mod.rs
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// 原生桌面功能命令
// 未来可能包含: 文件对话框、系统通知、剪贴板等
// 示例命令 (可根据需要删除或替换)
#[tauri::command]
pub fn greet(name: &str) -> String {
format!("Hello, {}! You've been greeted from Rust!", name)
}

33
apps/desktop/src-tauri/src/lib.rs
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use tauri::Manager;
// 模块声明
mod commands;
mod sidecar;
use sidecar::SidecarProcess;
#[cfg_attr(mobile, tauri::mobile_entry_point)]
pub fn run() {
tauri::Builder::default()
.plugin(tauri_plugin_shell::init())
.setup(|app| {
// 注册全局状态
app.manage(SidecarProcess(std::sync::Mutex::new(None)));
// 启动 Sidecar 进程
let app_handle = app.handle().clone();
sidecar::spawn_sidecar(app_handle);
Ok(())
})
.invoke_handler(tauri::generate_handler![commands::greet])
.build(tauri::generate_context!())
.expect("error while building tauri application")
.run(|app_handle, event| {
// 监听应用退出事件,清理 Sidecar 进程
if let tauri::RunEvent::Exit = event {
// 只在 Exit 事件时清理,避免重复执行
sidecar::cleanup_sidecar_process(app_handle);
}
});
}

6
apps/desktop/src-tauri/src/main.rs
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// Prevents additional console window on Windows in release, DO NOT REMOVE!!
#![cfg_attr(not(debug_assertions), windows_subsystem = "windows")]
fn main() {
server_desktop_lib::run()
}

166
apps/desktop/src-tauri/src/sidecar.rs
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use std::sync::Mutex;
use std::time::Duration;
use tauri::Manager;
use tauri_plugin_shell::process::{CommandChild, CommandEvent};
use tauri_plugin_shell::ShellExt;
// ===== 配置常量 =====
/// Sidecar App 启动超时时间(秒)
const STARTUP_TIMEOUT_SECS: u64 = 5;
/// 默认起始端口
const DEFAULT_PORT: u16 = 3000;
/// 端口扫描范围(从起始端口开始扫描的端口数量)
const PORT_SCAN_RANGE: u16 = 100;
/// 窗口默认宽度
const DEFAULT_WINDOW_WIDTH: f64 = 1200.0;
/// 窗口默认高度
const DEFAULT_WINDOW_HEIGHT: f64 = 800.0;
/// 窗口标题
const WINDOW_TITLE: &str = "Tauri App";
// ===== 数据结构 =====
/// 全局状态:存储 Sidecar 进程句柄
pub struct SidecarProcess(pub Mutex<Option<CommandChild>>);
// 检查端口是否可用(未被占用)
async fn is_port_available(port: u16) -> bool {
tokio::net::TcpListener::bind(format!("127.0.0.1:{}", port))
.await
.is_ok()
}
// 查找可用端口
async fn find_available_port(start: u16) -> u16 {
for port in start..start + PORT_SCAN_RANGE {
if is_port_available(port).await {
return port;
}
}
start // 回退到起始端口
}
/// 启动 Sidecar 进程并创建主窗口
pub fn spawn_sidecar(app_handle: tauri::AppHandle) {
// 检测是否为开发模式
let is_dev = cfg!(debug_assertions);
if is_dev {
// 开发模式:直接创建窗口连接到 Vite 开发服务器
println!("🔧 开发模式");
match tauri::WebviewWindowBuilder::new(
&app_handle,
"main",
tauri::WebviewUrl::External("http://localhost:3000".parse().unwrap()),
)
.title(WINDOW_TITLE)
.inner_size(DEFAULT_WINDOW_WIDTH, DEFAULT_WINDOW_HEIGHT)
.center()
.build()
{
Ok(_) => println!("✓ 开发窗口创建成功"),
Err(e) => {
eprintln!("✗ 窗口创建失败: {}", e);
}
}
return;
}
// 生产模式:启动 sidecar 二进制
tauri::async_runtime::spawn(async move {
println!("🚀 生产模式");
// 查找可用端口
let port = find_available_port(DEFAULT_PORT).await;
println!("使用端口: {}", port);
// 启动 sidecar
let sidecar = app_handle
.shell()
.sidecar("server")
.expect("无法找到 app")
.env("PORT", port.to_string());
let (mut rx, child) = sidecar.spawn().expect("启动 sidecar 失败");
// 保存进程句柄到全局状态
if let Some(state) = app_handle.try_state::<SidecarProcess>() {
*state.0.lock().unwrap() = Some(child);
}
// 监听 stdout等待服务器就绪信号
let start_time = std::time::Instant::now();
let timeout = Duration::from_secs(STARTUP_TIMEOUT_SECS);
let mut app_ready = false;
while let Some(event) = rx.recv().await {
if let CommandEvent::Stdout(line) = event {
let output = String::from_utf8_lossy(&line);
println!("App: {}", output);
// 检测 App 启动成功的标志
if output.contains("Listening on:") || output.contains("localhost") {
app_ready = true;
println!("✓ App 启动成功!");
// 创建主窗口
let url = format!("http://localhost:{}", port);
tauri::WebviewWindowBuilder::new(
&app_handle,
"main",
tauri::WebviewUrl::External(url.parse().unwrap()),
)
.title(WINDOW_TITLE)
.inner_size(DEFAULT_WINDOW_WIDTH, DEFAULT_WINDOW_HEIGHT)
.center()
.build()
.expect("创建窗口失败");
break;
}
}
// 超时检查
if start_time.elapsed() > timeout {
eprintln!("✗ 启动超时: App 未能在 {} 秒内启动", STARTUP_TIMEOUT_SECS);
break;
}
}
if !app_ready {
eprintln!("✗ App 启动失败");
std::process::exit(1);
}
});
}
/// 清理 Sidecar 进程 (在应用退出时调用)
pub fn cleanup_sidecar_process(app_handle: &tauri::AppHandle) {
let is_dev = cfg!(debug_assertions);
if is_dev {
// 开发模式退出时发送异常信号exit 1让 Turbo 停止 Vite 服务器
println!("🔧 开发模式退出,终止所有依赖任务...");
std::process::exit(1);
}
// 生产模式:正常清理 sidecar 进程
println!("应用退出,正在清理 Sidecar 进程...");
if let Some(state) = app_handle.try_state::<SidecarProcess>() {
if let Ok(mut process) = state.0.lock() {
if let Some(child) = process.take() {
let _ = child.kill();
println!("✓ Sidecar 进程已终止");
}
}
}
}

25
apps/desktop/src-tauri/tauri.conf.json
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{
"$schema": "https://schema.tauri.app/config/2",
"productName": "server-desktop",
"version": "0.1.0",
"identifier": "com.imbytecat.server-desktop",
"app": {
"withGlobalTauri": true,
"windows": [],
"security": {
"csp": null
}
},
"bundle": {
"active": true,
"targets": "all",
"icon": [
"icons/32x32.png",
"icons/128x128.png",
"icons/128x128@2x.png",
"icons/icon.icns",
"icons/icon.ico"
],
"externalBin": ["binaries/server"]
}
}

166
apps/desktop/src/bun/index.ts Normal file
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import { createServer } from 'node:net'
import { dirname, join } from 'node:path'
import { BrowserWindow, PATHS } from 'electrobun/bun'
const DEV_SERVER_URL = 'http://localhost:3000'
const SERVER_READY_TIMEOUT_MS = 5_000
const MAX_SPAWN_RETRIES = 3
const isDev = (): boolean => {
const env = process.env.ELECTROBUN_BUILD_ENV
return !env || env === 'dev'
}
const getServerEntryPath = (): string => {
return join(PATHS.VIEWS_FOLDER, '..', 'server-output', 'server', 'index.mjs')
}
const getFreePort = (): Promise<number> => {
return new Promise((resolve, reject) => {
const srv = createServer()
srv.unref()
srv.once('error', reject)
srv.listen({ port: 0, host: '127.0.0.1', exclusive: true }, () => {
const addr = srv.address()
if (addr && typeof addr === 'object') {
const port = addr.port
srv.close((err) => (err ? reject(err) : resolve(port)))
} else {
srv.close(() => reject(new Error('Unexpected address() result')))
}
})
})
}
const waitForServer = async (
url: string,
timeoutMs = SERVER_READY_TIMEOUT_MS,
): Promise<boolean> => {
const start = Date.now()
while (Date.now() - start < timeoutMs) {
try {
const response = await fetch(url, { method: 'HEAD' })
if (response.ok) return true
} catch (_) {
// Server not up yet, retry after sleep
}
await Bun.sleep(100)
}
return false
}
const spawnServer = async (): Promise<{
process: ReturnType<typeof Bun.spawn>
url: string
}> => {
const serverEntryPath = getServerEntryPath()
const serverDir = dirname(serverEntryPath)
for (let attempt = 1; attempt <= MAX_SPAWN_RETRIES; attempt++) {
const port = await getFreePort()
const url = `http://127.0.0.1:${port}`
const serverProc = Bun.spawn([process.execPath, serverEntryPath], {
cwd: serverDir,
env: {
...process.env,
PORT: String(port),
HOST: '127.0.0.1',
},
stdio: ['ignore', 'inherit', 'inherit'],
})
const ready = await Promise.race([
waitForServer(url),
serverProc.exited.then((code) => {
throw new Error(`Server exited with code ${code} before becoming ready`)
}),
])
if (ready) {
return { process: serverProc, url }
}
serverProc.kill()
await serverProc.exited
console.warn(
`Server failed to become ready on port ${port} (attempt ${attempt}/${MAX_SPAWN_RETRIES})`,
)
}
throw new Error(`Server failed to start after ${MAX_SPAWN_RETRIES} attempts`)
}
const main = async () => {
console.log('Starting Furtherverse Desktop...')
let serverUrl: string
let serverProcess: ReturnType<typeof Bun.spawn> | null = null
if (isDev()) {
console.log('Dev mode: waiting for external server at', DEV_SERVER_URL)
const ready = await waitForServer(DEV_SERVER_URL)
if (!ready) {
console.error(
'Dev server not responding. Make sure to run: bun dev in apps/server',
)
process.exit(1)
}
console.log('Dev server ready!')
serverUrl = DEV_SERVER_URL
} else {
console.log('Production mode: starting embedded server...')
try {
const server = await spawnServer()
serverProcess = server.process
serverUrl = server.url
console.log('Server ready at', serverUrl)
} catch (err) {
console.error('Failed to start embedded server:', err)
process.exit(1)
}
}
new BrowserWindow({
title: 'Furtherverse',
url: serverUrl,
frame: {
x: 100,
y: 100,
width: 1200,
height: 800,
},
renderer: 'cef',
})
if (serverProcess) {
const cleanup = () => {
if (serverProcess) {
serverProcess.kill()
serverProcess = null
}
}
process.on('exit', cleanup)
process.on('SIGTERM', () => {
cleanup()
process.exit(0)
})
process.on('SIGINT', () => {
cleanup()
process.exit(0)
})
serverProcess.exited.then((code) => {
if (serverProcess) {
console.error(`Server exited unexpectedly with code ${code}`)
process.exit(1)
}
})
}
}
main().catch((error) => {
console.error('Failed to start:', error)
process.exit(1)
})

4
apps/desktop/tsconfig.json
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{
"extends": "@furtherverse/tsconfig/bun.json",
"exclude": ["node_modules", "src-tauri"]
"compilerOptions": {
"lib": ["ESNext", "DOM", "DOM.Iterable"]
}
}

8
apps/desktop/turbo.json
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@@ -3,12 +3,8 @@
"extends": ["//"],
"tasks": {
"build": {
"dependsOn": ["@furtherverse/server#compile"],
"outputs": ["src-tauri/target/release/**"]
},
"dev": {
"dependsOn": ["@furtherverse/server#compile"],
"with": ["@furtherverse/server#dev"]
"dependsOn": ["@furtherverse/server#build"],
"outputs": ["build/**", "artifacts/**"]
}
}
}

386
apps/server/AGENTS.md
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# AGENTS.md - AI Coding Agent Guidelines
# AGENTS.md - Server App Guidelines
本文档为 AI 编程助手提供此 TanStack Start 全栈项目的开发规范和指南。
TanStack Start fullstack web app with ORPC (contract-first RPC).
## 项目概览
## Tech Stack
- **框架**: TanStack Start (React SSR 框架,文件路由)
- **运行时**: Bun
- **语言**: TypeScript (strict mode, ESNext)
- **样式**: Tailwind CSS v4
- **数据库**: PostgreSQL + Drizzle ORM
- **状态管理**: TanStack Query
- **路由**: TanStack Router (文件路由)
- **RPC**: ORPC (类型安全 RPC契约优先)
- **构建工具**: Vite + Turbo
- **代码质量**: Biome (格式化 + Lint)
- **桌面壳** (可选): Tauri v2 (详见 `src-tauri/AGENTS.md`)
> **⚠️ This project uses Bun — NOT Node.js / npm. All commands use `bun`. Never use `npm`, `npx`, or `node`.**
## 构建、Lint 和测试命令
- **Framework**: TanStack Start (React 19 SSR, file-based routing)
- **Runtime**: Bun — **NOT Node.js**
- **Package Manager**: Bun — **NOT npm / yarn / pnpm**
- **Language**: TypeScript (strict mode)
- **Styling**: Tailwind CSS v4
- **Database**: PostgreSQL + Drizzle ORM
- **State**: TanStack Query v5
- **RPC**: ORPC (contract-first, type-safe)
- **Build**: Vite + Nitro
## Commands
### 开发
```bash
bun dev # 使用 Turbo 并行启动 Tauri + Vite 开发服务器
bun dev:vite # 仅启动 Vite 开发服务器 (localhost:3000)
bun dev:tauri # 启动 Tauri 桌面应用
bun db:studio # 打开 Drizzle Studio 数据库管理界面
# Development
bun dev # Vite dev server (localhost:3000)
bun db:studio # Drizzle Studio GUI
# Build
bun build # Production build → .output/
bun compile # Compile to standalone binary
# Code Quality
bun fix # Biome auto-fix
bun typecheck # TypeScript check
# Database
bun db:generate # Generate migrations from schema
bun db:migrate # Run migrations
bun db:push # Push schema directly (dev only)
# Testing (not yet configured)
bun test path/to/test.ts # Run single test
bun test -t "pattern" # Run tests matching pattern
```
### 构建
```bash
bun build # 完整构建 (Vite → 编译 → Tauri 打包)
bun build:vite # 仅构建 Vite (输出到 .output/)
bun build:compile # 编译为独立可执行文件 (使用 build.ts)
bun build:tauri # 构建 Tauri 桌面安装包
## Directory Structure
```
src/
├── client/ # Client-side code
│ ├── orpc.client.ts # ORPC isomorphic client
│ └── query-client.ts # TanStack Query client
├── components/ # React components
├── routes/ # TanStack Router file routes
│ ├── __root.tsx # Root layout
│ ├── index.tsx # Home page
│ └── api/
│ └── rpc.$.ts # ORPC HTTP endpoint
├── server/ # Server-side code
│ ├── api/ # ORPC layer
│ │ ├── contracts/ # Input/output schemas (Zod)
│ │ ├── middlewares/ # Middleware (db provider, auth)
│ │ ├── routers/ # Handler implementations
│ │ ├── context.ts # Request context
│ │ ├── server.ts # ORPC server instance
│ │ └── types.ts # Type exports
│ └── db/
│ ├── schema/ # Drizzle table definitions
│ └── index.ts # Database instance
├── env.ts # Environment variable validation
├── router.tsx # Router configuration
├── routeTree.gen.ts # Auto-generated (DO NOT EDIT)
└── styles.css # Tailwind entry
```
### 代码质量
```bash
bun typecheck # 运行 TypeScript 编译器检查 (tsc -b)
bun fix # 运行 Biome 自动修复格式和 Lint 问题
biome check . # 检查但不自动修复
biome format --write . # 仅格式化代码
```
## ORPC Pattern
### 数据库
```bash
bun db:generate # 从 schema 生成迁移文件
bun db:migrate # 执行数据库迁移
bun db:push # 直接推送 schema 变更 (仅开发环境)
```
### 测试
**注意**: 当前未配置测试框架。添加测试时:
- 使用 Vitest 或 Bun 内置测试运行器
- 运行单个测试文件: `bun test path/to/test.ts`
- 运行特定测试: `bun test -t "测试名称模式"`
## 代码风格指南
### 格式化 (Biome)
**缩进**: 2 空格 (不使用 tab)
**换行符**: LF (Unix 风格)
**引号**: 单引号 `'string'`
**分号**: 按需 (ASI - 自动分号插入)
**箭头函数括号**: 始终使用 `(x) => x`
示例:
### 1. Define Contract (`src/server/api/contracts/feature.contract.ts`)
```typescript
const myFunc = (value: string) => {
return value.toUpperCase()
}
```
### 导入组织
Biome 自动组织导入。顺序:
1. 外部依赖
2. 内部导入 (使用 `@/*` 别名)
3. 类型导入 (仅导入类型时使用 `type` 关键字)
示例:
```typescript
import { createFileRoute } from '@tanstack/react-router'
import { oc } from '@orpc/contract'
import { createSelectSchema } from 'drizzle-zod'
import { z } from 'zod'
import { db } from '@/db'
import { todoTable } from '@/db/schema'
import type { ReactNode } from 'react'
import { featureTable } from '@/server/db/schema'
const selectSchema = createSelectSchema(featureTable)
export const list = oc.input(z.void()).output(z.array(selectSchema))
export const create = oc.input(insertSchema).output(selectSchema)
```
### TypeScript
**严格模式**: 启用了额外的严格检查
- `strict: true`
- `noUncheckedIndexedAccess: true` - 数组/对象索引返回 `T | undefined`
- `noImplicitOverride: true`
- `noFallthroughCasesInSwitch: true`
**模块解析**: `bundler` 模式 + `verbatimModuleSyntax`
- 导入时始终使用 `.ts`/`.tsx` 扩展名
- 使用 `@/*` 路径别名指向 `src/*`
**类型注解**:
- 公共 API 的函数参数和返回类型必须注解
- 优先使用显式类型而非 `any`
- 对象形状用 `type`,可扩展契约用 `interface`
- 不可变 props 使用 `Readonly<T>`
### 命名规范
- **文件**: 工具函数用 kebab-case组件用 PascalCase
- `utils.ts`, `todo.tsx`, `NotFound.tsx`
- **路由**: 遵循 TanStack Router 约定
- `routes/index.tsx``/`
- `routes/__root.tsx` → 根布局
- **组件**: PascalCase 箭头函数 (Biome 规则 `useArrowFunction` 强制)
- **函数**: camelCase
- **常量**: 真常量用 UPPER_SNAKE_CASE配置对象用 camelCase
- **类型/接口**: PascalCase
### React 模式
**组件**: 使用箭头函数
### 2. Implement Router (`src/server/api/routers/feature.router.ts`)
```typescript
const MyComponent = ({ title }: { title: string }) => {
return <div>{title}</div>
}
```
import { ORPCError } from '@orpc/server'
import { db } from '../middlewares'
import { os } from '../server'
**路由**: 使用 `createFileRoute` 定义路由
```typescript
export const Route = createFileRoute('/')({
component: Home,
export const list = os.feature.list.use(db).handler(async ({ context }) => {
return await context.db.query.featureTable.findMany()
})
```
**数据获取**: 使用 TanStack Query hooks
- `useSuspenseQuery` - 保证有数据
- `useQuery` - 数据可能为空
### 3. Register in Index Files
```typescript
// src/server/api/contracts/index.ts
import * as feature from './feature.contract'
export const contract = { feature }
**Props**: 禁止直接修改 props (Biome 规则 `noReactPropAssignments`)
// src/server/api/routers/index.ts
import * as feature from './feature.router'
export const router = os.router({ feature })
```
### 数据库 Schema (Drizzle)
### 4. Use in Components
```typescript
import { useSuspenseQuery, useMutation } from '@tanstack/react-query'
import { orpc } from '@/client/orpc.client'
-`src/db/schema/*.ts` 定义 schema
-`src/db/schema/index.ts` 导出
- 使用 `drizzle-orm/pg-core` 的 PostgreSQL 类型
- 主键使用 `uuidv7()` (需要 PostgreSQL 扩展)
- 始终包含 `createdAt``updatedAt` 时间戳
const { data } = useSuspenseQuery(orpc.feature.list.queryOptions())
const mutation = useMutation(orpc.feature.create.mutationOptions())
```
## Database Schema (Drizzle)
示例:
```typescript
import { pgTable, text, timestamp, uuid } from 'drizzle-orm/pg-core'
import { sql } from 'drizzle-orm'
@@ -162,116 +131,75 @@ export const myTable = pgTable('my_table', {
})
```
### 环境变量
## Code Style
- 使用 `@t3-oss/env-core` 进行类型安全的环境变量验证
- `src/env.ts` 定义 schema
- 服务端变量: 无前缀
- 客户端变量: 必须有 `VITE_` 前缀
- 使用 Zod schema 验证
### Formatting (Biome)
- **Indent**: 2 spaces
- **Quotes**: Single `'`
- **Semicolons**: Omit (ASI)
- **Arrow parens**: Always `(x) => x`
### 错误处理
### Imports
Biome auto-organizes:
1. External packages
2. Internal `@/*` aliases
3. Type imports (`import type { ... }`)
- 异步操作使用 try-catch
- 抛出带有描述性消息的错误
- 用户界面错误优先使用 Result 类型或错误边界
- 适当记录错误 (避免记录敏感数据)
### 样式 (Tailwind CSS)
- 使用 Tailwind v4 工具类
- 通过 `@/styles.css?url` 导入样式
- 优先使用组合而非自定义 CSS
- 响应式修饰符: `sm:`, `md:`, `lg:`
- UI 文本适当使用中文
## 目录结构
```
src/
├── components/ # 可复用 React 组件
├── db/
│ ├── schema/ # Drizzle schema 定义
│ └── index.ts # 数据库实例
├── integrations/ # 第三方集成 (TanStack Query/Router)
├── lib/ # 工具函数
├── orpc/ # ORPC (RPC 层)
│ ├── contracts/ # 契约定义 (input/output schemas)
│ ├── handlers/ # 服务端过程实现
│ ├── middlewares/ # 中间件 (如 DB provider)
│ ├── contract.ts # 契约聚合
│ ├── router.ts # 路由组合
│ ├── server.ts # 服务端实例
│ └── client.ts # 同构客户端
├── routes/ # TanStack Router 文件路由
│ ├── __root.tsx # 根布局
│ ├── index.tsx # 首页
│ └── api/rpc.$.ts # ORPC HTTP 端点
├── env.ts # 环境变量验证
└── router.tsx # 路由配置
```
## 重要提示
- **禁止** 编辑 `src/routeTree.gen.ts` - 自动生成
- **禁止** 提交 `.env` 文件 - 使用 `.env.example` 作为模板
- **必须** 在提交前运行 `bun fix`
- **必须** 使用 `@/*` 路径别名而非相对导入
- **必须** 利用 React Compiler (babel-plugin-react-compiler) - 避免手动 memoization
## Git 工作流
1. 按照上述风格指南进行修改
2. 运行 `bun fix` 自动格式化和 lint
3. 运行 `bun typecheck` 确保类型安全
4. 使用 `bun dev` 本地测试变更
5. 使用清晰的描述性消息提交
## 常见模式
### 创建 ORPC 过程
**步骤 1: 定义契约** (`src/orpc/contracts/my-feature.ts`)
```typescript
import { oc } from '@orpc/contract'
import { createFileRoute } from '@tanstack/react-router'
import { z } from 'zod'
import { db } from '@/server/db'
import type { ReactNode } from 'react'
```
### TypeScript
- `strict: true`
- `noUncheckedIndexedAccess: true` - array access returns `T | undefined`
- Use `@/*` path aliases (maps to `src/*`)
### Naming
| Type | Convention | Example |
|------|------------|---------|
| Files (utils) | kebab-case | `auth-utils.ts` |
| Files (components) | PascalCase | `UserProfile.tsx` |
| Components | PascalCase arrow | `const Button = () => {}` |
| Functions | camelCase | `getUserById` |
| Types | PascalCase | `UserProfile` |
### React
- Use arrow functions for components (Biome enforced)
- Use `useSuspenseQuery` for guaranteed data
- Let React Compiler handle memoization (no manual `useMemo`/`useCallback`)
## Environment Variables
```typescript
// src/env.ts - using @t3-oss/env-core
import { createEnv } from '@t3-oss/env-core'
import { z } from 'zod'
export const myContract = {
get: oc.input(z.object({ id: z.uuid() })).output(mySchema),
create: oc.input(createSchema).output(mySchema),
}
```
**步骤 2: 实现处理器** (`src/orpc/handlers/my-feature.ts`)
```typescript
import { os } from '@/orpc/server'
import { dbProvider } from '@/orpc/middlewares'
export const get = os.myFeature.get
.use(dbProvider)
.handler(async ({ context, input }) => {
return await context.db.query.myTable.findFirst(...)
export const env = createEnv({
server: {
DATABASE_URL: z.string().url(),
},
clientPrefix: 'VITE_',
client: {
VITE_API_URL: z.string().optional(),
},
})
```
**步骤 3: 注册到契约和路由**
```typescript
// src/orpc/contract.ts
export const contract = { myFeature: myContract }
## Critical Rules
// src/orpc/router.ts
import * as myFeature from './handlers/my-feature'
export const router = os.router({ myFeature })
```
**DO:**
- Run `bun fix` before committing
- Use `@/*` path aliases
- Include `createdAt`/`updatedAt` on all tables
- Use `ORPCError` with proper codes
**步骤 4: 在组件中使用**
```typescript
import { orpc } from '@/orpc'
const query = useSuspenseQuery(orpc.myFeature.get.queryOptions({ id }))
const mutation = useMutation(orpc.myFeature.create.mutationOptions())
```
---
**最后更新**: 2026-01-18
**项目版本**: 基于 package.json 依赖版本
**DON'T:**
- Use `npm`, `npx`, `node`, `yarn`, `pnpm` — always use `bun` / `bunx`
- Edit `src/routeTree.gen.ts` (auto-generated)
- Use `as any`, `@ts-ignore`, `@ts-expect-error`
- Commit `.env` files
- Use empty catch blocks

342
apps/server/build.ts
View File

@@ -1,289 +1,111 @@
import { Schema } from '@effect/schema'
import { $ } from 'bun'
import { Console, Context, Data, Effect, Layer } from 'effect'
import { rm } from 'node:fs/promises'
import path from 'node:path'
import process from 'node:process'
// ============================================================================
// Domain Models & Schema
// ============================================================================
const BunTargetSchema = Schema.Literal(
const ALL_TARGETS = [
'bun-windows-x64',
'bun-darwin-arm64',
'bun-darwin-x64',
'bun-linux-x64',
'bun-linux-arm64',
)
] as const
/**
* 将 bun target 转换为文件后缀 (去掉 'bun-' 前缀)
*/
const getTargetSuffix = (target: BunTarget): string => {
return target.replace('bun-', '')
type BunTarget = (typeof ALL_TARGETS)[number]
const ENTRYPOINT = '.output/server/index.mjs'
const OUTDIR = 'out'
const OUTFILE_BASE = 'server'
const DEFAULT_TARGETS: BunTarget[] = [
'bun-windows-x64',
'bun-darwin-arm64',
'bun-linux-x64',
]
const suffixFor = (target: BunTarget) => target.replace('bun-', '')
const isTarget = (value: string): value is BunTarget =>
(ALL_TARGETS as readonly string[]).includes(value)
const parseTargets = (): BunTarget[] => {
const args = process.argv.slice(2)
const targets: string[] = []
for (let i = 0; i < args.length; i++) {
const arg = args[i]
const next = args[i + 1]
if (arg === '--target' && next) {
targets.push(next)
i++
} else if (arg === '--targets' && next) {
targets.push(...next.split(','))
i++
}
}
type BunTarget = Schema.Schema.Type<typeof BunTargetSchema>
if (targets.length === 0) return DEFAULT_TARGETS
const BuildConfigSchema = Schema.Struct({
entrypoint: Schema.String.pipe(Schema.nonEmptyString()),
outputDir: Schema.String.pipe(Schema.nonEmptyString()),
outfile: Schema.String.pipe(Schema.nonEmptyString()),
targets: Schema.Array(BunTargetSchema).pipe(Schema.minItems(1)),
})
type BuildConfig = Schema.Schema.Type<typeof BuildConfigSchema>
const BuildResultSchema = Schema.Struct({
target: BunTargetSchema,
outputs: Schema.Array(Schema.String),
})
type BuildResult = Schema.Schema.Type<typeof BuildResultSchema>
// ============================================================================
// Error Models (使用 Data.TaggedError)
// ============================================================================
class CleanError extends Data.TaggedError('CleanError')<{
readonly dir: string
readonly cause: unknown
}> {}
class BuildError extends Data.TaggedError('BuildError')<{
readonly target: BunTarget
readonly cause: unknown
}> {}
class ConfigError extends Data.TaggedError('ConfigError')<{
readonly message: string
readonly cause: unknown
}> {}
// ============================================================================
// Services
// ============================================================================
/**
* 配置服务
*/
class BuildConfigService extends Context.Tag('BuildConfigService')<
BuildConfigService,
BuildConfig
>() {
/**
* 从原始数据创建并验证配置
*/
static fromRaw = (raw: unknown) =>
Effect.gen(function* () {
const decoded = yield* Schema.decodeUnknown(BuildConfigSchema)(raw)
return decoded
}).pipe(
Effect.catchAll((error) =>
Effect.fail(
new ConfigError({
message: '配置验证失败',
cause: error,
}),
),
),
)
/**
* 默认配置 Layer
*/
static readonly Live = Layer.effect(
BuildConfigService,
BuildConfigService.fromRaw({
entrypoint: '.output/server/index.mjs',
outputDir: 'out',
outfile: 'server',
targets: ['bun-windows-x64', 'bun-darwin-arm64', 'bun-linux-x64'],
} satisfies BuildConfig),
const invalid = targets.filter((t) => !isTarget(t))
if (invalid.length) {
throw new Error(
`Unknown target(s): ${invalid.join(', ')}\nAllowed: ${ALL_TARGETS.join(', ')}`,
)
}
/**
* 文件系统服务
*/
class FileSystemService extends Context.Tag('FileSystemService')<
FileSystemService,
{
readonly cleanDir: (dir: string) => Effect.Effect<void, CleanError>
}
>() {
static readonly Live = Layer.succeed(FileSystemService, {
cleanDir: (dir: string) =>
Effect.tryPromise({
try: async () => {
await $`rm -rf ${dir}`
},
catch: (cause: unknown) =>
new CleanError({
dir,
cause,
}),
}),
})
return targets as BunTarget[]
}
/**
* 构建服务
*/
class BuildService extends Context.Tag('BuildService')<
BuildService,
{
readonly buildForTarget: (
config: BuildConfig,
target: BunTarget,
) => Effect.Effect<BuildResult, BuildError>
readonly buildAll: (
config: BuildConfig,
) => Effect.Effect<ReadonlyArray<BuildResult>, BuildError>
}
>() {
static readonly Live = Layer.succeed(BuildService, {
buildForTarget: (config: BuildConfig, target: BunTarget) =>
Effect.gen(function* () {
yield* Console.log(`🔨 开始构建: ${target}`)
const buildOne = async (target: BunTarget) => {
const suffix = suffixFor(target)
const outfile = `${OUTFILE_BASE}-${suffix}`
const output = yield* Effect.tryPromise({
try: () =>
Bun.build({
entrypoints: [config.entrypoint],
const result = await Bun.build({
entrypoints: [ENTRYPOINT],
outdir: OUTDIR,
compile: {
outfile: `${config.outfile}-${getTargetSuffix(target)}`,
target: target,
},
outdir: config.outputDir,
}),
catch: (cause: unknown) =>
new BuildError({
outfile,
target,
cause,
}),
},
})
const paths = output.outputs.map((item: { path: string }) => item.path)
if (!result.success) {
throw new Error(
`Build failed for ${target}:\n${result.logs.map(String).join('\n')}`,
)
}
return {
target,
outputs: paths,
} satisfies BuildResult
}),
buildAll: (config: BuildConfig) =>
Effect.gen(function* () {
const effects = config.targets.map((target) =>
Effect.gen(function* () {
yield* Console.log(`🔨 开始构建: ${target}`)
const output = yield* Effect.tryPromise({
try: () =>
Bun.build({
entrypoints: [config.entrypoint],
compile: {
outfile: `${config.outfile}-${getTargetSuffix(target)}`,
target: target,
},
outdir: config.outputDir,
}),
catch: (cause: unknown) =>
new BuildError({
target,
cause,
}),
})
const paths = output.outputs.map(
(item: { path: string }) => item.path,
)
return {
target,
outputs: paths,
} satisfies BuildResult
}),
)
return yield* Effect.all(effects, { concurrency: 'unbounded' })
}),
})
}
/**
* 报告服务
*/
class ReporterService extends Context.Tag('ReporterService')<
ReporterService,
{
readonly printSummary: (
results: ReadonlyArray<BuildResult>,
) => Effect.Effect<void>
}
>() {
static readonly Live = Layer.succeed(ReporterService, {
printSummary: (results: ReadonlyArray<BuildResult>) =>
Effect.gen(function* () {
yield* Console.log('\n📦 构建完成:')
for (const result of results) {
yield* Console.log(` ${result.target}:`)
for (const path of result.outputs) {
yield* Console.log(` - ${path}`)
outputs: result.outputs.map((o) => path.relative('.', o.path)),
}
}
}),
})
const main = async () => {
const targets = parseTargets()
await rm(OUTDIR, { recursive: true, force: true })
console.log(`✓ 已清理输出目录: ${OUTDIR}`)
// Bun cross-compile 不支持真正并行,逐目标串行构建
const results: Awaited<ReturnType<typeof buildOne>>[] = []
for (const target of targets) {
const start = Date.now()
process.stdout.write(`🔨 构建 ${target}... `)
const result = await buildOne(target)
results.push(result)
console.log(`完成 (${Date.now() - start}ms)`)
}
// ============================================================================
// Main Program
// ============================================================================
console.log('\n📦 构建完成:')
for (const r of results) {
console.log(` ${r.target}:`)
for (const p of r.outputs) {
console.log(` - ${p}`)
}
}
}
const program = Effect.gen(function* () {
const config = yield* BuildConfigService
const fs = yield* FileSystemService
const builder = yield* BuildService
const reporter = yield* ReporterService
// 1. 清理输出目录
yield* fs.cleanDir(config.outputDir)
yield* Console.log(`✓ 已清理输出目录: ${config.outputDir}`)
// 2. 并行构建所有目标
const results = yield* builder.buildAll(config)
// 3. 输出构建摘要
yield* reporter.printSummary(results)
return results
})
// ============================================================================
// Layer Composition
// ============================================================================
const MainLayer = Layer.mergeAll(
BuildConfigService.Live,
FileSystemService.Live,
BuildService.Live,
ReporterService.Live,
)
// ============================================================================
// Runner
// ============================================================================
const runnable = program.pipe(
Effect.provide(MainLayer),
Effect.catchTags({
CleanError: (error) =>
Console.error(`❌ 清理目录失败: ${error.dir}`, error.cause),
BuildError: (error) =>
Console.error(`❌ 构建失败 [${error.target}]:`, error.cause),
ConfigError: (error) =>
Console.error(`❌ 配置错误: ${error.message}`, error.cause),
}),
Effect.tapErrorCause((cause) => Console.error('❌ 未预期的错误:', cause)),
)
Effect.runPromise(runnable).catch(() => {
main().catch((err) => {
console.error('\n❌ 构建失败:')
console.error(err instanceof Error ? err.message : err)
process.exit(1)
})

5
apps/server/package.json
View File

@@ -27,7 +27,6 @@
"@tanstack/react-router": "catalog:",
"@tanstack/react-router-ssr-query": "catalog:",
"@tanstack/react-start": "catalog:",
"@tauri-apps/api": "catalog:",
"drizzle-orm": "catalog:",
"drizzle-zod": "catalog:",
"postgres": "catalog:",
@@ -37,8 +36,6 @@
"zod": "catalog:"
},
"devDependencies": {
"@effect/platform": "catalog:",
"@effect/schema": "catalog:",
"@furtherverse/tsconfig": "workspace:*",
"@tailwindcss/vite": "catalog:",
"@tanstack/devtools-vite": "catalog:",
@@ -49,10 +46,8 @@
"@vitejs/plugin-react": "catalog:",
"babel-plugin-react-compiler": "catalog:",
"drizzle-kit": "catalog:",
"effect": "catalog:",
"nitro": "catalog:",
"tailwindcss": "catalog:",
"typescript": "catalog:",
"vite": "catalog:",
"vite-tsconfig-paths": "catalog:"
}

9
apps/server/src/routes/index.tsx
View File

@@ -1,9 +1,7 @@
import { useMutation, useSuspenseQuery } from '@tanstack/react-query'
import { createFileRoute } from '@tanstack/react-router'
import { isTauri } from '@tauri-apps/api/core'
import { getCurrentWindow } from '@tauri-apps/api/window'
import type { ChangeEventHandler, FormEventHandler } from 'react'
import { useEffect, useState } from 'react'
import { useState } from 'react'
import { orpc } from '@/client/query-client'
export const Route = createFileRoute('/')({
@@ -21,11 +19,6 @@ function Todos() {
const updateMutation = useMutation(orpc.todo.update.mutationOptions())
const deleteMutation = useMutation(orpc.todo.remove.mutationOptions())
useEffect(() => {
if (!isTauri()) return
getCurrentWindow().setTitle('待办事项')
}, [])
const handleCreateTodo: FormEventHandler<HTMLFormElement> = (e) => {
e.preventDefault()
if (newTodoTitle.trim()) {

5
apps/server/turbo.json
View File

@@ -2,8 +2,11 @@
"$schema": "../../node_modules/turbo/schema.json",
"extends": ["//"],
"tasks": {
"build": {
"env": ["NODE_ENV", "VITE_*"],
"outputs": [".output/**"]
},
"compile": {
"dependsOn": ["build"],
"outputs": ["out/**"]
}
}

1008
bun.lock
View File

File diff suppressed because it is too large Load Diff

3
mise.toml
View File

@@ -1,4 +1,3 @@
[tools]
node = "latest"
bun = "1"
rust = 'latest'
node = "24"

48
package.json
View File

@@ -10,19 +10,17 @@
"scripts": {
"build": "turbo run build",
"compile": "turbo run compile",
"deploy": "turbo run deploy",
"dev": "turbo run dev",
"fix": "turbo run fix",
"typecheck": "turbo run typecheck"
},
"devDependencies": {
"@biomejs/biome": "^2.3.11",
"turbo": "^2.7.5"
"@biomejs/biome": "^2.3.14",
"turbo": "^2.8.3",
"typescript": "^5.9.3"
},
"catalog": {
"@biomejs/biome": "^2.3.11",
"@effect/platform": "^0.94.2",
"@effect/schema": "^0.75.5",
"@orpc/client": "^1.13.4",
"@orpc/contract": "^1.13.4",
"@orpc/openapi": "^1.13.4",
@@ -31,35 +29,37 @@
"@orpc/zod": "^1.13.4",
"@t3-oss/env-core": "^0.13.10",
"@tailwindcss/vite": "^4.1.18",
"@tanstack/devtools-vite": "^0.4.1",
"@tanstack/react-devtools": "^0.9.2",
"@tanstack/react-query": "^5.90.19",
"@tanstack/react-query-devtools": "^5.91.2",
"@tanstack/react-router": "^1.154.12",
"@tanstack/react-router-devtools": "^1.154.12",
"@tanstack/react-router-ssr-query": "^1.154.12",
"@tanstack/react-start": "^1.154.12",
"@tauri-apps/api": "^2.9.1",
"@tauri-apps/cli": "^2.9.6",
"@types/bun": "^1.3.6",
"@vitejs/plugin-react": "^5.1.2",
"@tanstack/devtools-vite": "^0.5.0",
"@tanstack/react-devtools": "^0.9.4",
"@tanstack/react-query": "^5.90.20",
"@tanstack/react-query-devtools": "^5.91.3",
"@tanstack/react-router": "^1.158.4",
"@tanstack/react-router-devtools": "^1.158.4",
"@tanstack/react-router-ssr-query": "^1.158.4",
"@tanstack/react-start": "^1.159.0",
"@types/bun": "^1.3.8",
"@types/node": "^24.3.0",
"@vitejs/plugin-react": "^5.1.3",
"babel-plugin-react-compiler": "^1.0.0",
"drizzle-kit": "^0.31.8",
"drizzle-orm": "^0.45.1",
"drizzle-zod": "^0.8.3",
"effect": "^3.19.15",
"nitro": "npm:nitro-nightly@3.0.1-20260122-201913-dfdff9e9",
"electrobun": "^1.12.0-beta.1",
"nitro": "npm:nitro-nightly@3.0.1-20260206-171553-bc737c0c",
"ohash": "^2.0.11",
"postgres": "^3.4.8",
"react": "^19.2.3",
"react-dom": "^19.2.3",
"react": "^19.2.4",
"react-dom": "^19.2.4",
"systeminformation": "^5.30.7",
"tailwindcss": "^4.1.18",
"turbo": "^2.7.5",
"typescript": "^5.9.3",
"uuid": "^13.0.0",
"systeminformation": "^5.30.5",
"vite": "^8.0.0-beta.9",
"vite-tsconfig-paths": "^6.0.4",
"vite": "^8.0.0-beta.13",
"vite-tsconfig-paths": "^6.0.5",
"zod": "^4.3.6"
},
"overrides": {
"@types/node": "catalog:"
}
}

3
packages/utils/package.json
View File

@@ -15,7 +15,6 @@
"systeminformation": "catalog:"
},
"devDependencies": {
"@furtherverse/tsconfig": "workspace:*",
"typescript": "catalog:"
"@furtherverse/tsconfig": "workspace:*"
}
}

22
turbo.json
View File

@@ -1,30 +1,28 @@
{
"$schema": "./node_modules/turbo/schema.json",
"dangerouslyDisablePackageManagerCheck": true,
"globalDependencies": [
"package.json",
"bun.lock",
"turbo.json",
"biome.json"
],
"globalDependencies": ["bun.lock"],
"tasks": {
"build": {
"outputs": ["dist/**", ".output/**"]
"dependsOn": ["^build"]
},
"compile": {
"dependsOn": ["build"],
"outputs": ["out/**"]
"dependsOn": ["build"]
},
"dev": {
"cache": false,
"persistent": true
},
"fix": {
"outputs": []
"cache": false
},
"typecheck": {
"dependsOn": ["^typecheck"],
"inputs": ["tsconfig.json", "tsconfig.*.json", "**/*.{ts,tsx}"],
"inputs": [
"package.json",
"tsconfig.json",
"tsconfig.*.json",
"**/*.{ts,tsx,d.ts}"
],
"outputs": []
}
},