Drive Chrome via the DevTools Protocol from JavaScript. Run JS snippets through the `browser-harness-js` CLI — it auto-spawns a long-lived bun HTTP server holding a fully-typed CDP `Session`, and every call (`browser-harness-js 'await session.Page.navigate(...)'`) executes against the same persistent connection. Session, active target, and globals survive across calls. Use when the user wants to automate, script, or inspect a Chrome browser via CDP — single tab or multi-tab, attach to existing Chrome or to a new one launched with --remote-debugging-port.
---
name: cdp
description: Drive Chrome via the DevTools Protocol from JavaScript. Run JS snippets through the `browser-harness-js` CLI — it auto-spawns a long-lived bun HTTP server holding a fully-typed CDP `Session`, and every call (`browser-harness-js 'await session.Page.navigate(...)'`) executes against the same persistent connection. Session, active target, and globals survive across calls. Use when the user wants to automate, script, or inspect a Chrome browser via CDP — single tab or multi-tab, attach to existing Chrome or to a new one launched with --remote-debugging-port.
---
# CDP — `browser-harness-js` skill
Custom codegen'd CDP SDK (every method from browser_protocol.json + js_protocol.json gets a typed wrapper) plus a tiny HTTP server that holds one persistent CDP `Session`. The `browser-harness-js` CLI auto-starts the server on first use and forwards JS snippets to it.
The SDK lives in the skill's `sdk/` directory. In the rest of this doc, `<skill-dir>` refers to wherever `npx skills add` installed the skill (Claude Code: `~/.claude/skills/cdp`; Cursor: `~/.cursor/skills/cdp`; other agents vary). The CLI should be on PATH as `browser-harness-js`.
## Setup (once, first use)
`npx skills add` drops the skill into your agent's skills directory but does NOT put the CLI on PATH. Before the first call, verify it's reachable and symlink it into any directory on your PATH if not:
```bash
# macOS (Apple Silicon + Homebrew)
command -v browser-harness-js >/dev/null || ln -sf <skill-dir>/sdk/browser-harness-js /opt/homebrew/bin/browser-harness-js
# macOS (Intel) / most Linux — may need sudo
command -v browser-harness-js >/dev/null || ln -sf <skill-dir>/sdk/browser-harness-js /usr/local/bin/browser-harness-js
# Linux without sudo (ensure ~/.local/bin is on PATH)
command -v browser-harness-js >/dev/null || { mkdir -p ~/.local/bin && ln -sf <skill-dir>/sdk/browser-harness-js ~/.local/bin/browser-harness-js; }
```
The CLI auto-installs `bun` on first run if it's missing (the server is Bun-native). Set `BROWSER_HARNESS_SKIP_BUN_INSTALL=1` to opt out.
## How to use
Just run `browser-harness-js '<JS>'`. The first call spawns the server in the background; subsequent calls hit the same process and so reuse the same `session`, the same WebSocket to Chrome, and any globals you set.
```bash
browser-harness-js 'await session.connect()'
browser-harness-js 'await session.Page.navigate({url:"https://example.com"})'
browser-harness-js '(await session.Runtime.evaluate({expression:"document.title",returnByValue:true})).result.value'
```
Output is the **raw result content** — no `{ok,result}` envelope.
| Result type | stdout |
|---|---|
| string | bare text, no JSON quotes (e.g. `Example Domain`) |
| number / boolean | `42`, `true` |
| object / array (non-empty) | compact JSON (e.g. `{"frameId":"..."}`, `[1,2,3]`) |
| `undefined` / `null` / `""` / `{}` / `[]` | empty (no output) |
**Errors** go to **stderr**, exit code `1`. The CDP error message and JS stack are printed verbatim, e.g.:
```
Error: CDP -32602: invalid params
at _call (.../session.ts:117:33)
...
```
Detect failure with `if browser-harness-js '...'; then ...; else handle_error; fi` or by checking `$?`.
**Multi-line snippets via stdin (heredoc).** Important: a multi-statement snippet does NOT auto-return the last expression — write `return X` explicitly. Single-expression snippets passed as the first argument DO auto-return.
```bash
browser-harness-js <<'EOF'
const tabs = await listPageTargets();
globalThis.tid = tabs[0].targetId;
await session.use(globalThis.tid);
return globalThis.tid;
EOF
```
## CLI commands
| Command | Behavior |
|---|---|
| `browser-harness-js '<js>'` | Auto-start server if needed, eval the JS, print result. |
| `browser-harness-js <<EOF…EOF` | Same, code from stdin. |
| `browser-harness-js --status` | Print health JSON (uptime, connected, sessionId) or exit 1 if down. |
| `browser-harness-js --start` | Explicit start (no-op if already running). |
| `browser-harness-js --stop` | Graceful shutdown. Drops session state. |
| `browser-harness-js --restart` | Stop + start fresh. |
| `browser-harness-js --logs` | `tail -f` the server log (`/tmp/browser-harness-js.log`). |
Env vars: `CDP_REPL_PORT` (default `9876`), `CDP_REPL_LOG` (default `/tmp/browser-harness-js.log`).
## API surface inside snippets
These globals are pre-loaded — no imports needed:
- `session` — the persistent `Session`. Has every CDP domain mounted: `session.Page`, `session.DOM`, `session.Runtime`, `session.Network`, … 56 domains, 652 methods total.
- `listPageTargets()` — list real page targets via CDP's `Target.getTargets` (works on Chrome 144+ too), with `chrome://` and `devtools://` URLs filtered out. No args — uses the connected session.
- `detectBrowsers()` — scan OS-specific profile dirs for running Chromium-based browsers with remote debugging on. Returns `[{name, profileDir, port, wsPath, wsUrl, mtimeMs}]`, sorted by most recently launched.
- `resolveWsUrl(opts)` — resolve a WS URL from `{wsUrl}` | `{port, host?}` | `{profileDir}`. For the no-args auto-detect flow, call `session.connect()` directly instead.
- `CDP` — the generated namespaces (`CDP.Page`, `CDP.Runtime`, …) for type-name reference.
### Calling a CDP method
Every method takes a single object argument matching the CDP wire params; it resolves to the typed return value (no `result` envelope, no `id` correlation — handled for you).
```js
// no params
await session.DOM.enable()
// required params
await session.Page.navigate({ url: 'https://example.com' })
// all-optional params (object also optional)
await session.Page.captureScreenshot()
await session.Page.captureScreenshot({ format: 'png', quality: 80 })
// returns are stripped to the typed shape
const { root } = await session.DOM.getDocument()
const { nodeId } = await session.DOM.querySelector({ nodeId: root.nodeId, selector: 'h1' })
```
### Connecting
**Default: just call `session.connect()` with no args.** It auto-detects running Chromium-based browsers (Chrome, Chromium, Edge, Brave, Arc, Vivaldi, Opera, Comet, Canary) by scanning OS-specific profile dirs for a `DevToolsActivePort` file, ordered by most-recently-launched, and picks the first one whose WebSocket accepts. OS-agnostic — works on macOS, Linux, Windows.
```js
await session.connect() // auto-detect
```
Use `detectBrowsers()` first if you want to see what's available (or let the user pick) before connecting:
```js
const found = await detectBrowsers()
// [{ name: 'Google Chrome', profileDir, port, wsPath, wsUrl, mtimeMs }, ...]
```
**Explicit forms** — use these only when auto-detect picks the wrong browser, or when you already know where to connect:
| Form | When to use |
|---|---|
| `{ profileDir }` | Target a specific browser when several are running. Reads `<profileDir>/DevToolsActivePort` directly. |
| `{ wsUrl }` | You already have `ws://…/devtools/browser/<uuid>` (e.g. piped from elsewhere). |
```js
await session.connect({ profileDir: '/Users/<you>/Library/Application Support/Google/Chrome' })
await session.connect({ wsUrl: 'ws://127.0.0.1:9222/devtools/browser/<uuid>' })
```
Profile paths by OS — use these with `{ profileDir }`:
- macOS: `~/Library/Application Support/<Browser>` (e.g. `Google/Chrome`, `Comet`, `BraveSoftware/Brave-Browser`, `Arc/User Data`)
- Linux: `~/.config/<browser>` (e.g. `google-chrome`, `chromium`, `BraveSoftware/Brave-Browser`)
- Windows: `%LOCALAPPDATA%\<Browser>\User Data` (e.g. `Google\Chrome`, `Microsoft\Edge`, `BraveSoftware\Brave-Browser`)
Per-candidate WS-open timeout defaults to **5s** — live browsers answer with open/close within ~100ms, so 5s is already generous. The only case where 5s is too short is when Chrome is showing the **Allow** popup and waiting on the user to click. If you expect that, pass `timeoutMs: 30000`:
```js
await session.connect({ profileDir: '/Users/<you>/Library/Application Support/Google/Chrome', timeoutMs: 30_000 })
```
**If you see `No detected browser accepted a connection`** — the browsers have `DevToolsActivePort` files but none are currently serving WS. Most common cause: remote-debugging is enabled but the user hasn't clicked **Allow** on the prompt yet. Tell them to click Allow, then retry (or bump `timeoutMs`).
### Picking a target (tab)
After `connect()`, call `session.use(targetId)` once; subsequent page-level calls (Page/DOM/Runtime/Network/etc.) auto-route to that target's sessionId. `Browser.*` and `Target.*` calls always hit the browser endpoint.
```js
const tabs = await listPageTargets() // no args; uses the connected session
const sid = await session.use(tabs[0].targetId)
await session.Page.enable()
await session.Page.navigate({ url: 'https://example.com' })
```
`listPageTargets()` uses CDP's `Target.getTargets` (not `/json`), so it works on Chrome 144+ too. It already filters out `chrome://` and `devtools://` URLs. Equivalent raw call:
```js
const { targetInfos } = await session.Target.getTargets({})
const tabs = targetInfos.filter(t => t.type === 'page' && !t.url.startsWith('chrome://') && !t.url.startsWith('devtools://'))
```
To switch tabs: `session.use(otherTargetId)`. To detach: `session.setActiveSession(undefined)`.
### Events
```js
// Subscribe (returns an unsubscribe fn)
const off = session.onEvent((method, params, sessionId) => { ... })
// Or wait for a single matching event with optional predicate + timeout
await session.Network.enable()
const ev = await session.waitFor(
'Page.frameNavigated',
(p) => p.frame.url.includes('example.com'),
10_000
)
```
### Persisting state across calls
Each snippet runs inside its own async wrapper, so its `let`/`const` declarations vanish when it returns. To carry data forward, attach to `globalThis`:
```bash
browser-harness-js '(await listPageTargets()).forEach((t,i)=>globalThis["tab"+i]=t.targetId)'
browser-harness-js 'await session.use(globalThis.tab0)'
browser-harness-js 'await session.Page.navigate({url:"https://example.com"})'
```
`session` itself, the active sessionId, and event subscribers are already preserved by the server — globals are only needed for ad-hoc data.
## Connecting to a running Chrome (chrome://inspect flow)
When attaching to the user's already-running browser:
1. **Try `await session.connect()` first** (no args) — auto-detect handles every Chromium-based browser via `DevToolsActivePort`. If it returns, you're done.
2. **If auto-detect fails** with `No running browser with remote debugging detected`, the user needs to turn it on. Open the inspect page:
```bash
# macOS — prefer AppleScript over `open -a` (reuses current profile, avoids the profile picker)
osascript -e 'open location "chrome://inspect/#remote-debugging"'
# Linux
google-chrome 'chrome://inspect/#remote-debugging' # or: chromium, google-chrome-stable
# Windows (PowerShell)
Start-Process chrome 'chrome://inspect/#remote-debugging'
```
Only macOS's AppleScript path avoids the profile picker; Linux/Windows may prompt the user to pick a profile first.
3. **Tick "Discover network targets"** in chrome://inspect, then click **Allow** when Chrome prompts.
4. **If auto-detect picks the wrong browser** (multiple running, you want a specific one): list them with `await detectBrowsers()`, then `await session.connect({ profileDir: <the one you want> })`.
5. **If `session.connect()` returns `No detected browser accepted a connection`**, the user has remote-debugging on but hasn't clicked **Allow** yet. Tell them to click it and retry, or pass `timeoutMs: 30000` to wait for the click.
## Working with targets (tabs)
- **Filter Chrome internals.** `listPageTargets()` already drops `chrome://` and `devtools://` URLs. If you call `Target.getTargets()` directly, filter manually.
- **CDP target order ≠ visible tab-strip order.** When the user says "the first tab I can see", use a screenshot or page title to identify it — `Target.activateTarget` only switches to a known targetId.
## Looking up a method
The full typed surface is in `<skill-dir>/sdk/generated.ts` (~655 KB, only loaded if you read it). Each method has its CDP description as a JSDoc comment plus typed `*Params` / `*Return` interfaces in per-domain namespaces.
```bash
grep -n "navigate" <skill-dir>/sdk/generated.ts | head
```
## Regenerating the SDK
When the upstream protocol JSONs change, replace `sdk/browser_protocol.json` and/or `sdk/js_protocol.json` and re-run:
```bash
cd <skill-dir>/sdk && bun gen.ts
browser-harness-js --restart # pick up the new bindings
```
## Files
All paths are relative to `<skill-dir>` (the install path — see top of this doc).
- `/usr/local/bin/browser-harness-js` → `<skill-dir>/sdk/browser-harness-js` (the CLI)
- `sdk/repl.ts` — HTTP server (`Bun.serve` on `127.0.0.1:9876`)
- `sdk/session.ts` — `Session` class (transport, connect, target routing, events)
- `sdk/generated.ts` — codegen output: every CDP method as a typed wrapper
- `sdk/gen.ts` — codegen script
- `sdk/{browser,js}_protocol.json` — upstream protocol (vendored)
Creator's repository · browser-use/browser-harness-js