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Browser (equabot-managed)

Equabot can run a dedicated Chrome/Brave/Edge/Chromium profile that the agent controls. It is isolated from your personal browser and is managed through a small local control server. Beginner view:
  • Think of it as a separate, agent-only browser.
  • The equabot profile does not touch your personal browser profile.
  • The agent can open tabs, read pages, click, and type in a safe lane.
  • The default chrome profile uses the system default Chromium browser via the extension relay; switch to equabot for the isolated managed browser.
Need persistent sessions or AI-powered search? See Comet Browser (Comet-Bridge) for authenticated sessions, Perplexity AI search, and multi-agent tab isolation.

What you get

  • A separate browser profile named equabot (orange accent by default).
  • Deterministic tab control (list/open/focus/close).
  • Agent actions (click/type/drag/select), snapshots, screenshots, PDFs.
  • Optional multi-profile support (equabot, work, remote, …).
This browser is not your daily driver. It is a safe, isolated surface for agent automation and verification.

Quick start

equabot browser --browser-profile equabot status
equabot browser --browser-profile equabot start
equabot browser --browser-profile equabot open https://example.com
equabot browser --browser-profile equabot snapshot
If you get “Browser disabled”, enable it in config (see below) and restart the Gateway.

Profiles: equabot vs chrome

  • equabot: managed, isolated browser (no extension required).
  • chrome: extension relay to your system browser (requires the Equabot extension to be attached to a tab).
Set browser.defaultProfile: "equabot" if you want managed mode by default.

Configuration

Browser settings live in ~/.equabot/equabot.json. 
{
  browser: {
    enabled: true,                    // default: true
    controlUrl: "http://127.0.0.1:18791",
    cdpUrl: "http://127.0.0.1:18792", // defaults to controlUrl + 1
    remoteCdpTimeoutMs: 1500,         // remote CDP HTTP timeout (ms)
    remoteCdpHandshakeTimeoutMs: 3000, // remote CDP WebSocket handshake timeout (ms)
    defaultProfile: "chrome",
    color: "#FF4500",
    headless: false,
    noSandbox: false,
    attachOnly: false,
    executablePath: "/Applications/Brave Browser.app/Contents/MacOS/Brave Browser",
    profiles: {
      equabot: { cdpPort: 18800, color: "#FF4500" },
      work: { cdpPort: 18801, color: "#0066CC" },
      remote: { cdpUrl: "http://10.0.0.42:9222", color: "#00AA00" }
    }
  }
}
Notes:
  • controlUrl defaults to http://127.0.0.1:18791.
  • If you override the Gateway port (gateway.port or EQUABOT_GATEWAY_PORT), the default browser ports shift to stay in the same “family” (control = gateway + 2).
  • cdpUrl defaults to controlUrl + 1 when unset.
  • remoteCdpTimeoutMs applies to remote (non-loopback) CDP reachability checks.
  • remoteCdpHandshakeTimeoutMs applies to remote CDP WebSocket reachability checks.
  • attachOnly: true means “never launch a local browser; only attach if it is already running.”
  • color + per-profile color tint the browser UI so you can see which profile is active.
  • Default profile is chrome (extension relay). Use defaultProfile: "equabot" for the managed browser.
  • Auto-detect order: system default browser if Chromium-based; otherwise Chrome → Brave → Edge → Chromium → Chrome Canary.
  • Local equabot profiles auto-assign cdpPort/cdpUrl — set those only for remote CDP.

Use Brave (or another Chromium-based browser)

If your system default browser is Chromium-based (Chrome/Brave/Edge/etc), Equabot uses it automatically. Set browser.executablePath to override auto-detection: CLI example: 
equabot config set browser.executablePath "/usr/bin/google-chrome"

// macOS
{
  browser: {
    executablePath: "/Applications/Brave Browser.app/Contents/MacOS/Brave Browser"
  }
}

// Windows
{
  browser: {
    executablePath: "C:\\Program Files\\BraveSoftware\\Brave-Browser\\Application\\brave.exe"
  }
}

// Linux
{
  browser: {
    executablePath: "/usr/bin/brave-browser"
  }
}

Local vs remote control

  • Local control (default): controlUrl is loopback (127.0.0.1/localhost). The Gateway starts the control server and can launch a local browser.
  • Remote control: controlUrl is non-loopback. The Gateway does not start a local server; it assumes you are pointing at an existing server elsewhere.
  • Remote CDP: set browser.profiles.<name>.cdpUrl (or browser.cdpUrl) to attach to a remote Chromium-based browser. In this case, Equabot will not launch a local browser.

Remote browser (control server)

You can run the browser control server on another machine and point your Gateway at it with a remote controlUrl. This lets the agent drive a browser outside the host (lab box, VM, remote desktop, etc.). Key points:
  • The control server speaks to Chromium-based browsers (Chrome/Brave/Edge/Chromium) via CDP.
  • The Gateway only needs the HTTP control URL.
  • Profiles are resolved on the control server side.
Example: 
{
  browser: {
    enabled: true,
    controlUrl: "http://10.0.0.42:18791",
    defaultProfile: "work"
  }
}
Use profiles.<name>.cdpUrl for remote CDP if you want the Gateway to talk directly to a Chromium-based browser instance without a remote control server. Remote CDP URLs can include auth:
  • Query tokens (e.g., https://provider.example?token=<token>)
  • HTTP Basic auth (e.g., https://user:pass@provider.example)
Equabot preserves the auth when calling /json/* endpoints and when connecting to the CDP WebSocket. Prefer environment variables or secrets managers for tokens instead of committing them to config files.

Node browser proxy (zero-config default)

If you run a node host on the machine that has your browser, Equabot can auto-route browser tool calls to that node without any custom controlUrl setup. This is the default path for remote gateways. Notes:
  • The node host exposes its local browser control server via a proxy command.
  • Profiles come from the node’s own browser.profiles config (same as local).
  • Disable if you don’t want it:
    • On the node: nodeHost.browserProxy.enabled=false
    • On the gateway: gateway.nodes.browser.mode="off"

Browserless (hosted remote CDP)

Browserless is a hosted Chromium service that exposes CDP endpoints over HTTPS. You can point a Equabot browser profile at a Browserless region endpoint and authenticate with your API key. Example: 
{
  browser: {
    enabled: true,
    defaultProfile: "browserless",
    remoteCdpTimeoutMs: 2000,
    remoteCdpHandshakeTimeoutMs: 4000,
    profiles: {
      browserless: {
        cdpUrl: "https://production-sfo.browserless.io?token=<BROWSERLESS_API_KEY>",
        color: "#00AA00"
      }
    }
  }
}
Notes:
  • Replace <BROWSERLESS_API_KEY> with your real Browserless token.
  • Choose the region endpoint that matches your Browserless account (see their docs).

Running the control server on the browser machine

Run a standalone browser control server (recommended when your Gateway is remote): 
# on the machine that runs Chrome/Brave/Edge
equabot browser serve --bind <browser-host> --port 18791 --token <token>
Then point your Gateway at it: 
{
  browser: {
    enabled: true,
    controlUrl: "http://<browser-host>:18791",

    // Option A (recommended): keep token in env on the Gateway
    // (avoid writing secrets into config files)
    // controlToken: "<token>"
  }
}
And set the auth token in the Gateway environment: 
export EQUABOT_BROWSER_CONTROL_TOKEN="<token>"
Option B: store the token in the Gateway config instead (same shared token): 
{
  browser: {
    enabled: true,
    controlUrl: "http://<browser-host>:18791",
    controlToken: "<token>"
  }
}

Security

This section covers the browser control server (browser.controlUrl) used for agent browser automation. Key ideas:
  • Treat the browser control server like an admin API: private network only.
  • Use token auth always when the server is reachable off-machine.
  • Prefer Tailnet-only connectivity over LAN exposure.

Tokens (what is shared with what?)

  • browser.controlToken / EQUABOT_BROWSER_CONTROL_TOKEN is only for authenticating browser control HTTP requests to browser.controlUrl.
  • It is not the Gateway token (gateway.auth.token) and not a node pairing token.
  • You can reuse the same string value, but it’s better to keep them separate to reduce blast radius.

Binding (don’t expose to your LAN by accident)

Recommended:
  • Keep equabot browser serve bound to loopback (127.0.0.1) and publish it via Tailscale.
  • Or bind to a Tailnet IP only (never 0.0.0.0) and require a token.
Avoid:
  • --bind 0.0.0.0 (LAN-visible). Even with token auth, traffic is plain HTTP unless you also add TLS.
Best practice here: keep equabot browser serve on HTTP and terminate TLS in front. If you’re already using Tailscale, you have two good options:
  1. Tailnet-only, still HTTP (transport is encrypted by Tailscale):
  • Keep controlUrl as http://… but ensure it’s only reachable over your tailnet.
  1. Serve HTTPS via Tailscale (nice UX: https://… URL):
# on the browser machine
equabot browser serve --bind 127.0.0.1 --port 18791 --token <token>
tailscale serve https / http://127.0.0.1:18791
Then set your Gateway config browser.controlUrl to the HTTPS URL (MagicDNS/ts.net) and keep using the same token. Notes:
  • Do not use Tailscale Funnel for this unless you explicitly want to make the endpoint public.
  • For Tailnet setup/background, see Gateway web surfaces and the Gateway CLI.

Profiles (multi-browser)

Equabot supports multiple named profiles (routing configs). Profiles can be:
  • equabot-managed: a dedicated Chromium-based browser instance with its own user data directory + CDP port
  • remote: an explicit CDP URL (Chromium-based browser running elsewhere)
  • extension relay: your existing Chrome tab(s) via the local relay + Chrome extension
Defaults:
  • The equabot profile is auto-created if missing.
  • The chrome profile is built-in for the Chrome extension relay (points at http://127.0.0.1:18792 by default).
  • Local CDP ports allocate from 18800–18899 by default.
  • Deleting a profile moves its local data directory to Trash.
All control endpoints accept ?profile=<name>; the CLI uses --browser-profile.

Chrome extension relay (use your existing Chrome)

Equabot can also drive your existing Chrome tabs (no separate “equabot” Chrome instance) via a local CDP relay + a Chrome extension. Full guide: Chrome extension Flow:
  • You run a browser control server (Gateway on the same machine, or equabot browser serve).
  • A local relay server listens at a loopback cdpUrl (default: http://127.0.0.1:18792).
  • You click the Equabot Browser Relay extension icon on a tab to attach (it does not auto-attach).
  • The agent controls that tab via the normal browser tool, by selecting the right profile.
If the Gateway runs on the same machine as Chrome (default setup), you usually do not need equabot browser serve. Use browser serve only when the Gateway runs elsewhere (remote mode).

Sandboxed sessions

If the agent session is sandboxed, the browser tool may default to target="sandbox" (sandbox browser). Chrome extension relay takeover requires host browser control, so either:
  • run the session unsandboxed, or
  • set agents.defaults.sandbox.browser.allowHostControl: true and use target="host" when calling the tool.

Setup

  1. Load the extension (dev/unpacked):
equabot browser extension install
  • Chrome → chrome://extensions → enable “Developer mode”
  • “Load unpacked” → select the directory printed by equabot browser extension path
  • Pin the extension, then click it on the tab you want to control (badge shows ON).
  1. Use it:
  • CLI: equabot browser --browser-profile chrome tabs
  • Agent tool: browser with profile="chrome"
Optional: if you want a different name or relay port, create your own profile: 
equabot browser create-profile \
  --name my-chrome \
  --driver extension \
  --cdp-url http://127.0.0.1:18792 \
  --color "#00AA00"
Notes:
  • This mode relies on Playwright-on-CDP for most operations (screenshots/snapshots/actions).
  • Detach by clicking the extension icon again.

Isolation guarantees

  • Dedicated user data dir: never touches your personal browser profile.
  • Dedicated ports: avoids 9222 to prevent collisions with dev workflows.
  • Deterministic tab control: target tabs by targetId, not “last tab”.

Browser selection

When launching locally, Equabot picks the first available:
  1. Chrome
  2. Brave
  3. Edge
  4. Chromium
  5. Chrome Canary
You can override with browser.executablePath. Platforms:
  • macOS: checks /Applications and ~/Applications.
  • Linux: looks for google-chrome, brave, microsoft-edge, chromium, etc.
  • Windows: checks common install locations.

Control API (optional)

If you want to integrate directly, the browser control server exposes a small HTTP API:
  • Status/start/stop: GET /, POST /start, POST /stop
  • Tabs: GET /tabs, POST /tabs/open, POST /tabs/focus, DELETE /tabs/:targetId
  • Snapshot/screenshot: GET /snapshot, POST /screenshot
  • Actions: POST /navigate, POST /act
  • Hooks: POST /hooks/file-chooser, POST /hooks/dialog
  • Downloads: POST /download, POST /wait/download
  • Debugging: GET /console, POST /pdf
  • Debugging: GET /errors, GET /requests, POST /trace/start, POST /trace/stop, POST /highlight
  • Network: POST /response/body
  • State: GET /cookies, POST /cookies/set, POST /cookies/clear
  • State: GET /storage/:kind, POST /storage/:kind/set, POST /storage/:kind/clear
  • Settings: POST /set/offline, POST /set/headers, POST /set/credentials, POST /set/geolocation, POST /set/media, POST /set/timezone, POST /set/locale, POST /set/device
All endpoints accept ?profile=<name>.

Playwright requirement

Some features (navigate/act/AI snapshot/role snapshot, element screenshots, PDF) require Playwright. If Playwright isn’t installed, those endpoints return a clear 501 error. ARIA snapshots and basic screenshots still work for equabot-managed Chrome. For the Chrome extension relay driver, ARIA snapshots and screenshots require Playwright. If you see Playwright is not available in this gateway build, install the full Playwright package (not playwright-core) and restart the gateway, or reinstall Equabot with browser support.

How it works (internal)

High-level flow:
  • A small control server accepts HTTP requests.
  • It connects to Chromium-based browsers (Chrome/Brave/Edge/Chromium) via CDP.
  • For advanced actions (click/type/snapshot/PDF), it uses Playwright on top of CDP.
  • When Playwright is missing, only non-Playwright operations are available.
This design keeps the agent on a stable, deterministic interface while letting you swap local/remote browsers and profiles.

CLI quick reference

All commands accept --browser-profile <name> to target a specific profile. All commands also accept --json for machine-readable output (stable payloads). Basics:
  • equabot browser status
  • equabot browser start
  • equabot browser stop
  • equabot browser tabs
  • equabot browser tab
  • equabot browser tab new
  • equabot browser tab select 2
  • equabot browser tab close 2
  • equabot browser open https://example.com
  • equabot browser focus abcd1234
  • equabot browser close abcd1234
Inspection:
  • equabot browser screenshot
  • equabot browser screenshot --full-page
  • equabot browser screenshot --ref 12
  • equabot browser screenshot --ref e12
  • equabot browser snapshot
  • equabot browser snapshot --format aria --limit 200
  • equabot browser snapshot --interactive --compact --depth 6
  • equabot browser snapshot --efficient
  • equabot browser snapshot --labels
  • equabot browser snapshot --selector "#main" --interactive
  • equabot browser snapshot --frame "iframe#main" --interactive
  • equabot browser console --level error
  • equabot browser errors --clear
  • equabot browser requests --filter api --clear
  • equabot browser pdf
  • equabot browser responsebody "**/api" --max-chars 5000
Actions:
  • equabot browser navigate https://example.com
  • equabot browser resize 1280 720
  • equabot browser click 12 --double
  • equabot browser click e12 --double
  • equabot browser type 23 "hello" --submit
  • equabot browser press Enter
  • equabot browser hover 44
  • equabot browser scrollintoview e12
  • equabot browser drag 10 11
  • equabot browser select 9 OptionA OptionB
  • equabot browser download e12 /tmp/report.pdf
  • equabot browser waitfordownload /tmp/report.pdf
  • equabot browser upload /tmp/file.pdf
  • equabot browser fill --fields '[{"ref":"1","type":"text","value":"Ada"}]'
  • equabot browser dialog --accept
  • equabot browser wait --text "Done"
  • equabot browser wait "#main" --url "**/dash" --load networkidle --fn "window.ready===true"
  • equabot browser evaluate --fn '(el) => el.textContent' --ref 7
  • equabot browser highlight e12
  • equabot browser trace start
  • equabot browser trace stop
State:
  • equabot browser cookies
  • equabot browser cookies set session abc123 --url "https://example.com"
  • equabot browser cookies clear
  • equabot browser storage local get
  • equabot browser storage local set theme dark
  • equabot browser storage session clear
  • equabot browser set offline on
  • equabot browser set headers --json '{"X-Debug":"1"}'
  • equabot browser set credentials user pass
  • equabot browser set credentials --clear
  • equabot browser set geo 37.7749 -122.4194 --origin "https://example.com"
  • equabot browser set geo --clear
  • equabot browser set media dark
  • equabot browser set timezone America/New_York
  • equabot browser set locale en-US
  • equabot browser set device "iPhone 14"
Notes:
  • upload and dialog are arming calls; run them before the click/press that triggers the chooser/dialog.
  • upload can also set file inputs directly via --input-ref or --element.
  • snapshot:
    • --format ai (default when Playwright is installed): returns an AI snapshot with numeric refs (aria-ref="<n>").
    • --format aria: returns the accessibility tree (no refs; inspection only).
    • --efficient (or --mode efficient): compact role snapshot preset (interactive + compact + depth + lower maxChars).
    • Config default (tool/CLI only): set browser.snapshotDefaults.mode: "efficient" to use efficient snapshots when the caller does not pass a mode (see Gateway configuration).
    • Role snapshot options (--interactive, --compact, --depth, --selector) force a role-based snapshot with refs like ref=e12.
    • --frame "<iframe selector>" scopes role snapshots to an iframe (pairs with role refs like e12).
    • --interactive outputs a flat, easy-to-pick list of interactive elements (best for driving actions).
    • --labels adds a viewport-only screenshot with overlayed ref labels (prints MEDIA:<path>).
  • click/type/etc require a ref from snapshot (either numeric 12 or role ref e12). CSS selectors are intentionally not supported for actions.

Snapshots and refs

Equabot supports two “snapshot” styles:
  • AI snapshot (numeric refs): equabot browser snapshot (default; --format ai)
    • Output: a text snapshot that includes numeric refs.
    • Actions: equabot browser click 12, equabot browser type 23 "hello".
    • Internally, the ref is resolved via Playwright’s aria-ref.
  • Role snapshot (role refs like e12): equabot browser snapshot --interactive (or --compact, --depth, --selector, --frame)
    • Output: a role-based list/tree with [ref=e12] (and optional [nth=1]).
    • Actions: equabot browser click e12, equabot browser highlight e12.
    • Internally, the ref is resolved via getByRole(...) (plus nth() for duplicates).
    • Add --labels to include a viewport screenshot with overlayed e12 labels.
Ref behavior:
  • Refs are not stable across navigations; if something fails, re-run snapshot and use a fresh ref.
  • If the role snapshot was taken with --frame, role refs are scoped to that iframe until the next role snapshot.

Wait power-ups

You can wait on more than just time/text:
  • Wait for URL (globs supported by Playwright):
    • equabot browser wait --url "**/dash"
  • Wait for load state:
    • equabot browser wait --load networkidle
  • Wait for a JS predicate:
    • equabot browser wait --fn "window.ready===true"
  • Wait for a selector to become visible:
    • equabot browser wait "#main"
These can be combined: 
equabot browser wait "#main" \
  --url "**/dash" \
  --load networkidle \
  --fn "window.ready===true" \
  --timeout-ms 15000

Debug workflows

When an action fails (e.g. “not visible”, “strict mode violation”, “covered”):
  1. equabot browser snapshot --interactive
  2. Use click <ref> / type <ref> (prefer role refs in interactive mode)
  3. If it still fails: equabot browser highlight <ref> to see what Playwright is targeting
  4. If the page behaves oddly:
    • equabot browser errors --clear
    • equabot browser requests --filter api --clear
  5. For deep debugging: record a trace:
    • equabot browser trace start
    • reproduce the issue
    • equabot browser trace stop (prints TRACE:<path>)

JSON output

--json is for scripting and structured tooling. Examples: 
equabot browser status --json
equabot browser snapshot --interactive --json
equabot browser requests --filter api --json
equabot browser cookies --json
Role snapshots in JSON include refs plus a small stats block (lines/chars/refs/interactive) so tools can reason about payload size and density.

State and environment knobs

These are useful for “make the site behave like X” workflows:
  • Cookies: cookies, cookies set, cookies clear
  • Storage: storage local|session get|set|clear
  • Offline: set offline on|off
  • Headers: set headers --json '{"X-Debug":"1"}' (or --clear)
  • HTTP basic auth: set credentials user pass (or --clear)
  • Geolocation: set geo <lat> <lon> --origin "https://example.com" (or --clear)
  • Media: set media dark|light|no-preference|none
  • Timezone / locale: set timezone ..., set locale ...
  • Device / viewport:
    • set device "iPhone 14" (Playwright device presets)
    • set viewport 1280 720

Security & privacy

  • The equabot browser profile may contain logged-in sessions; treat it as sensitive.
  • For logins and anti-bot notes (X/Twitter, etc.), see Browser login + X/Twitter posting.
  • Keep control URLs loopback-only unless you intentionally expose the server.
  • Remote CDP endpoints are powerful; tunnel and protect them.

Troubleshooting

For Linux-specific issues (especially snap Chromium), see Browser troubleshooting.

Agent tools + how control works

The agent gets one tool for browser automation:
  • browser — status/start/stop/tabs/open/focus/close/snapshot/screenshot/navigate/act
How it maps:
  • browser snapshot returns a stable UI tree (AI or ARIA).
  • browser act uses the snapshot ref IDs to click/type/drag/select.
  • browser screenshot captures pixels (full page or element).
  • browser accepts:
    • profile to choose a named browser profile (host or remote control server).
    • target (sandbox | host | custom) to select where the browser lives.
    • controlUrl sets target: "custom" implicitly (remote control server).
    • In sandboxed sessions, target: "host" requires agents.defaults.sandbox.browser.allowHostControl=true.
    • If target is omitted: sandboxed sessions default to sandbox, non-sandbox sessions default to host.
    • Sandbox allowlists can restrict target: "custom" to specific URLs/hosts/ports.
    • Defaults: allowlists unset (no restriction), and sandbox host control is disabled.
This keeps the agent deterministic and avoids brittle selectors.