Docker

Docker (optional)

Docker is optional. Use it only if you want a containerized gateway or to validate the Docker flow.

Is Docker right for me?

Yes: you want an isolated, throwaway gateway environment or to run CoderClaw on a host without local installs.
No: you’re running on your own machine and just want the fastest dev loop. Use the normal install flow instead.
Sandboxing note: agent sandboxing uses Docker too, but it does not require the full gateway to run in Docker. See Sandboxing.

This guide covers:

Containerized Gateway (full CoderClaw in Docker)
Per-session Agent Sandbox (host gateway + Docker-isolated agent tools)

Sandboxing details: Sandboxing

Requirements

Docker Desktop (or Docker Engine) + Docker Compose v2
Enough disk for images + logs

Containerized Gateway (Docker Compose)

Quick start (recommended)

From repo root:

./docker-setup.sh

This script:

builds the gateway image
runs the onboarding wizard
prints optional provider setup hints
starts the gateway via Docker Compose
generates a gateway token and writes it to .env

Optional env vars:

CODERCLAW_DOCKER_APT_PACKAGES — install extra apt packages during build
CODERCLAW_EXTRA_MOUNTS — add extra host bind mounts
CODERCLAW_HOME_VOLUME — persist /home/node in a named volume

After it finishes:

Open http://127.0.0.1:18789/ in your browser.
Paste the token into the Control UI (Settings → token).
Need the URL again? Run docker compose run --rm coderclaw-cli dashboard --no-open.

It writes config/workspace on the host:

~/.coderclaw/
~/.coderclaw/workspace

Running on a VPS? See Hetzner (Docker VPS).

Shell Helpers (optional)

For easier day-to-day Docker management, install ClawDock:

mkdir -p ~/.clawdock && curl -sL https://raw.githubusercontent.com/SeanHogg/coderClaw/main/scripts/shell-helpers/clawdock-helpers.sh -o ~/.clawdock/clawdock-helpers.sh

Add to your shell config (zsh):

echo 'source ~/.clawdock/clawdock-helpers.sh' >> ~/.zshrc && source ~/.zshrc

Then use clawdock-start, clawdock-stop, clawdock-dashboard, etc. Run clawdock-help for all commands.

See ClawDock Helper README for details.

Manual flow (compose)

docker build -t coderclaw:local -f Dockerfile .
docker compose run --rm coderclaw-cli onboard
docker compose up -d coderclaw-gateway

Note: run docker compose ... from the repo root. If you enabled CODERCLAW_EXTRA_MOUNTS or CODERCLAW_HOME_VOLUME, the setup script writes docker-compose.extra.yml; include it when running Compose elsewhere:

docker compose -f docker-compose.yml -f docker-compose.extra.yml <command>

Control UI token + pairing (Docker)

If you see “unauthorized” or “disconnected (1008): pairing required”, fetch a fresh dashboard link and approve the browser device:

docker compose run --rm coderclaw-cli dashboard --no-open
docker compose run --rm coderclaw-cli devices list
docker compose run --rm coderclaw-cli devices approve <requestId>

More detail: Dashboard, Devices.

Extra mounts (optional)

If you want to mount additional host directories into the containers, set CODERCLAW_EXTRA_MOUNTS before running docker-setup.sh. This accepts a comma-separated list of Docker bind mounts and applies them to both coderclaw-gateway and coderclaw-cli by generating docker-compose.extra.yml.

Example:

export CODERCLAW_EXTRA_MOUNTS="$HOME/.codex:/home/node/.codex:ro,$HOME/github:/home/node/github:rw"
./docker-setup.sh

Notes:

Paths must be shared with Docker Desktop on macOS/Windows.
If you edit CODERCLAW_EXTRA_MOUNTS, rerun docker-setup.sh to regenerate the extra compose file.
docker-compose.extra.yml is generated. Don’t hand-edit it.

Persist the entire container home (optional)

If you want /home/node to persist across container recreation, set a named volume via CODERCLAW_HOME_VOLUME. This creates a Docker volume and mounts it at /home/node, while keeping the standard config/workspace bind mounts. Use a named volume here (not a bind path); for bind mounts, use CODERCLAW_EXTRA_MOUNTS.

Example:

export CODERCLAW_HOME_VOLUME="coderclaw_home"
./docker-setup.sh

You can combine this with extra mounts:

export CODERCLAW_HOME_VOLUME="coderclaw_home"
export CODERCLAW_EXTRA_MOUNTS="$HOME/.codex:/home/node/.codex:ro,$HOME/github:/home/node/github:rw"
./docker-setup.sh

Notes:

If you change CODERCLAW_HOME_VOLUME, rerun docker-setup.sh to regenerate the extra compose file.
The named volume persists until removed with docker volume rm <name>.

Install extra apt packages (optional)

If you need system packages inside the image (for example, build tools or media libraries), set CODERCLAW_DOCKER_APT_PACKAGES before running docker-setup.sh. This installs the packages during the image build, so they persist even if the container is deleted.

Example:

export CODERCLAW_DOCKER_APT_PACKAGES="ffmpeg build-essential"
./docker-setup.sh

Notes:

This accepts a space-separated list of apt package names.
If you change CODERCLAW_DOCKER_APT_PACKAGES, rerun docker-setup.sh to rebuild the image.

Power-user / full-featured container (opt-in)

The default Docker image is security-first and runs as the non-root node user. This keeps the attack surface small, but it means:

no system package installs at runtime
no Homebrew by default
no bundled Chromium/Playwright browsers

If you want a more full-featured container, use these opt-in knobs:

Persist /home/node so browser downloads and tool caches survive:

export CODERCLAW_HOME_VOLUME="coderclaw_home"
./docker-setup.sh

Bake system deps into the image (repeatable + persistent):

export CODERCLAW_DOCKER_APT_PACKAGES="git curl jq"
./docker-setup.sh

Install Playwright browsers without npx (avoids npm override conflicts):

docker compose run --rm coderclaw-cli \
  node /app/node_modules/playwright-core/cli.js install chromium

If you need Playwright to install system deps, rebuild the image with CODERCLAW_DOCKER_APT_PACKAGES instead of using --with-deps at runtime.

Persist Playwright browser downloads:

Set PLAYWRIGHT_BROWSERS_PATH=/home/node/.cache/ms-playwright in docker-compose.yml.
Ensure /home/node persists via CODERCLAW_HOME_VOLUME, or mount /home/node/.cache/ms-playwright via CODERCLAW_EXTRA_MOUNTS.

Permissions + EACCES

The image runs as node (uid 1000). If you see permission errors on /home/node/.coderclaw, make sure your host bind mounts are owned by uid 1000.

Example (Linux host):

sudo chown -R 1000:1000 /path/to/coderclaw-config /path/to/coderclaw-workspace

If you choose to run as root for convenience, you accept the security tradeoff.

Faster rebuilds (recommended)

To speed up rebuilds, order your Dockerfile so dependency layers are cached. This avoids re-running pnpm install unless lockfiles change:

FROM node:22-bookworm

# Install Bun (required for build scripts)
RUN curl -fsSL https://bun.sh/install | bash
ENV PATH="/root/.bun/bin:${PATH}"

RUN corepack enable

WORKDIR /app

# Cache dependencies unless package metadata changes
COPY package.json pnpm-lock.yaml pnpm-workspace.yaml .npmrc ./
COPY ui/package.json ./ui/package.json
COPY scripts ./scripts

RUN pnpm install --frozen-lockfile

COPY . .
RUN pnpm build
RUN pnpm ui:install
RUN pnpm ui:build

ENV NODE_ENV=production

CMD ["node","dist/index.js"]

Channel setup (optional)

Use the CLI container to configure channels, then restart the gateway if needed.

WhatsApp (QR):

docker compose run --rm coderclaw-cli channels login

Telegram (bot token):

docker compose run --rm coderclaw-cli channels add --channel telegram --token "<token>"

Discord (bot token):

docker compose run --rm coderclaw-cli channels add --channel discord --token "<token>"

Docs: WhatsApp, Telegram, Discord

OpenAI Codex OAuth (headless Docker)

If you pick OpenAI Codex OAuth in the wizard, it opens a browser URL and tries to capture a callback on http://127.0.0.1:1455/auth/callback. In Docker or headless setups that callback can show a browser error. Copy the full redirect URL you land on and paste it back into the wizard to finish auth.

Health check

docker compose exec coderclaw-gateway node dist/index.js health --token "$CODERCLAW_GATEWAY_TOKEN"

E2E smoke test (Docker)

scripts/e2e/onboard-docker.sh

QR import smoke test (Docker)

pnpm test:docker:qr

Notes

Gateway bind defaults to lan for container use.
Dockerfile CMD uses --allow-unconfigured; mounted config with gateway.mode not local will still start. Override CMD to enforce the guard.
The gateway container is the source of truth for sessions (~/.coderclaw/agents/<agentId>/sessions/).

Agent Sandbox (host gateway + Docker tools)

Deep dive: Sandboxing

What it does

When agents.defaults.sandbox is enabled, non-main sessions run tools inside a Docker container. The gateway stays on your host, but the tool execution is isolated:

scope: "agent" by default (one container + workspace per agent)
scope: "session" for per-session isolation
per-scope workspace folder mounted at /workspace
optional agent workspace access (agents.defaults.sandbox.workspaceAccess)
allow/deny tool policy (deny wins)
inbound media is copied into the active sandbox workspace (media/inbound/*) so tools can read it (with workspaceAccess: "rw", this lands in the agent workspace)

Warning: scope: "shared" disables cross-session isolation. All sessions share one container and one workspace.

Per-agent sandbox profiles (multi-agent)

If you use multi-agent routing, each agent can override sandbox + tool settings: agents.list[].sandbox and agents.list[].tools (plus agents.list[].tools.sandbox.tools). This lets you run mixed access levels in one gateway:

Full access (personal agent)
Read-only tools + read-only workspace (family/work agent)
No filesystem/shell tools (public agent)

See Multi-Agent Sandbox & Tools for examples, precedence, and troubleshooting.

Default behavior

Image: coderclaw-sandbox:bookworm-slim
One container per agent
Agent workspace access: workspaceAccess: "none" (default) uses ~/.coderclaw/sandboxes
- "ro" keeps the sandbox workspace at /workspace and mounts the agent workspace read-only at /agent (disables write/edit/apply_patch)
- "rw" mounts the agent workspace read/write at /workspace
Auto-prune: idle > 24h OR age > 7d
Network: none by default (explicitly opt-in if you need egress)
Default allow: exec, process, read, write, edit, sessions_list, sessions_history, sessions_send, sessions_spawn, session_status
Default deny: browser, canvas, nodes, cron, discord, gateway

Enable sandboxing

If you plan to install packages in setupCommand, note:

Default docker.network is "none" (no egress).
readOnlyRoot: true blocks package installs.
user must be root for apt-get (omit user or set user: "0:0"). CoderClaw auto-recreates containers when setupCommand (or docker config) changes unless the container was recently used (within ~5 minutes). Hot containers log a warning with the exact coderclaw sandbox recreate ... command.

{
  agents: {
    defaults: {
      sandbox: {
        mode: "non-main", // off | non-main | all
        scope: "agent", // session | agent | shared (agent is default)
        workspaceAccess: "none", // none | ro | rw
        workspaceRoot: "~/.coderclaw/sandboxes",
        docker: {
          image: "coderclaw-sandbox:bookworm-slim",
          workdir: "/workspace",
          readOnlyRoot: true,
          tmpfs: ["/tmp", "/var/tmp", "/run"],
          network: "none",
          user: "1000:1000",
          capDrop: ["ALL"],
          env: { LANG: "C.UTF-8" },
          setupCommand: "apt-get update && apt-get install -y git curl jq",
          pidsLimit: 256,
          memory: "1g",
          memorySwap: "2g",
          cpus: 1,
          ulimits: {
            nofile: { soft: 1024, hard: 2048 },
            nproc: 256,
          },
          seccompProfile: "/path/to/seccomp.json",
          apparmorProfile: "coderclaw-sandbox",
          dns: ["1.1.1.1", "8.8.8.8"],
          extraHosts: ["internal.service:10.0.0.5"],
        },
        prune: {
          idleHours: 24, // 0 disables idle pruning
          maxAgeDays: 7, // 0 disables max-age pruning
        },
      },
    },
  },
  tools: {
    sandbox: {
      tools: {
        allow: [
          "exec",
          "process",
          "read",
          "write",
          "edit",
          "sessions_list",
          "sessions_history",
          "sessions_send",
          "sessions_spawn",
          "session_status",
        ],
        deny: ["browser", "canvas", "nodes", "cron", "discord", "gateway"],
      },
    },
  },
}

Hardening knobs live under agents.defaults.sandbox.docker: network, user, pidsLimit, memory, memorySwap, cpus, ulimits, seccompProfile, apparmorProfile, dns, extraHosts.

Multi-agent: override agents.defaults.sandbox.{docker,browser,prune}.* per agent via agents.list[].sandbox.{docker,browser,prune}.* (ignored when agents.defaults.sandbox.scope / agents.list[].sandbox.scope is "shared").

Build the default sandbox image

scripts/sandbox-setup.sh

This builds coderclaw-sandbox:bookworm-slim using Dockerfile.sandbox.

Sandbox common image (optional)

If you want a sandbox image with common build tooling (Node, Go, Rust, etc.), build the common image:

scripts/sandbox-common-setup.sh

This builds coderclaw-sandbox-common:bookworm-slim. To use it:

{
  agents: {
    defaults: {
      sandbox: { docker: { image: "coderclaw-sandbox-common:bookworm-slim" } },
    },
  },
}

Sandbox browser image

To run the browser tool inside the sandbox, build the browser image:

scripts/sandbox-browser-setup.sh

This builds coderclaw-sandbox-browser:bookworm-slim using Dockerfile.sandbox-browser. The container runs Chromium with CDP enabled and an optional noVNC observer (headful via Xvfb).

Notes:

Headful (Xvfb) reduces bot blocking vs headless.
Headless can still be used by setting agents.defaults.sandbox.browser.headless=true.
No full desktop environment (GNOME) is needed; Xvfb provides the display.

Use config:

{
  agents: {
    defaults: {
      sandbox: {
        browser: { enabled: true },
      },
    },
  },
}

Custom browser image:

{
  agents: {
    defaults: {
      sandbox: { browser: { image: "my-coderclaw-browser" } },
    },
  },
}

When enabled, the agent receives:

a sandbox browser control URL (for the browser tool)
a noVNC URL (if enabled and headless=false)

Remember: if you use an allowlist for tools, add browser (and remove it from deny) or the tool remains blocked. Prune rules (agents.defaults.sandbox.prune) apply to browser containers too.

Custom sandbox image

Build your own image and point config to it:

docker build -t my-coderclaw-sbx -f Dockerfile.sandbox .

{
  agents: {
    defaults: {
      sandbox: { docker: { image: "my-coderclaw-sbx" } },
    },
  },
}

Tool policy (allow/deny)

deny wins over allow.
If allow is empty: all tools (except deny) are available.
If allow is non-empty: only tools in allow are available (minus deny).

Pruning strategy

Two knobs:

prune.idleHours: remove containers not used in X hours (0 = disable)
prune.maxAgeDays: remove containers older than X days (0 = disable)

Example:

Keep busy sessions but cap lifetime: idleHours: 24, maxAgeDays: 7
Never prune: idleHours: 0, maxAgeDays: 0

Security notes

Hard wall only applies to tools (exec/read/write/edit/apply_patch).
Host-only tools like browser/camera/canvas are blocked by default.
Allowing browser in sandbox breaks isolation (browser runs on host).

Troubleshooting

Image missing: build with scripts/sandbox-setup.sh or set agents.defaults.sandbox.docker.image.
Container not running: it will auto-create per session on demand.
Permission errors in sandbox: set docker.user to a UID:GID that matches your mounted workspace ownership (or chown the workspace folder).
Custom tools not found: CoderClaw runs commands with sh -lc (login shell), which sources /etc/profile and may reset PATH. Set docker.env.PATH to prepend your custom tool paths (e.g., /custom/bin:/usr/local/share/npm-global/bin), or add a script under /etc/profile.d/ in your Dockerfile.