agent-approvals-security.md +116 −6
9By default, the agent runs with network access turned off. Locally, Codex uses an OS-enforced sandbox that limits what it can touch (typically to the current workspace), plus an approval policy that controls when it must stop and ask you before acting.9By default, the agent runs with network access turned off. Locally, Codex uses an OS-enforced sandbox that limits what it can touch (typically to the current workspace), plus an approval policy that controls when it must stop and ask you before acting.
10 10
11For a high-level explanation of how sandboxing works across the Codex app, IDE11For a high-level explanation of how sandboxing works across the Codex app, IDE
1212extension, and CLI, see [Sandboxing](https://developers.openai.com/codex/concepts/sandboxing).extension, and CLI, see [sandboxing](https://developers.openai.com/codex/concepts/sandboxing).
13For a broader enterprise security overview, see the [Codex security white paper](https://trust.openai.com/?itemUid=382f924d-54f3-43a8-a9df-c39e6c959958&source=click).13For a broader enterprise security overview, see the [Codex security white paper](https://trust.openai.com/?itemUid=382f924d-54f3-43a8-a9df-c39e6c959958&source=click).
14 14
15## Sandbox and approvals15## Sandbox and approvals
73- `<writable_root>/.codex` is protected as read-only when it exists as a directory.73- `<writable_root>/.codex` is protected as read-only when it exists as a directory.
74- Protection is recursive, so everything under those paths is read-only.74- Protection is recursive, so everything under those paths is read-only.
75 75
76### Deny reads with filesystem profiles
77
78Named permission profiles can also deny reads for exact paths or glob patterns.
79This is useful when a workspace should stay writable but specific sensitive
80files, such as local environment files, must stay unreadable:
81
82```toml
83default_permissions = "workspace"
84
85[permissions.workspace.filesystem]
86":project_roots" = { "." = "write", "**/*.env" = "none" }
87glob_scan_max_depth = 3
88```
89
90Use `"none"` for paths or globs that Codex shouldn't read. The sandbox policy
91evaluates globs for local macOS and Linux command execution. On platforms that
92pre-expand glob matches before the sandbox starts, set `glob_scan_max_depth` for
93unbounded `**` patterns, or list explicit depths such as `*.env`, `*/*.env`, and
94`*/*/*.env`.
95
76### Run without approval prompts96### Run without approval prompts
77 97
78You can disable approval prompts with `--ask-for-approval never` or `-a never` (shorthand).98You can disable approval prompts with `--ask-for-approval never` or `-a never` (shorthand).
81 101
82If you need Codex to read files, make edits, and run commands with network access without approval prompts, use `--sandbox danger-full-access` (or the `--dangerously-bypass-approvals-and-sandbox` flag). Use caution before doing so.102If you need Codex to read files, make edits, and run commands with network access without approval prompts, use `--sandbox danger-full-access` (or the `--dangerously-bypass-approvals-and-sandbox` flag). Use caution before doing so.
83 103
84104For a middle ground, `approval_policy = { granular = { ... } }` lets you keep specific approval prompt categories interactive while automatically rejecting others. The granular policy covers sandbox approvals, execpolicy-rule prompts, MCP elicitations, `request_permissions` prompts, and skill-script approvals.For a middle ground, `approval_policy = { granular = { ... } }` lets you keep specific approval prompt categories interactive while automatically rejecting others. The granular policy covers sandbox approvals, execpolicy-rule prompts, MCP prompts, `request_permissions` prompts, and skill-script approvals.
105
106### Automatic approval reviews
107
108By default, approval requests route to you:
109
110```toml
111approvals_reviewer = "user"
112```
113
114Automatic approval reviews apply when approvals are interactive, such as
115`approval_policy = "on-request"` or a granular approval policy. Set
116`approvals_reviewer = "auto_review"` to route eligible approval requests
117through a reviewer agent before Codex runs the request:
118
119```toml
120approval_policy = "on-request"
121approvals_reviewer = "auto_review"
122```
123
124The reviewer evaluates only actions that already need approval, such as sandbox
125escalations, network requests, `request_permissions` prompts, or side-effecting
126app and MCP tool calls. Actions that stay inside the sandbox continue without an
127extra review step.
128
129The reviewer policy checks for data exfiltration, credential probing, persistent
130security weakening, and destructive actions. Low-risk and medium-risk actions
131can proceed when policy allows them. The policy denies critical-risk actions.
132High-risk actions require enough user authorization and no matching deny rule.
133Timeouts, parse failures, and review errors fail closed.
134
135The [default reviewer policy](https://github.com/openai/codex/blob/main/codex-rs/core/src/guardian/policy.md)
136is in the open-source Codex repository. Enterprises can replace its
137tenant-specific section with `guardian_policy_config` in managed requirements.
138Local `[auto_review].policy` text is also supported, but managed requirements
139take precedence. For setup details, see
140[Managed configuration](https://developers.openai.com/codex/enterprise/managed-configuration#configure-automatic-review-policy).
141
142In the Codex app, these reviews appear as automatic review items with a status such
143as Reviewing, Approved, Denied, Stopped, or Timed out. They can also include a
144risk level for the reviewed request.
145
146Automatic review uses extra model calls, so it can add to Codex usage. Admins
147can constrain it with `allowed_approvals_reviewers`.
85 148
86### Common sandbox and approval combinations149### Common sandbox and approval combinations
87 150
151Codex enforces the sandbox differently depending on your OS:214Codex enforces the sandbox differently depending on your OS:
152 215
153- **macOS** uses Seatbelt policies and runs commands using `sandbox-exec` with a profile (`-p`) that corresponds to the `--sandbox` mode you selected. When restricted read access enables platform defaults, Codex appends a curated macOS platform policy (instead of broadly allowing `/System`) to preserve common tool compatibility.216- **macOS** uses Seatbelt policies and runs commands using `sandbox-exec` with a profile (`-p`) that corresponds to the `--sandbox` mode you selected. When restricted read access enables platform defaults, Codex appends a curated macOS platform policy (instead of broadly allowing `/System`) to preserve common tool compatibility.
154217- **Linux** uses the bubblewrap pipeline plus `seccomp` by default. `use_legacy_landlock` is available when you need the older path. In managed proxy mode, the default bubblewrap pipeline routes egress through a proxy-only bridge and fails closed if it cannot build valid loopback proxy routes.- **Linux** uses `bwrap` plus `seccomp` by default.
155218- **Windows** uses the Linux sandbox implementation when running in [Windows Subsystem for Linux (WSL)](https://developers.openai.com/codex/windows#windows-subsystem-for-linux). When running natively on Windows, Codex uses a [Windows sandbox](https://developers.openai.com/codex/windows#windows-sandbox) implementation.- **Windows** uses the Linux sandbox implementation when running in [Windows Subsystem for Linux 2 (WSL2)](https://developers.openai.com/codex/windows#windows-subsystem-for-linux). WSL1 was supported through Codex `0.114`; starting in `0.115`, the Linux sandbox moved to `bwrap`, so WSL1 is no longer supported. When running natively on Windows, Codex uses a [Windows sandbox](https://developers.openai.com/codex/windows#windows-sandbox) implementation.
156 219
157220If you use the Codex IDE extension on Windows, it supports WSL directly. Set the following in your VS Code settings to keep the agent inside WSL whenever it’s available:If you use the Codex IDE extension on Windows, it supports WSL2 directly. Set the following in your VS Code settings to keep the agent inside WSL2 whenever it's available:
158 221
159```json222```json
160{223{
174 237
175See the [Windows setup guide](https://developers.openai.com/codex/windows#windows-sandbox) for details.238See the [Windows setup guide](https://developers.openai.com/codex/windows#windows-sandbox) for details.
176 239
177240When you run Linux in a containerized environment such as Docker, the sandbox may not work if the host or container configuration doesn’t support the required `Landlock` and `seccomp` features.When you run Linux in a containerized environment such as Docker, the sandbox may not work if the host or container configuration blocks the namespace, setuid `bwrap`, or `seccomp` operations that Codex needs.
178 241
179In that case, configure your Docker container to provide the isolation you need, then run `codex` with `--sandbox danger-full-access` (or the `--dangerously-bypass-approvals-and-sandbox` flag) inside the container.242In that case, configure your Docker container to provide the isolation you need, then run `codex` with `--sandbox danger-full-access` (or the `--dangerously-bypass-approvals-and-sandbox` flag) inside the container.
180 243
244### Run Codex in Dev Containers
245
246If your host cannot run the Linux sandbox directly, or if your organization already standardizes on containerized development, run Codex with Dev Containers and let Docker provide the outer isolation boundary. This works with Visual Studio Code Dev Containers and compatible tools.
247
248Use the [Codex secure devcontainer example](https://github.com/openai/codex/tree/main/.devcontainer) as a reference implementation. The example installs Codex, common development tools, `bubblewrap`, and firewall-based outbound controls.
249
250Devcontainers provide substantial protection, but they do not prevent every
251 attack. If you run Codex with `--sandbox danger-full-access` or
252 `--dangerously-bypass-approvals-and-sandbox` inside the container, a malicious
253 project can exfiltrate anything available inside the devcontainer, including
254 Codex credentials. Use this pattern only with trusted repositories, and
255 monitor Codex activity as you would in any other elevated environment.
256
257The reference implementation includes:
258
259- an Ubuntu 24.04 base image with Codex and common development tools installed;
260- an allowlist-driven firewall profile for outbound access;
261- VS Code settings and extension recommendations for reopening the workspace in a container;
262- persistent mounts for command history and Codex configuration;
263- `bubblewrap`, so Codex can still use its Linux sandbox when the container grants the needed capabilities.
264
265To try it:
266
2671. Install Visual Studio Code and the [Dev Containers extension](https://marketplace.visualstudio.com/items?itemName=ms-vscode-remote.remote-containers).
2682. Copy the Codex example `.devcontainer` setup into your repository, or start from the Codex repository directly.
2693. In VS Code, run **Dev Containers: Open Folder in Container…** and select `.devcontainer/devcontainer.secure.json`.
2704. After the container starts, open a terminal and run `codex`.
271
272You can also start the container from the CLI:
273
274```bash
275devcontainer up --workspace-folder . --config .devcontainer/devcontainer.secure.json
276```
277
278The example has three main pieces:
279
280- `.devcontainer/devcontainer.secure.json` controls container settings, capabilities, mounts, environment variables, and VS Code extensions.
281- `.devcontainer/Dockerfile.secure` defines the Ubuntu-based image and installed tools.
282- `.devcontainer/init-firewall.sh` applies the outbound network policy.
283
284The reference firewall is intentionally a starting point. If you depend on domain allowlisting for isolation, implement DNS rebinding and DNS refresh protections that fit your environment, such as TTL-aware refreshes or a DNS-aware firewall.
285
286Inside the container, choose one of these modes:
287
288- Keep Codex's Linux sandbox enabled if the Dev Container profile grants the capabilities needed for `bwrap` to create the inner sandbox.
289- If the container is your intended security boundary, run Codex with `--sandbox danger-full-access` inside the container so Codex does not try to create a second sandbox layer.
290
181## Version control291## Version control
182 292
183Codex works best with a version control workflow:293Codex works best with a version control workflow: