Commit Graph

6 Commits

  • chore: refactor exec.rs: create separate seatbelt.rs and spawn.rs files (#1762)
    At 550 lines, `exec.rs` was a bit large. In particular, I found it hard
    to locate the Seatbelt-related code quickly without a file with
    `seatbelt` in the name, so this refactors things so:
    
    - `spawn_command_under_seatbelt()` and dependent code moves to a new
    `seatbelt.rs` file
    - `spawn_child_async()` and dependent code moves to a new `spawn.rs`
    file
  • feat: add support for --sandbox flag (#1476)
    On a high-level, we try to design `config.toml` so that you don't have
    to "comment out a lot of stuff" when testing different options.
    
    Previously, defining a sandbox policy was somewhat at odds with this
    principle because you would define the policy as attributes of
    `[sandbox]` like so:
    
    ```toml
    [sandbox]
    mode = "workspace-write"
    writable_roots = [ "/tmp" ]
    ```
    
    but if you wanted to temporarily change to a read-only sandbox, you
    might feel compelled to modify your file to be:
    
    ```toml
    [sandbox]
    mode = "read-only"
    # mode = "workspace-write"
    # writable_roots = [ "/tmp" ]
    ```
    
    Technically, commenting out `writable_roots` would not be strictly
    necessary, as `mode = "read-only"` would ignore `writable_roots`, but
    it's still a reasonable thing to do to keep things tidy.
    
    Currently, the various values for `mode` do not support that many
    attributes, so this is not that hard to maintain, but one could imagine
    this becoming more complex in the future.
    
    In this PR, we change Codex CLI so that it no longer recognizes
    `[sandbox]`. Instead, it introduces a top-level option, `sandbox_mode`,
    and `[sandbox_workspace_write]` is used to further configure the sandbox
    when when `sandbox_mode = "workspace-write"` is used:
    
    ```toml
    sandbox_mode = "workspace-write"
    
    [sandbox_workspace_write]
    writable_roots = [ "/tmp" ]
    ```
    
    This feels a bit more future-proof in that it is less tedious to
    configure different sandboxes:
    
    ```toml
    sandbox_mode = "workspace-write"
    
    [sandbox_read_only]
    # read-only options here...
    
    [sandbox_workspace_write]
    writable_roots = [ "/tmp" ]
    
    [sandbox_danger_full_access]
    # danger-full-access options here...
    ```
    
    In this scheme, you never need to comment out the configuration for an
    individual sandbox type: you only need to redefine `sandbox_mode`.
    
    Relatedly, previous to this change, a user had to do `-c
    sandbox.mode=read-only` to change the mode on the command line. With
    this change, things are arguably a bit cleaner because the equivalent
    option is `-c sandbox_mode=read-only` (and now `-c
    sandbox_workspace_write=...` can be set separately).
    
    Though more importantly, we introduce the `-s/--sandbox` option to the
    CLI, which maps directly to `sandbox_mode` in `config.toml`, making
    config override behavior easier to reason about. Moreover, as you can
    see in the updates to the various Markdown files, it is much easier to
    explain how to configure sandboxing when things like `--sandbox
    read-only` can be used as an example.
    
    Relatedly, this cleanup also made it straightforward to add support for
    a `sandbox` option for Codex when used as an MCP server (see the changes
    to `mcp-server/src/codex_tool_config.rs`).
    
    Fixes https://github.com/openai/codex/issues/1248.
  • feat: redesign sandbox config (#1373)
    This is a major redesign of how sandbox configuration works and aims to
    fix https://github.com/openai/codex/issues/1248. Specifically, it
    replaces `sandbox_permissions` in `config.toml` (and the
    `-s`/`--sandbox-permission` CLI flags) with a "table" with effectively
    three variants:
    
    ```toml
    # Safest option: full disk is read-only, but writes and network access are disallowed.
    [sandbox]
    mode = "read-only"
    
    # The cwd of the Codex task is writable, as well as $TMPDIR on macOS.
    # writable_roots can be used to specify additional writable folders.
    [sandbox]
    mode = "workspace-write"
    writable_roots = []  # Optional, defaults to the empty list.
    network_access = false  # Optional, defaults to false.
    
    # Disable sandboxing: use at your own risk!!!
    [sandbox]
    mode = "danger-full-access"
    ```
    
    This should make sandboxing easier to reason about. While we have
    dropped support for `-s`, the way it works now is:
    
    - no flags => `read-only`
    - `--full-auto` => `workspace-write`
    - currently, there is no way to specify `danger-full-access` via a CLI
    flag, but we will revisit that as part of
    https://github.com/openai/codex/issues/1254
    
    Outstanding issue:
    
    - As noted in the `TODO` on `SandboxPolicy::is_unrestricted()`, we are
    still conflating sandbox preferences with approval preferences in that
    case, which needs to be cleaned up.
  • feat: add support for -c/--config to override individual config items (#1137)
    This PR introduces support for `-c`/`--config` so users can override
    individual config values on the command line using `--config
    name=value`. Example:
    
    ```
    codex --config model=o4-mini
    ```
    
    Making it possible to set arbitrary config values on the command line
    results in a more flexible configuration scheme and makes it easier to
    provide single-line examples that can be copy-pasted from documentation.
    
    Effectively, it means there are four levels of configuration for some
    values:
    
    - Default value (e.g., `model` currently defaults to `o4-mini`)
    - Value in `config.toml` (e.g., user could override the default to be
    `model = "o3"` in their `config.toml`)
    - Specifying `-c` or `--config` to override `model` (e.g., user can
    include `-c model=o3` in their list of args to Codex)
    - If available, a config-specific flag can be used, which takes
    precedence over `-c` (e.g., user can specify `--model o3` in their list
    of args to Codex)
    
    Now that it is possible to specify anything that could be configured in
    `config.toml` on the command line using `-c`, we do not need to have a
    custom flag for every possible config option (which can clutter the
    output of `--help`). To that end, as part of this PR, we drop support
    for the `--disable-response-storage` flag, as users can now specify `-c
    disable_response_storage=true` to get the equivalent functionality.
    
    Under the hood, this works by loading the `config.toml` into a
    `toml::Value`. Then for each `key=value`, we create a small synthetic
    TOML file with `value` so that we can run the TOML parser to get the
    equivalent `toml::Value`. We then parse `key` to determine the point in
    the original `toml::Value` to do the insert/replace. Once all of the
    overrides from `-c` args have been applied, the `toml::Value` is
    deserialized into a `ConfigToml` and then the `ConfigOverrides` are
    applied, as before.
  • fix: overhaul how we spawn commands under seccomp/landlock on Linux (#1086)
    Historically, we spawned the Seatbelt and Landlock sandboxes in
    substantially different ways:
    
    For **Seatbelt**, we would run `/usr/bin/sandbox-exec` with our policy
    specified as an arg followed by the original command:
    
    
    https://github.com/openai/codex/blob/d1de7bb383552e8fadd94be79d65d188e00fd562/codex-rs/core/src/exec.rs#L147-L219
    
    For **Landlock/Seccomp**, we would do
    `tokio::runtime::Builder::new_current_thread()`, _invoke
    Landlock/Seccomp APIs to modify the permissions of that new thread_, and
    then spawn the command:
    
    
    https://github.com/openai/codex/blob/d1de7bb383552e8fadd94be79d65d188e00fd562/codex-rs/core/src/exec_linux.rs#L28-L49
    
    While it is neat that Landlock/Seccomp supports applying a policy to
    only one thread without having to apply it to the entire process, it
    requires us to maintain two different codepaths and is a bit harder to
    reason about. The tipping point was
    https://github.com/openai/codex/pull/1061, in which we had to start
    building up the `env` in an unexpected way for the existing
    Landlock/Seccomp approach to continue to work.
    
    This PR overhauls things so that we do similar things for Mac and Linux.
    It turned out that we were already building our own "helper binary"
    comparable to Mac's `sandbox-exec` as part of the `cli` crate:
    
    
    https://github.com/openai/codex/blob/d1de7bb383552e8fadd94be79d65d188e00fd562/codex-rs/cli/Cargo.toml#L10-L12
    
    We originally created this to build a small binary to include with the
    Node.js version of the Codex CLI to provide support for Linux
    sandboxing.
    
    Though the sticky bit is that, at this point, we still want to deploy
    the Rust version of Codex as a single, standalone binary rather than a
    CLI and a supporting sandboxing binary. To satisfy this goal, we use
    "the arg0 trick," in which we:
    
    * use `std::env::current_exe()` to get the path to the CLI that is
    currently running
    * use the CLI as the `program` for the `Command`
    * set `"codex-linux-sandbox"` as arg0 for the `Command`
    
    A CLI that supports sandboxing should check arg0 at the start of the
    program. If it is `"codex-linux-sandbox"`, it must invoke
    `codex_linux_sandbox::run_main()`, which runs the CLI as if it were
    `codex-linux-sandbox`. When acting as `codex-linux-sandbox`, we make the
    appropriate Landlock/Seccomp API calls and then use `execvp(3)` to spawn
    the original command, so do _replace_ the process rather than spawn a
    subprocess. Incidentally, we do this before starting the Tokio runtime,
    so the process should only have one thread when `execvp(3)` is called.
    
    Because the `core` crate that needs to spawn the Linux sandboxing is not
    a CLI in its own right, this means that every CLI that includes `core`
    and relies on this behavior has to (1) implement it and (2) provide the
    path to the sandboxing executable. While the path is almost always
    `std::env::current_exe()`, we needed to make this configurable for
    integration tests, so `Config` now has a `codex_linux_sandbox_exe:
    Option<PathBuf>` property to facilitate threading this through,
    introduced in https://github.com/openai/codex/pull/1089.
    
    This common pattern is now captured in
    `codex_linux_sandbox::run_with_sandbox()` and all of the `main.rs`
    functions that should use it have been updated as part of this PR.
    
    The `codex-linux-sandbox` crate added to the Cargo workspace as part of
    this PR now has the bulk of the Landlock/Seccomp logic, which makes
    `core` a bit simpler. Indeed, `core/src/exec_linux.rs` and
    `core/src/landlock.rs` were removed/ported as part of this PR. I also
    moved the unit tests for this code into an integration test,
    `linux-sandbox/tests/landlock.rs`, in which I use
    `env!("CARGO_BIN_EXE_codex-linux-sandbox")` as the value for
    `codex_linux_sandbox_exe` since `std::env::current_exe()` is not
    appropriate in that case.