Commit Graph

25 Commits

  • config: own layer provenance types (#29722)
    ## Why
    
    Config layer provenance describes how effective configuration was
    assembled, so it belongs with the config loader rather than in
    app-server's serialized API types.
    
    ## What changed
    
    - Moved `ConfigLayerSource`, `ConfigLayerMetadata`, and `ConfigLayer`
    ownership into `codex-config`.
    - Kept app-server's wire payloads unchanged and added explicit
    conversions at the app boundary.
    - Removed lower-level app-server-protocol dependencies from config
    consumers.
    
    ## Stack
    
    This is PR 3 of 6, stacked on [PR
    #29721](https://github.com/openai/codex/pull/29721). Review only the
    delta from `codex/split-auth-domain-types`. Next: [PR
    #29723](https://github.com/openai/codex/pull/29723).
    
    ## Validation
    
    - `codex-config` coverage passed.
    - App-server config-manager and config RPC coverage passed.
  • PAC 1 - Add system proxy feature config surface (#26706)
    ## Summary
    
    Introduces the default-off `respect_system_proxy` feature flag used to
    gate first-class system PAC/proxy support for Codex-owned native
    clients.
    
    With the feature disabled or absent, behavior remains unchanged. This PR
    establishes the configuration and managed-requirement surface; proxy
    discovery and request routing are implemented by follow-up PRs.
    
    ## Configuration
    
    User configuration uses the standard boolean feature form:
    
    ```toml
    [features]
    respect_system_proxy = true
    ```
    
    Managed feature requirements use the corresponding boolean key. The
    effective runtime configuration is exposed as a boolean and defaults to
    `false`.
    
    ## Implementation
    
    - Registers `respect_system_proxy` as an under-development, default-off
    feature.
    - Resolves user configuration and managed feature requirements into
    `Config.respect_system_proxy`.
    - Provides bootstrap resolution for startup paths that must evaluate the
    feature before full configuration loading completes.
    - Uses the standard feature CLI and config-editing behavior.
    - Excludes `features.respect_system_proxy` from project-local
    configuration.
    - Updates the generated configuration schema.
    
    ## End-user behavior
    
    - No networking behavior changes when the feature is absent or disabled.
    - Enabling the feature makes the boolean available to the native
    proxy-routing implementation in follow-up PRs.
    - Repository-local configuration cannot enable the feature.
    
    ## Test coverage
    
    Covers scalar configuration and CLI override resolution, managed
    requirement constraints, bootstrap resolution, and project-local
    filtering.
  • [codex] exec-server: stream files in chunks (#28354)
    ## Why
    
    `fs/readFile` buffers the entire file in one response, which makes large
    remote reads expensive and prevents callers from applying backpressure.
    We need an opt-in streaming path with bounded block sizes while
    preserving the existing single-call API for small and sandboxed reads.
    
    ## What changed
    
    - Add `ExecServerClient::stream`, returning a named `FileReadStream`
    that implements `futures::Stream` and yields immutable 1 MiB byte
    blocks.
    - Add internal `fs/open`, `fs/readBlock`, and `fs/close` RPCs.
    `fs/readBlock` accepts an explicit offset and length.
    - Keep unsandboxed files open between block reads, cap open handles per
    connection, and clean them up on EOF, error, stream drop, explicit
    close, or connection shutdown.
    - Reject platform-sandboxed streaming opens instead of turning the
    one-shot sandbox helper into a persistent server. Existing `fs/readFile`
    behavior is unchanged.
    
    ## Testing
    
    - `just test -p codex-exec-server`
    - Integration coverage for 1 MiB chunking, exact block-boundary EOF,
    sandbox rejection, and continued reads from the opened file after path
    replacement.
    - Handle-manager coverage for non-sequential offsets, variable block
    lengths, the 128-handle limit, and capacity release after close.
  • [codex] make PathUri::from_abs_path infallible (#27976)
    ## Why
    
    `PathUri::from_abs_path` can fail for absolute paths that do not have a
    normal `file:` URI representation, forcing filesystem call sites to
    handle a conversion error even though the original path can be preserved
    losslessly.
    
    ## What
    
    Make `from_abs_path` infallible and migrate its callers. Unrepresentable
    paths use `file:///%00/bad/path/<base64>`, encoding Unix bytes or
    Windows UTF-16LE; `to_abs_path` validates and decodes that fallback. The
    leading encoded null reserves a namespace that cannot collide with a
    real Unix or Windows path, and fallback URIs remain opaque to lexical
    path operations.
    
    ## Validation
    
    Added path-URI coverage for Unix null and non-UTF-8 paths, Windows
    device/verbatim and non-Unicode paths, serialization, malformed
    fallbacks, opaque lexical operations, invalid native payloads, and
    literal `/bad/path` collision resistance.
  • realtime: add AVAS architecture override (#27720)
    ## Summary
    
    Adds a `RealtimeConversationArchitecture` option for realtime
    conversation startup, with `realtimeapi` as the default and `avas` as an
    opt-in architecture.
    
    The AVAS path is limited to realtime v1 conversational WebRTC starts,
    and WebRTC call creation appends `intent=quicksilver&architecture=avas`
    to `/v1/realtime/calls`. The existing sideband websocket still joins by
    `call_id`.
    
    This also exposes the per-session architecture override through
    app-server v2 `thread/realtime/start` params and updates the config
    schema for `[realtime].architecture`.
    
    ## Validation
    
    - `just fmt`
    - `just write-config-schema`
    - `just test -p codex-api sends_avas_session_call_query_params`
    - `just test -p codex-core -E
    'test(~conversation_webrtc_start_uses_avas_architecture_query)'`
    - `just test -p codex-core -E 'test(realtime_loads_from_config_toml)'`
    - `just test -p codex-app-server-protocol -E
    'test(~serialize_thread_realtime_start) |
    test(generated_ts_optional_nullable_fields_only_in_params)'`
    - `just test -p codex-app-server -E
    'test(realtime_webrtc_start_emits_sdp_notification)'`
  • [codex] Remove async_trait from first-party code (#27475)
    ## Why
    
    First-party async traits should expose their `Send` contracts explicitly
    without requiring `async_trait`. This completes the migration pattern
    established in #27303 and #27304.
    
    ## What changed
    
    - Replaced the remaining first-party `async_trait` traits with native
    return-position `impl Future + Send` where statically dispatched and
    explicit boxed `Send` futures where object safety is required.
    - Kept implementations behavior-preserving, outlining existing async
    bodies into inherent methods where that keeps the diff reviewable.
    - Removed all direct first-party `async-trait` dependencies and the
    workspace dependency declaration.
    - Added a cargo-deny policy that permits `async-trait` only through the
    remaining transitive wrapper crates.
    - Updated `rand` from 0.8.5 to 0.8.6 to resolve RUSTSEC-2026-0097 and
    keep the full cargo-deny check passing.
    
    ## Validation
    
    - `just test -p codex-exec-server`: 216 passed, 2 skipped.
    - `just test -p codex-model-provider`: 39 passed.
    - `just test -p codex-core` and `just test`: changed tests passed;
    remaining failures are environment-sensitive suites unrelated to this
    migration.
    - `cargo deny check`
    - `just fix`
    - `just fmt`
    - `cargo shear`
    - `just bazel-lock-check`
  • [codex] migrate ExecutorFileSystem paths to PathUri (#27424)
    ## Why
    
    We're moving exec-server to use PathUri for its internal path
    representations.
    
    ## What
    
    Move `ExecutorFileSystem` APIs to use `PathUri` instead of
    `AbsolutePathBuf`. Future changes will convert higher-level parts of
    exec-server.
  • fix: preserve auto review across config and delegation (#26230)
    ## Why
    
    Auto Review should remain the effective approval reviewer when settings
    cross runtime boundaries. A config or app-server round trip must not
    change the reviewer identity, and delegated work must not silently fall
    back to user review.
    
    This requires both a stable canonical serialized value and propagation
    of the effective setting. `auto_review` is the canonical value across
    protocol and app-server output, while `guardian_subagent` remains
    accepted as backward-compatible input.
    
    ## What changed
    
    - serialize `ApprovalsReviewer::AutoReview` consistently as
    `auto_review` across core protocol and app-server v2
    - continue accepting `guardian_subagent` when reading existing config or
    client requests
    - carry the active turn's approval reviewer into spawned agents
    - update config/debug expectations and add delegated-task regression
    coverage
    
    ## Scope
    
    This does not change Guardian policy or remove compatibility with
    existing `guardian_subagent` inputs. It preserves the selected reviewer
    across serialization, config reloads, app-server settings, and delegated
    task setup.
    
    Related Guardian changes are split independently:
    
    - #26231 adds denials and soft denials
    - #26334 retries transient reviewer failures
    - #26333 reuses narrowly scoped low-risk approvals
    - #26232 adds TUI denial recovery
    
    ## Validation
    
    - `just test -p codex-app-server-protocol` (224 passed)
    - regression coverage for delegated task reviewer propagation
    - serialization coverage for canonical `auto_review` output and legacy
    `guardian_subagent` input
    
    ---------
    
    Co-authored-by: saud-oai <saud@openai.com>
  • Switch runtime to cloud config bundle (#24622)
    ## Summary
    
    - Adapts the moved `codex-cloud-config` crate from the legacy cloud
    requirements endpoint to the new config bundle endpoint.
    - Switches runtime consumers from `CloudRequirementsLoader` to
    `CloudConfigBundleLoader` so one shared bundle supplies cloud-delivered
    config and requirements.
    - Removes the legacy cloud requirements domain loader path.
    
    ## Details
    
    This intentionally keeps `codex-cloud-config` monolithic for review
    lineage: the previous PR establishes the crate move, and this PR shows
    the behavior change against that moved implementation. A follow-up PR
    splits the module back into focused files.
    
    The new bundle path preserves the important cloud requirements loader
    semantics where intended: account-scoped signed cache, 30 minute TTL, 5
    minute refresh cadence, retry/backoff, auth recovery, and fail-closed
    startup loading. The cached payload changes from a single requirements
    TOML string to the backend-delivered bundle, and validation rejects
    malformed config or requirements fragments before cache write/use.
  • exec-server: canonicalize bound filesystem paths (#25149)
    ## Summary
    - add executor filesystem canonicalization as a bound-path operation
    - route remote canonicalization through the exec-server filesystem RPC
    surface
    - keep path normalization attached to the filesystem that owns the path
    
    ## Stack
    - 2/5 in the skills path authority stack extracted from
    https://github.com/openai/codex/pull/25098
    - follows merged https://github.com/openai/codex/pull/25121
    
    ## Validation
    - `cd
    /Users/starr/code/codex-worktrees/pr-25098-restack-review-pr1b/codex-rs
    && just fmt`
    - Not run: tests/checks (not requested)
    - GitHub CI pending on rewritten head
  • Add cloud-managed config layer support (#24620)
    ## Summary
    
    PR 3 of 5 in the cloud-managed config client stack.
    
    Adds enterprise-managed cloud config as a first-class config layer
    source. The layer metadata is preserved through config loading,
    diagnostics, debug output, hook attribution, and app-server protocol
    surfaces.
    
    ## Details
    
    - Enterprise-managed config becomes a normal config layer source with
    backend-supplied `id` and display `name` attached for provenance.
    - These layers are designed to behave like non-file managed config: they
    can surface syntax/type diagnostics by layer name even though there is
    no physical config file.
    - Relative path settings are resolved from a stored config base so
    cloud-delivered config remains consistent with existing MDM-delivered
    config semantics.
    - Hook attribution distinguishes config-delivered hooks from
    requirements-delivered hooks via `HookSource::CloudManagedConfig`.
    - This remains pull-based and snapshot-oriented; the PR adds layer
    identity/diagnostics, not dynamic reload behavior.
    
    ## Validation
    
    Validated through the targeted stack checks after rebasing onto current
    `main`:
    
    - Rust crate tests for
    config/hooks/cloud-config/backend-client/app-server-protocol
    - Filtered `codex-core` and `codex-app-server` `cloud_config_bundle`
    tests
    - Python generated-file contract test
    - `cargo shear --deny-warnings`
    - Targeted `argument-comment-lint` for config/hooks
  • Uprev Rust toolchain pins to 1.95.0 (#24684)
    ## Summary
    - Bump the workspace Rust toolchain from `1.93.0` to `1.95.0` across
    Cargo, Bazel, CI, release workflows, devcontainers, and the Codex
    environment config.
    - Refresh `MODULE.bazel.lock` so the Bazel Rust toolchain artifacts
    match the new version.
    - Leave purpose-specific toolchains unchanged, including the
    `argument-comment-lint` nightly and the upstream `rusty_v8` `1.91.0`
    build pin.
    - Includes fixes for new lints from `just fix` and a few codex-authored
    fixes for lints without a suggestion.
  • fix: reject legacy profile selectors (#24059)
    ## Why
    
    `--profile` now selects `<name>.config.toml`, so the legacy `profile`
    selector should not be reintroduced through config write or MCP tool
    paths. A matching legacy selector in base user config also needs the
    same migration guard as a matching legacy `[profiles.<name>]` table so
    profile loading fails with one clear migration error instead of mixing
    the old and new profile models.
    
    ## What
    
    - reject non-null app-server config writes to the top-level legacy
    `profile` selector
    - make `--profile <name>` reject base user config that still selects the
    same legacy `profile = "<name>"` value, alongside the existing matching
    legacy profile-table guard
    - reject removed MCP `codex` tool fields such as `profile` by denying
    unknown tool-call parameters and exposing that restriction in the
    generated schema
    - add regression coverage for the app-server write paths, config loader
    guard, and MCP tool input/schema behavior
    
    ## Verification
    
    - targeted regression tests cover the new app-server, config loader, and
    MCP rejection paths
  • chore: link doc in profile error messages (#23879)
    Just updating the error message with a link to the doc
  • Forward apps MCP product SKU from Codex config (#22872)
    This adds `apps_mcp_product_sku` as a toplevel config.toml key. We pass
    the given value as a header when listing MCPs for the client, allowing
    connectors to be filtered per product entry point.
    
    ---------
    
    Co-authored-by: Codex <noreply@openai.com>
  • Reject legacy [profiles] when using profile-v2 (#22647)
    ## Why
    
    `profile-v2` layers the selected profile file on top of the base user
    `config.toml`, but the legacy `[profiles]` table also stores named
    profile overrides in that same base file. Allowing both paths during one
    load makes it too easy to get a mixed profile where stale legacy
    settings still influence a profile-v2 run.
    
    ## What Changed
    
    - Detect a legacy `[profiles]` table in the base user config whenever
    `--profile-v2` selects a profile file.
    - Fail config loading with an `InvalidData` error that tells the user to
    move those settings into the selected profile-v2 file or remove
    `[profiles]`.
    - Add a loader regression covering `--profile-v2` with legacy
    `[profiles]` in `config.toml`.
    
    ## Testing
    
    - `cargo test -p codex-config
    profile_v2_rejects_legacy_profiles_in_base_user_config`
  • feat: add layered --profile-v2 config files (#17141)
    ## Why
    
    `--profile-v2 <name>` gives launchers and runtime entry points a named
    profile config without making each profile duplicate the base user
    config. The base `$CODEX_HOME/config.toml` still loads first, then
    `$CODEX_HOME/<name>.config.toml` layers above it and becomes the active
    writable user config for that session.
    
    That keeps shared defaults, plugin/MCP setup, and managed/user
    constraints in one place while letting a named profile override only the
    pieces that need to differ.
    
    ## What Changed
    
    - Added the shared `--profile-v2 <name>` runtime option with validated
    plain names, now represented by `ProfileV2Name`.
    - Extended config layer state so the base user config and selected
    profile config are both `User` layers; APIs expose the active user layer
    and merged effective user config.
    - Threaded profile selection through runtime entry points: `codex`,
    `codex exec`, `codex review`, `codex resume`, `codex fork`, and `codex
    debug prompt-input`.
    - Made user-facing config writes go to the selected profile file when
    active, including TUI/settings persistence, app-server config writes,
    and MCP/app tool approval persistence.
    - Made plugin, marketplace, MCP, hooks, and config reload paths read
    from the merged user config so base and profile layers both participate.
    - Updated app-server config layer schemas to mark profile-backed user
    layers.
    
    ## Limits
    
    `--profile-v2` is still rejected for config-management subcommands such
    as feature, MCP, and marketplace edits. Those paths remain tied to the
    base `config.toml` until they have explicit profile-selection semantics.
    
    Some adjacent background writes may still update base or global state
    rather than the selected profile:
    
    - marketplace auto-upgrade metadata
    - automatic MCP dependency installs from skills
    - remote plugin sync or uninstall config edits
    - personality migration marker/default writes
    
    ## Verification
    
    Added targeted coverage for profile name validation, layer
    ordering/merging, selected-profile writes, app-server config writes,
    session hot reload, plugin config merging, hooks/config fixture updates,
    and MCP/app approval persistence.
    
    ---------
    
    Co-authored-by: Codex <noreply@openai.com>
  • config: add strict config parsing (#20559)
    ## Why
    
    Codex intentionally ignores unknown `config.toml` fields by default so
    older and newer config files keep working across versions. That leniency
    also makes typo detection hard because misspelled or misplaced keys
    disappear silently.
    
    This change adds an opt-in strict config mode so users and tooling can
    fail fast on unrecognized config fields without changing the default
    permissive behavior.
    
    This feature is possible because `serde_ignored` exposes the exact
    signal Codex needs: it lets Codex run ordinary Serde deserialization
    while recording fields Serde would otherwise ignore. That avoids
    requiring `#[serde(deny_unknown_fields)]` across every config type and
    keeps strict validation opt-in around the existing config model.
    
    ## What Changed
    
    ### Added strict config validation
    
    - Added `serde_ignored`-based validation for `ConfigToml` in
    `codex-rs/config/src/strict_config.rs`.
    - Combined `serde_ignored` with `serde_path_to_error` so strict mode
    preserves typed config error paths while also collecting fields Serde
    would otherwise ignore.
    - Added strict-mode validation for unknown `[features]` keys, including
    keys that would otherwise be accepted by `FeaturesToml`'s flattened
    boolean map.
    - Kept typed config errors ahead of ignored-field reporting, so
    malformed known fields are reported before unknown-field diagnostics.
    - Added source-range diagnostics for top-level and nested unknown config
    fields, including non-file managed preference source names.
    
    ### Kept parsing single-pass per source
    
    - Reworked file and managed-config loading so strict validation reuses
    the already parsed `TomlValue` for that source.
    - For actual config files and managed config strings, the loader now
    reads once, parses once, and validates that same parsed value instead of
    deserializing multiple times.
    - Validated `-c` / `--config` override layers with the same
    base-directory context used for normal relative-path resolution, so
    unknown override keys are still reported when another override contains
    a relative path.
    
    ### Scoped `--strict-config` to config-heavy entry points
    
    - Added support for `--strict-config` on the main config-loading entry
    points where it is most useful:
      - `codex`
      - `codex resume`
      - `codex fork`
      - `codex exec`
      - `codex review`
      - `codex mcp-server`
      - `codex app-server` when running the server itself
      - the standalone `codex-app-server` binary
      - the standalone `codex-exec` binary
    - Commands outside that set now reject `--strict-config` early with
    targeted errors instead of accepting it everywhere through shared CLI
    plumbing.
    - `codex app-server` subcommands such as `proxy`, `daemon`, and
    `generate-*` are intentionally excluded from the first rollout.
    - When app-server strict mode sees invalid config, app-server exits with
    the config error instead of logging a warning and continuing with
    defaults.
    - Introduced a dedicated `ReviewCommand` wrapper in `codex-rs/cli`
    instead of extending shared `ReviewArgs`, so `--strict-config` stays on
    the outer config-loading command surface and does not become part of the
    reusable review payload used by `codex exec review`.
    
    ### Coverage
    
    - Added tests for top-level and nested unknown config fields, unknown
    `[features]` keys, typed-error precedence, source-location reporting,
    and non-file managed preference source names.
    - Added CLI coverage showing invalid `--enable`, invalid `--disable`,
    and unknown `-c` overrides still error when `--strict-config` is
    present, including compound-looking feature names such as
    `multi_agent_v2.subagent_usage_hint_text`.
    - Added integration coverage showing both `codex app-server
    --strict-config` and standalone `codex-app-server --strict-config` exit
    with an error for unknown config fields instead of starting with
    fallback defaults.
    - Added coverage showing unsupported command surfaces reject
    `--strict-config` with explicit errors.
    
    ## Example Usage
    
    Run Codex with strict config validation enabled:
    
    ```shell
    codex --strict-config
    ```
    
    Strict config mode is also available on the supported config-heavy
    subcommands:
    
    ```shell
    codex --strict-config exec "explain this repository"
    codex review --strict-config --uncommitted
    codex mcp-server --strict-config
    codex app-server --strict-config --listen off
    codex-app-server --strict-config --listen off
    ```
    
    For example, if `~/.codex/config.toml` contains a typo in a key name:
    
    ```toml
    model = "gpt-5"
    approval_polic = "on-request"
    ```
    
    then `codex --strict-config` reports the misspelled key instead of
    silently ignoring it. The path is shortened to `~` here for readability:
    
    ```text
    $ codex --strict-config
    Error loading config.toml:
    ~/.codex/config.toml:2:1: unknown configuration field `approval_polic`
      |
    2 | approval_polic = "on-request"
      | ^^^^^^^^^^^^^^
    ```
    
    Without `--strict-config`, Codex keeps the existing permissive behavior
    and ignores the unknown key.
    
    Strict config mode also validates ad-hoc `-c` / `--config` overrides:
    
    ```text
    $ codex --strict-config -c foo=bar
    Error: unknown configuration field `foo` in -c/--config override
    
    $ codex --strict-config -c features.foo=true
    Error: unknown configuration field `features.foo` in -c/--config override
    ```
    
    Invalid feature toggles are rejected too, including values that look
    like nested config paths:
    
    ```text
    $ codex --strict-config --enable does_not_exist
    Error: Unknown feature flag: does_not_exist
    
    $ codex --strict-config --disable does_not_exist
    Error: Unknown feature flag: does_not_exist
    
    $ codex --strict-config --enable multi_agent_v2.subagent_usage_hint_text
    Error: Unknown feature flag: multi_agent_v2.subagent_usage_hint_text
    ```
    
    Unsupported commands reject the flag explicitly:
    
    ```text
    $ codex --strict-config cloud list
    Error: `--strict-config` is not supported for `codex cloud`
    ```
    
    ## Verification
    
    The `codex-cli` `strict_config` tests cover invalid `--enable`, invalid
    `--disable`, the compound `multi_agent_v2.subagent_usage_hint_text`
    case, unknown `-c` overrides, app-server strict startup failure through
    `codex app-server`, and rejection for unsupported commands such as
    `codex cloud`, `codex mcp`, `codex remote-control`, and `codex
    app-server proxy`.
    
    The config and config-loader tests cover unknown top-level fields,
    unknown nested fields, unknown `[features]` keys, source-location
    reporting, non-file managed config sources, and `-c` validation for keys
    such as `features.foo`.
    
    The app-server test suite covers standalone `codex-app-server
    --strict-config` startup failure for an unknown config field.
    
    ## Documentation
    
    The Codex CLI docs on developers.openai.com/codex should mention
    `--strict-config` as an opt-in validation mode for supported
    config-heavy entry points once this ships.
  • Use root repo hooks in linked worktrees (#21969)
    # Why
    
    Linked worktrees currently load their own project hook declarations, so
    the same repo can present different hook definitions depending on which
    checkout is active. https://github.com/openai/codex/pull/21762 tried to
    share trust by giving matching worktree hooks a shared synthetic key,
    but review pointed out that divergent worktree hook definitions would
    then fight over one `trusted_hash`.
    
    Instead of introducing a second trust model, this makes linked worktrees
    use the root checkout as the single source of truth for project hook
    declarations. Worktree-local project config can still diverge for
    unrelated settings, but project hooks now keep one real source path and
    one trust state per repo.
    
    # What
    
    - Teach project config loading to remember the matching root-checkout
    `.codex/` folder for actual linked-worktree project layers.
    - Keep ordinary project config sourced from the worktree, but replace
    project hook declarations with the root checkout's matching layer before
    hook discovery runs, including linked-worktree layers with `.codex/` but
    no local `config.toml`.
    - Make hook discovery use that authoritative hook folder for both
    `hooks.json` and TOML hook source paths, so linked worktrees produce the
    same hook key and trust state as the root checkout.
    - Cover the linked-worktree path plus regressions for missing worktree
    `config.toml` and nested non-worktree project roots.
  • codex-otel: add configurable trace metadata (#21556)
    Add Codex config for static trace span attributes and structured W3C
    tracestate field upserts. The config flows through OtelSettings so
    callers can attach trace metadata without touching every span call site.
    
    Apply span attributes with an SDK span processor so every exported
    trace span carries the configured metadata. Model tracestate as nested
    member fields so configured keys can be upserted while unrelated
    propagated state in the same member is preserved.
    
    Validate configured tracestate before installing provider-global state,
    including header-unsafe values the SDK does not reject by itself. This
    keeps Codex from propagating malformed trace context from config.
    
    Update the config schema, public docs, and OTLP loopback coverage for
    config parsing, span export, propagation, and invalid-header rejection.
  • fix: ignore dangerous project-level config keys (#20098)
    ## Description
    Ignore these top-level config keys when loading project-scoped
    config.toml files:
    ```
        "openai_base_url",
        "chatgpt_base_url",
        "model_provider",
        "model_providers",
        "profile",
        "profiles",
        "experimental_realtime_ws_base_url",
    ```
    
    ## What changed
    
    - Add a project-local config denylist for credential-routing fields such
    as `openai_base_url`, `chatgpt_base_url`, `model_provider`,
    `model_providers`, `profile`, `profiles`, and
    `experimental_realtime_ws_base_url`.
    - Strip those fields from project config layers before they participate
    in effective config merging, while leaving safe project-local settings
    intact.
    - Track ignored project-local keys on config layers and surface a
    startup warning telling users to move those settings to user-level
    `config.toml` if they intentionally need them.
    - Update profile behavior coverage so project-local `profile` /
    `profiles` entries are ignored instead of overriding user-level profile
    selection.
    
    ## Verification
    
    - `cargo test -p codex-config`
    - `cargo test -p codex-core
    project_layer_ignores_unsupported_config_keys`
    - `cargo test -p codex-core project_profiles_are_ignored`
    - `cargo test -p codex-core config::config_loader_tests`
  • feat(cli): add sandbox profile config controls (#20118)
    ## Why
    
    The explicit profile path from #20117 is meant for standalone testing,
    but it still inherited the
    shell cwd and all managed requirements implicitly. The pre-existing
    launcher path even called out
    that it did not support a separate cwd yet in
    
    [`debug_sandbox.rs`](https://github.com/openai/codex/blob/509453f688a30929432be866402d1ea46aa12169/codex-rs/cli/src/debug_sandbox.rs#L174-L179).
    
    For a standalone command, the useful default is to let the caller choose
    the project directory being
    tested and to avoid administrator-provided constraints unless the caller
    explicitly wants to test
    those too.
    
    ## What changed
    
    - Add explicit-profile-only `-C/--cd DIR`, and use that cwd for both
    profile resolution and command
      execution.
    - Add explicit-profile-only `--include-managed-config`.
    - Make explicit profile mode skip managed requirement sources by
    default, including cloud
    requirements, MDM requirements, `/etc/codex/requirements.toml`, and the
    legacy managed-config
      requirements projection.
    - Preserve all existing invocations outside the explicit-profile path.
    
    ## Stack
    
    1. #20117 `sandbox-ui-profile`
    2. #20118 `sandbox-ui-config` --> this PR
    
    Both PRs are additive. Replay JSON is intentionally deferred to a
    follow-up design pass.
    
    ## Tests ran
    
    - `cargo test -p codex-cli debug_sandbox`
    - `cargo test -p codex-cli sandbox_macos_`
    - `cargo test -p codex-core
    load_config_layers_can_ignore_managed_requirements`
    - `cargo test -p codex-core
    load_config_layers_includes_cloud_requirements`
    - macOS branch-binary smoke on the rebased top of stack: `-C` changed
    execution cwd, explicit
    profile mode omitted managed proxy env under `env -i`, and
    `--include-managed-config` restored it.
    - Linux devbox branch-binary smoke on the rebased top of stack: `-C`
    changed execution cwd for
      built-in and user-defined explicit profiles.
  • Refactor exec-server filesystem API into codex-file-system (#19892)
    ## Summary
    - Extracted the shared filesystem types and `ExecutorFileSystem` trait
    into a new `codex-file-system` crate
    - Switched `codex-config` and `codex-git-utils` to depend on that crate
    instead of `codex-exec-server`
    - Kept `codex-exec-server` re-exporting the same API for existing
    callers
    
    ## Testing
    - Ran `cargo test -p codex-file-system`
    - Ran `cargo test -p codex-git-utils`
    - Ran `cargo test -p codex-config`
    - Ran `cargo test -p codex-exec-server`
    - Ran `just fix -p codex-file-system`, `just fix -p codex-git-utils`,
    `just fix -p codex-config`, `just fix -p codex-exec-server`
    - Ran `just fmt`
    - Updated and verified the Bazel module lockfile
  • inline hostname resolution for remote sandbox config (#19739)
    # Why
    
    Requirements support host-specific
    `remote_sandbox_config.hostname_patterns`, but config loading previously
    resolved and passed the system hostname through every config-loading
    path even when no requirements layer used `remote_sandbox_config`. On
    machines where hostname lookup is slow, startup and app-server config
    reads paid for a feature that was not active.
    
    We only need the hostname when a requirements layer actually declares
    `remote_sandbox_config`, so this moves hostname resolution to the single
    requirements merge point and keeps all other config callers unaware of
    hostname matching.
    
    # What
    
    - Removed the eager `host_name` plumbing from
    `load_config_layers_state`, `load_requirements_toml`, `ConfigBuilder`,
    app-server `ConfigManager`, network proxy loading, and related call
    sites.
    - Resolve the hostname inside
    `merge_requirements_with_remote_sandbox_config` only when the incoming
    requirements contain `remote_sandbox_config`.
  • [codex] Move config loading into codex-config (#19487)
    ## Why
    
    Config loading had become split across crates: `codex-config` owned the
    config types and merge logic, while `codex-core` still owned the loader
    that assembled the layer stack. This change consolidates that
    responsibility in `codex-config`, so the crate that defines config
    behavior also owns how configs are discovered and loaded.
    
    To make that move possible without reintroducing the old dependency
    cycle, the shell-environment policy types and helpers that
    `codex-exec-server` needs now live in `codex-protocol` instead of
    flowing through `codex-config`.
    
    This also makes the migrated loader tests more deterministic on machines
    that already have managed or system Codex config installed by letting
    tests override the system config and requirements paths instead of
    reading the host's `/etc/codex`.
    
    ## What Changed
    
    - moved the config loader implementation from `codex-core` into
    `codex-config::loader` and deleted the old `core::config_loader` module
    instead of leaving a compatibility shim
    - moved shell-environment policy types and helpers into
    `codex-protocol`, then updated `codex-exec-server` and other downstream
    crates to import them from their new home
    - updated downstream callers to use loader/config APIs from
    `codex-config`
    - added test-only loader overrides for system config and requirements
    paths so loader-focused tests do not depend on host-managed config state
    - cleaned up now-unused dependency entries and platform-specific cfgs
    that were surfaced by post-push CI
    
    ## Testing
    
    - `cargo test -p codex-config`
    - `cargo test -p codex-core config_loader_tests::`
    - `cargo test -p codex-protocol -p codex-exec-server -p
    codex-cloud-requirements -p codex-rmcp-client --lib`
    - `cargo test --lib -p codex-app-server-client -p codex-exec`
    - `cargo test --no-run --lib -p codex-app-server`
    - `cargo test -p codex-linux-sandbox --lib`
    - `cargo shear`
    - `just bazel-lock-check`
    
    ## Notes
    
    - I did not chase unrelated full-suite failures outside the migrated
    loader surface.
    - `cargo test -p codex-core --lib` still hits unrelated proxy-sensitive
    failures on this machine, and Windows CI still shows unrelated
    long-running/timeouting test noise outside the loader migration itself.