14 Commits

  • Clarify model-generated and legacy app path types (#28577)
    ## Why
    
    `ApiPathString` kind of implies that it can be used anywhere we pull a
    path out of JSON, but it's not really appropriate for tool arguments
    when the model might generate relative paths.
    
    Prefer `String` for model-generated paths and we can handle the
    conversion per feature for now and define a shared abstraction later if
    it makes sense.
    
    # What
    
    Rename `ApiPathString` to `AppLegacyPathString` to clarify its role.
    
    Expand the `path-types` skill to tell the model to leave tool args as
    bare strings.
  • Use ApiPathString in app-server filesystem permission paths (#28367)
    ## Why
    
    Clients running an app-server on one OS and an exec-server on another OS
    need to be able to pass sandbox config to app-server that refers to
    resources on the executor's foreign OS.
    
    ## What
    
    `AbsolutePathBuf` can't represent these paths and we don't want users to
    be exposed to `PathUri` yet, so this moves the public app-server API to
    be expressed in terms of `ApiPathString`.
    
    Stacked on #28165.
    
    - change app-server v2 filesystem permission paths, including legacy
    read/write roots, to `ApiPathString`
    - localize API paths through `PathUri` when converting into the current
    native core permission types
    - make path-bearing permission conversions fallible and surface
    localization failures instead of silently treating malformed grants as
    ordinary denials
    - propagate conversion failures through app-server and TUI approval
    handling
    - regenerate the app-server JSON and TypeScript schemas
    - leave migration TODOs on native-path conversions so they can be
    removed once core permission paths use `PathUri`
  • Encrypt multi-agent v2 message payloads (#26210)
    ## Why
    
    Multi-agent v2 currently routes agent instructions through normal tool
    arguments and inter-agent context. That means the parent model can emit
    plaintext task text, Codex can persist it in history/rollouts, and the
    recipient can receive it as ordinary assistant-message JSON.
    
    This changes the v2 path so agent instructions stay encrypted between
    model calls: Responses encrypts the `message` argument returned by the
    model, Codex forwards only that ciphertext, and Responses decrypts it
    internally for the recipient model.
    
    ## What changed
    
    - Mark the v2 `message` parameter as encrypted for `spawn_agent`,
    `send_message`, and `followup_task`.
    - Treat multi-agent v2 tool `message` values as ciphertext
    unconditionally.
    - Store v2 inter-agent task text in
    `InterAgentCommunication.encrypted_content` with empty plaintext
    `content`.
    - Convert encrypted inter-agent communications into the Responses
    `agent_message` input item before sending the child request.
    - Preserve `agent_message` items across history, rollout, compaction,
    telemetry, and app-server schema paths.
    - Leave multi-agent v1 unchanged.
    
    ## Message shape
    
    The model still calls the v2 tools with a `message` argument, but that
    value is now ciphertext:
    
    ```json
    {
      "name": "spawn_agent",
      "arguments": {
        "task_name": "worker",
        "message": "<ciphertext>"
      }
    }
    ```
    
    Codex stores the task as encrypted inter-agent communication:
    
    ```json
    {
      "author": "/root",
      "recipient": "/root/worker",
      "content": "",
      "encrypted_content": "<ciphertext>",
      "trigger_turn": true
    }
    ```
    
    When Codex builds the recipient request, it forwards the ciphertext
    using the new Responses input item:
    
    ```json
    {
      "type": "agent_message",
      "author": "/root",
      "recipient": "/root/worker",
      "content": [
        {
          "type": "encrypted_content",
          "encrypted_content": "<ciphertext>"
        }
      ]
    }
    ```
    
    Responses decrypts that item internally for the recipient model.
    
    ## Context impact
    
    - Parent context no longer carries plaintext v2 agent task instructions
    from these tool arguments.
    - Codex rollout/history stores ciphertext for v2 agent instructions.
    - Recipient requests receive an `agent_message` item instead of
    assistant commentary JSON for encrypted task delivery.
    - Plaintext completion/status notifications are still plaintext because
    they are Codex-generated status messages, not encrypted model tool
    arguments.
    
    ## Validation
    
    - `just test -p codex-tools`
    - `just test -p codex-protocol`
    - `just test -p codex-rollout`
    - `just test -p codex-rollout-trace`
    - `just test -p codex-otel`
    - `just write-app-server-schema`
  • Propagate permission approval environment id (#25862)
    ## Stack
    
    1. #25850 - Key request-permission grants by environment: stores and
    applies sticky permission grants per environment id.
    2. #25858 - Add `environmentId` to `request_permissions`: lets the model
    target a selected environment and resolves relative permission paths
    against it.
    3. This PR (#25862) - Propagate permission approval environment id:
    carries the selected environment id through approval events, app-server
    requests, TUI prompts, and delegate forwarding.
    4. #25867 - Add remote request permissions integration coverage:
    verifies the selected remote environment across request, approval, grant
    reuse, and exec.
    
    This PR is stacked on #25858, and #25867 is stacked on this PR.
    
    ## Why
    
    PR2 lets the model bind a `request_permissions` call to a selected
    environment, but the approval event and client-facing request still
    needed to carry that binding. For CCA, the user-facing prompt and
    delegated approval path should know which environment the grant applies
    to instead of relying on cwd alone.
    
    ## What Changed
    
    - Added optional `environmentId` to `RequestPermissionsEvent`.
    - Emit the selected environment id from core permission approval events.
    - Preserve the environment id through delegate forwarding, including
    cwd-based delegated requests.
    - Added `environmentId` to app-server permission approval params,
    generated schema/TypeScript artifacts, and README examples.
    - Preserve and display the environment id in TUI permission approval
    prompts.
    - Updated focused core, app-server protocol, and TUI conversion
    coverage.
    
    ## Testing
    
    Not run locally per instruction. Performed read-only `git diff --check`.
  • Make deny canonical for filesystem permission entries (#23493)
    ## Why
    Filesystem permission profiles used `none` for deny-read entries, which
    is less direct than the action the entry actually represents. This
    change makes `deny` the canonical filesystem permission spelling while
    preserving compatibility for older configs that still send `none`.
    
    ## What changed
    - rename `FileSystemAccessMode::None` to `Deny`
    - serialize and generate schemas with `deny` as the canonical value
    - retain `none` only as a legacy input alias for temporary config
    compatibility
    - update filesystem glob diagnostics and regression coverage to use the
    canonical spelling
    - refresh config and app-server schema fixtures to match the new wire
    shape
    
    ## Validation
    - `cargo test -p codex-protocol`
    - `cargo test -p codex-app-server-protocol`
    - `cargo test -p codex-core config_toml_deserializes_permission_profiles
    --lib`
    - `cargo test -p codex-core
    read_write_glob_patterns_still_reject_non_subpath_globs --lib`
    
    Earlier in the session, a broad `cargo test -p codex-core` run reached
    unrelated pre-existing failures in timing/snapshot/git-info tests under
    this environment; the targeted surfaces touched by this PR passed
    cleanly.
  • [codex-analytics] plumb protocol-native review timing (#21434)
    ## Why
    
    We want terminal tool review analytics, but the reducer should not stamp
    review timing from its own wall clock.
    
    This PR plumbs review timing through the real protocol and app-server
    seams so downstream analytics can consume the emitter's timestamps
    directly. Guardian reviews keep their enriched `started_at` /
    `completed_at` analytics fields by deriving those legacy second-based
    values from the same protocol-native millisecond lifecycle timestamps,
    rather than sampling a separate analytics clock.
    
    ## What changed
    
    - add `started_at_ms` to user approval request payloads
    - add `started_at_ms` / `completed_at_ms` to guardian review
    notifications
    - preserve Guardian review `started_at` / `completed_at` enrichment from
    the protocol-native timing source
    - stamp typed `ServerResponse` analytics facts with app-server-observed
    `completed_at_ms`
    - thread the new timing fields through core, protocol, app-server, TUI,
    and analytics fixtures
    
    ## Verification
    
    - `cargo test -p codex-app-server outgoing_message --manifest-path
    codex-rs/Cargo.toml`
    - `cargo test -p codex-app-server-protocol guardian --manifest-path
    codex-rs/Cargo.toml`
    - `cargo test -p codex-tui guardian --manifest-path codex-rs/Cargo.toml`
    - `cargo test -p codex-analytics analytics_client_tests --manifest-path
    codex-rs/Cargo.toml`
    
    ---
    [//]: # (BEGIN SAPLING FOOTER)
    Stack created with [Sapling](https://sapling-scm.com). Best reviewed
    with [ReviewStack](https://reviewstack.dev/openai/codex/pull/21434).
    * #18748
    * __->__ #21434
    * #18747
    * #17090
    * #17089
    * #20514
  • permissions: remove cwd special path (#19841)
    ## Why
    
    The experimental `PermissionProfile` API had both `:cwd` and
    `:project_roots` special filesystem paths, which made the permission
    root ambiguous. This PR removes the unstable `current_working_directory`
    special path before the permissions API is stabilized, so callers use
    `:project_roots` for symbolic project-root access.
    
    ## What changed
    
    - Removes `FileSystemSpecialPath::CurrentWorkingDirectory` from protocol
    and app-server protocol models, plus regenerated app-server
    JSON/TypeScript schemas.
    - Replaces internal `:cwd` permission entries with `:project_roots`
    entries.
    - Keeps the existing cwd-update behavior for legacy-shaped
    workspace-write profiles, while removing the deleted
    `CurrentWorkingDirectory` case from that compatibility path.
    - Keeps `PermissionProfile::workspace_write()` as the reusable symbolic
    workspace-write helper, with docs noting that `:project_roots` entries
    resolve at enforcement time.
    - Updates app-server docs/examples and approval UI labeling to stop
    advertising `:cwd` as a permission token.
    
    ## Compatibility
    
    Persisted rollout items may contain the old
    `{"kind":"current_working_directory"}` tag from earlier experimental
    `permissionProfile` snapshots. This PR keeps that tag as a
    deserialize-only alias for `ProjectRoots { subpath: None }`, while
    continuing to serialize only the new `project_roots` tag.
    
    ## Follow-up
    
    This PR intentionally does not introduce an explicit project-root set on
    `SessionConfiguration` or runtime sandbox resolution. Today, the
    resolver still uses the active cwd as the single implicit project root.
    A follow-up should model project roots separately from tool cwd so
    `:project_roots` entries can resolve against the configured project
    roots, and resolve to no entries when there are no project roots.
    
    ## Verification
    
    - `cargo test -p codex-protocol permissions:: --lib`
    - `cargo test -p codex-app-server-protocol`
    - `cargo test -p codex-sandboxing -p codex-exec-server --lib`
    - `cargo test -p codex-core session_configuration_apply_ --lib`
    - `cargo test -p codex-app-server
    command_exec_permission_profile_project_roots_use_command_cwd --test
    all`
    - `cargo test -p codex-tui
    thread_read_session_state_does_not_reuse_primary_permission_profile
    --lib`
    - `cargo test -p codex-tui
    preset_matching_accepts_workspace_write_with_extra_roots --lib`
    - `cargo test -p codex-config --lib`
  • app-server: include filesystem entries in permission requests (#19086)
    ## Why
    
    `item/permissions/requestApproval` sends a requested permission profile
    to app-server clients. The core profile already stores filesystem
    permissions as `entries`, but the v2 compatibility conversion used the
    legacy `read`/`write` projection whenever possible and left `entries`
    unset.
    
    That made the request ambiguous for clients that consume the canonical
    v2 shape: `permissions.fileSystem.entries` was missing even though
    filesystem access was being requested. A client that rendered or echoed
    grants from `entries` could treat the request as having no filesystem
    permission entries, then return an empty or incomplete grant. The
    app-server intersects responses with the original request, so omitted
    filesystem permissions are denied.
    
    ## What Changed
    
    - Populate `AdditionalFileSystemPermissions.entries` when converting
    legacy read/write roots for request permission payloads, while
    preserving `read` and `write` for compatibility.
    - Mark `read` and `write` as transitional schema fields in the generated
    app-server schema.
    - Add regression coverage for the v2 conversion, the app-server
    `item/permissions/requestApproval` round trip, and TUI app-server
    approval conversion expectations.
    - Refresh generated JSON and TypeScript schema fixtures.
    
    ## Verification
    
    - `just fmt`
    - `cargo test -p codex-app-server-protocol`
    - `cargo test -p codex-app-server request_permissions_round_trip`
    - `cargo test -p codex-tui
    converts_request_permissions_into_granted_permissions`
    - `cargo test -p codex-tui
    resolves_permissions_and_user_input_through_app_server_request_id`
  • sandboxing: intersect permission profiles semantically (#18275)
    ## Why
    
    Permission approval responses must not be able to grant more access than
    the tool requested. Moving this flow to `PermissionProfile` means the
    comparison must be profile-shaped instead of `SandboxPolicy`-shaped, and
    cwd-relative special paths such as `:cwd` and `:project_roots` must stay
    anchored to the turn that produced the request.
    
    ## What changed
    
    This implements semantic `PermissionProfile` intersection in
    `codex-sandboxing` for file-system and network permissions. The
    intersection accepts narrower path grants, rejects broader grants,
    preserves deny-read carve-outs and glob scan depth, and materializes
    cwd-dependent special-path grants to absolute paths before they can be
    recorded for reuse.
    
    The request-permissions response paths now use that intersection
    consistently. App-server captures the request turn cwd before waiting
    for the client response, includes that cwd in the v2 approval params,
    and core stores the requested profile plus cwd for direct TUI/client
    responses and Guardian decisions before recording turn- or
    session-scoped grants. The TUI app-server bridge now preserves the
    app-server request cwd when converting permission approval params into
    core events.
    
    ## Verification
    
    - `cargo test -p codex-sandboxing intersect_permission_profiles --
    --nocapture`
    - `cargo test -p codex-app-server request_permissions_response --
    --nocapture`
    - `cargo test -p codex-core
    request_permissions_response_materializes_session_cwd_grants_before_recording
    -- --nocapture`
    - `cargo check -p codex-tui --tests`
    - `cargo check --tests`
    - `cargo test -p codex-tui
    app_server_request_permissions_preserves_file_system_permissions`
  • protocol: preserve glob scan depth in permission profiles (#18713)
    ## Why
    
    #18274 made `PermissionProfile` the canonical file-system permissions
    shape, but the round-trip from `FileSystemSandboxPolicy` to
    `PermissionProfile` still dropped one piece of policy metadata:
    `glob_scan_max_depth`.
    
    That field is security-relevant for deny-read globs such as `**/*.env`.
    On Linux, bubblewrap sandbox construction uses it to bound unreadable
    glob expansion. If a profile copied from active runtime permissions
    loses this value and is submitted back as an override, the resulting
    `FileSystemSandboxPolicy` can behave differently even though the visible
    permission entries look equivalent.
    
    ## What changed
    
    - Add `glob_scan_max_depth` to protocol `FileSystemPermissions` and
    preserve it when converting to/from `FileSystemSandboxPolicy`.
    - Keep legacy `read`/`write` JSON for simple path-only permissions, but
    force canonical JSON when glob scan depth is present so the metadata is
    not silently dropped.
    - Carry `globScanMaxDepth` through app-server
    `AdditionalFileSystemPermissions`, generated JSON/TypeScript schemas,
    and app-server/TUI conversion call sites.
    - Preserve the metadata through sandboxing permission normalization,
    merging, and intersection.
    - Carry the merged scan depth into the effective
    `FileSystemSandboxPolicy` used for command execution, so bounded
    deny-read globs reach Linux bubblewrap materialization.
    
    ## Verification
    
    - `cargo test -p codex-sandboxing glob_scan -- --nocapture`
    - `cargo test -p codex-sandboxing policy_transforms -- --nocapture`
    - `just fix -p codex-sandboxing`
    
    
    
    
    
    ---
    [//]: # (BEGIN SAPLING FOOTER)
    Stack created with [Sapling](https://sapling-scm.com). Best reviewed
    with [ReviewStack](https://reviewstack.dev/openai/codex/pull/18713).
    * #18288
    * #18287
    * #18286
    * #18285
    * #18284
    * #18283
    * #18282
    * #18281
    * #18280
    * #18279
    * #18278
    * #18277
    * #18276
    * #18275
    * __->__ #18713
  • protocol: canonicalize file system permissions (#18274)
    ## Why
    
    `PermissionProfile` needs stable, canonical file-system semantics before
    it can become the primary runtime permissions abstraction. Without a
    canonical form, callers have to keep re-deriving legacy sandbox maps and
    profile comparisons remain lossy or order-dependent.
    
    ## What changed
    
    This adds canonicalization helpers for `FileSystemPermissions` and
    `PermissionProfile`, expands special paths into explicit sandbox
    entries, and updates permission request/conversion paths to consume
    those canonical entries. It also tightens the legacy bridge so root-wide
    write profiles with narrower carveouts are not silently projected as
    full-disk legacy access.
    
    ## Verification
    
    - `cargo test -p codex-protocol
    root_write_with_read_only_child_is_not_full_disk_write -- --nocapture`
    - `cargo test -p codex-sandboxing permission -- --nocapture`
    - `cargo test -p codex-tui permissions -- --nocapture`
  • feat: Add additional macOS Sandbox Permissions for Launch Services, Contacts, Reminders (#14155)
    Add additional macOS Sandbox Permissions levers for the following:
    
    - Launch Services
    - Contacts
    - Reminders
  • Add request permissions tool (#13092)
    Adds a built-in `request_permissions` tool and wires it through the
    Codex core, protocol, and app-server layers so a running turn can ask
    the client for additional permissions instead of relying on a static
    session policy.
    
    The new flow emits a `RequestPermissions` event from core, tracks the
    pending request by call ID, forwards it through app-server v2 as an
    `item/permissions/requestApproval` request, and resumes the tool call
    once the client returns an approved subset of the requested permission
    profile.