## Why
The app-server thread lifecycle API should no longer expose the full
`PermissionProfile` value. After the permissions-profile migration,
clients should round-trip only the active profile identity through
`activePermissionProfile` and `permissions` when that identity is known.
The full profile is server-side config. Treating a response-derived
legacy sandbox projection as a new local profile can lose named-profile
restrictions and accidentally widen permissions on the next turn. The
legacy `sandbox` response field remains only as the
compatibility/display fallback.
## What Changed
- Removed `permissionProfile` from `ThreadStartResponse`,
`ThreadResumeResponse`, and `ThreadForkResponse`.
- Stopped populating that field in app-server thread start/resume/fork
responses.
- Updated embedded exec/TUI response mapping to derive display
permission state from local config or the legacy sandbox fallback
instead of a response profile value.
- Added a TUI turn override shape that distinguishes preserving server
permissions, selecting an active profile id, and sending a legacy
sandbox for an explicit local override.
- Preserved remote app-server permissions across turns by sending
`permissions` only when an `activePermissionProfile` id is known, and
otherwise sending no sandbox override unless the user selected a local
override.
- Kept embedded `thread/resume` hydration server-authored when
`activePermissionProfile` is absent, which matches the live-thread
attach path where the server ignores requested overrides.
- Updated the app-server README to remove the obsolete lifecycle
response `permissionProfile` reference. The remaining
`permissionProfile` README references are request-side permission
overrides.
- Regenerated app-server JSON schema and TypeScript fixtures.
- Kept the generated typed response enum exempt from
`large_enum_variant`, matching the existing payload enum exemption after
the lifecycle response variants shrank.
## How To Review
Start with `codex-rs/app-server-protocol/src/protocol/v2/thread.rs` to
confirm the response shape, then check the response construction in
`codex-rs/app-server/src/request_processors`. The generated schema and
TypeScript fixture changes are mechanical follow-through from the
protocol removal.
The TUI behavior is the delicate part: review
`codex-rs/tui/src/app_server_session.rs` for response hydration and
turn-start override projection, then
`codex-rs/tui/src/app/thread_routing.rs` for the decision about whether
the next turn should preserve the server snapshot, send an active
profile id, or send a legacy sandbox for an explicit local override.
## Verification
- `just write-app-server-schema`
- `cargo test -p codex-app-server-protocol
thread_lifecycle_responses_default_missing_optional_fields`
- `cargo test -p codex-exec
session_configured_from_thread_response_uses_permission_profile_from_config`
- `cargo test -p codex-tui --lib thread_response`
- `cargo test -p codex-tui turn_permissions_`
- `cargo test -p codex-tui
resume_response_restores_turns_from_thread_items`
- `cargo test -p codex-analytics
track_response_only_enqueues_analytics_relevant_responses`
- `just fix -p codex-analytics`
- `just fix -p codex-app-server-protocol`
- `just fix -p codex-tui`
- `just argument-comment-lint`
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/openai/codex/pull/22792).
* #22795
* __->__ #22792
## Why
Memory prompt injection should be owned by the extension path that
app-server composes at runtime, not by an inlined special case inside
`codex-core`. This keeps `codex-core` focused on session orchestration
while allowing the memories extension to own its app-server prompt
behavior.
## What Changed
- Registers `codex-memories-extension` in the app-server extension
registry.
- Moves the memory developer-instruction injection out of
`core/src/session/mod.rs` and into the memories extension prompt
contributor.
- Adds config-change handling so the extension keeps its per-thread
memory settings in sync after startup.
- Leaves memories read/retrieval tools unregistered for now so this PR
only changes prompt injection.
- Removes the stale `cargo-shear` ignore now that app-server depends on
the extension crate.
## Validation
Not run locally; validation is left to CI.
## Why
This PR builds on [#22610](https://github.com/openai/codex/pull/22610)
and is the app-server side of the migration from mutable per-turn
`SandboxPolicy` replacement toward selecting immutable permission
profiles by id plus mutable runtime workspace roots.
Once permission profiles can carry their own immutable
`workspace_roots`, app-server no longer needs to mutate the selected
`PermissionProfile` just to represent thread-specific filesystem
context. The mutable part now lives on the thread as explicit
`runtimeWorkspaceRoots`, while `:workspace_roots` remains symbolic until
the sandbox is realized for a turn.
## What Changed
- Replaced the v2 permission-selection wrapper surface with plain
profile ids for `thread/start`, `thread/resume`, `thread/fork`, and
`turn/start`.
- Removed the API surface for profile modifications
(`PermissionProfileSelectionParams`,
`PermissionProfileModificationParams`,
`ActivePermissionProfileModification`).
- Added experimental `runtimeWorkspaceRoots` fields to the thread
lifecycle and turn-start APIs.
- Threaded runtime workspace roots through core session/thread
snapshots, turn overrides, app-server request handling, and command
execution permission resolution.
- Kept session permission state symbolic so later runtime root updates
and cwd-only implicit-root retargeting rebind `:workspace_roots`
correctly.
- Updated the embedded clients just enough to send and restore the new
thread state.
- Refreshed the generated schema/TypeScript artifacts and the app-server
README to match the new contract.
## Verification
Targeted coverage for this layer lives in:
- `codex-rs/app-server-protocol/src/protocol/v2/tests.rs`
- `codex-rs/app-server/tests/suite/v2/thread_start.rs`
- `codex-rs/app-server/tests/suite/v2/thread_resume.rs`
- `codex-rs/app-server/tests/suite/v2/turn_start.rs`
- `codex-rs/core/src/session/tests.rs`
The key regression checks exercise that:
- `runtimeWorkspaceRoots` resolve against the effective cwd on thread
start.
- Profile-declared workspace roots are excluded from the runtime
workspace roots returned by app-server.
- A turn-level runtime workspace-root update persists onto the thread
and is returned by `thread/resume`.
- A named permission profile selected on one turn remains symbolic so a
later runtime-root-only turn update changes the actual sandbox writes.
- A cwd-only turn update retargets the implicit runtime cwd root while
preserving additional runtime roots.
- The protocol fixtures and generated client artifacts stay in sync with
the string-based permission selection contract.
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/openai/codex/pull/22611).
* #22612
* __->__ #22611
## Summary
- reserve an explicit opaque `desktop` namespace in `ConfigToml`
- expose `desktop` directly in the app-server v2 `config/read` response
- keep `config/value/write` and `config/batchWrite` as the only mutation
seam for paths like `desktop.someKey`
- regenerate the config/app-server schema outputs and document the new
contract
## Why
The desktop settings work wants one durable, user-editable home for
app-owned preferences in `~/.codex/config.toml`, without forcing Rust to
model every individual desktop setting key.
This PR is only the enabling Rust/app-server layer. It gives the
Electron app a first-class config namespace it can read and write
through the existing config APIs, while leaving the actual desktop
migration to the app PR.
## Behavior and design notes
- **Opaque but explicit:** `desktop` is first-class at the typed config
root, while its children remain app-owned and open-ended.
- **Strict validation still works:** arbitrary nested `desktop.*` keys
are accepted instead of being rejected as unknown config.
- **Existing config APIs stay the seam:** `config/read` returns the bag,
and dotted writes such as `desktop.someKey` continue to flow through
`config/value/write` / `config/batchWrite` rather than a bespoke RPC.
- **No new consumer behavior:** Core/TUI do not start depending on
desktop preferences. This only preserves and exposes the namespace for
callers that intentionally use it.
- **Same persistence machinery:** hand-edited `config.toml` keeps using
the existing TOML edit/write path; this PR does not introduce a second
serializer or side channel.
- **TOML-friendly values:** the namespace is intended for ordinary
JSON-shaped setting values that map cleanly into TOML: strings, numbers,
booleans, arrays, and nested object/table values. This PR does not add
special handling for TOML-only edge cases such as datetimes.
## Layering semantics
Reads keep using the ordinary effective config pipeline, so `desktop`
participates in the same layered `config/read` behavior as the rest of
`ConfigToml`. Writes still target user config through the existing
config service.
## Why this is the shape
The alternative would be teaching Rust about each desktop setting as it
is added. That would make ordinary app preferences into a cross-repo
change, which is exactly the coupling we want to avoid.
This keeps the contract small:
1. Rust owns one opaque `desktop` namespace in `config.toml`.
2. The desktop app owns the schema and meaning of individual keys inside
it.
3. The existing config APIs remain the transport and mutation surface.
That is the piece the desktop settings PR needs in order to move forward
cleanly.
## Verification
- `cargo test -p codex-config strict_config_accepts_opaque_desktop_keys`
- `cargo test -p codex-core
desktop_toml_round_trips_opaque_nested_values`
- `cargo test -p codex-core config_schema_matches_fixture`
- `cargo test -p codex-app-server-protocol`
- `cargo test -p codex-app-server --test all desktop_settings`
## Why
This PR is the invariant-cleanup layer that follows the workspace-roots
base merged in [#22610](https://github.com/openai/codex/pull/22610).
#22610 adds `[permissions.<id>.workspace_roots]` and keeps runtime
workspace roots separate from the raw permission profile, but its
in-memory representation is intentionally transitional: `Permissions`
still carries the selected profile identity next to a constrained
`PermissionProfile`. That makes APIs such as
`set_constrained_permission_profile_with_active_profile()` fragile
because the id and value only mean the right thing when every caller
keeps them in sync.
This PR introduces a single resolved profile state so profile identity,
`extends`, the profile value, and profile-declared workspace roots
travel together. The next PR,
[#22611](https://github.com/openai/codex/pull/22611), builds on this by
changing the app-server turn API to select permission profiles by id
plus runtime workspace roots.
## Stack Context
- #22610, now merged: adds profile-declared `workspace_roots`, runtime
workspace roots, and `:workspace_roots` materialization.
- This PR: replaces the parallel active-profile/profile-value fields
with `PermissionProfileState`.
- #22611: switches app-server turn updates toward profile ids plus
runtime workspace roots.
- #22612: updates TUI/exec summaries to show the effective workspace
roots.
Keeping this separate from #22611 is deliberate: reviewers can validate
the internal state invariant before reviewing the app-server protocol
migration.
## What Changed
- Added `ResolvedPermissionProfile::{Legacy, BuiltIn, Named}` and
`PermissionProfileState`.
- Typed built-in profile ids with `BuiltInPermissionProfileId`.
- Moved selected profile identity and profile-declared workspace roots
into the resolved state.
- Replaced `Permissions` parallel profile fields with one
`permission_profile_state`.
- Removed `set_constrained_permission_profile_with_active_profile()`
from session sync paths.
- Kept trusted session replay/`SessionConfigured` compatibility through
explicit session snapshot helpers.
- Updated session configuration, MCP initialization, app-server, exec,
TUI, and guardian call sites to consume `&PermissionProfile` directly.
## Review Guide
Start with `codex-rs/core/src/config/resolved_permission_profile.rs`; it
is the new invariant boundary. Then review
`codex-rs/core/src/config/mod.rs` to see how config loading records
active profile identity and profile workspace roots. The remaining
call-site changes are mostly mechanical fallout from
`Permissions::permission_profile()` returning `&PermissionProfile`
instead of `&Constrained<PermissionProfile>`.
## Verification
The existing config/session coverage now constructs and asserts through
`PermissionProfileState`. The workspace-root config test also asserts
that profile-declared roots are preserved in the resolved state, which
is the behavior #22611 relies on when runtime roots become mutable
through the app-server API.
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/openai/codex/pull/22683).
* #22612
* #22611
* __->__ #22683
## Why
This is the configuration/model half of the alternative permissions
migration we discussed as a comparison point for
[#22401](https://github.com/openai/codex/pull/22401) and
[#22402](https://github.com/openai/codex/pull/22402).
The old `workspace-write` model mixes three concerns that we want to
keep separate:
- reusable profile rules that should stay immutable once selected
- user/runtime workspace roots from `cwd`, `--add-dir`, and legacy
workspace-write config
- internal Codex writable roots such as memories, which should not be
shown as user workspace roots
This PR gives permission profiles first-class `workspace_roots` so users
can opt multiple repositories into the same `:workspace_roots` rules
without using broad absolute-path write grants. It also starts
separating the raw selected profile from the effective runtime profile
by making `Permissions` expose explicit accessors instead of public
mutable fields.
A representative `config.toml` looks like this:
```toml
default_permissions = "dev"
[permissions.dev.workspace_roots]
"~/code/openai" = true
"~/code/developers-website" = true
[permissions.dev.filesystem.":workspace_roots"]
"." = "write"
".codex" = "read"
".git" = "read"
".vscode" = "read"
```
If Codex starts in `~/code/codex` with that profile selected, the
effective workspace-root set becomes:
- `~/code/codex` from the runtime `cwd`
- `~/code/openai` from the profile
- `~/code/developers-website` from the profile
The `:workspace_roots` rules are materialized across each root, so
`.git`, `.codex`, and `.vscode` stay scoped the same way everywhere.
Runtime additions such as `--add-dir` can still layer on later stack
entries without mutating the selected profile.
## Stack Shape
This PR intentionally stops before the profile-identity cleanup in
[#22683](https://github.com/openai/codex/pull/22683) so the base review
stays focused on config loading, workspace-root materialization, and
compatibility with legacy `workspace-write`.
The representation in this PR is therefore transitional: `Permissions`
carries enough state to distinguish the raw constrained profile from the
effective runtime profile, and there are still call sites that must keep
the active profile identity and constrained profile value in sync. The
follow-up PR replaces that with a single resolved profile state
(`ResolvedPermissionProfile` / `PermissionProfileState`) that keeps the
profile id, immutable `PermissionProfile`, and profile-declared
workspace roots together. That follow-up removes APIs such as
`set_constrained_permission_profile_with_active_profile()` where
separate arguments could drift out of sync.
Downstream PRs then build on this base to switch app-server turn updates
to profile ids plus runtime workspace roots and to finish the
user-visible summary behavior. Reviewers should judge this PR as the
workspace-roots foundation, not as the final in-memory shape of selected
permission profiles.
## Review Guide
Suggested review order:
1. Start with `codex-rs/core/src/config/mod.rs`.
This is the main shape change in the base slice. `Permissions` now
stores a private raw `Constrained<PermissionProfile>` plus runtime
`workspace_roots`. Callers use `permission_profile()` when they need the
raw constrained value and `effective_permission_profile()` when they
need a materialized runtime profile. As noted above,
[#22683](https://github.com/openai/codex/pull/22683) replaces this
transitional shape with a resolved profile state that keeps identity and
profile data together.
2. Review `codex-rs/config/src/permissions_toml.rs` and
`codex-rs/core/src/config/permissions.rs`.
These add `[permissions.<id>.workspace_roots]`, resolve enabled entries
relative to the policy cwd, and keep `:workspace_roots` deny-read glob
patterns symbolic until the actual roots are known.
3. Review `codex-rs/protocol/src/permissions.rs` and
`codex-rs/protocol/src/models.rs`.
These add the policy/profile materialization helpers that expand exact
`:workspace_roots` entries and scoped deny-read globs over every
workspace root. This is also where `ActivePermissionProfileModification`
is removed from the core model.
4. Review the legacy bridge in
`Config::load_from_base_config_with_overrides` and
`Config::set_legacy_sandbox_policy`.
This is where legacy `workspace-write` roots become runtime workspace
roots, while Codex internal writable roots stay internal and do not
appear as user-facing workspace roots.
5. Then skim downstream call sites.
The interesting pattern is raw-vs-effective access: state/proxy/bwrap
paths keep the raw constrained profile, while execution, summaries, and
user-visible status use the effective profile and workspace-root list.
## What Changed
- added `[permissions.<id>.workspace_roots]` to the config model and
schema
- added runtime `workspace_roots` state to `Config`/`Permissions` and
`ConfigOverrides`
- made `Permissions` profile fields private and replaced direct mutation
with accessors/setters
- added `PermissionProfile` and `FileSystemSandboxPolicy` helpers for
materializing `:workspace_roots` exact paths and deny-read globs across
all roots
- moved legacy additional writable roots into runtime workspace-root
state instead of active profile modifications
- removed `ActivePermissionProfileModification` and its app-server
protocol/schema export
- updated sandbox/status summary paths so internal writable roots are
not reported as user workspace roots
## Verification Strategy
The targeted tests cover the behavior at the layers where regressions
are most likely:
- `codex-rs/core/src/config/config_tests.rs` verifies config loading,
legacy workspace-root seeding, effective profile materialization, and
memory-root handling.
- `codex-rs/core/src/config/permissions_tests.rs` verifies profile
`workspace_roots` parsing and `:workspace_roots` scoped/glob
compilation.
- `codex-rs/protocol/src/permissions.rs` unit tests verify exact and
glob materialization over multiple workspace roots.
- `codex-rs/tui/src/status/tests.rs` and
`codex-rs/utils/sandbox-summary/src/sandbox_summary.rs` verify the
user-facing summaries show effective workspace roots and hide internal
writes.
I also ran `cargo check --tests` locally after the latest stack refresh
to catch cross-crate API breakage from the private-field/accessor
changes.
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/openai/codex/pull/22610).
* #22612
* #22611
* #22683
* __->__ #22610
## Summary
Removes the feature since this is effectively on by default in all cases
where we should use it, or can be configured via models.json.
## Testing
- [x] unit tests pass
## Summary
This change lets `forced_chatgpt_workspace_id` accept multiple workspace
IDs instead of a single value.
It keeps the existing config key name, adds backward-compatible parsing
for a single string in `config.toml`, and normalizes the setting into an
allowed workspace list across login enforcement, app-server config
surfaces, and local ChatGPT auth helpers.
## Why
Workspace-restricted deployments may need to allow more than one ChatGPT
workspace without dropping the guardrail entirely.
## Server-side impact
Codex's local server and app-server protocol needed changes because they
previously assumed a single workspace ID. The local login flow now
matches the auth backend interface by sending the allowed workspace list
as a single comma-separated `allowed_workspace_id` query parameter.
## Validation
This was tested with:
- A single workspace config
- With multi-workspace configs
- With multiple workspaces in the config
- The user only being a part of a subset of them
All were successful.
Automated coverage:
- `cargo test -p codex-login`
- `cargo test -p codex-app-server-protocol`
- `cargo test -p codex-tui local_chatgpt_auth`
- `cargo test --locked -p codex-app-server
login_account_chatgpt_includes_forced_workspace_allowlist_query_param`
## Why
Some MCP OAuth providers require a pre-registered public client ID and
cannot rely on dynamic client registration. Codex already supports MCP
OAuth, but it had no way to supply that client ID from config into the
PKCE flow.
## What changed
- add `oauth.client_id` under `[mcp_servers.<server>]` config, including
config editing and schema generation
- thread the configured client ID through CLI, app-server, plugin login,
and MCP skill dependency OAuth entrypoints
- configure RMCP authorization with the explicit client when present,
while preserving the existing dynamic-registration path when it is
absent
- add focused coverage for config parsing/serialization and OAuth URL
generation
## Verification
- `cargo test -p codex-config -p codex-rmcp-client -p codex-mcp -p
codex-core-plugins`
- `cargo test -p codex-core blocking_replace_mcp_servers_round_trips
--lib`
- `cargo test -p codex-core
replace_mcp_servers_streamable_http_serializes_oauth_resource --lib`
- `cargo test -p codex-core config_schema_matches_fixture --lib`
## Notes
Broader local package runs still hit unrelated pre-existing stack
overflows in:
- `codex-app-server::in_process_start_clamps_zero_channel_capacity`
-
`codex-core::resume_agent_from_rollout_uses_edge_data_when_descendant_metadata_source_is_stale`
## Summary
- For SIWC users, update the model list merging logic to prefer the
model list fetched from the backend over the bundled model list (this is
needed for special cases where users have a more limited set of models
they're allowed to use)
- Add or update tests covering the revised cache behavior
## Testing
- Added/updated unit tests in
`codex-rs/models-manager/src/manager_tests.rs`
- Not run (not requested)
## Why
Some sandboxed integration tests enabled both ambient temp roots
(`TMPDIR` and literal `/tmp`) even though they were not testing
temp-root behavior. On Linux bwrap, making `/tmp` writable causes
protected metadata mount targets such as `/tmp/.git`, `/tmp/.agents`,
and `/tmp/.codex` to be synthesized. If a run is interrupted, those
top-level markers can be left behind and contaminate later tests.
## What changed
For the incidental integration tests that do not need ambient temp-root
access, set `exclude_tmpdir_env_var` and `exclude_slash_tmp` to `true`.
Dedicated protected-metadata coverage remains in the lower-level sandbox
tests that use isolated temp roots.
## Verification
Focused remote devbox repros passed with a watcher polling `/tmp/.git`,
`/tmp/.agents`, and `/tmp/.codex`; no leaked markers were observed.
## Why
This is a small precursor to the larger permissions-migration work. Both
the comparison stack in
[#22401](https://github.com/openai/codex/pull/22401) /
[#22402](https://github.com/openai/codex/pull/22402) and the alternate
stack in [#22610](https://github.com/openai/codex/pull/22610) /
[#22611](https://github.com/openai/codex/pull/22611) /
[#22612](https://github.com/openai/codex/pull/22612) are easier to
review if the terminology is already settled underneath them.
Because `:project_roots` and `:danger-no-sandbox` have not shipped as
stable user-facing surface area, carrying them forward as aliases would
just add more migration logic to the later stacks. This PR removes that
ambiguity now so the follow-on work can rely on one spelling for each
built-in concept.
## What Changed
- renamed the config-facing special filesystem key from `:project_roots`
to `:workspace_roots`
- dropped unpublished `:project_roots` parsing support in
`core/src/config/permissions.rs`, so new config only recognizes
`:workspace_roots`
- renamed the built-in full-access permission profile id from
`:danger-no-sandbox` to `:danger-full-access`
- dropped unpublished `:danger-no-sandbox` support entirely, including
the old active-profile canonicalization path, and added explicit
rejection coverage for the legacy id
- introduced shared built-in permission-profile id constants in
`codex-rs/protocol/src/models.rs`
- updated `core`, `app-server`, and `tui` call sites that special-case
built-in profiles to use the shared constants and canonical ids
- updated tests and the Linux sandbox README to use `:workspace_roots` /
`:danger-full-access`
## Verification
I focused verification on the three places this rename can regress:
config parsing, active-profile identity surfaced back out of `core`, and
user/server call sites that special-case built-in profiles.
Targeted checks:
-
`config::tests::default_permissions_can_select_builtin_profile_without_permissions_table`
-
`config::tests::default_permissions_read_only_applies_additional_writable_roots_as_modifications`
-
`config::tests::default_permissions_can_select_builtin_full_access_profile`
- `config::tests::legacy_danger_no_sandbox_is_rejected`
- `workspace_root` filtered `codex-core` tests
-
`request_processors::thread_processor::thread_processor_tests::thread_processor_behavior_tests::requested_permissions_trust_project_uses_permission_profile_intent`
-
`suite::v2::turn_start::turn_start_rejects_invalid_permission_selection_before_starting_turn`
- `status::tests::status_snapshot_shows_auto_review_permissions`
-
`status::tests::status_permissions_full_disk_managed_with_network_is_danger_full_access`
-
`app_server_session::tests::embedded_turn_permissions_use_active_profile_selection`
## 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>
## Summary
- Allow remote installed-plugin cache refresh to start whenever plugins
are enabled.
- Allow remote installed-plugin bundle sync to start whenever plugins
are enabled.
- Remove the extra local `remote_plugin_enabled` guard from those
background sync paths.
## Context
Server-side installed plugin state and optional bundle URL behavior are
owned by plugin-service `/public/plugins/installed`, so these local sync
paths only need the overall plugin enablement gate.
## Test plan
- `just fmt`
- `cargo test -p codex-core-plugins`
## Why
reapplies https://github.com/openai/codex/pull/22386 which was
previously reverted
Also, introduce `remoteControl/enable` and `remoteControl/disable`
app-server APIs to toggle on/off remote control at runtime for a given
running app-server instance.
## What Changed
- Adds experimental v2 RPCs:
- `remoteControl/enable`
- `remoteControl/disable`
- Adds `RemoteControlRequestProcessor` and routes the new RPCs through
it instead of `ConfigRequestProcessor`.
- Adds named `RemoteControlHandle::enable`, `disable`, and `status`
methods.
- Makes `remoteControl/enable` return an error when sqlite state DB is
unavailable, while keeping enrollment/websocket failures as async status
updates.
- Adds `AppServerRuntimeOptions.remote_control_enabled` and hidden
`--remote-control` flags for `codex app-server` and `codex-app-server`.
- Updates managed daemon startup to use `codex app-server
--remote-control --listen unix://`.
- Marks `Feature::RemoteControl` as removed and ignores
`[features].remote_control`.
- Updates app-server README entries for the new remote-control methods.
All apps must be able to open the db to proceed -- codex is having
issues with manufacturing new installation ids in local mode when the db
can't be opened for race conditions or any other reasons.
## Why
Users and support need a single command that captures the local Codex
runtime, configuration, auth, terminal, network, and state shape without
asking the user to know which diagnostic depth to choose first. `codex
doctor` now runs the useful checks by default and makes the detailed
human output the default because the command is usually run when someone
already needs context.
The command also targets concrete support failure modes we have seen
while iterating on the design:
- update-target mismatches like #21956, where the installed package
manager target can differ from the running executable
- terminal and multiplexer issues that depend on `TERM`, tmux/zellij
state, color handling, and TTY metadata
- provider-specific HTTP/WebSocket connectivity, including ChatGPT
WebSocket handshakes and API-key/provider endpoint reachability
- local state/log SQLite integrity problems and large rollout
directories
- feedback reports that need an attached, redacted diagnostic snapshot
without asking the user to run a second command
## What Changed
- Adds `codex doctor` as a grouped CLI diagnostic report with default
detailed output and `--summary` for the compact view.
- Adds stable report sections for Environment, Configuration, Updates,
Connectivity, and Background Server, plus a top Notes block that
promotes anomalies such as available updates, large rollout directories,
optional MCP issues, and mixed auth signals.
- Adds runtime provenance, install consistency, bundled/system search
readiness, terminal/multiplexer metadata, `config.toml` parse status,
auth mode details, sandbox details, feature flag summaries, update
cache/latest-version state, app-server daemon state, SQLite integrity
checks, rollout statistics, and provider-aware network diagnostics.
- Adds ChatGPT WebSocket diagnostics that report the negotiated HTTP
upgrade as `HTTP 101 Switching Protocols` and include timeout, DNS,
auth, and provider context in detailed output.
- Makes reachability provider-aware: API-key OpenAI setups check the API
endpoint, ChatGPT auth checks the ChatGPT path, and custom/AWS/local
providers check configured HTTP endpoints when available.
- Adds structured, redacted JSON output where `checks` is keyed by check
id and `details` is a key/value object for support tooling.
- Integrates doctor with feedback uploads by attaching a best-effort
`codex-doctor-report.json` report and adding derived Sentry tags for
overall status and failing/warning checks.
- Updates the TUI feedback consent copy so users can see that the doctor
report is included when logs/diagnostics are uploaded.
- Updates the CLI bug issue template to ask reporters for `codex doctor
--json` and render pasted reports as JSON.
## Example Output
The examples below are sanitized from local smoke runs with `--no-color`
so the structure is reviewable in plain text.
### `codex doctor`
```text
Codex Doctor v0.0.0 · macos-aarch64
Notes
↑ updates 0.130.0 available (current 0.0.0, dismissed 0.128.0)
⚠ rollouts 1,526 active files · 2.53 GB on disk
⚠ mcp MCP configuration has optional issues
⚠ auth mixed auth signals: ChatGPT login plus API key env var; HTTP reachability uses API-key mode
─────────────────────────────────────────────────────────────
Environment
✓ runtime local debug build
version 0.0.0
install method other
commit unknown
executable ~/code/codex.fcoury-doct…x-rs/target/debug/codex
✓ install consistent
context other
managed by npm: no · bun: no · package root —
PATH entries (2) ~/.local/share/mise/installs/node/24/bin/codex
~/.local/share/mise/shims/codex
✓ search ripgrep 15.1.0 (system, `rg`)
✓ terminal Ghostty 1.3.2-main-+b0f827665 · tmux 3.6a · TERM=xterm-256color
terminal Ghostty
TERM_PROGRAM ghostty
terminal version 1.3.2-main-+b0f827665
TERM xterm-256color
multiplexer tmux 3.6a
tmux extended-keys on
tmux allow-passthrough on
tmux set-clipboard on
✓ state databases healthy
CODEX_HOME ~/.codex (dir)
state DB ~/.codex/state_5.sqlite (file) · integrity ok
log DB ~/.codex/logs_2.sqlite (file) · integrity ok
active rollouts 1,526 files · 2.53 GB (avg 1.70 MB)
archived rollouts 8 files · 3.84 MB (avg 491.11 KB)
Configuration
✓ config loaded
model gpt-5.5 · openai
cwd ~/code/codex.fcoury-doctor/codex-rs
config.toml ~/.codex/config.toml
config.toml parse ok
MCP servers 1
feature flags 36 enabled · 7 overridden (full list with --all)
overrides code_mode, code_mode_only, memories, chronicle, goals, remote_control, prevent_idle_sleep
✓ auth auth is configured
auth storage mode File
auth file ~/.codex/auth.json
auth env vars present OPENAI_API_KEY
stored auth mode chatgpt
stored API key false
stored ChatGPT tokens true
stored agent identity false
⚠ mcp MCP configuration has optional issues — Set the missing MCP env vars or disable the affected server.
configured servers 1
disabled servers 0
streamable_http servers 1
optional reachability openaiDeveloperDocs: https://developers.openai.com/mcp (HEAD connect failed; GET connect failed)
✓ sandbox restricted fs + restricted network · approval OnRequest
approval policy OnRequest
filesystem sandbox restricted
network sandbox restricted
Connectivity
✓ network network-related environment looks readable
✓ websocket connected (HTTP 101 Switching Protocols) · 15s timeout
model provider openai
provider name OpenAI
wire API responses
supports websockets true
connect timeout 15000 ms
auth mode chatgpt
endpoint wss://chatgpt.com/backend-api/<redacted>
DNS 2 IPv4, 2 IPv6, first IPv6
handshake result HTTP 101 Switching Protocols
✗ reachability one or more required provider endpoints are unreachable over HTTP — Check proxy, VPN, firewall, DNS, and custom CA configuration.
reachability mode API key auth
openai API https://api.openai.com/v1 connect failed (required)
Background Server
○ app-server not running (ephemeral mode)
─────────────────────────────────────────────────────────────
11 ok · 1 idle · 4 notes · 1 warn · 1 fail failed
--summary compact output --all expand truncated lists
--json redacted report
```
### `codex doctor --summary`
```text
Codex Doctor v0.0.0 · macos-aarch64
Notes
↑ updates 0.130.0 available (current 0.0.0, dismissed 0.128.0)
⚠ rollouts 1,526 active files · 2.53 GB on disk
⚠ mcp MCP configuration has optional issues
⚠ auth mixed auth signals: ChatGPT login plus API key env var; HTTP reachability uses API-key mode
─────────────────────────────────────────────────────────────
Environment
✓ runtime local debug build
✓ install consistent
✓ search ripgrep 15.1.0 (system, `rg`)
✓ terminal Ghostty 1.3.2-main-+b0f827665 · tmux 3.6a · TERM=xterm-256color
✓ state databases healthy
Configuration
✓ config loaded
✓ auth auth is configured
⚠ mcp MCP configuration has optional issues — Set the missing MCP env vars or disable the affected server.
✓ sandbox restricted fs + restricted network · approval OnRequest
Updates
✓ updates update configuration is locally consistent
Connectivity
✓ network network-related environment looks readable
✓ websocket connected (HTTP 101 Switching Protocols) · 15s timeout
✗ reachability one or more required provider endpoints are unreachable over HTTP — Check proxy, VPN, firewall, DNS, and custom CA configuration.
Background Server
○ app-server not running (ephemeral mode)
─────────────────────────────────────────────────────────────
11 ok · 1 idle · 4 notes · 1 warn · 1 fail failed
Run codex doctor without --summary for detailed diagnostics.
--all expand truncated lists --json redacted report
```
### `codex doctor --json` shape
```json
{
"schema_version": 1,
"overall_status": "fail",
"checks": {
"runtime.provenance": {
"id": "runtime.provenance",
"category": "Environment",
"status": "ok",
"summary": "local debug build",
"details": {
"version": "0.0.0",
"install method": "other",
"commit": "unknown"
}
},
"sandbox.helpers": {
"id": "sandbox.helpers",
"category": "Configuration",
"status": "ok",
"summary": "restricted fs + restricted network · approval OnRequest",
"details": {
"approval policy": "OnRequest",
"filesystem sandbox": "restricted",
"network sandbox": "restricted"
}
}
}
}
```
### `/feedback` new sentry attachment
<img width="938" height="798" alt="CleanShot 2026-05-13 at 15 36 14"
src="https://github.com/user-attachments/assets/715e62e0-d7b4-4fea-a35a-fd5d5d33c4c0"
/>
### New section in CLI issue template
<img width="1164" height="435" alt="CleanShot 2026-05-13 at 15 47 24"
src="https://github.com/user-attachments/assets/9081dc25-a28c-4afa-8ba1-e299c2b4031d"
/>
## How to Test
1. Run `cargo run --bin codex -- doctor --no-color`.
2. Confirm the detailed report is the default and includes promoted
Notes, grouped sections, terminal details, state DB integrity, rollout
stats, provider reachability, WebSocket diagnostics, and app-server
status.
3. Run `cargo run --bin codex -- doctor --summary --no-color`.
4. Confirm the compact view keeps the same sections and summary counts
but omits detailed key/value rows.
5. Run `cargo run --bin codex -- doctor --json`.
6. Confirm the output is redacted JSON, `checks` is an object keyed by
check id, and each check's `details` is a key/value object.
7. Preview the CLI bug issue template and confirm the `Codex doctor
report` field appears after the terminal field, asks for `codex doctor
--json`, and renders pasted output as JSON.
8. Start a feedback flow that includes logs.
9. Confirm the upload consent copy lists `codex-doctor-report.json`
alongside the log attachments.
Targeted tests:
- `cargo test -p codex-cli doctor`
- `cargo test -p codex-app-server
doctor_report_tags_summarize_status_counts`
- `cargo test -p codex-feedback`
- `cargo test -p codex-tui feedback_view`
- `just argument-comment-lint`
- `git diff --check`
## Why
Remote control starts by letting `codex-backend` initialize against the
app-server as an infrastructure health/proxy client before the real
remote client connects. App-server initialization also sets the
process-wide `originator` from `client_info.name`, so `codex-backend`
could become the sticky originator for later model/API requests even
after the real client initialized.
## What changed
- Treat `codex-backend` as a non-originating initialize client,
alongside the existing `codex_app_server_daemon` probe client.
- Preserve normal per-connection initialize behavior, including session
metadata and initialize analytics.
- Add regression coverage that verifies `codex-backend` initialize does
not replace the default originator.
## Testing
- `cargo test -p codex-app-server --test all
initialize_codex_backend_does_not_override_originator`
## Summary
It appears this config flag has been broken/a noop for quite some time:
since https://github.com/openai/codex/pull/8850. Let's simplify and get
rid of this.
## Testing
- [x] Updated unit tests
## 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.
Adds plugin/share/checkout to turn a shared remote plugin into a local
working copy under ~/plugins/<name>.
Registers the copy in the managed personal marketplace and records the
remote-to-local mapping for later share/save flows.
---------
Co-authored-by: Codex <noreply@openai.com>
# Why
Hook trust happens through the TUI in `/hooks` so it can block
non-interactive use cases. This flag will allow users that are using
codex headlessly to bypass hooks when they want to.
# What
This adds one invocation-scoped escape hatch.
- the CLI flag sets a runtime-only `bypass_hook_trust` override; there
is no durable `config.toml` setting
- hook discovery still respects normal enablement, so explicitly
disabled hooks remain disabled
- we show a `--dangerously-bypass-hook-trust is enabled. Enabled hooks
may run without review for this invocation.` message on startup so
accidental use is visible in both interactive and exec flows
This keeps “enabled” and “trusted” as separate concepts in the normal
path, while giving CI/E2E callers a stable way to opt into the
exceptional path when they already control the hook set.
# 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.
- Keep shared-with-me as the plugin/list request kind, but return
private plugins under workspace-shared-with-me-private.
- Add workspace-shared-with-me-unlisted for installed workspace plugins
with UNLISTED discoverability,
## Why
Enterprise-managed hook policy needs a narrow way to require Codex to
ignore user-controlled lifecycle hooks without adopting the broader
trust-precedence model from earlier hook work. This keeps the policy
anchored in `requirements.toml`, so admins can opt into managed hooks
only while normal `config.toml` files cannot enable the restriction
themselves.
## What changed
- Added `allow_managed_hooks_only` to the requirements data flow and
preserved explicit `false` values.
- Also adds it to /debug-config
- Marked MDM, system, and legacy managed config layers as managed for
hook discovery.
- Updated hook discovery so `allow_managed_hooks_only = true`:
- keeps managed requirements hooks and managed config-layer hooks,
- skips user/project/session `hooks.json` and `[hooks]` entries with
concise startup warnings,
- skips current unmanaged plugin hooks,
- ignores any `allow_managed_hooks_only` key placed in ordinary
`config.toml` layers.
## Why
PR #21843 removed the TCP websocket app-server listener, but that also
removed functionality that still needs to exist. Restoring it as-is
would reopen the old remote exposure problem, so this keeps the restored
listener while making remote and non-loopback usage require explicit
auth.
## What Changed
- Mostly reverts #21843 and reapplies the small merge-conflict
resolutions needed on top of current main.
- Restores ws://IP:PORT parsing, the app-server TCP websocket acceptor,
websocket auth CLI flags, and the associated tests.
- The only intentional behavior change from the restored code is that
non-loopback websocket listeners now fail startup unless --ws-auth
capability-token or --ws-auth signed-bearer-token is configured.
Loopback listeners remain available for local and SSH-forwarding
workflows.
## Reviewer Focus
Please focus review on the small auth-enforcement delta layered on top
of the revert:
- codex-rs/app-server-transport/src/transport/websocket.rs:
start_websocket_acceptor now rejects unauthenticated non-loopback
websocket binds before accepting connections.
- codex-rs/app-server-transport/src/transport/auth.rs: helper logic
classifies unauthenticated non-loopback listeners.
- codex-rs/app-server/tests/suite/v2/connection_handling_websocket.rs:
tests cover unauthenticated ws://0.0.0.0 startup rejection and
authenticated non-loopback capability-token startup.
Everything else is intended to be revert/merge-conflict restoration
rather than new product behavior.
## Verification
- Manually verified that TUI remoting is restored and that auth is
enforced for non-localhost urls.
- Adds localVersion to plugin summaries and remoteVersion to share
context, including generated API schemas.
- Hydrates local and remote plugin versions from manifests and remote
release metadata.
- Adds default-on plugin_sharing gate for shared-with-me listing and
plugin/share/save, with disabled-path errors
and focused coverage.
## Why
`remote_control` can appear in `config.toml`, CLI feature overrides, and
the app-server config APIs. Before this PR, app-server startup treated
`config.features.enabled(Feature::RemoteControl)` as the signal to start
remote control ([base
code](5e3ee5eddf/codex-rs/app-server/src/lib.rs (L678-L680))).
That meant a user with:
```toml
[features]
remote_control = true
```
would accidentally opt every app-server process into remote control.
Remote-control startup should instead be a per-process launch decision
made by CLI flags.
## What Changed
- Marks `Feature::RemoteControl` as `Stage::Removed`, keeping
`remote_control` as a known compatibility key while making it
config-inert.
- Adds a hidden `--remote-control` process flag to `codex app-server`
and standalone `codex-app-server`.
- Plumbs that flag through
`AppServerRuntimeOptions.remote_control_enabled` and makes app-server
startup use only that runtime option to decide whether to start remote
control.
- Removes the app-server config mutation hook that reloaded config and
toggled remote control at runtime.
- Updates managed daemon spawning to use `codex app-server
--remote-control --listen unix://` instead of `--enable remote_control`.
Config APIs can still list, read, write, and set `remote_control`; those
operations just no longer affect remote-control process enrollment.
- make ThreadStore::update_thread_metadata accept a broad range of
metadata patches
- keep ThreadStore::append_items as raw canonical history append (no
metadata side effects)
- in the local store, write these metadata updates to a combination of
sqlite and rollout jsonl files for backwards-compat. It special cases
which fields need to go into jsonl vs sqlite vs whatever, confining the
awkwardness to just this implementation
- in remote stores we can simply persist the metadata directly to a
database, no special casing required.
- move the "implicit metadata updates triggered by appending rollout
items" from the RolloutRecorder (which is local-threadstore-specific) to
the LiveThread layer above the ThreadStore, inside of a private helper
utility called ThreadMetadataSync. LiveThread calls ThreadStore
append_items and update_metadata separately.
- Add a generic update metadata method to ThreadManager that works on
both live threads and "cold" threads
- Call that ThreadManager method from app server code, so app server
doesn't need to worry about whether the thread is live or not
Part 1 of guardian as extension. This bind all the logic to spawn
another agent from an extension and it adds `ThreadId` in the start
thread collaborator
Makes plugin summaries use config-style plugin@marketplace IDs while
exposing backend remote IDs separately as remotePluginId.
Also fix the consistency issue of REMOTE_SHARED_WITH_ME_MARKETPLACE_NAME
## Why
While investigating `codex exec hi` startup latency, the useful
questions were not "is startup slow?" but "which durable bucket is slow
in production?"
The path we observed has a few distinct stages:
1. `thread/start` creates the session
2. startup prewarm builds the turn context, tools, and prompt
3. startup prewarm warms the websocket
4. the first real turn resolves the prewarm
5. the model produces the first token
Before this PR, production telemetry had some of the raw measurements
already:
- aggregate startup-prewarm duration / age-at-first-turn metrics
- TTFT as a metric
- websocket request telemetry
But there was no coherent production event stream for the startup
breakdown itself, and TTFT was metric-only. That made it hard to answer
the same latency questions from OpenTelemetry-backed logs without adding
one-off local instrumentation.
## What changed
Add durable production telemetry on the existing `SessionTelemetry`
path:
- new `codex.startup_phase` OTel log/trace events plus
`codex.startup.phase.duration_ms`
- new `codex.turn_ttft` OTel log/trace events while preserving the
existing TTFT metric
The startup phase event is emitted for the coarse buckets we actually
observed while running `exec hi`:
- `thread_start_create_thread`
- `startup_prewarm_total`
- `startup_prewarm_create_turn_context`
- `startup_prewarm_build_tools`
- `startup_prewarm_build_prompt`
- `startup_prewarm_websocket_warmup`
- `startup_prewarm_resolve`
These phases are intentionally low-cardinality so they remain safe as
production telemetry tags.
## Why this shape
This keeps the instrumentation on the same production path as the rest
of the session telemetry instead of adding a local debug-only trace
mode. It also avoids changing startup behavior:
- prewarm still runs
- no control flow changes
- no extra remote calls
- no user-visible behavior changes
One boundary is intentional: very early process bootstrap that happens
before a session exists is not included here, because this PR uses
session-scoped production telemetry. The expensive buckets we were
trying to understand after `thread/start` are now covered durably.
## Verification
- `cargo test -p codex-otel`
- `cargo test -p codex-core turn_timing`
- `cargo test -p codex-core
regular_turn_emits_turn_started_without_waiting_for_startup_prewarm`
- `cargo test -p codex-core
interrupting_regular_turn_waiting_on_startup_prewarm_emits_turn_aborted`
- `cargo test -p codex-app-server thread_start`
- `just fix -p codex-otel -p codex-core -p codex-app-server`
I also ran `cargo test -p codex-core`; it built successfully and then
hit an existing unrelated stack overflow in
`tools::handlers::multi_agents::tests::tool_handlers_cascade_close_and_resume_and_keep_explicitly_closed_subtrees_closed`.
# Why
Managed hook configs need a shared cross-platform shape without making
the existing `command` field polymorphic. The common case is still one
command string, with Windows needing a different entrypoint only when
the runtime is actually Windows.
Keeping `command` as the portable/default path and adding an optional
Windows override keeps the config easier to read, preserves the existing
scalar shape for non-Windows users, and avoids forcing every caller into
a `{ unix, windows }` object when only one platform needs special
handling.
# What
- Add optional `command_windows` / `commandWindows` alongside the
existing hook `command` field.
- Resolve `command_windows` only on Windows during hook discovery; other
platforms continue to use `command` unchanged.
- Keep trust hashing aligned to the effective command selected for the
current runtime.
# Docs
The Codex hooks/config reference should document `command_windows` as
the Windows-only override for command hooks.
## Why
Review telemetry should describe reviews as first-class events, not only
as counters denormalized onto terminal tool-item events. That lets us
analyze guardian and user reviews consistently across command execution,
file changes, permissions, and network access, while still preserving
the terminal item summaries that existing tool analytics need.
To make those review events accurate, analytics also needs the observed
completion time for each review and enough command metadata to
distinguish `shell` from `unified_exec` reviews.
## What changed
- emit generic `codex_review_event` rows for completed user and guardian
reviews, with review subjects, reviewer, trigger, terminal status,
resolution, and observed duration
- reduce approval request / response / abort facts into review events
for command execution, file change, and permissions flows
- keep denormalized review counts, final approval outcome, and
permission-request flags on terminal tool-item events for
item-associated reviews
- plumb review completion timing so user-review responses and aborts use
app-server-observed completion times, while guardian analytics reuse the
same terminal timestamps emitted on guardian assessment events
- carry command approval `source` through the protocol and app-server
layers so review analytics can distinguish `shell` from `unified_exec`
- add analytics coverage for user-review emission, guardian-review
emission, permission reviews that should not denormalize onto tool
items, item-summary isolation across threads, and the serialized
review-event shape
## Verification
- `cargo test -p codex-analytics`
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/openai/codex/pull/18748).
* __->__ #18748
* #21434
* #18747
* #17090
* #17089
* #20514
## Summary
Remote clients can still receive large `thread/resume` histories when
prior turns include MCP tool call payloads or image-generation results.
This adds a temporary response-only redaction path for the known remote
client names.
Longer term we will move towards fully paginated APIs backed by SQLite.
## Changes
- Redact MCP tool call payload-bearing fields in `thread/resume`
responses for `codex_chatgpt_android_remote` and
`codex_chatgpt_ios_remote`.
- Drop `imageGeneration` items from those `thread/resume` responses.
- Keep redaction out of persisted rollout files, `thread/read`,
`thread/turns/list`, live notifications, and token usage replay.
- Cover the behavior with app-server helper tests and a v2 resume
integration test that checks both remote clients plus a non-target
control client.
## Testing
- `cargo test -p codex-app-server thread_resume_redaction`
- `cargo test -p codex-app-server
thread_resume_redacts_payloads_for_chatgpt_remote_clients`
This PR replaces the TUI’s file-only `@mention` popup with a unified
mentions experience. Typing `@...` now searches across filesystem
matches, installed plugins, and skills in one popup, with result types
clearly labeled and selectable from the same flow.
- Adds a unified `@mentions` popup that returns:
- plugins
- skills
- files
- directories
- Adds search modes so users can narrow the popup without changing their
query:
- All Results _(default/same as Codex App)_
- Filesystem Only
- Plugins _(...and skills)_
- Preserves existing insertion behavior:
- selected file paths are inserted into the prompt
- paths with spaces are quoted
- image file selections still attach as images when possible
- selecting a plugin or skill inserts the corresponding `$name`
- the composer records the canonical mention binding, such as
`plugin://...` or the skill path
- Expanded `@mentions` rendering:
- type tags for Plugin, Skill, File, and Dir
- distinct plugin/filesystem colors
- stable fixed-height layout (8 rows)
- truncation behavior for narrow terminals
Note:
- The unified mentions popup does not display app connectors under
`@mention` results for Codex App parity. Connector mentions remain
available through the existing `$mention` path.
https://github.com/user-attachments/assets/f93781ed-57d3-4cb5-9972-675bc5f3ef3f
## Summary
- add SQLite init, backfill-gate, and fallback telemetry without
introducing a cross-cutting state-db access wrapper
- install one process-scoped telemetry sink after OTEL startup and let
low-level state/rollout paths emit through it directly
- add process-start metrics for the process owners that initialize
SQLite
---------
Co-authored-by: Owen Lin <owen@openai.com>
## Why
Users have requested the ability to edit a goal's objective after a goal
has been created. This PR exposes a new `/goal edit` command in the TUI
to address this request.
In the process of implementing this, I also noticed an existing bug in
the goal runtime. When a goal's objective is updated through the
`thread/goal/set` app server API, the goal runtime didn't emit a new
steering prompt to tell the agent about the new objective. This PR also
fixes this hole.
## What Changed
- Adds `/goal edit` in the TUI, opening an edit box prefilled with the
current goal objective.
- Keeps active and paused goals in their current state, resets completed
goals to active, keeps budget-limited goals budget-limited, and
preserves the existing token budget.
- Changes the existing `thread/goal/set` behavior so editing an
objective preserves goal accounting instead of resetting it. The older
reset-on-new-objective behavior was left over from before
`thread/goal/clear`; clients that need to reset accounting can now clear
the existing goal and create a new one.
- Reuses the existing goal set API path; this does not add or change
app-server protocol surface area.
- Adds a dedicated goal runtime steering prompt when an externally
persisted goal mutation changes the objective, so active turns receive
the updated objective.
## Validation
- Make sure `/goal edit` returns an error if no goal currently exists
- Make sure `/goal edit` displays an edit box that can be optionally
canceled with no side effects
- Make sure that an edited goal results in a steer so the agent starts
pursuing the new objective
- Make sure the new objective is reflected in the goal if you use
`/goal` to display the goal summary
- Make sure that `/goal edit` doesn't reset the token budget, time/token
accounting on the updated goal
## Why
The app-server no longer needs to expose a TCP websocket listener.
Keeping that transport also kept around a separate listener/auth surface
that is unnecessary now that local clients can use stdio or the
Unix-domain control socket, while remote connectivity is handled by
`remote_control`.
## What Changed
- Removed `ws://IP:PORT` parsing and the `AppServerTransport::WebSocket`
startup path.
- Deleted the app-server websocket listener auth module and removed
related CLI flags/dependencies.
- Kept websocket framing only where it is still needed: over the
Unix-domain control socket and in the outbound `remote_control`
connection.
- Updated app-server CLI/help text and `app-server/README.md` to
document only `stdio://`, `unix://`, `unix://PATH`, and `off` for local
transports.
- Converted affected app-server integration coverage from TCP websocket
listeners to UDS-backed websocket connections, and added a parse test
that rejects `ws://` listen URLs.
- Removed the now-unused workspace `constant_time_eq` dependency and
refreshed `Cargo.lock` after `cargo shear` caught the drift.
- Moved test app-server UDS socket paths to short Unix temp paths so
macOS Bazel test sandboxes do not exceed Unix socket path limits.
## Verification
- Added/updated tests around UDS websocket transport behavior and
`ws://` listen URL rejection.
- `cargo shear`
- `cargo metadata --no-deps --format-version 1`
- `cargo test -p codex-app-server unix_socket_transport`
- `cargo test -p codex-app-server unix_socket_disconnect`
- `just fix -p codex-app-server`
- `git diff --check`
Local full Rust test execution was blocked before compilation by an
external fetch failure for the pinned `nornagon/crossterm` git
dependency. `just bazel-lock-update` and `just bazel-lock-check` were
retried after the manifest cleanup but remain blocked by external
BuildBuddy/V8 fetch timeouts.
Fixes#20792
## Why
`/goal`-first threads are valid resumable threads, but they can be
missing from `codex resume` and app recents because discovery depends on
metadata derived from a normal first user message.
PR #21489 attempted to fix this by using the goal objective as
`first_user_message`. Review feedback pointed out that
`first_user_message` does more than provide visible text today: it gates
listing, supplies preview text, and participates in deciding whether a
later title should surface as a distinct thread name. Reusing it for the
goal objective could leave a `/goal`-first thread with
`first_user_message=<goal>` and `title=<later prompt>`, even though the
goal should only provide the initial visible preview.
This PR follows that feedback by and keeps the `first_user_message` as
is but introduces a new `preview` field to separate concerns. The
`preview` field is populated from the first user message or the goal
objective. We can extend it in the future to include other sources.
## What Changed
- Added internal thread `preview` metadata in `codex-state`, including a
SQLite migration that backfills from `first_user_message` and from
existing `thread_goals` objectives when needed.
- Treated `ThreadGoalUpdated` as preview-bearing metadata so goal-first
threads can be listed and searched without mutating
`first_user_message`.
- Updated rollout listing, state queries, thread-store conversion, and
app-server mapping to use preview metadata while continuing to expose
the existing public `preview` field.
- Preserved title/name distinctness behavior around literal
`first_user_message`, so a later normal prompt after `/goal` does not
surface as a separate name just because the goal supplied the initial
preview.
- Preserved compatibility for older/internal metadata writes by deriving
preview from `first_user_message` when explicit preview metadata is
absent.
## Verification
- Manually verified that a thread that starts with a `/goal <objective>`
shows up in the resume picker.
## Why
Git commit attribution is prompt policy, not session orchestration.
After #21737 adds the extension-registry seam, this moves that
prompt-only behavior out of `codex-core` so `Session` can consume
extension-contributed prompt fragments instead of owning a one-off
policy path itself.
Before this PR, `Session` injected the trailer instruction directly from
`codex-core` ([session
assembly](a57a747eb6/codex-rs/core/src/session/mod.rs (L2733-L2739)),
[helper
module](a57a747eb6/codex-rs/core/src/commit_attribution.rs (L1-L33))).
This branch moves that same responsibility into
[`codex-git-attribution`](b5029a6736/codex-rs/ext/git-attribution/src/lib.rs (L14-L100)).
## What changed
- Added the `codex-git-attribution` extension crate.
- Snapshot `CodexGitCommit` plus `commit_attribution` at thread start,
then contribute the developer-policy fragment through the extension
registry.
- Register the extension in app-server thread extensions.
- Remove the old `codex-core` helper module and direct `Session`
injection path.
This keeps the existing behavior intact: the prompt is only contributed
when `CodexGitCommit` is enabled, blank attribution still disables the
trailer, and the default remains `Codex <noreply@openai.com>`.
## Stack
- Stacked on #21737.
## Why
[#21736](https://github.com/openai/codex/pull/21736) introduces the
typed extension API, but the runtime does not yet carry a registry
through thread/session startup or give contributors host-owned stores to
read from. This PR wires that host-side path so later feature migrations
can move product-specific behavior behind typed contributions without
adding another bespoke seam directly to `codex-core`.
## What changed
- Thread `ExtensionRegistry<Config>` through `ThreadManager`,
`CodexSpawnArgs`, `Session`, and sub-agent spawn paths.
- Wire `ThreadStartContributor` and `ContextContributor`
- Expose the small supporting surface needed by non-core callers that
construct threads directly, including `empty_extension_registry()`
through `codex-core-api`.
This PR lands the host plumbing only: the app-server registry is still
empty, and concrete feature migrations are intended to follow
separately.
## Summary
- Populate `plugin/list` interface metadata for installed Git-sourced
marketplace plugins from the active cached plugin bundle.
- Preserve marketplace category precedence so list behavior matches
`plugin/read`.
- Keep existing fallback behavior when the cache or manifest is missing
or invalid.
## Test Plan
- `cd codex-rs && just fmt`
- `cd codex-rs && cargo test -p codex-core-plugins
list_marketplaces_installed_git_source_reads_metadata_from_cache_without_cloning`
- `cd codex-rs && cargo test -p codex-app-server
plugin_list_returns_installed_git_source_interface_from_cache`
- `cd codex-rs && just fix -p codex-core-plugins`
- `cd codex-rs && just fix -p codex-app-server`
- `git diff --check`
Server-truth check: OpenAI monorepo app-server generated types already
expose `PluginSummary.interface`, and the webview consumes it for plugin
cards. This PR keeps the protocol/schema unchanged and fills the
existing field from the cached installed bundle for Git-backed
cross-repo plugins.
Expose discoverability and full share principals in share context, carry
roles through save/updateTargets, hydrate local shared plugin reads, and
keep share URLs only under plugin.shareContext.
