## Summary
- Promote `image_generation` from under-development to stable
- Enable image generation by default in the feature registry
- Update feature coverage for the new launch-state expectation
- Add the missing image-generation auth fixture field in a tool registry
test
## Testing
- `just fmt`
- `cargo test -p codex-features`
- `cargo test -p codex-tools` currently fails:
`test_full_toolset_specs_for_gpt5_codex_unified_exec_web_search` needs
its expected default tool list updated for `image_generation`
## Summary
- hide deferred MCP/app nested tool descriptions from the `exec` prompt
in code mode
- add short guidance that omitted nested tools are still available
through `ALL_TOOLS`
- cover the code_mode_only path with an integration test that discovers
and calls a deferred app tool
## Motivation
`code_mode_only` exposes only top-level `exec`/`wait`, but the `exec`
description could still include a large nested-tool reference. This
keeps deferred nested tools callable while avoiding that prompt bloat.
## Tests
- `just fmt`
- `just fix -p codex-code-mode`
- `just fix -p codex-tools`
- `cargo test -p codex-code-mode
exec_description_mentions_deferred_nested_tools_when_available`
- `cargo test -p codex-tools
create_code_mode_tool_matches_expected_spec`
- `cargo test -p codex-core
code_mode_only_guides_all_tools_search_and_calls_deferred_app_tools`
## Summary
- Promote `Feature::ToolSearch` to `Stable` and enable it in the default
feature set
- Update feature tests and tool registry coverage to match the new
default
- Adjust the search-tool integration test to assert the default-on path
and explicit disable fallback
## Testing
- `just fmt`
- `cargo test -p codex-features`
- `cargo test -p codex-core --test all search_tool`
- `cargo test -p codex-tools`
## Summary
- honor `_meta["codex/imageDetail"] == "original"` on MCP image content
and map it to `detail: "original"` where supported
- strip that detail back out when the active model does not support
original-detail image inputs
- update code-mode `image(...)` to accept individual MCP image blocks
- teach `js_repl` / `codex.emitImage(...)` to preserve the same hint
from raw MCP image outputs
- document the new `_meta` contract and add generic RMCP-backed coverage
across protocol, core, code-mode, and js_repl paths
## Summary
- Ensure direct namespaced MCP tool groups are emitted with a non-empty
namespace description even when namespace metadata is missing or blank.
- Add regression coverage for missing MCP namespace descriptions.
## Cause
Latest `main` can serialize a direct namespaced MCP tool group with an
empty top-level `description`. The namespace description path used
`unwrap_or_default()` when `tool_namespaces` did not include metadata
for that namespace, so the outbound Responses API payload could contain
a tool like `{"type":"namespace","description":""}`. The Responses API
rejects that because namespace tool descriptions must be a non-empty
string.
## Fix
- Add a fallback namespace description: `Tools in the <namespace>
namespace.`
- Preserve provided namespace descriptions after trimming, but treat
blank descriptions as missing.
### Issue I am seeing
This is what I am seeing on the local build.
<img width="1593" height="488" alt="Screenshot 2026-04-15 at 10 55 55
AM"
src="https://github.com/user-attachments/assets/bab668ba-bf17-4c71-be4e-b102202fce57"
/>
---------
Co-authored-by: Sayan Sisodiya <sayan@openai.com>
stacked on #17402.
MCP tools returned by `tool_search` (deferred tools) get registered in
our `ToolRegistry` with a different format than directly available
tools. this leads to two different ways of accessing MCP tools from our
tool catalog, only one of which works for each. fix this by registering
all MCP tools with the namespace format, since this info is already
available.
also, direct MCP tools are registered to responsesapi without a
namespace, while deferred MCP tools have a namespace. this means we can
receive MCP `FunctionCall`s in both formats from namespaces. fix this by
always registering MCP tools with namespace, regardless of deferral
status.
make code mode track `ToolName` provenance of tools so it can map the
literal JS function name string to the correct `ToolName` for
invocation, rather than supporting both in core.
this lets us unify to a single canonical `ToolName` representation for
each MCP tool and force everywhere to use that one, without supporting
fallbacks.
## Summary
This PR removes `image_detail_original` as a runtime experiment and
makes original image detail available whenever the selected model
supports it.
Concretely, this change:
- drops the `image_detail_original` feature flag from the feature
registry and generated config schema
- makes tool-emitted image detail depend only on
`ModelInfo.supports_image_detail_original`
- updates `view_image` and `code_mode`/`js_repl` image emission to use
that capability check directly
- removes now-redundant experiment-specific tests and instruction
coverage
- keeps backward compatibility for existing configs by silently ignoring
a stale `features.image_detail_original` entry
The net effect is that `detail: "original"` is always available on
supported models, without requiring an experiment toggle.
we used to alpha-sort tool search results because we were using
`BTreeMap`, which threw away the actual search result ordering.
Now we use a vec to preserve it.
### Tests
Updated tests
- [x] Expand tool search to custom MCPs.
- [x] Rename several variables/fields to be more generic.
Updated tool & server name lifecycles:
**Raw Identity**
ToolInfo.server_name is raw MCP server name.
ToolInfo.tool.name is raw MCP tool name.
MCP calls route back to raw via parse_tool_name() returning
(tool.server_name, tool.tool.name).
mcpServerStatus/list now groups by raw server and keys tools by
Tool.name: mod.rs:599
App-server just forwards that grouped raw snapshot:
codex_message_processor.rs:5245
**Callable Names**
On list-tools, we create provisional callable_namespace / callable_name:
mcp_connection_manager.rs:1556
For non-app MCP, provisional callable name starts as raw tool name.
For codex-apps, provisional callable name is sanitized and strips
connector name/id prefix; namespace includes connector name.
Then qualify_tools() sanitizes callable namespace + name to ASCII alnum
/ _ only: mcp_tool_names.rs:128
Note: this is stricter than Responses API. Hyphen is currently replaced
with _ for code-mode compatibility.
**Collision Handling**
We do initially collapse example-server and example_server to the same
base.
Then qualify_tools() detects distinct raw namespace identities behind
the same sanitized namespace and appends a hash to the callable
namespace: mcp_tool_names.rs:137
Same idea for tool-name collisions: hash suffix goes on callable tool
name.
Final list_all_tools() map key is callable_namespace + callable_name:
mcp_connection_manager.rs:769
**Direct Model Tools**
Direct MCP tool declarations use the full qualified sanitized key as the
Responses function name.
The raw rmcp Tool is converted but renamed for model exposure.
**Tool Search / Deferred**
Tool search result namespace = final ToolInfo.callable_namespace:
tool_search.rs:85
Tool search result nested name = final ToolInfo.callable_name:
tool_search.rs:86
Deferred tool handler is registered as "{namespace}:{name}":
tool_registry_plan.rs:248
When a function call comes back, core recombines namespace + name, looks
up the full qualified key, and gets the raw server/tool for MCP
execution: codex.rs:4353
**Separate Legacy Snapshot**
collect_mcp_snapshot_from_manager_with_detail() still returns a map
keyed by qualified callable name.
mcpServerStatus/list no longer uses that; it uses
McpServerStatusSnapshot, which is raw-inventory shaped.
**Disabling Image-Gen for Non-SIWC Codex Users**
We are only enabling image-gen feature for SIWC Codex users until there
comes a fix in ResponsesAPI to omit output from responses.completed, to
prevent the following issues:
1. websocket blows up due to heavier load (images) than before (text)
2. http parser streams through n^2 of n-base64 bytes (sum of base64s of
all images generated in turn) that causes long delays in
turn_completion.
Allow multi_agent_v2 features to have its own temporary configuration
under `[features.multi_agent_v2]`
```
[features.multi_agent_v2]
enabled = true
usage_hint_enabled = false
usage_hint_text = "Custom delegation guidance."
hide_spawn_agent_metadata = true
```
Absent `usage_hint_text` means use the default hint.
```
[features]
multi_agent_v2 = true
```
still works as the boolean shorthand.
Tests added for existing JsonSchema in
`codex-rs/tools/src/json_schema_tests.rs`:
- `parse_tool_input_schema_coerces_boolean_schemas`
- `parse_tool_input_schema_infers_object_shape_and_defaults_properties`
- `parse_tool_input_schema_normalizes_integer_and_missing_array_items`
- `parse_tool_input_schema_sanitizes_additional_properties_schema`
-
`parse_tool_input_schema_infers_object_shape_from_boolean_additional_properties_only`
- `parse_tool_input_schema_infers_number_from_numeric_keywords`
- `parse_tool_input_schema_infers_number_from_multiple_of`
-
`parse_tool_input_schema_infers_string_from_enum_const_and_format_keywords`
- `parse_tool_input_schema_defaults_empty_schema_to_string`
- `parse_tool_input_schema_infers_array_from_prefix_items`
-
`parse_tool_input_schema_preserves_boolean_additional_properties_on_inferred_object`
-
`parse_tool_input_schema_infers_object_shape_from_schema_additional_properties_only`
Tests that we expect to fail on the baseline normalizer, but pass with
the new JsonSchema:
- `parse_tool_input_schema_preserves_nested_nullable_type_union`
- `parse_tool_input_schema_preserves_nested_any_of_property`
Fast Mode status was still tied to one model name in the TUI and
model-list plumbing. This changes the model metadata shape so a model
can advertise additional speed tiers, carries that field through the
app-server model list, and uses it to decide when to show Fast Mode
status.
For people using Codex, the behavior is intended to stay the same for
existing models. Fast Mode still requires the existing signed-in /
feature-gated path; the difference is that the UI can now recognize any
model the model list marks as Fast-capable, instead of requiring a new
client-side slug check.
## Summary
- make `CODEX_EXEC_SERVER_URL=none` map to an explicit disabled
environment mode instead of inferring from a missing URL
- expose environment capabilities (`exec_enabled`, `filesystem_enabled`)
so tool building can gate behavior explicitly and future
multi-environment work has a clearer seam
- suppress env-backed tools when the relevant capability is unavailable,
including exec tools, `js_repl`, `apply_patch`, `list_dir`, and
`view_image`
- keep handler/runtime backstops so disabled environments still reject
execution if a tool path somehow bypasses registration
## Testing
- `just fmt`
- `cargo test -p codex-exec-server`
- `cargo test -p codex-tools
disabled_environment_omits_environment_backed_tools`
- `cargo test -p codex-tools
environment_capabilities_gate_exec_and_filesystem_tools_independently`
- remote devbox Bazel build via `codex-applied-devbox`:
`//codex-rs/cli:cli`
## Why
#16513 moved pure tool-registry planning into `codex-tools`, but much of
the corresponding spec/feature-gating coverage still lived in
`codex-core`. That leaves the tests for planner behavior in the crate
that no longer owns that logic and makes the next extraction steps
harder to review.
## What
Move the planner-only `spec_tests.rs` coverage into
`codex-rs/tools/src/tool_registry_plan_tests.rs` and wire it up from
`codex-rs/tools/src/tool_registry_plan.rs` using the crate-local `#[path
= "tool_registry_plan_tests.rs"] mod tests;` pattern.
The `codex-core` test file now keeps the core-side integration checks:
router-visible model tool lists, namespaced handler alias registration,
shell adapter behavior, and MCP schema edge cases that still exercise
the `core` binding layer.
## Verification
- `cargo test -p codex-tools`
- `cargo test -p codex-core tools::spec::tests`
## Why
This is a larger step in the `codex-core` -> `codex-tools` migration
called out in `AGENTS.md`.
`codex-rs/core/src/tools/spec.rs` had become mostly pure tool-spec
assembly plus handler registration. That made it hard to move more of
the tool-definition layer into `codex-tools`, because the runtime
binding and the crate-independent planning logic were still interleaved
in one function.
Splitting those concerns gives `codex-tools` ownership of the
declarative registry plan while keeping `codex-core` responsible for
instantiating concrete handlers.
## What Changed
- Add a `codex-tools` registry-plan layer in
`codex-rs/tools/src/tool_registry_plan.rs` and
`codex-rs/tools/src/tool_registry_plan_types.rs`.
- Move feature-gated tool-spec assembly, MCP/dynamic tool conversion,
tool-search aliases, and code-mode nested-plan expansion into
`codex-tools`.
- Keep `codex-rs/core/src/tools/spec.rs` as the core-side adapter that
maps each planned handler kind to concrete runtime handler instances.
- Update `spec_tests.rs` to import the moved `codex_tools` symbols
directly instead of relying on top-level `spec.rs` re-exports.
This is intended to be a straight refactor with no behavior change and
no new test surface.
## Verification
- `cargo test -p codex-tools`
- `cargo test -p codex-core tools::spec::tests`
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/openai/codex/pull/16513).
* #16521
* __->__ #16513
## Why
This is another small step in the `codex-core` -> `codex-tools`
migration described in `AGENTS.md`.
`core/src/tools/spec.rs` and `core/src/tools/code_mode/mod.rs` were both
hand-rolling the same pure transformation: convert visible `ToolSpec`s
into code-mode nested tool definitions, then sort and deduplicate by
tool name. That logic does not depend on core runtime state or handlers,
so keeping it in `codex-core` makes `spec.rs` harder to peel out later
than it needs to be.
## What Changed
- Add `collect_code_mode_tool_definitions()` to
`codex-rs/tools/src/code_mode.rs`.
- Reuse that helper from `codex-rs/core/src/tools/spec.rs` when
assembling the `exec` tool description.
- Reuse the same helper from `codex-rs/core/src/tools/code_mode/mod.rs`
when exposing nested tool metadata to the code-mode runtime.
This is intended to be a straight refactor with no behavior change and
no new test surface.
## Verification
- `cargo test -p codex-tools`
- `cargo test -p codex-core tools::spec::tests`
- `cargo test -p codex-core code_mode_only_`
## Why
This is another incremental step in the `codex-core` -> `codex-tools`
migration called out in `AGENTS.md`: keep pure tool-definition and
wire-shaping logic out of `codex-core` so the core crate can stay
focused on runtime orchestration.
`request_user_input` already had its spec and mode-availability helpers
in `codex-tools` after #16471. The remaining argument validation and
normalization still lived in the core runtime handler, which left that
tool split across the two crates.
## What Changed
- Export `REQUEST_USER_INPUT_TOOL_NAME` and
`normalize_request_user_input_args()` from
`codex-rs/tools/src/request_user_input_tool.rs`.
- Use that `codex-tools` surface from `codex-rs/core/src/tools/spec.rs`
and `codex-rs/core/src/tools/handlers/request_user_input.rs`.
- Keep the core handler responsible for payload parsing, session
dispatch, cancellation handling, and response serialization.
This is intended to be a straight refactor with no behavior change.
## Verification
- `cargo test -p codex-tools`
- `cargo test -p codex-core request_user_input`
## Why
This is another straight-refactor step in the `codex-tools` migration.
`core/src/tools/handlers/tool_suggest.rs` still owned request/response
payload structs, elicitation metadata shaping, and connector-completion
predicates that do not depend on `codex-core` session/runtime internals.
Per the `AGENTS.md` guidance to keep shrinking `codex-core`, this moves
that pure wire-format logic into `codex-rs/tools` so the core handler
keeps only session orchestration, plugin/config refresh, and MCP cache
updates.
## What changed
- Added `codex-rs/tools/src/tool_suggest.rs` and exported its API from
`codex-rs/tools/src/lib.rs`.
- Moved `ToolSuggestArgs`, `ToolSuggestResult`, `ToolSuggestMeta`,
`build_tool_suggestion_elicitation_request()`,
`all_suggested_connectors_picked_up()`, and
`verified_connector_suggestion_completed()` into `codex-tools`.
- Rewired `core/src/tools/handlers/tool_suggest.rs` to consume those
exports directly.
- Ported the existing pure helper tests from
`core/src/tools/handlers/tool_suggest_tests.rs` to
`tools/src/tool_suggest_tests.rs` without adding new behavior coverage.
## Validation
```shell
cargo test -p codex-tools
cargo test -p codex-core tools::handlers::tool_suggest::tests
just argument-comment-lint
```
## Why
This is the next straight-refactor step in the `codex-tools` migration
that follows #16493.
`codex-rs/core` still owned a chunk of pure tool-discovery metadata and
response shaping even though the corresponding `tool_search` /
`tool_suggest` specs already live in `codex-rs/tools`. Per the guidance
in `AGENTS.md`, this moves that crate-agnostic logic out of `codex-core`
so the handler crate keeps only the BM25 ranking/orchestration and
runtime glue.
## What changed
- Moved the canonical `tool_search` / `tool_suggest` tool names and the
`tool_search` default limit into `codex-rs/tools/src/tool_discovery.rs`.
- Added `ToolSearchResultSource` and
`collect_tool_search_output_tools()` in `codex-tools` so namespace
grouping and deferred Responses API tool serialization happen outside
`codex-core`.
- Rewired `ToolSearchHandler`, `ToolSuggestHandler`, and
`core/src/tools/spec.rs` to consume those exports directly from
`codex-tools`.
- Ported the existing `tool_search` serializer tests from
`core/src/tools/handlers/tool_search_tests.rs` to
`tools/src/tool_discovery_tests.rs` without adding new behavior
coverage.
## Validation
```shell
cargo test -p codex-tools
cargo test -p codex-core tools::spec::tests
just argument-comment-lint
```
## Why
`core/src/tools/spec.rs` still had a few built-in tool specs assembled
inline even though those definitions are pure metadata and already live
conceptually in `codex-tools`. Keeping that construction in `codex-core`
makes `spec.rs` do more than registry orchestration and slows the
migration toward a right-sized `codex-tools` crate.
This continues the extraction stack from #16379, #16471, #16477, #16481,
and #16482.
## What Changed
- added `create_local_shell_tool()`, `create_web_search_tool(...)`, and
`create_image_generation_tool(...)` to `codex-rs/tools/src/tool_spec.rs`
- exported those helpers from `codex-rs/tools/src/lib.rs`
- switched `codex-rs/core/src/tools/spec.rs` to call those helpers
instead of constructing `ToolSpec::LocalShell`, `ToolSpec::WebSearch`,
and `ToolSpec::ImageGeneration` inline
- removed the remaining core-local web-search content-type constant and
made the affected spec test assert the literal expected values directly
This is intended to be a straight refactor: tool behavior and wire shape
should not change.
## Testing
- `cargo test -p codex-tools`
- `cargo test -p codex-core tools::spec::tests`
## Why
`codex-rs/core/src/tools/handlers/plan.rs` still owned both the
`update_plan` runtime handler and the static tool definition. The tool
definition is pure metadata, so keeping it in `codex-core` works against
the ongoing effort to move tool-spec code into `codex-tools` and keep
`codex-core` focused on orchestration and execution paths.
This continues the extraction work from #16379, #16471, and #16477.
## What Changed
- added `codex-rs/tools/src/plan_tool.rs` with
`create_update_plan_tool()`
- re-exported that constructor from `codex-rs/tools/src/lib.rs`
- updated `codex-rs/core/src/tools/spec.rs` and
`codex-rs/core/src/tools/spec_tests.rs` to use the `codex-tools` export
instead of a core-local static
- removed the old `PLAN_TOOL` definition from
`codex-rs/core/src/tools/handlers/plan.rs`; the `PlanHandler` runtime
logic still stays in `codex-core`
- tightened two `codex-core` aliases to `#[cfg(test)]` now that
production code no longer needs them
## Testing
- `cargo test -p codex-tools`
- `cargo test -p codex-core tools::spec::tests`
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/openai/codex/pull/16481).
* #16482
* __->__ #16481
## Why
Follow-up to #16379 and #16471.
`codex-rs/core/src/tools/spec.rs` still owned the pure discovery-shaping
helpers that turn app metadata and discoverable tool metadata into the
inputs used by `tool_search` and `tool_suggest`. Those helpers do not
need `codex-core` runtime state, so keeping them in `codex-core`
continued to blur the crate boundary this migration is trying to
tighten.
This change keeps pushing spec-only logic behind the `codex-tools` API
so `codex-core` can focus on wiring runtime handlers to the resulting
tool definitions.
## What Changed
- Added `collect_tool_search_app_infos` and
`collect_tool_suggest_entries` to
`codex-rs/tools/src/tool_discovery.rs`.
- Added a small `ToolSearchAppSource` adapter type in `codex-tools` so
`codex-core` can pass app metadata into that shared helper logic without
exposing `ToolInfo` across the crate boundary.
- Re-exported the new discovery helpers from
`codex-rs/tools/src/lib.rs`, which remains exports-only.
- Updated `codex-rs/core/src/tools/spec.rs` to use those `codex-tools`
helpers instead of maintaining local `tool_search_app_infos` and
`tool_suggest_entries` functions.
- Removed the now-redundant helper implementations from `codex-core`.
## Testing
- `cargo test -p codex-tools`
- `cargo test -p codex-core tools::spec::tests`
## Why
Follow-up to #16379.
`codex-rs/core/src/tools/spec.rs` and the corresponding handlers still
owned several pure tool-definition helpers even though they do not need
`codex-core` runtime state. Keeping that spec-only logic in `codex-core`
keeps the crate boundary blurry and works against the guidance in
`AGENTS.md` to keep shared tooling out of `codex-core` when possible.
This change takes another step toward a dedicated `codex-tools` crate by
moving more metadata and schema-building code behind the `codex-tools`
API while leaving the actual tool execution paths in `codex-core`.
## What Changed
- Added `codex-rs/tools/src/apply_patch_tool.rs` to own
`ApplyPatchToolArgs`, the freeform/json `apply_patch` tool specs, and
the moved `tool_apply_patch.lark` grammar.
- Updated `codex-rs/tools/BUILD.bazel` so Bazel exposes the moved
grammar file to `codex-tools`.
- Moved the `request_user_input` availability and description helpers
into `codex-rs/tools/src/request_user_input_tool.rs`, with the related
unit tests moved alongside that business logic.
- Moved `request_permissions_tool_description()` into
`codex-rs/tools/src/local_tool.rs`.
- Rewired `codex-rs/core/src/tools/spec.rs`,
`codex-rs/core/src/tools/handlers/apply_patch.rs`, and
`codex-rs/core/src/tools/handlers/request_user_input.rs` to consume the
new `codex-tools` exports instead of local helper code.
- Removed the now-redundant helper implementations and tests from
`codex-core`, plus a couple of stale `client_common` re-exports that
became unused after the move.
## Testing
- `cargo test -p codex-tools`
- `cargo test -p codex-core tools::spec::tests`
- `cargo test -p codex-core tools::handlers::apply_patch::tests`
## Why
`codex-core` already owns too much of the tool stack, and `AGENTS.md`
explicitly pushes us to move shared code out of `codex-core` instead of
letting it keep growing. This PR takes the next incremental step in
moving `core/src/tools` toward `codex-rs/tools` by extracting
low-coupling tool configuration and image-detail gating logic into
`codex-tools`.
That gives later extraction work a cleaner boundary to build on without
trying to move the entire tools subtree in one shot.
## What changed
- moved `ToolsConfig`, `ToolsConfigParams`, shell backend config, and
unified-exec session selection from `core/src/tools/spec.rs` into
`codex-tools`
- moved original image-detail gating and normalization into
`codex-tools`
- updated `codex-core` to consume the new `codex-tools` exports and pass
a rendered agent-type description instead of raw role config
- kept `codex-rs/tools/src/lib.rs` exports-only, with extracted unit
tests living in sibling `*_tests.rs` modules
## Testing
- `cargo test -p codex-tools`
- `cargo test -p codex-core --lib tools::spec::`
## Summary
- switch MultiAgentV2 send_message to accept a single message string
instead of items
- keep the old assign_task item parser in place for the next branch
- update send_message schema/spec and focused handler tests
## Verification
- cargo test -p codex-tools
send_message_tool_requires_message_and_uses_submission_output
- cargo test -p codex-core multi_agent_v2_send_message
- just fix -p codex-tools
- just fix -p codex-core
- just argument-comment-lint
---------
Co-authored-by: Codex <noreply@openai.com>
Adds this:
```
properties.insert(
"fork_turns".to_string(),
JsonSchema::String {
description: Some(
"Optional MultiAgentV2 fork mode. Use `none`, `all`, or a positive integer string such as `3` to fork only the most recent turns."
.to_string(),
),
},
);
```
---------
Co-authored-by: Codex <noreply@openai.com>
## Why
`#16193` moved the pure `tool_search` and `tool_suggest` spec builders
into `codex-tools`, but `codex-core` still owned the shared
discoverable-tool model that those builders and the `tool_suggest`
runtime both depend on. This change continues the migration by moving
that reusable model boundary out of `codex-core` as well, so the
discovery/suggestion stack uses one shared set of types and
`core/src/tools` no longer needs its own `discoverable.rs` module.
## What changed
- Moved `DiscoverableTool`, `DiscoverablePluginInfo`, and
`filter_tool_suggest_discoverable_tools_for_client()` into
`codex-rs/tools/src/tool_discovery.rs` alongside the extracted
discovery/suggestion spec builders.
- Added `codex-app-server-protocol` as a `codex-tools` dependency so the
shared discoverable-tool model can own the connector-side `AppInfo`
variant directly.
- Updated `core/src/tools/handlers/tool_suggest.rs`,
`core/src/tools/spec.rs`, `core/src/tools/router.rs`,
`core/src/connectors.rs`, and `core/src/codex.rs` to consume the shared
`codex-tools` model instead of the old core-local declarations.
- Changed `core/src/plugins/discoverable.rs` to return
`DiscoverablePluginInfo` directly, moved the pure client-filter coverage
into `tool_discovery_tests.rs`, and deleted the old
`core/src/tools/discoverable.rs` module.
- Updated `codex-rs/tools/README.md` so the crate boundary documents
that `codex-tools` now owns the discoverable-tool models in addition to
the discovery/suggestion spec builders.
## Test plan
- `cargo test -p codex-tools`
- `CARGO_TARGET_DIR=/tmp/codex-core-discoverable-model cargo test -p
codex-core --lib tools::handlers::tool_suggest::`
- `CARGO_TARGET_DIR=/tmp/codex-core-discoverable-model cargo test -p
codex-core --lib tools::spec::`
- `CARGO_TARGET_DIR=/tmp/codex-core-discoverable-model cargo test -p
codex-core --lib plugins::discoverable::`
- `just bazel-lock-check`
- `just argument-comment-lint`
## References
- #16193
- #16154
- #15923
- #15928
- #15944
- #15953
- #16031
- #16047
- #16129
- #16132
- #16138
- #16141
## Why
`core/src/tools/spec.rs` still owned the pure `tool_search` and
`tool_suggest` spec builders even though that logic no longer needed
`codex-core` runtime state. This change continues the `codex-tools`
migration by moving the reusable discovery and suggestion spec
construction out of `codex-core` so `spec.rs` is left with the
core-owned policy decisions about when these tools are exposed and what
metadata is available.
## What changed
- Added `codex-rs/tools/src/tool_discovery.rs` with the shared
`tool_search` and `tool_suggest` spec builders, plus focused unit tests
in `tool_discovery_tests.rs`.
- Moved the shared `DiscoverableToolAction` and `DiscoverableToolType`
declarations into `codex-tools` so the `tool_suggest` handler and the
extracted spec builders use the same wire-model enums.
- Updated `core/src/tools/spec.rs` to translate `ToolInfo` and
`DiscoverableTool` values into neutral `codex-tools` inputs and delegate
the actual spec building there.
- Removed the old template-based description rendering helpers from
`core/src/tools/spec.rs` and deleted the now-dead helper methods in
`core/src/tools/discoverable.rs`.
- Updated `codex-rs/tools/README.md` to document that discovery and
suggestion models/spec builders now live in `codex-tools`.
## Test plan
- `cargo test -p codex-tools`
- `CARGO_TARGET_DIR=/tmp/codex-core-discovery-specs cargo test -p
codex-core --lib tools::spec::`
- `CARGO_TARGET_DIR=/tmp/codex-core-discovery-specs cargo test -p
codex-core --lib tools::handlers::tool_suggest::`
- `just argument-comment-lint`
## References
- #16154
- #15923
- #15928
- #15944
- #15953
- #16031
- #16047
- #16129
- #16132
- #16138
- #16141
