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codex/sdk/python/tests/test_client_rpc_methods.py
Ahmed Ibrahim aa9e8f0262 [8/8] Add Python SDK Ruff formatting (#22021) 
## Why

The Python SDK needs the same tight formatter/lint loop as the rest of
the repo: a safe Ruff autofix pass, Ruff formatting, editor save
behavior, and CI checks that catch drift. Without that loop, SDK changes
can land with formatting or import ordering that differs from what
reviewers and CI expect.

## What

- Add Ruff configuration to `sdk/python/pyproject.toml`, excluding
generated protocol code and notebooks from the normal lint/format pass.
- Update `just fmt` so it still formats Rust and also runs Python SDK
Ruff autofix and formatting.
- Add Python SDK CI steps for `ruff check` and `ruff format --check`
before pytest.
- Recommend the Ruff VS Code extension and enable Python
format/fix/organize-on-save so Cmd+S uses the same tooling.
- Apply the resulting Ruff formatting to SDK Python files, examples, and
the checked-in generated `v2_all.py` output emitted by the pinned
generator.
- Add a guard test for the `just fmt` recipe so it keeps working from
both Rust and Python SDK working directories.

## Stack

1. #21891 `[1/8]` Pin Python SDK runtime dependency
2. #21893 `[2/8]` Generate Python SDK types from pinned runtime
3. #21895 `[3/8]` Run Python SDK tests in CI
4. #21896 `[4/8]` Define Python SDK public API surface
5. #21905 `[5/8]` Rename Python SDK package to `openai-codex`
6. #21910 `[6/8]` Add high-level Python SDK approval mode
7. #22014 `[7/8]` Add Python SDK app-server integration harness
8. This PR `[8/8]` Add Python SDK Ruff formatting

## Verification

- Added `test_root_fmt_recipe_formats_rust_and_python_sdk` for the
shared format recipe.
- Ran `just fmt` after the recipe update.

---------

Co-authored-by: Codex <noreply@openai.com>
2026-05-12 01:10:29 +03:00

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from __future__ import annotations
from pathlib import Path
from openai_codex.client import AppServerClient, _params_dict
from openai_codex.generated.notification_registry import notification_turn_id
from openai_codex.generated.v2_all import (
AgentMessageDeltaNotification,
ApprovalsReviewer,
ThreadListParams,
ThreadResumeResponse,
ThreadTokenUsageUpdatedNotification,
TurnCompletedNotification,
WarningNotification,
)
from openai_codex.models import Notification, UnknownNotification
ROOT = Path(__file__).resolve().parents[1]
def test_generated_params_models_are_snake_case_and_dump_by_alias() -> None:
params = ThreadListParams(search_term="needle", limit=5)
assert "search_term" in ThreadListParams.model_fields
dumped = _params_dict(params)
assert dumped == {"searchTerm": "needle", "limit": 5}
def test_generated_v2_bundle_has_single_shared_plan_type_definition() -> None:
source = (ROOT / "src" / "openai_codex" / "generated" / "v2_all.py").read_text()
assert source.count("class PlanType(") == 1
def test_thread_resume_response_accepts_auto_review_reviewer() -> None:
"""Generated response models should keep accepting the auto review enum value."""
response = ThreadResumeResponse.model_validate(
{
"approvalPolicy": "on-request",
"approvalsReviewer": "auto_review",
"cwd": "/tmp",
"model": "gpt-5",
"modelProvider": "openai",
"sandbox": {"type": "dangerFullAccess"},
"thread": {
"cliVersion": "1.0.0",
"createdAt": 1,
"cwd": "/tmp",
"ephemeral": False,
"id": "thread-1",
"modelProvider": "openai",
"preview": "",
# The pinned runtime schema requires the session id on threads.
"sessionId": "session-1",
"source": "cli",
"status": {"type": "idle"},
"turns": [],
"updatedAt": 1,
},
}
)
assert response.approvals_reviewer is ApprovalsReviewer.auto_review
def test_notifications_are_typed_with_canonical_v2_methods() -> None:
client = AppServerClient()
event = client._coerce_notification(
"thread/tokenUsage/updated",
{
"threadId": "thread-1",
"turnId": "turn-1",
"tokenUsage": {
"last": {
"cachedInputTokens": 0,
"inputTokens": 1,
"outputTokens": 2,
"reasoningOutputTokens": 0,
"totalTokens": 3,
},
"total": {
"cachedInputTokens": 0,
"inputTokens": 1,
"outputTokens": 2,
"reasoningOutputTokens": 0,
"totalTokens": 3,
},
},
},
)
assert event.method == "thread/tokenUsage/updated"
assert isinstance(event.payload, ThreadTokenUsageUpdatedNotification)
assert event.payload.turn_id == "turn-1"
def test_unknown_notifications_fall_back_to_unknown_payloads() -> None:
client = AppServerClient()
event = client._coerce_notification(
"unknown/notification",
{
"id": "evt-1",
"conversationId": "thread-1",
"msg": {"type": "turn_aborted"},
},
)
assert event.method == "unknown/notification"
assert isinstance(event.payload, UnknownNotification)
assert event.payload.params["msg"] == {"type": "turn_aborted"}
def test_invalid_notification_payload_falls_back_to_unknown() -> None:
client = AppServerClient()
event = client._coerce_notification("thread/tokenUsage/updated", {"threadId": "missing"})
assert event.method == "thread/tokenUsage/updated"
assert isinstance(event.payload, UnknownNotification)
def test_generated_notification_turn_id_handles_known_payload_shapes() -> None:
"""Generated routing metadata should cover direct, nested, and unscoped payloads."""
direct = AgentMessageDeltaNotification.model_validate(
{
"delta": "hello",
"itemId": "item-1",
"threadId": "thread-1",
"turnId": "turn-1",
}
)
nested = TurnCompletedNotification.model_validate(
{
"threadId": "thread-1",
"turn": {"id": "turn-2", "items": [], "status": "completed"},
}
)
unscoped = WarningNotification(message="heads up")
assert [
notification_turn_id(direct),
notification_turn_id(nested),
notification_turn_id(unscoped),
] == ["turn-1", "turn-2", None]
def test_turn_notification_router_demuxes_registered_turns() -> None:
"""The router should deliver out-of-order turn events to the matching queues."""
client = AppServerClient()
client.register_turn_notifications("turn-1")
client.register_turn_notifications("turn-2")
client._router.route_notification(
client._coerce_notification(
"item/agentMessage/delta",
{
"delta": "two",
"itemId": "item-2",
"threadId": "thread-1",
"turnId": "turn-2",
},
)
)
client._router.route_notification(
client._coerce_notification(
"item/agentMessage/delta",
{
"delta": "one",
"itemId": "item-1",
"threadId": "thread-1",
"turnId": "turn-1",
},
)
)
first = client.next_turn_notification("turn-1")
second = client.next_turn_notification("turn-2")
assert isinstance(first.payload, AgentMessageDeltaNotification)
assert isinstance(second.payload, AgentMessageDeltaNotification)
assert [
(first.method, first.payload.delta),
(second.method, second.payload.delta),
] == [
("item/agentMessage/delta", "one"),
("item/agentMessage/delta", "two"),
]
def test_client_reader_routes_interleaved_turn_notifications_by_turn_id() -> None:
"""Reader-loop routing should preserve order within each interleaved turn stream."""
client = AppServerClient()
client.register_turn_notifications("turn-1")
client.register_turn_notifications("turn-2")
messages: list[dict[str, object]] = [
{
"method": "item/agentMessage/delta",
"params": {
"delta": "one-a",
"itemId": "item-1",
"threadId": "thread-1",
"turnId": "turn-1",
},
},
{
"method": "item/agentMessage/delta",
"params": {
"delta": "two-a",
"itemId": "item-2",
"threadId": "thread-1",
"turnId": "turn-2",
},
},
{
"method": "item/agentMessage/delta",
"params": {
"delta": "one-b",
"itemId": "item-3",
"threadId": "thread-1",
"turnId": "turn-1",
},
},
{
"method": "item/agentMessage/delta",
"params": {
"delta": "two-b",
"itemId": "item-4",
"threadId": "thread-1",
"turnId": "turn-2",
},
},
]
def fake_read_message() -> dict[str, object]:
"""Feed the reader loop a realistic interleaved stdout sequence."""
if messages:
return messages.pop(0)
raise EOFError
client._read_message = fake_read_message # type: ignore[method-assign]
client._reader_loop()
first_turn_events = [
client.next_turn_notification("turn-1"),
client.next_turn_notification("turn-1"),
]
second_turn_events = [
client.next_turn_notification("turn-2"),
client.next_turn_notification("turn-2"),
]
first_turn_deltas = [
event.payload.delta
for event in first_turn_events
if isinstance(event.payload, AgentMessageDeltaNotification)
]
second_turn_deltas = [
event.payload.delta
for event in second_turn_events
if isinstance(event.payload, AgentMessageDeltaNotification)
]
assert (first_turn_deltas, second_turn_deltas) == (
["one-a", "one-b"],
["two-a", "two-b"],
)
def test_turn_notification_router_buffers_events_before_registration() -> None:
"""Early turn events should be replayed once their TurnHandle registers."""
client = AppServerClient()
client._router.route_notification(
client._coerce_notification(
"item/agentMessage/delta",
{
"delta": "early",
"itemId": "item-1",
"threadId": "thread-1",
"turnId": "turn-1",
},
)
)
client.register_turn_notifications("turn-1")
event = client.next_turn_notification("turn-1")
assert isinstance(event.payload, AgentMessageDeltaNotification)
assert (event.method, event.payload.delta) == (
"item/agentMessage/delta",
"early",
)
def test_turn_notification_router_clears_unregistered_turn_when_completed() -> None:
"""A completed unregistered turn should not leave a pending queue behind."""
client = AppServerClient()
client._router.route_notification(
client._coerce_notification(
"item/agentMessage/delta",
{
"delta": "early",
"itemId": "item-1",
"threadId": "thread-1",
"turnId": "turn-1",
},
)
)
client._router.route_notification(
client._coerce_notification(
"turn/completed",
{
"threadId": "thread-1",
"turn": {"id": "turn-1", "items": [], "status": "completed"},
},
)
)
assert client._router._pending_turn_notifications == {}
def test_turn_notification_router_routes_unknown_turn_notifications() -> None:
"""Unknown notifications should still route when their raw params carry a turn id."""
client = AppServerClient()
client.register_turn_notifications("turn-1")
client.register_turn_notifications("turn-2")
client._router.route_notification(
Notification(
method="unknown/direct",
payload=UnknownNotification(params={"turnId": "turn-1"}),
)
)
client._router.route_notification(
Notification(
method="unknown/nested",
payload=UnknownNotification(params={"turn": {"id": "turn-2"}}),
)
)
first = client.next_turn_notification("turn-1")
second = client.next_turn_notification("turn-2")
assert [first.method, second.method] == ["unknown/direct", "unknown/nested"]
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