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codex/sdk/python/tests/test_client_rpc_methods.py
Ahmed Ibrahim f1b84fac63 [5/8] Rename Python SDK package to openai-codex (#21905) 
## Why

The SDK should publish under the reserved public distribution name
`openai-codex`, and its import module should match that name in the
Python style. Since package names can contain hyphens but import modules
cannot, the public import path becomes `openai_codex`.

Keeping the rename separate from the public API surface change makes the
naming change easy to review and avoids mixing it with API curation.

## What

- Rename the SDK distribution from `openai-codex-app-server-sdk` to
`openai-codex`.
- Rename the import package from `codex_app_server` to `openai_codex`.
- Keep the runtime wheel as the separate `openai-codex-cli-bin`
dependency.
- Update docs, examples, notebooks, artifact scripts, lockfile metadata,
and tests for the new distribution/module names.

## 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. This PR `[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. #22021 `[8/8]` Add Python SDK Ruff formatting

## Verification

- Updated package metadata and public API tests to assert the
distribution and import names.

Co-authored-by: Codex <noreply@openai.com>
2026-05-12 00:59:25 +03:00

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from __future__ import annotations
from pathlib import Path
from typing import Any
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_thread_set_name_and_compact_use_current_rpc_methods() -> None:
client = AppServerClient()
calls: list[tuple[str, dict[str, Any] | None]] = []
def fake_request(method: str, params, *, response_model): # type: ignore[no-untyped-def]
calls.append((method, params))
return response_model.model_validate({})
client.request = fake_request # type: ignore[method-assign]
client.thread_set_name("thread-1", "sdk-name")
client.thread_compact("thread-1")
assert calls[0][0] == "thread/name/set"
assert calls[1][0] == "thread/compact/start"
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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