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codex/codex-rs/app-server/tests/suite/v2/thread_resume.rs
Charley Cunningham 16c3c47535 Stabilize app-server detached review and running-resume tests (#12203) 
## Summary
- stabilize
`thread_resume_rejoins_running_thread_even_with_override_mismatch` by
using a valid delayed second SSE response instead of an intentionally
truncated stream
- set `RUST_MIN_STACK=4194304` for spawned app-server test processes in
`McpProcess` to avoid stack-sensitive CI overflows in detached review
tests

## Why
- the thread-resume assertion could race with a mocked stream-disconnect
error and intermittently observe `systemError`
- detached review startup is stack-sensitive in some CI environments;
pinning a larger stack in the test harness removes that flake without
changing product behavior

## Validation
- `just fmt`
- `cargo test -p codex-app-server --test all
suite::v2::thread_resume::thread_resume_rejoins_running_thread_even_with_override_mismatch`
- `cargo test -p codex-app-server --test all
suite::v2::review::review_start_with_detached_delivery_returns_new_thread_id`
2026-02-18 19:05:35 -08:00

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use anyhow::Result;
use app_test_support::McpProcess;
use app_test_support::create_fake_rollout_with_text_elements;
use app_test_support::create_mock_responses_server_repeating_assistant;
use app_test_support::rollout_path;
use app_test_support::to_response;
use chrono::Utc;
use codex_app_server_protocol::JSONRPCError;
use codex_app_server_protocol::JSONRPCResponse;
use codex_app_server_protocol::RequestId;
use codex_app_server_protocol::SessionSource;
use codex_app_server_protocol::ThreadItem;
use codex_app_server_protocol::ThreadResumeParams;
use codex_app_server_protocol::ThreadResumeResponse;
use codex_app_server_protocol::ThreadStartParams;
use codex_app_server_protocol::ThreadStartResponse;
use codex_app_server_protocol::ThreadStatus;
use codex_app_server_protocol::TurnStartParams;
use codex_app_server_protocol::TurnStatus;
use codex_app_server_protocol::UserInput;
use codex_protocol::config_types::Personality;
use codex_protocol::models::ContentItem;
use codex_protocol::models::ResponseItem;
use codex_protocol::user_input::ByteRange;
use codex_protocol::user_input::TextElement;
use core_test_support::responses;
use core_test_support::skip_if_no_network;
use pretty_assertions::assert_eq;
use std::fs::FileTimes;
use std::path::Path;
use std::path::PathBuf;
use tempfile::TempDir;
use tokio::time::timeout;
const DEFAULT_READ_TIMEOUT: std::time::Duration = std::time::Duration::from_secs(10);
const CODEX_5_2_INSTRUCTIONS_TEMPLATE_DEFAULT: &str = "You are Codex, a coding agent based on GPT-5. You and the user share the same workspace and collaborate to achieve the user's goals.";
#[tokio::test]
async fn thread_resume_rejects_unmaterialized_thread() -> Result<()> {
let server = create_mock_responses_server_repeating_assistant("Done").await;
let codex_home = TempDir::new()?;
create_config_toml(codex_home.path(), &server.uri())?;
let mut mcp = McpProcess::new(codex_home.path()).await?;
timeout(DEFAULT_READ_TIMEOUT, mcp.initialize()).await??;
// Start a thread.
let start_id = mcp
.send_thread_start_request(ThreadStartParams {
model: Some("gpt-5.1-codex-max".to_string()),
..Default::default()
})
.await?;
let start_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_response_message(RequestId::Integer(start_id)),
)
.await??;
let ThreadStartResponse { thread, .. } = to_response::<ThreadStartResponse>(start_resp)?;
// Resume should fail before the first user message materializes rollout storage.
let resume_id = mcp
.send_thread_resume_request(ThreadResumeParams {
thread_id: thread.id.clone(),
..Default::default()
})
.await?;
let resume_err: JSONRPCError = timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_error_message(RequestId::Integer(resume_id)),
)
.await??;
assert!(
resume_err
.error
.message
.contains("no rollout found for thread id"),
"unexpected resume error: {}",
resume_err.error.message
);
Ok(())
}
#[tokio::test]
async fn thread_resume_returns_rollout_history() -> Result<()> {
let server = create_mock_responses_server_repeating_assistant("Done").await;
let codex_home = TempDir::new()?;
create_config_toml(codex_home.path(), &server.uri())?;
let preview = "Saved user message";
let text_elements = vec![TextElement::new(
ByteRange { start: 0, end: 5 },
Some("<note>".into()),
)];
let conversation_id = create_fake_rollout_with_text_elements(
codex_home.path(),
"2025-01-05T12-00-00",
"2025-01-05T12:00:00Z",
preview,
text_elements
.iter()
.map(|elem| serde_json::to_value(elem).expect("serialize text element"))
.collect(),
Some("mock_provider"),
None,
)?;
let mut mcp = McpProcess::new(codex_home.path()).await?;
timeout(DEFAULT_READ_TIMEOUT, mcp.initialize()).await??;
let resume_id = mcp
.send_thread_resume_request(ThreadResumeParams {
thread_id: conversation_id.clone(),
..Default::default()
})
.await?;
let resume_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_response_message(RequestId::Integer(resume_id)),
)
.await??;
let ThreadResumeResponse { thread, .. } = to_response::<ThreadResumeResponse>(resume_resp)?;
assert_eq!(thread.id, conversation_id);
assert_eq!(thread.preview, preview);
assert_eq!(thread.model_provider, "mock_provider");
assert!(thread.path.as_ref().expect("thread path").is_absolute());
assert_eq!(thread.cwd, PathBuf::from("/"));
assert_eq!(thread.cli_version, "0.0.0");
assert_eq!(thread.source, SessionSource::Cli);
assert_eq!(thread.git_info, None);
assert_eq!(thread.status, ThreadStatus::Idle);
assert_eq!(
thread.turns.len(),
1,
"expected rollouts to include one turn"
);
let turn = &thread.turns[0];
assert_eq!(turn.status, TurnStatus::Completed);
assert_eq!(turn.items.len(), 1, "expected user message item");
match &turn.items[0] {
ThreadItem::UserMessage { content, .. } => {
assert_eq!(
content,
&vec![UserInput::Text {
text: preview.to_string(),
text_elements: text_elements.clone().into_iter().map(Into::into).collect(),
}]
);
}
other => panic!("expected user message item, got {other:?}"),
}
Ok(())
}
#[tokio::test]
async fn thread_resume_without_overrides_does_not_change_updated_at_or_mtime() -> Result<()> {
let server = create_mock_responses_server_repeating_assistant("Done").await;
let codex_home = TempDir::new()?;
let rollout = setup_rollout_fixture(codex_home.path(), &server.uri())?;
let thread_id = rollout.conversation_id.clone();
let mut mcp = McpProcess::new(codex_home.path()).await?;
timeout(DEFAULT_READ_TIMEOUT, mcp.initialize()).await??;
let resume_id = mcp
.send_thread_resume_request(ThreadResumeParams {
thread_id: thread_id.clone(),
..Default::default()
})
.await?;
let resume_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_response_message(RequestId::Integer(resume_id)),
)
.await??;
let ThreadResumeResponse { thread, .. } = to_response::<ThreadResumeResponse>(resume_resp)?;
assert_eq!(thread.updated_at, rollout.expected_updated_at);
assert_eq!(thread.status, ThreadStatus::Idle);
let after_modified = std::fs::metadata(&rollout.rollout_file_path)?.modified()?;
assert_eq!(after_modified, rollout.before_modified);
let turn_id = mcp
.send_turn_start_request(TurnStartParams {
thread_id,
input: vec![UserInput::Text {
text: "Hello".to_string(),
text_elements: Vec::new(),
}],
..Default::default()
})
.await?;
timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_response_message(RequestId::Integer(turn_id)),
)
.await??;
timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_notification_message("turn/completed"),
)
.await??;
let after_turn_modified = std::fs::metadata(&rollout.rollout_file_path)?.modified()?;
assert!(after_turn_modified > rollout.before_modified);
Ok(())
}
#[tokio::test]
async fn thread_resume_keeps_in_flight_turn_streaming() -> Result<()> {
let server = create_mock_responses_server_repeating_assistant("Done").await;
let codex_home = TempDir::new()?;
create_config_toml(codex_home.path(), &server.uri())?;
let mut primary = McpProcess::new(codex_home.path()).await?;
timeout(DEFAULT_READ_TIMEOUT, primary.initialize()).await??;
let start_id = primary
.send_thread_start_request(ThreadStartParams {
model: Some("gpt-5.1-codex-max".to_string()),
..Default::default()
})
.await?;
let start_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(start_id)),
)
.await??;
let ThreadStartResponse { thread, .. } = to_response::<ThreadStartResponse>(start_resp)?;
let seed_turn_id = primary
.send_turn_start_request(TurnStartParams {
thread_id: thread.id.clone(),
input: vec![UserInput::Text {
text: "seed history".to_string(),
text_elements: Vec::new(),
}],
..Default::default()
})
.await?;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(seed_turn_id)),
)
.await??;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_notification_message("turn/completed"),
)
.await??;
primary.clear_message_buffer();
let mut secondary = McpProcess::new(codex_home.path()).await?;
timeout(DEFAULT_READ_TIMEOUT, secondary.initialize()).await??;
let turn_id = primary
.send_turn_start_request(TurnStartParams {
thread_id: thread.id.clone(),
input: vec![UserInput::Text {
text: "respond with docs".to_string(),
text_elements: Vec::new(),
}],
..Default::default()
})
.await?;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(turn_id)),
)
.await??;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_notification_message("turn/started"),
)
.await??;
let resume_id = secondary
.send_thread_resume_request(ThreadResumeParams {
thread_id: thread.id,
..Default::default()
})
.await?;
let resume_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
secondary.read_stream_until_response_message(RequestId::Integer(resume_id)),
)
.await??;
let ThreadResumeResponse {
thread: resumed_thread,
..
} = to_response::<ThreadResumeResponse>(resume_resp)?;
assert_ne!(resumed_thread.status, ThreadStatus::NotLoaded);
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_notification_message("turn/completed"),
)
.await??;
Ok(())
}
#[tokio::test]
async fn thread_resume_rejects_history_when_thread_is_running() -> Result<()> {
let server = responses::start_mock_server().await;
let first_body = responses::sse(vec![
responses::ev_response_created("resp-1"),
responses::ev_assistant_message("msg-1", "Done"),
responses::ev_completed("resp-1"),
]);
let second_body = responses::sse(vec![responses::ev_response_created("resp-2")]);
let _first_response_mock = responses::mount_sse_once(&server, first_body).await;
let _second_response_mock = responses::mount_sse_once(&server, second_body).await;
let codex_home = TempDir::new()?;
create_config_toml(codex_home.path(), &server.uri())?;
let mut primary = McpProcess::new(codex_home.path()).await?;
timeout(DEFAULT_READ_TIMEOUT, primary.initialize()).await??;
let start_id = primary
.send_thread_start_request(ThreadStartParams {
model: Some("gpt-5.1-codex-max".to_string()),
..Default::default()
})
.await?;
let start_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(start_id)),
)
.await??;
let ThreadStartResponse { thread, .. } = to_response::<ThreadStartResponse>(start_resp)?;
let seed_turn_id = primary
.send_turn_start_request(TurnStartParams {
thread_id: thread.id.clone(),
input: vec![UserInput::Text {
text: "seed history".to_string(),
text_elements: Vec::new(),
}],
..Default::default()
})
.await?;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(seed_turn_id)),
)
.await??;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_notification_message("turn/completed"),
)
.await??;
primary.clear_message_buffer();
let running_turn_id = primary
.send_turn_start_request(TurnStartParams {
thread_id: thread.id.clone(),
input: vec![UserInput::Text {
text: "keep running".to_string(),
text_elements: Vec::new(),
}],
..Default::default()
})
.await?;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(running_turn_id)),
)
.await??;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_notification_message("turn/started"),
)
.await??;
let resume_id = primary
.send_thread_resume_request(ThreadResumeParams {
thread_id: thread.id,
history: Some(vec![ResponseItem::Message {
id: None,
role: "user".to_string(),
content: vec![ContentItem::InputText {
text: "history override".to_string(),
}],
end_turn: None,
phase: None,
}]),
..Default::default()
})
.await?;
let resume_err: JSONRPCError = timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_error_message(RequestId::Integer(resume_id)),
)
.await??;
assert!(
resume_err.error.message.contains("cannot resume thread")
&& resume_err.error.message.contains("with history")
&& resume_err.error.message.contains("running"),
"unexpected resume error: {}",
resume_err.error.message
);
Ok(())
}
#[tokio::test]
async fn thread_resume_rejects_mismatched_path_when_thread_is_running() -> Result<()> {
let server = responses::start_mock_server().await;
let first_body = responses::sse(vec![
responses::ev_response_created("resp-1"),
responses::ev_assistant_message("msg-1", "Done"),
responses::ev_completed("resp-1"),
]);
let second_body = responses::sse(vec![responses::ev_response_created("resp-2")]);
let _first_response_mock = responses::mount_sse_once(&server, first_body).await;
let _second_response_mock = responses::mount_sse_once(&server, second_body).await;
let codex_home = TempDir::new()?;
create_config_toml(codex_home.path(), &server.uri())?;
let mut primary = McpProcess::new(codex_home.path()).await?;
timeout(DEFAULT_READ_TIMEOUT, primary.initialize()).await??;
let start_id = primary
.send_thread_start_request(ThreadStartParams {
model: Some("gpt-5.1-codex-max".to_string()),
..Default::default()
})
.await?;
let start_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(start_id)),
)
.await??;
let ThreadStartResponse { thread, .. } = to_response::<ThreadStartResponse>(start_resp)?;
let seed_turn_id = primary
.send_turn_start_request(TurnStartParams {
thread_id: thread.id.clone(),
input: vec![UserInput::Text {
text: "seed history".to_string(),
text_elements: Vec::new(),
}],
..Default::default()
})
.await?;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(seed_turn_id)),
)
.await??;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_notification_message("turn/completed"),
)
.await??;
primary.clear_message_buffer();
let running_turn_id = primary
.send_turn_start_request(TurnStartParams {
thread_id: thread.id.clone(),
input: vec![UserInput::Text {
text: "keep running".to_string(),
text_elements: Vec::new(),
}],
..Default::default()
})
.await?;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(running_turn_id)),
)
.await??;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_notification_message("turn/started"),
)
.await??;
let resume_id = primary
.send_thread_resume_request(ThreadResumeParams {
thread_id: thread.id,
path: Some(PathBuf::from("/tmp/does-not-match-running-rollout.jsonl")),
..Default::default()
})
.await?;
let resume_err: JSONRPCError = timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_error_message(RequestId::Integer(resume_id)),
)
.await??;
assert!(
resume_err.error.message.contains("mismatched path"),
"unexpected resume error: {}",
resume_err.error.message
);
Ok(())
}
#[tokio::test]
async fn thread_resume_rejoins_running_thread_even_with_override_mismatch() -> Result<()> {
let server = responses::start_mock_server().await;
let first_response = responses::sse_response(responses::sse(vec![
responses::ev_response_created("resp-1"),
responses::ev_assistant_message("msg-1", "Done"),
responses::ev_completed("resp-1"),
]));
let second_response = responses::sse_response(responses::sse(vec![
responses::ev_response_created("resp-2"),
responses::ev_assistant_message("msg-2", "Done"),
responses::ev_completed("resp-2"),
]))
.set_delay(std::time::Duration::from_millis(500));
let _response_mock =
responses::mount_response_sequence(&server, vec![first_response, second_response]).await;
let codex_home = TempDir::new()?;
create_config_toml(codex_home.path(), &server.uri())?;
let mut primary = McpProcess::new(codex_home.path()).await?;
timeout(DEFAULT_READ_TIMEOUT, primary.initialize()).await??;
let start_id = primary
.send_thread_start_request(ThreadStartParams {
model: Some("gpt-5.1-codex-max".to_string()),
..Default::default()
})
.await?;
let start_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(start_id)),
)
.await??;
let ThreadStartResponse { thread, .. } = to_response::<ThreadStartResponse>(start_resp)?;
let seed_turn_id = primary
.send_turn_start_request(TurnStartParams {
thread_id: thread.id.clone(),
input: vec![UserInput::Text {
text: "seed history".to_string(),
text_elements: Vec::new(),
}],
..Default::default()
})
.await?;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(seed_turn_id)),
)
.await??;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_notification_message("turn/completed"),
)
.await??;
primary.clear_message_buffer();
let running_turn_id = primary
.send_turn_start_request(TurnStartParams {
thread_id: thread.id.clone(),
input: vec![UserInput::Text {
text: "keep running".to_string(),
text_elements: Vec::new(),
}],
..Default::default()
})
.await?;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(running_turn_id)),
)
.await??;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_notification_message("turn/started"),
)
.await??;
let resume_id = primary
.send_thread_resume_request(ThreadResumeParams {
thread_id: thread.id.clone(),
model: Some("not-the-running-model".to_string()),
cwd: Some("/tmp".to_string()),
..Default::default()
})
.await?;
let resume_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(resume_id)),
)
.await??;
let ThreadResumeResponse { thread, model, .. } =
to_response::<ThreadResumeResponse>(resume_resp)?;
assert_eq!(model, "gpt-5.1-codex-max");
assert_eq!(
thread.status,
ThreadStatus::Active {
active_flags: vec![],
}
);
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_notification_message("turn/completed"),
)
.await??;
Ok(())
}
#[tokio::test]
async fn thread_resume_with_overrides_defers_updated_at_until_turn_start() -> Result<()> {
let server = create_mock_responses_server_repeating_assistant("Done").await;
let codex_home = TempDir::new()?;
create_config_toml(codex_home.path(), &server.uri())?;
let RestartedThreadFixture {
mut mcp,
thread_id,
rollout_file_path,
} = start_materialized_thread_and_restart(codex_home.path(), "materialize").await?;
let expected_updated_at_rfc3339 = "2025-01-07T00:00:00Z";
set_rollout_mtime(rollout_file_path.as_path(), expected_updated_at_rfc3339)?;
let before_modified = std::fs::metadata(&rollout_file_path)?.modified()?;
let expected_updated_at = chrono::DateTime::parse_from_rfc3339(expected_updated_at_rfc3339)?
.with_timezone(&Utc)
.timestamp();
let resume_id = mcp
.send_thread_resume_request(ThreadResumeParams {
thread_id,
model: Some("mock-model".to_string()),
..Default::default()
})
.await?;
let resume_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_response_message(RequestId::Integer(resume_id)),
)
.await??;
let ThreadResumeResponse {
thread: resumed_thread,
..
} = to_response::<ThreadResumeResponse>(resume_resp)?;
assert_eq!(resumed_thread.updated_at, expected_updated_at);
assert_eq!(resumed_thread.status, ThreadStatus::Idle);
let after_resume_modified = std::fs::metadata(&rollout_file_path)?.modified()?;
assert_eq!(after_resume_modified, before_modified);
let turn_id = mcp
.send_turn_start_request(TurnStartParams {
thread_id: resumed_thread.id,
input: vec![UserInput::Text {
text: "Hello".to_string(),
text_elements: Vec::new(),
}],
..Default::default()
})
.await?;
timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_response_message(RequestId::Integer(turn_id)),
)
.await??;
timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_notification_message("turn/completed"),
)
.await??;
let after_turn_modified = std::fs::metadata(&rollout_file_path)?.modified()?;
assert!(after_turn_modified > before_modified);
Ok(())
}
#[tokio::test]
async fn thread_resume_fails_when_required_mcp_server_fails_to_initialize() -> Result<()> {
let server = create_mock_responses_server_repeating_assistant("Done").await;
let codex_home = TempDir::new()?;
let rollout = setup_rollout_fixture(codex_home.path(), &server.uri())?;
create_config_toml_with_required_broken_mcp(codex_home.path(), &server.uri())?;
let mut mcp = McpProcess::new(codex_home.path()).await?;
timeout(DEFAULT_READ_TIMEOUT, mcp.initialize()).await??;
let resume_id = mcp
.send_thread_resume_request(ThreadResumeParams {
thread_id: rollout.conversation_id,
..Default::default()
})
.await?;
let err: JSONRPCError = timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_error_message(RequestId::Integer(resume_id)),
)
.await??;
assert!(
err.error
.message
.contains("required MCP servers failed to initialize"),
"unexpected error message: {}",
err.error.message
);
assert!(
err.error.message.contains("required_broken"),
"unexpected error message: {}",
err.error.message
);
Ok(())
}
#[tokio::test]
async fn thread_resume_prefers_path_over_thread_id() -> Result<()> {
let server = create_mock_responses_server_repeating_assistant("Done").await;
let codex_home = TempDir::new()?;
create_config_toml(codex_home.path(), &server.uri())?;
let mut mcp = McpProcess::new(codex_home.path()).await?;
timeout(DEFAULT_READ_TIMEOUT, mcp.initialize()).await??;
let start_id = mcp
.send_thread_start_request(ThreadStartParams {
model: Some("gpt-5.1-codex-max".to_string()),
..Default::default()
})
.await?;
let start_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_response_message(RequestId::Integer(start_id)),
)
.await??;
let ThreadStartResponse { thread, .. } = to_response::<ThreadStartResponse>(start_resp)?;
let turn_id = mcp
.send_turn_start_request(TurnStartParams {
thread_id: thread.id.clone(),
input: vec![UserInput::Text {
text: "materialize".to_string(),
text_elements: Vec::new(),
}],
..Default::default()
})
.await?;
timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_response_message(RequestId::Integer(turn_id)),
)
.await??;
timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_notification_message("turn/completed"),
)
.await??;
let thread_path = thread.path.clone().expect("thread path");
let resume_id = mcp
.send_thread_resume_request(ThreadResumeParams {
thread_id: "not-a-valid-thread-id".to_string(),
path: Some(thread_path),
..Default::default()
})
.await?;
let resume_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_response_message(RequestId::Integer(resume_id)),
)
.await??;
let ThreadResumeResponse {
thread: resumed, ..
} = to_response::<ThreadResumeResponse>(resume_resp)?;
assert_eq!(resumed.id, thread.id);
assert_eq!(resumed.path, thread.path);
assert_eq!(resumed.status, ThreadStatus::Idle);
Ok(())
}
#[tokio::test]
async fn thread_resume_supports_history_and_overrides() -> Result<()> {
let server = create_mock_responses_server_repeating_assistant("Done").await;
let codex_home = TempDir::new()?;
create_config_toml(codex_home.path(), &server.uri())?;
let RestartedThreadFixture {
mut mcp, thread_id, ..
} = start_materialized_thread_and_restart(codex_home.path(), "seed history").await?;
let history_text = "Hello from history";
let history = vec![ResponseItem::Message {
id: None,
role: "user".to_string(),
content: vec![ContentItem::InputText {
text: history_text.to_string(),
}],
end_turn: None,
phase: None,
}];
// Resume with explicit history and override the model.
let resume_id = mcp
.send_thread_resume_request(ThreadResumeParams {
thread_id,
history: Some(history),
model: Some("mock-model".to_string()),
model_provider: Some("mock_provider".to_string()),
..Default::default()
})
.await?;
let resume_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
mcp.read_stream_until_response_message(RequestId::Integer(resume_id)),
)
.await??;
let ThreadResumeResponse {
thread: resumed,
model_provider,
..
} = to_response::<ThreadResumeResponse>(resume_resp)?;
assert!(!resumed.id.is_empty());
assert_eq!(model_provider, "mock_provider");
assert_eq!(resumed.preview, history_text);
assert_eq!(resumed.status, ThreadStatus::Idle);
Ok(())
}
struct RestartedThreadFixture {
mcp: McpProcess,
thread_id: String,
rollout_file_path: PathBuf,
}
async fn start_materialized_thread_and_restart(
codex_home: &Path,
seed_text: &str,
) -> Result<RestartedThreadFixture> {
let mut first_mcp = McpProcess::new(codex_home).await?;
timeout(DEFAULT_READ_TIMEOUT, first_mcp.initialize()).await??;
let start_id = first_mcp
.send_thread_start_request(ThreadStartParams {
model: Some("gpt-5.1-codex-max".to_string()),
..Default::default()
})
.await?;
let start_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
first_mcp.read_stream_until_response_message(RequestId::Integer(start_id)),
)
.await??;
let ThreadStartResponse { thread, .. } = to_response::<ThreadStartResponse>(start_resp)?;
let materialize_turn_id = first_mcp
.send_turn_start_request(TurnStartParams {
thread_id: thread.id.clone(),
input: vec![UserInput::Text {
text: seed_text.to_string(),
text_elements: Vec::new(),
}],
..Default::default()
})
.await?;
timeout(
DEFAULT_READ_TIMEOUT,
first_mcp.read_stream_until_response_message(RequestId::Integer(materialize_turn_id)),
)
.await??;
timeout(
DEFAULT_READ_TIMEOUT,
first_mcp.read_stream_until_notification_message("turn/completed"),
)
.await??;
let thread_id = thread.id;
let rollout_file_path = thread
.path
.ok_or_else(|| anyhow::anyhow!("thread path missing from thread/start response"))?;
drop(first_mcp);
let mut second_mcp = McpProcess::new(codex_home).await?;
timeout(DEFAULT_READ_TIMEOUT, second_mcp.initialize()).await??;
Ok(RestartedThreadFixture {
mcp: second_mcp,
thread_id,
rollout_file_path,
})
}
#[tokio::test]
async fn thread_resume_accepts_personality_override() -> Result<()> {
skip_if_no_network!(Ok(()));
let server = responses::start_mock_server().await;
let first_body = responses::sse(vec![
responses::ev_response_created("resp-1"),
responses::ev_assistant_message("msg-1", "Done"),
responses::ev_completed("resp-1"),
]);
let second_body = responses::sse(vec![
responses::ev_response_created("resp-2"),
responses::ev_assistant_message("msg-2", "Done"),
responses::ev_completed("resp-2"),
]);
let response_mock = responses::mount_sse_sequence(&server, vec![first_body, second_body]).await;
let codex_home = TempDir::new()?;
create_config_toml(codex_home.path(), &server.uri())?;
let mut primary = McpProcess::new(codex_home.path()).await?;
timeout(DEFAULT_READ_TIMEOUT, primary.initialize()).await??;
let start_id = primary
.send_thread_start_request(ThreadStartParams {
model: Some("gpt-5.2-codex".to_string()),
..Default::default()
})
.await?;
let start_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(start_id)),
)
.await??;
let ThreadStartResponse { thread, .. } = to_response::<ThreadStartResponse>(start_resp)?;
let materialize_id = primary
.send_turn_start_request(TurnStartParams {
thread_id: thread.id.clone(),
input: vec![UserInput::Text {
text: "seed history".to_string(),
text_elements: Vec::new(),
}],
..Default::default()
})
.await?;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_response_message(RequestId::Integer(materialize_id)),
)
.await??;
timeout(
DEFAULT_READ_TIMEOUT,
primary.read_stream_until_notification_message("turn/completed"),
)
.await??;
let mut secondary = McpProcess::new(codex_home.path()).await?;
timeout(DEFAULT_READ_TIMEOUT, secondary.initialize()).await??;
let resume_id = secondary
.send_thread_resume_request(ThreadResumeParams {
thread_id: thread.id,
model: Some("gpt-5.2-codex".to_string()),
personality: Some(Personality::Friendly),
..Default::default()
})
.await?;
let resume_resp: JSONRPCResponse = timeout(
DEFAULT_READ_TIMEOUT,
secondary.read_stream_until_response_message(RequestId::Integer(resume_id)),
)
.await??;
let resume: ThreadResumeResponse = to_response::<ThreadResumeResponse>(resume_resp)?;
assert_eq!(resume.thread.status, ThreadStatus::Idle);
let turn_id = secondary
.send_turn_start_request(TurnStartParams {
thread_id: resume.thread.id,
input: vec![UserInput::Text {
text: "Hello".to_string(),
text_elements: Vec::new(),
}],
..Default::default()
})
.await?;
timeout(
DEFAULT_READ_TIMEOUT,
secondary.read_stream_until_response_message(RequestId::Integer(turn_id)),
)
.await??;
timeout(
DEFAULT_READ_TIMEOUT,
secondary.read_stream_until_notification_message("turn/completed"),
)
.await??;
let requests = response_mock.requests();
let request = requests
.last()
.expect("expected request for resumed thread turn");
let developer_texts = request.message_input_texts("developer");
assert!(
developer_texts
.iter()
.any(|text| text.contains("<personality_spec>")),
"expected a personality update message in developer input, got {developer_texts:?}"
);
let instructions_text = request.instructions_text();
assert!(
instructions_text.contains(CODEX_5_2_INSTRUCTIONS_TEMPLATE_DEFAULT),
"expected default base instructions from history, got {instructions_text:?}"
);
Ok(())
}
// Helper to create a config.toml pointing at the mock model server.
fn create_config_toml(codex_home: &std::path::Path, server_uri: &str) -> std::io::Result<()> {
let config_toml = codex_home.join("config.toml");
std::fs::write(
config_toml,
format!(
r#"
model = "gpt-5.2-codex"
approval_policy = "never"
sandbox_mode = "read-only"
model_provider = "mock_provider"
[features]
personality = true
[model_providers.mock_provider]
name = "Mock provider for test"
base_url = "{server_uri}/v1"
wire_api = "responses"
request_max_retries = 0
stream_max_retries = 0
"#
),
)
}
fn create_config_toml_with_required_broken_mcp(
codex_home: &std::path::Path,
server_uri: &str,
) -> std::io::Result<()> {
let config_toml = codex_home.join("config.toml");
std::fs::write(
config_toml,
format!(
r#"
model = "gpt-5.2-codex"
approval_policy = "never"
sandbox_mode = "read-only"
model_provider = "mock_provider"
[features]
personality = true
[model_providers.mock_provider]
name = "Mock provider for test"
base_url = "{server_uri}/v1"
wire_api = "responses"
request_max_retries = 0
stream_max_retries = 0
[mcp_servers.required_broken]
command = "codex-definitely-not-a-real-binary"
required = true
"#
),
)
}
#[allow(dead_code)]
fn set_rollout_mtime(path: &Path, updated_at_rfc3339: &str) -> Result<()> {
let parsed = chrono::DateTime::parse_from_rfc3339(updated_at_rfc3339)?.with_timezone(&Utc);
let times = FileTimes::new().set_modified(parsed.into());
std::fs::OpenOptions::new()
.append(true)
.open(path)?
.set_times(times)?;
Ok(())
}
struct RolloutFixture {
conversation_id: String,
rollout_file_path: PathBuf,
before_modified: std::time::SystemTime,
expected_updated_at: i64,
}
fn setup_rollout_fixture(codex_home: &Path, server_uri: &str) -> Result<RolloutFixture> {
create_config_toml(codex_home, server_uri)?;
let preview = "Saved user message";
let filename_ts = "2025-01-05T12-00-00";
let meta_rfc3339 = "2025-01-05T12:00:00Z";
let expected_updated_at_rfc3339 = "2025-01-07T00:00:00Z";
let conversation_id = create_fake_rollout_with_text_elements(
codex_home,
filename_ts,
meta_rfc3339,
preview,
Vec::new(),
Some("mock_provider"),
None,
)?;
let rollout_file_path = rollout_path(codex_home, filename_ts, &conversation_id);
set_rollout_mtime(rollout_file_path.as_path(), expected_updated_at_rfc3339)?;
let before_modified = std::fs::metadata(&rollout_file_path)?.modified()?;
let expected_updated_at = chrono::DateTime::parse_from_rfc3339(expected_updated_at_rfc3339)?
.with_timezone(&Utc)
.timestamp();
Ok(RolloutFixture {
conversation_id,
rollout_file_path,
before_modified,
expected_updated_at,
})
}
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