use anyhow::Result; use app_test_support::ChatGptAuthFixture; use app_test_support::McpProcess; use app_test_support::create_fake_rollout; use app_test_support::create_mock_responses_server_repeating_assistant; use app_test_support::to_response; use app_test_support::write_chatgpt_auth; use codex_app_server_protocol::JSONRPCError; use codex_app_server_protocol::JSONRPCMessage; use codex_app_server_protocol::JSONRPCResponse; use codex_app_server_protocol::RequestId; use codex_app_server_protocol::SessionSource; use codex_app_server_protocol::ThreadForkParams; use codex_app_server_protocol::ThreadForkResponse; use codex_app_server_protocol::ThreadItem; use codex_app_server_protocol::ThreadListParams; use codex_app_server_protocol::ThreadListResponse; use codex_app_server_protocol::ThreadStartParams; use codex_app_server_protocol::ThreadStartResponse; use codex_app_server_protocol::ThreadStartedNotification; use codex_app_server_protocol::ThreadStatus; use codex_app_server_protocol::ThreadStatusChangedNotification; use codex_app_server_protocol::TurnStartParams; use codex_app_server_protocol::TurnStartResponse; use codex_app_server_protocol::TurnStatus; use codex_app_server_protocol::UserInput; use codex_login::AuthCredentialsStoreMode; use codex_login::REFRESH_TOKEN_URL_OVERRIDE_ENV_VAR; use pretty_assertions::assert_eq; use serde_json::Value; use serde_json::json; use std::path::Path; use tempfile::TempDir; use tokio::time::timeout; use wiremock::Mock; use wiremock::MockServer; use wiremock::ResponseTemplate; use wiremock::matchers::method; use wiremock::matchers::path; use super::analytics::assert_basic_thread_initialized_event; use super::analytics::enable_analytics_capture; use super::analytics::thread_initialized_event; use super::analytics::wait_for_analytics_payload; const DEFAULT_READ_TIMEOUT: std::time::Duration = std::time::Duration::from_secs(10); #[tokio::test] async fn thread_fork_creates_new_thread_and_emits_started() -> 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 conversation_id = create_fake_rollout( codex_home.path(), "2025-01-05T12-00-00", "2025-01-05T12:00:00Z", preview, Some("mock_provider"), /*git_info*/ None, )?; let original_path = codex_home .path() .join("sessions") .join("2025") .join("01") .join("05") .join(format!( "rollout-2025-01-05T12-00-00-{conversation_id}.jsonl" )); assert!( original_path.exists(), "expected original rollout to exist at {}", original_path.display() ); let original_contents = std::fs::read_to_string(&original_path)?; let mut mcp = McpProcess::new(codex_home.path()).await?; timeout(DEFAULT_READ_TIMEOUT, mcp.initialize()).await??; let fork_id = mcp .send_thread_fork_request(ThreadForkParams { thread_id: conversation_id.clone(), ..Default::default() }) .await?; let fork_resp: JSONRPCResponse = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_response_message(RequestId::Integer(fork_id)), ) .await??; let fork_result = fork_resp.result.clone(); let ThreadForkResponse { thread, .. } = to_response::(fork_resp)?; // Wire contract: thread title field is `name`, serialized as null when unset. let thread_json = fork_result .get("thread") .and_then(Value::as_object) .expect("thread/fork result.thread must be an object"); assert_eq!( thread_json.get("name"), Some(&Value::Null), "forked threads do not inherit a name; expected `name: null`" ); let after_contents = std::fs::read_to_string(&original_path)?; assert_eq!( after_contents, original_contents, "fork should not mutate the original rollout file" ); assert_ne!(thread.id, conversation_id); assert_eq!(thread.preview, preview); assert_eq!(thread.model_provider, "mock_provider"); assert_eq!(thread.status, ThreadStatus::Idle); let thread_path = thread.path.clone().expect("thread path"); assert!(thread_path.is_absolute()); assert_ne!(thread_path, original_path); assert!(thread.cwd.is_absolute()); assert_eq!(thread.source, SessionSource::VsCode); assert_eq!(thread.name, None); assert_eq!( thread.turns.len(), 1, "expected forked thread to include one turn" ); let turn = &thread.turns[0]; assert_eq!(turn.status, TurnStatus::Interrupted); 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: Vec::new(), }] ); } other => panic!("expected user message item, got {other:?}"), } // A corresponding thread/started notification should arrive. let deadline = tokio::time::Instant::now() + DEFAULT_READ_TIMEOUT; let notif = loop { let remaining = deadline.saturating_duration_since(tokio::time::Instant::now()); let message = timeout(remaining, mcp.read_next_message()).await??; let JSONRPCMessage::Notification(notif) = message else { continue; }; if notif.method == "thread/status/changed" { let status_changed: ThreadStatusChangedNotification = serde_json::from_value(notif.params.expect("params must be present"))?; if status_changed.thread_id == thread.id { anyhow::bail!( "thread/fork should introduce the thread without a preceding thread/status/changed" ); } continue; } if notif.method == "thread/started" { break notif; } }; let started_params = notif.params.clone().expect("params must be present"); let started_thread_json = started_params .get("thread") .and_then(Value::as_object) .expect("thread/started params.thread must be an object"); assert_eq!( started_thread_json.get("name"), Some(&Value::Null), "thread/started must serialize `name: null` when unset" ); let started: ThreadStartedNotification = serde_json::from_value(notif.params.expect("params must be present"))?; assert_eq!(started.thread, thread); Ok(()) } #[tokio::test] async fn thread_fork_tracks_thread_initialized_analytics() -> Result<()> { let server = create_mock_responses_server_repeating_assistant("Done").await; let codex_home = TempDir::new()?; create_config_toml_with_chatgpt_base_url( codex_home.path(), &server.uri(), &server.uri(), /*general_analytics_enabled*/ true, )?; enable_analytics_capture(&server, codex_home.path()).await?; let conversation_id = create_fake_rollout( codex_home.path(), "2025-01-05T12-00-00", "2025-01-05T12:00:00Z", "Saved user message", Some("mock_provider"), /*git_info*/ None, )?; let mut mcp = McpProcess::new(codex_home.path()).await?; timeout(DEFAULT_READ_TIMEOUT, mcp.initialize()).await??; let fork_id = mcp .send_thread_fork_request(ThreadForkParams { thread_id: conversation_id, ..Default::default() }) .await?; let fork_resp: JSONRPCResponse = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_response_message(RequestId::Integer(fork_id)), ) .await??; let ThreadForkResponse { thread, .. } = to_response::(fork_resp)?; let payload = wait_for_analytics_payload(&server, DEFAULT_READ_TIMEOUT).await?; let event = thread_initialized_event(&payload)?; assert_basic_thread_initialized_event(event, &thread.id, "mock-model", "forked"); Ok(()) } #[tokio::test] async fn thread_fork_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??; let start_id = mcp .send_thread_start_request(ThreadStartParams { model: Some("mock-model".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::(start_resp)?; let fork_id = mcp .send_thread_fork_request(ThreadForkParams { thread_id: thread.id, ..Default::default() }) .await?; let fork_err: JSONRPCError = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_error_message(RequestId::Integer(fork_id)), ) .await??; assert!( fork_err .error .message .contains("no rollout found for thread id"), "unexpected fork error: {}", fork_err.error.message ); Ok(()) } #[tokio::test] async fn thread_fork_surfaces_cloud_requirements_load_errors() -> Result<()> { let server = MockServer::start().await; Mock::given(method("GET")) .and(path("/backend-api/wham/config/requirements")) .respond_with( ResponseTemplate::new(401) .insert_header("content-type", "text/html") .set_body_string("nope"), ) .mount(&server) .await; Mock::given(method("POST")) .and(path("/oauth/token")) .respond_with(ResponseTemplate::new(401).set_body_json(json!({ "error": { "code": "refresh_token_invalidated" } }))) .mount(&server) .await; let codex_home = TempDir::new()?; let model_server = create_mock_responses_server_repeating_assistant("Done").await; let chatgpt_base_url = format!("{}/backend-api", server.uri()); create_config_toml_with_chatgpt_base_url( codex_home.path(), &model_server.uri(), &chatgpt_base_url, /*general_analytics_enabled*/ false, )?; write_chatgpt_auth( codex_home.path(), ChatGptAuthFixture::new("chatgpt-token") .refresh_token("stale-refresh-token") .plan_type("business") .chatgpt_user_id("user-123") .chatgpt_account_id("account-123") .account_id("account-123"), AuthCredentialsStoreMode::File, )?; let conversation_id = create_fake_rollout( codex_home.path(), "2025-01-05T12-00-00", "2025-01-05T12:00:00Z", "Saved user message", Some("mock_provider"), /*git_info*/ None, )?; let refresh_token_url = format!("{}/oauth/token", server.uri()); let mut mcp = McpProcess::new_with_env( codex_home.path(), &[ ("OPENAI_API_KEY", None), ( REFRESH_TOKEN_URL_OVERRIDE_ENV_VAR, Some(refresh_token_url.as_str()), ), ], ) .await?; timeout(DEFAULT_READ_TIMEOUT, mcp.initialize()).await??; let fork_id = mcp .send_thread_fork_request(ThreadForkParams { thread_id: conversation_id, ..Default::default() }) .await?; let fork_err: JSONRPCError = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_error_message(RequestId::Integer(fork_id)), ) .await??; assert!( fork_err .error .message .contains("failed to load configuration"), "unexpected fork error: {}", fork_err.error.message ); assert_eq!( fork_err.error.data, Some(json!({ "reason": "cloudRequirements", "errorCode": "Auth", "action": "relogin", "statusCode": 401, "detail": "Your access token could not be refreshed because your refresh token was revoked. Please log out and sign in again.", })) ); Ok(()) } #[tokio::test] async fn thread_fork_ephemeral_remains_pathless_and_omits_listing() -> 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 conversation_id = create_fake_rollout( codex_home.path(), "2025-01-05T12-00-00", "2025-01-05T12:00:00Z", preview, Some("mock_provider"), /*git_info*/ None, )?; let mut mcp = McpProcess::new(codex_home.path()).await?; timeout(DEFAULT_READ_TIMEOUT, mcp.initialize()).await??; let fork_id = mcp .send_thread_fork_request(ThreadForkParams { thread_id: conversation_id.clone(), ephemeral: true, ..Default::default() }) .await?; let fork_resp: JSONRPCResponse = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_response_message(RequestId::Integer(fork_id)), ) .await??; let fork_result = fork_resp.result.clone(); let ThreadForkResponse { thread, .. } = to_response::(fork_resp)?; let fork_thread_id = thread.id.clone(); assert!( thread.ephemeral, "ephemeral forks should be marked explicitly" ); assert_eq!( thread.path, None, "ephemeral forks should not expose a path" ); assert_eq!(thread.preview, preview); assert_eq!(thread.status, ThreadStatus::Idle); assert_eq!(thread.name, None); assert_eq!(thread.turns.len(), 1, "expected copied fork history"); 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: Vec::new(), }] ); } other => panic!("expected user message item, got {other:?}"), } let thread_json = fork_result .get("thread") .and_then(Value::as_object) .expect("thread/fork result.thread must be an object"); assert_eq!( thread_json.get("ephemeral").and_then(Value::as_bool), Some(true), "ephemeral forks should serialize `ephemeral: true`" ); let deadline = tokio::time::Instant::now() + DEFAULT_READ_TIMEOUT; let notif = loop { let remaining = deadline.saturating_duration_since(tokio::time::Instant::now()); let message = timeout(remaining, mcp.read_next_message()).await??; let JSONRPCMessage::Notification(notif) = message else { continue; }; if notif.method == "thread/status/changed" { let status_changed: ThreadStatusChangedNotification = serde_json::from_value(notif.params.expect("params must be present"))?; if status_changed.thread_id == fork_thread_id { anyhow::bail!( "thread/fork should introduce the thread without a preceding thread/status/changed" ); } continue; } if notif.method == "thread/started" { break notif; } }; let started_params = notif.params.clone().expect("params must be present"); let started_thread_json = started_params .get("thread") .and_then(Value::as_object) .expect("thread/started params.thread must be an object"); assert_eq!( started_thread_json .get("ephemeral") .and_then(Value::as_bool), Some(true), "thread/started should serialize `ephemeral: true` for ephemeral forks" ); let started: ThreadStartedNotification = serde_json::from_value(notif.params.expect("params must be present"))?; assert_eq!(started.thread, thread); let list_id = mcp .send_thread_list_request(ThreadListParams { cursor: None, limit: Some(10), sort_key: None, model_providers: None, source_kinds: None, archived: None, cwd: None, search_term: None, }) .await?; let list_resp: JSONRPCResponse = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_response_message(RequestId::Integer(list_id)), ) .await??; let ThreadListResponse { data, .. } = to_response::(list_resp)?; assert!( data.iter().all(|candidate| candidate.id != fork_thread_id), "ephemeral forks should not appear in thread/list" ); assert!( data.iter().any(|candidate| candidate.id == conversation_id), "persistent source thread should remain listed" ); let turn_id = mcp .send_turn_start_request(TurnStartParams { thread_id: fork_thread_id, input: vec![UserInput::Text { text: "continue".to_string(), text_elements: Vec::new(), }], ..Default::default() }) .await?; let turn_resp: JSONRPCResponse = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_response_message(RequestId::Integer(turn_id)), ) .await??; let _: TurnStartResponse = to_response::(turn_resp)?; timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_notification_message("turn/completed"), ) .await??; Ok(()) } // Helper to create a config.toml pointing at the mock model server. fn create_config_toml(codex_home: &Path, server_uri: &str) -> std::io::Result<()> { let config_toml = codex_home.join("config.toml"); std::fs::write( config_toml, format!( r#" model = "mock-model" approval_policy = "never" sandbox_mode = "read-only" model_provider = "mock_provider" [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_chatgpt_base_url( codex_home: &Path, server_uri: &str, chatgpt_base_url: &str, general_analytics_enabled: bool, ) -> std::io::Result<()> { let general_analytics_toml = if general_analytics_enabled { "\n[features]\ngeneral_analytics = true\n".to_string() } else { String::new() }; let config_toml = codex_home.join("config.toml"); std::fs::write( config_toml, format!( r#" model = "mock-model" approval_policy = "never" sandbox_mode = "read-only" chatgpt_base_url = "{chatgpt_base_url}" model_provider = "mock_provider" {general_analytics_toml} [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 "# ), ) }