#![cfg(unix)] use anyhow::Result; use app_test_support::McpProcess; use app_test_support::create_mock_responses_server_sequence; use app_test_support::create_mock_responses_server_sequence_unchecked; use app_test_support::create_shell_command_sse_response; use app_test_support::to_response; use app_test_support::write_mock_responses_config_toml_with_chatgpt_base_url; use codex_app_server::INPUT_TOO_LARGE_ERROR_CODE; use codex_app_server::INVALID_PARAMS_ERROR_CODE; use codex_app_server_protocol::JSONRPCError; use codex_app_server_protocol::JSONRPCNotification; use codex_app_server_protocol::JSONRPCResponse; use codex_app_server_protocol::RequestId; use codex_app_server_protocol::ThreadStartParams; use codex_app_server_protocol::ThreadStartResponse; use codex_app_server_protocol::TurnStartParams; use codex_app_server_protocol::TurnStartResponse; use codex_app_server_protocol::TurnSteerParams; use codex_app_server_protocol::TurnSteerResponse; use codex_app_server_protocol::UserInput as V2UserInput; use codex_protocol::user_input::MAX_USER_INPUT_TEXT_CHARS; use tempfile::TempDir; use tokio::time::timeout; use super::analytics::enable_analytics_capture; use super::analytics::wait_for_analytics_event; const DEFAULT_READ_TIMEOUT: std::time::Duration = std::time::Duration::from_secs(10); #[tokio::test] async fn turn_steer_requires_active_turn() -> Result<()> { let tmp = TempDir::new()?; let codex_home = tmp.path().join("codex_home"); std::fs::create_dir(&codex_home)?; let server = create_mock_responses_server_sequence(vec![]).await; write_mock_responses_config_toml_with_chatgpt_base_url( &codex_home, &server.uri(), &server.uri(), )?; enable_analytics_capture(&server, &codex_home).await?; let mut mcp = McpProcess::new_without_managed_config(&codex_home).await?; timeout(DEFAULT_READ_TIMEOUT, mcp.initialize()).await??; let thread_req = mcp .send_thread_start_request(ThreadStartParams { model: Some("mock-model".to_string()), ..Default::default() }) .await?; let thread_resp: JSONRPCResponse = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_response_message(RequestId::Integer(thread_req)), ) .await??; let ThreadStartResponse { thread, .. } = to_response::(thread_resp)?; let steer_req = mcp .send_turn_steer_request(TurnSteerParams { thread_id: thread.id.clone(), input: vec![V2UserInput::Text { text: "steer".to_string(), text_elements: Vec::new(), }], responsesapi_client_metadata: None, expected_turn_id: "turn-does-not-exist".to_string(), }) .await?; let steer_err: JSONRPCError = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_error_message(RequestId::Integer(steer_req)), ) .await??; assert_eq!(steer_err.error.code, -32600); let event = wait_for_analytics_event(&server, DEFAULT_READ_TIMEOUT, "codex_turn_steer_event").await?; assert_eq!(event["event_params"]["thread_id"], thread.id); assert_eq!(event["event_params"]["result"], "rejected"); assert_eq!(event["event_params"]["num_input_images"], 0); assert_eq!( event["event_params"]["expected_turn_id"], "turn-does-not-exist" ); assert_eq!( event["event_params"]["accepted_turn_id"], serde_json::Value::Null ); assert_eq!(event["event_params"]["rejection_reason"], "no_active_turn"); Ok(()) } #[tokio::test] async fn turn_steer_rejects_oversized_text_input() -> Result<()> { #[cfg(target_os = "windows")] let shell_command = vec![ "powershell".to_string(), "-Command".to_string(), "Start-Sleep -Seconds 10".to_string(), ]; #[cfg(not(target_os = "windows"))] let shell_command = vec!["sleep".to_string(), "10".to_string()]; let tmp = TempDir::new()?; let codex_home = tmp.path().join("codex_home"); std::fs::create_dir(&codex_home)?; let working_directory = tmp.path().join("workdir"); std::fs::create_dir(&working_directory)?; let server = create_mock_responses_server_sequence_unchecked(vec![create_shell_command_sse_response( shell_command.clone(), Some(&working_directory), Some(10_000), "call_sleep", )?]) .await; write_mock_responses_config_toml_with_chatgpt_base_url( &codex_home, &server.uri(), &server.uri(), )?; enable_analytics_capture(&server, &codex_home).await?; let mut mcp = McpProcess::new_without_managed_config(&codex_home).await?; timeout(DEFAULT_READ_TIMEOUT, mcp.initialize()).await??; let thread_req = mcp .send_thread_start_request(ThreadStartParams { model: Some("mock-model".to_string()), ..Default::default() }) .await?; let thread_resp: JSONRPCResponse = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_response_message(RequestId::Integer(thread_req)), ) .await??; let ThreadStartResponse { thread, .. } = to_response::(thread_resp)?; let turn_req = mcp .send_turn_start_request(TurnStartParams { thread_id: thread.id.clone(), input: vec![V2UserInput::Text { text: "run sleep".to_string(), text_elements: Vec::new(), }], cwd: Some(working_directory.clone()), ..Default::default() }) .await?; let turn_resp: JSONRPCResponse = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_response_message(RequestId::Integer(turn_req)), ) .await??; let TurnStartResponse { turn } = to_response::(turn_resp)?; let _task_started: JSONRPCNotification = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_notification_message("turn/started"), ) .await??; let oversized_input = "x".repeat(MAX_USER_INPUT_TEXT_CHARS + 1); let steer_req = mcp .send_turn_steer_request(TurnSteerParams { thread_id: thread.id.clone(), input: vec![V2UserInput::Text { text: oversized_input.clone(), text_elements: Vec::new(), }], responsesapi_client_metadata: None, expected_turn_id: turn.id.clone(), }) .await?; let steer_err: JSONRPCError = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_error_message(RequestId::Integer(steer_req)), ) .await??; assert_eq!(steer_err.error.code, INVALID_PARAMS_ERROR_CODE); assert_eq!( steer_err.error.message, format!("Input exceeds the maximum length of {MAX_USER_INPUT_TEXT_CHARS} characters.") ); let data = steer_err .error .data .expect("expected structured error data"); assert_eq!(data["input_error_code"], INPUT_TOO_LARGE_ERROR_CODE); assert_eq!(data["max_chars"], MAX_USER_INPUT_TEXT_CHARS); assert_eq!(data["actual_chars"], oversized_input.chars().count()); mcp.interrupt_turn_and_wait_for_aborted(thread.id, turn.id, DEFAULT_READ_TIMEOUT) .await?; Ok(()) } #[tokio::test] async fn turn_steer_returns_active_turn_id() -> Result<()> { #[cfg(target_os = "windows")] let shell_command = vec![ "powershell".to_string(), "-Command".to_string(), "Start-Sleep -Seconds 10".to_string(), ]; #[cfg(not(target_os = "windows"))] let shell_command = vec!["sleep".to_string(), "10".to_string()]; let tmp = TempDir::new()?; let codex_home = tmp.path().join("codex_home"); std::fs::create_dir(&codex_home)?; let working_directory = tmp.path().join("workdir"); std::fs::create_dir(&working_directory)?; let server = create_mock_responses_server_sequence_unchecked(vec![create_shell_command_sse_response( shell_command.clone(), Some(&working_directory), Some(10_000), "call_sleep", )?]) .await; write_mock_responses_config_toml_with_chatgpt_base_url( &codex_home, &server.uri(), &server.uri(), )?; enable_analytics_capture(&server, &codex_home).await?; let mut mcp = McpProcess::new_without_managed_config(&codex_home).await?; timeout(DEFAULT_READ_TIMEOUT, mcp.initialize()).await??; let thread_req = mcp .send_thread_start_request(ThreadStartParams { model: Some("mock-model".to_string()), ..Default::default() }) .await?; let thread_resp: JSONRPCResponse = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_response_message(RequestId::Integer(thread_req)), ) .await??; let ThreadStartResponse { thread, .. } = to_response::(thread_resp)?; let turn_req = mcp .send_turn_start_request(TurnStartParams { thread_id: thread.id.clone(), input: vec![V2UserInput::Text { text: "run sleep".to_string(), text_elements: Vec::new(), }], cwd: Some(working_directory.clone()), ..Default::default() }) .await?; let turn_resp: JSONRPCResponse = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_response_message(RequestId::Integer(turn_req)), ) .await??; let TurnStartResponse { turn } = to_response::(turn_resp)?; let _task_started: JSONRPCNotification = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_notification_message("turn/started"), ) .await??; let steer_req = mcp .send_turn_steer_request(TurnSteerParams { thread_id: thread.id.clone(), input: vec![V2UserInput::Text { text: "steer".to_string(), text_elements: Vec::new(), }], responsesapi_client_metadata: None, expected_turn_id: turn.id.clone(), }) .await?; let steer_resp: JSONRPCResponse = timeout( DEFAULT_READ_TIMEOUT, mcp.read_stream_until_response_message(RequestId::Integer(steer_req)), ) .await??; let steer: TurnSteerResponse = to_response::(steer_resp)?; assert_eq!(steer.turn_id, turn.id); let event = wait_for_analytics_event(&server, DEFAULT_READ_TIMEOUT, "codex_turn_steer_event").await?; assert_eq!(event["event_params"]["thread_id"], thread.id); assert_eq!(event["event_params"]["result"], "accepted"); assert_eq!(event["event_params"]["num_input_images"], 0); assert_eq!(event["event_params"]["expected_turn_id"], turn.id); assert_eq!(event["event_params"]["accepted_turn_id"], turn.id); assert_eq!( event["event_params"]["rejection_reason"], serde_json::Value::Null ); mcp.interrupt_turn_and_wait_for_aborted(thread.id, steer.turn_id, DEFAULT_READ_TIMEOUT) .await?; Ok(()) }