//! Asynchronous worker that executes a **Codex** tool-call inside a spawned //! Tokio task. Separated from `message_processor.rs` to keep that file small //! and to make future feature-growth easier to manage. use std::collections::HashMap; use std::sync::Arc; use crate::exec_approval::handle_exec_approval_request; use crate::outgoing_message::OutgoingMessageSender; use crate::outgoing_message::OutgoingNotificationMeta; use crate::patch_approval::handle_patch_approval_request; use codex_core::CodexThread; use codex_core::NewThread; use codex_core::ThreadManager; use codex_core::config::Config as CodexConfig; use codex_core::protocol::AgentMessageEvent; use codex_core::protocol::ApplyPatchApprovalRequestEvent; use codex_core::protocol::Event; use codex_core::protocol::EventMsg; use codex_core::protocol::ExecApprovalRequestEvent; use codex_core::protocol::Op; use codex_core::protocol::Submission; use codex_core::protocol::TurnCompleteEvent; use codex_protocol::ThreadId; use codex_protocol::user_input::UserInput; use rmcp::model::CallToolResult; use rmcp::model::Content; use rmcp::model::RequestId; use serde_json::json; use tokio::sync::Mutex; /// To adhere to MCP `tools/call` response format, include the Codex /// `threadId` in the `structured_content` field of the response. /// Some MCP clients ignore `content` when `structuredContent` is present, so /// mirror the text there as well. pub(crate) fn create_call_tool_result_with_thread_id( thread_id: ThreadId, text: String, is_error: Option, ) -> CallToolResult { let content_text = text; let content = vec![Content::text(content_text.clone())]; let structured_content = json!({ "threadId": thread_id, "content": content_text, }); CallToolResult { content, is_error, structured_content: Some(structured_content), meta: None, } } /// Run a complete Codex session and stream events back to the client. /// /// On completion (success or error) the function sends the appropriate /// `tools/call` response so the LLM can continue the conversation. pub async fn run_codex_tool_session( id: RequestId, initial_prompt: String, config: CodexConfig, outgoing: Arc, thread_manager: Arc, running_requests_id_to_codex_uuid: Arc>>, ) { let NewThread { thread_id, thread, session_configured, } = match thread_manager.start_thread(config).await { Ok(res) => res, Err(e) => { let result = CallToolResult { content: vec![Content::text(format!("Failed to start Codex session: {e}"))], is_error: Some(true), structured_content: None, meta: None, }; outgoing.send_response(id.clone(), result).await; return; } }; let session_configured_event = Event { // Use a fake id value for now. id: "".to_string(), msg: EventMsg::SessionConfigured(session_configured.clone()), }; outgoing .send_event_as_notification( &session_configured_event, Some(OutgoingNotificationMeta { request_id: Some(id.clone()), thread_id: Some(thread_id), }), ) .await; // Use the original MCP request ID as the `sub_id` for the Codex submission so that // any events emitted for this tool-call can be correlated with the // originating `tools/call` request. let sub_id = id.to_string(); running_requests_id_to_codex_uuid .lock() .await .insert(id.clone(), thread_id); let submission = Submission { id: sub_id.clone(), op: Op::UserInput { items: vec![UserInput::Text { text: initial_prompt.clone(), // MCP tool prompts are plain text with no UI element ranges. text_elements: Vec::new(), }], final_output_json_schema: None, }, }; if let Err(e) = thread.submit_with_id(submission).await { tracing::error!("Failed to submit initial prompt: {e}"); let result = create_call_tool_result_with_thread_id( thread_id, format!("Failed to submit initial prompt: {e}"), Some(true), ); outgoing.send_response(id.clone(), result).await; // unregister the id so we don't keep it in the map running_requests_id_to_codex_uuid.lock().await.remove(&id); return; } run_codex_tool_session_inner( thread_id, thread, outgoing, id, running_requests_id_to_codex_uuid, ) .await; } pub async fn run_codex_tool_session_reply( thread_id: ThreadId, thread: Arc, outgoing: Arc, request_id: RequestId, prompt: String, running_requests_id_to_codex_uuid: Arc>>, ) { running_requests_id_to_codex_uuid .lock() .await .insert(request_id.clone(), thread_id); if let Err(e) = thread .submit(Op::UserInput { items: vec![UserInput::Text { text: prompt, // MCP tool prompts are plain text with no UI element ranges. text_elements: Vec::new(), }], final_output_json_schema: None, }) .await { tracing::error!("Failed to submit user input: {e}"); let result = create_call_tool_result_with_thread_id( thread_id, format!("Failed to submit user input: {e}"), Some(true), ); outgoing.send_response(request_id.clone(), result).await; // unregister the id so we don't keep it in the map running_requests_id_to_codex_uuid .lock() .await .remove(&request_id); return; } run_codex_tool_session_inner( thread_id, thread, outgoing, request_id, running_requests_id_to_codex_uuid, ) .await; } async fn run_codex_tool_session_inner( thread_id: ThreadId, thread: Arc, outgoing: Arc, request_id: RequestId, running_requests_id_to_codex_uuid: Arc>>, ) { let request_id_str = request_id.to_string(); // Stream events until the task needs to pause for user interaction or // completes. loop { match thread.next_event().await { Ok(event) => { outgoing .send_event_as_notification( &event, Some(OutgoingNotificationMeta { request_id: Some(request_id.clone()), thread_id: Some(thread_id), }), ) .await; match event.msg { EventMsg::ExecApprovalRequest(ExecApprovalRequestEvent { turn_id: _, command, cwd, call_id, reason: _, proposed_execpolicy_amendment: _, parsed_cmd, network_approval_context: _, }) => { handle_exec_approval_request( command, cwd, outgoing.clone(), thread.clone(), request_id.clone(), request_id_str.clone(), event.id.clone(), call_id, parsed_cmd, thread_id, ) .await; continue; } EventMsg::PlanDelta(_) => { continue; } EventMsg::Error(err_event) => { // Always respond in tools/call's expected shape, and include conversationId so the client can resume. let result = create_call_tool_result_with_thread_id( thread_id, err_event.message, Some(true), ); outgoing.send_response(request_id.clone(), result).await; break; } EventMsg::Warning(_) => { continue; } EventMsg::ElicitationRequest(_) => { // TODO: forward elicitation requests to the client? continue; } EventMsg::ApplyPatchApprovalRequest(ApplyPatchApprovalRequestEvent { call_id, turn_id: _, reason, grant_root, changes, }) => { handle_patch_approval_request( call_id, reason, grant_root, changes, outgoing.clone(), thread.clone(), request_id.clone(), request_id_str.clone(), event.id.clone(), thread_id, ) .await; continue; } EventMsg::TurnComplete(TurnCompleteEvent { last_agent_message, .. }) => { let text = match last_agent_message { Some(msg) => msg, None => "".to_string(), }; let result = create_call_tool_result_with_thread_id(thread_id, text, None); outgoing.send_response(request_id.clone(), result).await; // unregister the id so we don't keep it in the map running_requests_id_to_codex_uuid .lock() .await .remove(&request_id); break; } EventMsg::SessionConfigured(_) => { tracing::error!("unexpected SessionConfigured event"); } EventMsg::ThreadNameUpdated(_) => { // Ignore session metadata updates in MCP tool runner. } EventMsg::AgentMessageDelta(_) => { // TODO: think how we want to support this in the MCP } EventMsg::AgentReasoningDelta(_) => { // TODO: think how we want to support this in the MCP } EventMsg::McpStartupUpdate(_) | EventMsg::McpStartupComplete(_) => { // Ignored in MCP tool runner. } EventMsg::AgentMessage(AgentMessageEvent { .. }) => { // TODO: think how we want to support this in the MCP } EventMsg::AgentReasoningRawContent(_) | EventMsg::AgentReasoningRawContentDelta(_) | EventMsg::TurnStarted(_) | EventMsg::TokenCount(_) | EventMsg::AgentReasoning(_) | EventMsg::AgentReasoningSectionBreak(_) | EventMsg::McpToolCallBegin(_) | EventMsg::McpToolCallEnd(_) | EventMsg::McpListToolsResponse(_) | EventMsg::ListCustomPromptsResponse(_) | EventMsg::ListSkillsResponse(_) | EventMsg::ListRemoteSkillsResponse(_) | EventMsg::RemoteSkillDownloaded(_) | EventMsg::ExecCommandBegin(_) | EventMsg::TerminalInteraction(_) | EventMsg::ExecCommandOutputDelta(_) | EventMsg::ExecCommandEnd(_) | EventMsg::BackgroundEvent(_) | EventMsg::StreamError(_) | EventMsg::PatchApplyBegin(_) | EventMsg::PatchApplyEnd(_) | EventMsg::TurnDiff(_) | EventMsg::WebSearchBegin(_) | EventMsg::WebSearchEnd(_) | EventMsg::GetHistoryEntryResponse(_) | EventMsg::PlanUpdate(_) | EventMsg::TurnAborted(_) | EventMsg::UserMessage(_) | EventMsg::ShutdownComplete | EventMsg::ViewImageToolCall(_) | EventMsg::RawResponseItem(_) | EventMsg::EnteredReviewMode(_) | EventMsg::ItemStarted(_) | EventMsg::ItemCompleted(_) | EventMsg::AgentMessageContentDelta(_) | EventMsg::ReasoningContentDelta(_) | EventMsg::ReasoningRawContentDelta(_) | EventMsg::SkillsUpdateAvailable | EventMsg::UndoStarted(_) | EventMsg::UndoCompleted(_) | EventMsg::ExitedReviewMode(_) | EventMsg::RequestUserInput(_) | EventMsg::DynamicToolCallRequest(_) | EventMsg::ContextCompacted(_) | EventMsg::ThreadRolledBack(_) | EventMsg::CollabAgentSpawnBegin(_) | EventMsg::CollabAgentSpawnEnd(_) | EventMsg::CollabAgentInteractionBegin(_) | EventMsg::CollabAgentInteractionEnd(_) | EventMsg::CollabWaitingBegin(_) | EventMsg::CollabWaitingEnd(_) | EventMsg::CollabCloseBegin(_) | EventMsg::CollabCloseEnd(_) | EventMsg::CollabResumeBegin(_) | EventMsg::CollabResumeEnd(_) | EventMsg::DeprecationNotice(_) => { // For now, we do not do anything extra for these // events. Note that // send(codex_event_to_notification(&event)) above has // already dispatched these events as notifications, // though we may want to do give different treatment to // individual events in the future. } } } Err(e) => { let result = create_call_tool_result_with_thread_id( thread_id, format!("Codex runtime error: {e}"), Some(true), ); outgoing.send_response(request_id.clone(), result).await; break; } } } } #[cfg(test)] mod tests { use super::*; use pretty_assertions::assert_eq; #[test] fn call_tool_result_includes_thread_id_in_structured_content() { let thread_id = ThreadId::new(); let result = create_call_tool_result_with_thread_id(thread_id, "done".to_string(), None); assert_eq!( result.structured_content, Some(json!({ "threadId": thread_id, "content": "done", })) ); } }