3823b32b7a
- Add typed MCP protocol surface in `codex-rs/mcp-server/src/mcp_protocol.rs` for `requests`, `responses`, and `notifications` - Requests: `NewConversation`, `Connect`, `SendUserMessage`, `GetConversations` - Message content parts: `Text`, `Image` (`ImageUrl`/`FileId`, optional `ImageDetail`), File (`Url`/`Id`/`inline Data`) - Responses: `ToolCallResponseEnvelope` with optional `isError` and `structuredContent` variants (`NewConversation`, `Connect`, `SendUserMessageAccepted`, `GetConversations`) - Notifications: `InitialState`, `ConnectionRevoked`, `CodexEvent`, `Cancelled` - Uniform `_meta` on `notifications` via `NotificationMeta` (`conversationId`, `requestId`) - Unit tests validate JSON wire shapes for key `requests`/`responses`/`notifications`
131 lines
4.9 KiB
Rust
131 lines
4.9 KiB
Rust
//! Prototype MCP server.
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#![deny(clippy::print_stdout, clippy::print_stderr)]
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use std::io::Result as IoResult;
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use std::path::PathBuf;
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use mcp_types::JSONRPCMessage;
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use tokio::io::AsyncBufReadExt;
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use tokio::io::AsyncWriteExt;
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use tokio::io::BufReader;
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use tokio::io::{self};
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use tokio::sync::mpsc;
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use tracing::debug;
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use tracing::error;
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use tracing::info;
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use tracing_subscriber::EnvFilter;
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mod codex_tool_config;
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mod codex_tool_runner;
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mod exec_approval;
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mod json_to_toml;
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mod mcp_protocol;
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mod message_processor;
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mod outgoing_message;
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mod patch_approval;
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use crate::message_processor::MessageProcessor;
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use crate::outgoing_message::OutgoingMessage;
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use crate::outgoing_message::OutgoingMessageSender;
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pub use crate::codex_tool_config::CodexToolCallParam;
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pub use crate::codex_tool_config::CodexToolCallReplyParam;
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pub use crate::exec_approval::ExecApprovalElicitRequestParams;
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pub use crate::exec_approval::ExecApprovalResponse;
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pub use crate::patch_approval::PatchApprovalElicitRequestParams;
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pub use crate::patch_approval::PatchApprovalResponse;
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/// Size of the bounded channels used to communicate between tasks. The value
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/// is a balance between throughput and memory usage – 128 messages should be
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/// plenty for an interactive CLI.
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const CHANNEL_CAPACITY: usize = 128;
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pub async fn run_main(codex_linux_sandbox_exe: Option<PathBuf>) -> IoResult<()> {
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// Install a simple subscriber so `tracing` output is visible. Users can
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// control the log level with `RUST_LOG`.
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tracing_subscriber::fmt()
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.with_writer(std::io::stderr)
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.with_env_filter(EnvFilter::from_default_env())
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.init();
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// Set up channels.
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let (incoming_tx, mut incoming_rx) = mpsc::channel::<JSONRPCMessage>(CHANNEL_CAPACITY);
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let (outgoing_tx, mut outgoing_rx) = mpsc::channel::<OutgoingMessage>(CHANNEL_CAPACITY);
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// Task: read from stdin, push to `incoming_tx`.
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let stdin_reader_handle = tokio::spawn({
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let incoming_tx = incoming_tx.clone();
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async move {
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let stdin = io::stdin();
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let reader = BufReader::new(stdin);
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let mut lines = reader.lines();
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while let Some(line) = lines.next_line().await.unwrap_or_default() {
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match serde_json::from_str::<JSONRPCMessage>(&line) {
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Ok(msg) => {
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if incoming_tx.send(msg).await.is_err() {
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// Receiver gone – nothing left to do.
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break;
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}
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}
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Err(e) => error!("Failed to deserialize JSONRPCMessage: {e}"),
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}
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}
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debug!("stdin reader finished (EOF)");
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}
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});
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// Task: process incoming messages.
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let processor_handle = tokio::spawn({
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let outgoing_message_sender = OutgoingMessageSender::new(outgoing_tx);
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let mut processor = MessageProcessor::new(outgoing_message_sender, codex_linux_sandbox_exe);
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async move {
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while let Some(msg) = incoming_rx.recv().await {
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match msg {
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JSONRPCMessage::Request(r) => processor.process_request(r).await,
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JSONRPCMessage::Response(r) => processor.process_response(r).await,
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JSONRPCMessage::Notification(n) => processor.process_notification(n).await,
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JSONRPCMessage::Error(e) => processor.process_error(e),
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}
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}
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info!("processor task exited (channel closed)");
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}
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});
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// Task: write outgoing messages to stdout.
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let stdout_writer_handle = tokio::spawn(async move {
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let mut stdout = io::stdout();
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while let Some(outgoing_message) = outgoing_rx.recv().await {
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let msg: JSONRPCMessage = outgoing_message.into();
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match serde_json::to_string(&msg) {
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Ok(json) => {
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if let Err(e) = stdout.write_all(json.as_bytes()).await {
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error!("Failed to write to stdout: {e}");
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break;
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}
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if let Err(e) = stdout.write_all(b"\n").await {
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error!("Failed to write newline to stdout: {e}");
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break;
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}
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if let Err(e) = stdout.flush().await {
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error!("Failed to flush stdout: {e}");
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break;
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}
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}
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Err(e) => error!("Failed to serialize JSONRPCMessage: {e}"),
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}
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}
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info!("stdout writer exited (channel closed)");
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});
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// Wait for all tasks to finish. The typical exit path is the stdin reader
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// hitting EOF which, once it drops `incoming_tx`, propagates shutdown to
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// the processor and then to the stdout task.
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let _ = tokio::join!(stdin_reader_handle, processor_handle, stdout_writer_handle);
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Ok(())
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}
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