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codex/codex-rs/app-server-protocol/src/protocol/thread_history.rs
charley-oai 1fa8350ae7 Add text element metadata to protocol, app server, and core (#9331) 
The second part of breaking up PR
https://github.com/openai/codex/pull/9116

Summary:

- Add `TextElement` / `ByteRange` to protocol user inputs and user
message events with defaults.
- Thread `text_elements` through app-server v1/v2 request handling and
history rebuild.
- Preserve UI metadata only in user input/events (not `ContentItem`)
while keeping local image attachments in user events for rehydration.

Details:

- Protocol: `UserInput::Text` carries `text_elements`;
`UserMessageEvent` carries `text_elements` + `local_images`.
Serialization includes empty vectors for backward compatibility.
- app-server-protocol: v1 defines `V1TextElement` / `V1ByteRange` in
camelCase with conversions; v2 uses its own camelCase wrapper.
- app-server: v1/v2 input mapping includes `text_elements`; thread
history rebuilds include them.
- Core: user event emission preserves UI metadata while model history
stays clean; history replay round-trips the metadata.
2026-01-15 17:26:41 -08:00

560 lines
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use crate::protocol::v2::ThreadItem;
use crate::protocol::v2::Turn;
use crate::protocol::v2::TurnError;
use crate::protocol::v2::TurnStatus;
use crate::protocol::v2::UserInput;
use codex_protocol::protocol::AgentReasoningEvent;
use codex_protocol::protocol::AgentReasoningRawContentEvent;
use codex_protocol::protocol::EventMsg;
use codex_protocol::protocol::ThreadRolledBackEvent;
use codex_protocol::protocol::TurnAbortedEvent;
use codex_protocol::protocol::UserMessageEvent;
/// Convert persisted [`EventMsg`] entries into a sequence of [`Turn`] values.
///
/// The purpose of this is to convert the EventMsgs persisted in a rollout file
/// into a sequence of Turns and ThreadItems, which allows the client to render
/// the historical messages when resuming a thread.
pub fn build_turns_from_event_msgs(events: &[EventMsg]) -> Vec<Turn> {
let mut builder = ThreadHistoryBuilder::new();
for event in events {
builder.handle_event(event);
}
builder.finish()
}
struct ThreadHistoryBuilder {
turns: Vec<Turn>,
current_turn: Option<PendingTurn>,
next_turn_index: i64,
next_item_index: i64,
}
impl ThreadHistoryBuilder {
fn new() -> Self {
Self {
turns: Vec::new(),
current_turn: None,
next_turn_index: 1,
next_item_index: 1,
}
}
fn finish(mut self) -> Vec<Turn> {
self.finish_current_turn();
self.turns
}
/// This function should handle all EventMsg variants that can be persisted in a rollout file.
/// See `should_persist_event_msg` in `codex-rs/core/rollout/policy.rs`.
fn handle_event(&mut self, event: &EventMsg) {
match event {
EventMsg::UserMessage(payload) => self.handle_user_message(payload),
EventMsg::AgentMessage(payload) => self.handle_agent_message(payload.message.clone()),
EventMsg::AgentReasoning(payload) => self.handle_agent_reasoning(payload),
EventMsg::AgentReasoningRawContent(payload) => {
self.handle_agent_reasoning_raw_content(payload)
}
EventMsg::TokenCount(_) => {}
EventMsg::EnteredReviewMode(_) => {}
EventMsg::ExitedReviewMode(_) => {}
EventMsg::ThreadRolledBack(payload) => self.handle_thread_rollback(payload),
EventMsg::UndoCompleted(_) => {}
EventMsg::TurnAborted(payload) => self.handle_turn_aborted(payload),
_ => {}
}
}
fn handle_user_message(&mut self, payload: &UserMessageEvent) {
self.finish_current_turn();
let mut turn = self.new_turn();
let id = self.next_item_id();
let content = self.build_user_inputs(payload);
turn.items.push(ThreadItem::UserMessage { id, content });
self.current_turn = Some(turn);
}
fn handle_agent_message(&mut self, text: String) {
if text.is_empty() {
return;
}
let id = self.next_item_id();
self.ensure_turn()
.items
.push(ThreadItem::AgentMessage { id, text });
}
fn handle_agent_reasoning(&mut self, payload: &AgentReasoningEvent) {
if payload.text.is_empty() {
return;
}
// If the last item is a reasoning item, add the new text to the summary.
if let Some(ThreadItem::Reasoning { summary, .. }) = self.ensure_turn().items.last_mut() {
summary.push(payload.text.clone());
return;
}
// Otherwise, create a new reasoning item.
let id = self.next_item_id();
self.ensure_turn().items.push(ThreadItem::Reasoning {
id,
summary: vec![payload.text.clone()],
content: Vec::new(),
});
}
fn handle_agent_reasoning_raw_content(&mut self, payload: &AgentReasoningRawContentEvent) {
if payload.text.is_empty() {
return;
}
// If the last item is a reasoning item, add the new text to the content.
if let Some(ThreadItem::Reasoning { content, .. }) = self.ensure_turn().items.last_mut() {
content.push(payload.text.clone());
return;
}
// Otherwise, create a new reasoning item.
let id = self.next_item_id();
self.ensure_turn().items.push(ThreadItem::Reasoning {
id,
summary: Vec::new(),
content: vec![payload.text.clone()],
});
}
fn handle_turn_aborted(&mut self, _payload: &TurnAbortedEvent) {
let Some(turn) = self.current_turn.as_mut() else {
return;
};
turn.status = TurnStatus::Interrupted;
}
fn handle_thread_rollback(&mut self, payload: &ThreadRolledBackEvent) {
self.finish_current_turn();
let n = usize::try_from(payload.num_turns).unwrap_or(usize::MAX);
if n >= self.turns.len() {
self.turns.clear();
} else {
self.turns.truncate(self.turns.len().saturating_sub(n));
}
// Re-number subsequent synthetic ids so the pruned history is consistent.
self.next_turn_index =
i64::try_from(self.turns.len().saturating_add(1)).unwrap_or(i64::MAX);
let item_count: usize = self.turns.iter().map(|t| t.items.len()).sum();
self.next_item_index = i64::try_from(item_count.saturating_add(1)).unwrap_or(i64::MAX);
}
fn finish_current_turn(&mut self) {
if let Some(turn) = self.current_turn.take() {
if turn.items.is_empty() {
return;
}
self.turns.push(turn.into());
}
}
fn new_turn(&mut self) -> PendingTurn {
PendingTurn {
id: self.next_turn_id(),
items: Vec::new(),
error: None,
status: TurnStatus::Completed,
}
}
fn ensure_turn(&mut self) -> &mut PendingTurn {
if self.current_turn.is_none() {
let turn = self.new_turn();
return self.current_turn.insert(turn);
}
if let Some(turn) = self.current_turn.as_mut() {
return turn;
}
unreachable!("current turn must exist after initialization");
}
fn next_turn_id(&mut self) -> String {
let id = format!("turn-{}", self.next_turn_index);
self.next_turn_index += 1;
id
}
fn next_item_id(&mut self) -> String {
let id = format!("item-{}", self.next_item_index);
self.next_item_index += 1;
id
}
fn build_user_inputs(&self, payload: &UserMessageEvent) -> Vec<UserInput> {
let mut content = Vec::new();
if !payload.message.trim().is_empty() {
content.push(UserInput::Text {
text: payload.message.clone(),
text_elements: payload
.text_elements
.iter()
.cloned()
.map(Into::into)
.collect(),
});
}
if let Some(images) = &payload.images {
for image in images {
content.push(UserInput::Image { url: image.clone() });
}
}
for path in &payload.local_images {
content.push(UserInput::LocalImage { path: path.clone() });
}
content
}
}
struct PendingTurn {
id: String,
items: Vec<ThreadItem>,
error: Option<TurnError>,
status: TurnStatus,
}
impl From<PendingTurn> for Turn {
fn from(value: PendingTurn) -> Self {
Self {
id: value.id,
items: value.items,
error: value.error,
status: value.status,
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use codex_protocol::protocol::AgentMessageEvent;
use codex_protocol::protocol::AgentReasoningEvent;
use codex_protocol::protocol::AgentReasoningRawContentEvent;
use codex_protocol::protocol::ThreadRolledBackEvent;
use codex_protocol::protocol::TurnAbortReason;
use codex_protocol::protocol::TurnAbortedEvent;
use codex_protocol::protocol::UserMessageEvent;
use pretty_assertions::assert_eq;
#[test]
fn builds_multiple_turns_with_reasoning_items() {
let events = vec![
EventMsg::UserMessage(UserMessageEvent {
message: "First turn".into(),
images: Some(vec!["https://example.com/one.png".into()]),
text_elements: Vec::new(),
local_images: Vec::new(),
}),
EventMsg::AgentMessage(AgentMessageEvent {
message: "Hi there".into(),
}),
EventMsg::AgentReasoning(AgentReasoningEvent {
text: "thinking".into(),
}),
EventMsg::AgentReasoningRawContent(AgentReasoningRawContentEvent {
text: "full reasoning".into(),
}),
EventMsg::UserMessage(UserMessageEvent {
message: "Second turn".into(),
images: None,
text_elements: Vec::new(),
local_images: Vec::new(),
}),
EventMsg::AgentMessage(AgentMessageEvent {
message: "Reply two".into(),
}),
];
let turns = build_turns_from_event_msgs(&events);
assert_eq!(turns.len(), 2);
let first = &turns[0];
assert_eq!(first.id, "turn-1");
assert_eq!(first.status, TurnStatus::Completed);
assert_eq!(first.items.len(), 3);
assert_eq!(
first.items[0],
ThreadItem::UserMessage {
id: "item-1".into(),
content: vec![
UserInput::Text {
text: "First turn".into(),
text_elements: Vec::new(),
},
UserInput::Image {
url: "https://example.com/one.png".into(),
}
],
}
);
assert_eq!(
first.items[1],
ThreadItem::AgentMessage {
id: "item-2".into(),
text: "Hi there".into(),
}
);
assert_eq!(
first.items[2],
ThreadItem::Reasoning {
id: "item-3".into(),
summary: vec!["thinking".into()],
content: vec!["full reasoning".into()],
}
);
let second = &turns[1];
assert_eq!(second.id, "turn-2");
assert_eq!(second.items.len(), 2);
assert_eq!(
second.items[0],
ThreadItem::UserMessage {
id: "item-4".into(),
content: vec![UserInput::Text {
text: "Second turn".into(),
text_elements: Vec::new(),
}],
}
);
assert_eq!(
second.items[1],
ThreadItem::AgentMessage {
id: "item-5".into(),
text: "Reply two".into(),
}
);
}
#[test]
fn splits_reasoning_when_interleaved() {
let events = vec![
EventMsg::UserMessage(UserMessageEvent {
message: "Turn start".into(),
images: None,
text_elements: Vec::new(),
local_images: Vec::new(),
}),
EventMsg::AgentReasoning(AgentReasoningEvent {
text: "first summary".into(),
}),
EventMsg::AgentReasoningRawContent(AgentReasoningRawContentEvent {
text: "first content".into(),
}),
EventMsg::AgentMessage(AgentMessageEvent {
message: "interlude".into(),
}),
EventMsg::AgentReasoning(AgentReasoningEvent {
text: "second summary".into(),
}),
];
let turns = build_turns_from_event_msgs(&events);
assert_eq!(turns.len(), 1);
let turn = &turns[0];
assert_eq!(turn.items.len(), 4);
assert_eq!(
turn.items[1],
ThreadItem::Reasoning {
id: "item-2".into(),
summary: vec!["first summary".into()],
content: vec!["first content".into()],
}
);
assert_eq!(
turn.items[3],
ThreadItem::Reasoning {
id: "item-4".into(),
summary: vec!["second summary".into()],
content: Vec::new(),
}
);
}
#[test]
fn marks_turn_as_interrupted_when_aborted() {
let events = vec![
EventMsg::UserMessage(UserMessageEvent {
message: "Please do the thing".into(),
images: None,
text_elements: Vec::new(),
local_images: Vec::new(),
}),
EventMsg::AgentMessage(AgentMessageEvent {
message: "Working...".into(),
}),
EventMsg::TurnAborted(TurnAbortedEvent {
reason: TurnAbortReason::Replaced,
}),
EventMsg::UserMessage(UserMessageEvent {
message: "Let's try again".into(),
images: None,
text_elements: Vec::new(),
local_images: Vec::new(),
}),
EventMsg::AgentMessage(AgentMessageEvent {
message: "Second attempt complete.".into(),
}),
];
let turns = build_turns_from_event_msgs(&events);
assert_eq!(turns.len(), 2);
let first_turn = &turns[0];
assert_eq!(first_turn.status, TurnStatus::Interrupted);
assert_eq!(first_turn.items.len(), 2);
assert_eq!(
first_turn.items[0],
ThreadItem::UserMessage {
id: "item-1".into(),
content: vec![UserInput::Text {
text: "Please do the thing".into(),
text_elements: Vec::new(),
}],
}
);
assert_eq!(
first_turn.items[1],
ThreadItem::AgentMessage {
id: "item-2".into(),
text: "Working...".into(),
}
);
let second_turn = &turns[1];
assert_eq!(second_turn.status, TurnStatus::Completed);
assert_eq!(second_turn.items.len(), 2);
assert_eq!(
second_turn.items[0],
ThreadItem::UserMessage {
id: "item-3".into(),
content: vec![UserInput::Text {
text: "Let's try again".into(),
text_elements: Vec::new(),
}],
}
);
assert_eq!(
second_turn.items[1],
ThreadItem::AgentMessage {
id: "item-4".into(),
text: "Second attempt complete.".into(),
}
);
}
#[test]
fn drops_last_turns_on_thread_rollback() {
let events = vec![
EventMsg::UserMessage(UserMessageEvent {
message: "First".into(),
images: None,
text_elements: Vec::new(),
local_images: Vec::new(),
}),
EventMsg::AgentMessage(AgentMessageEvent {
message: "A1".into(),
}),
EventMsg::UserMessage(UserMessageEvent {
message: "Second".into(),
images: None,
text_elements: Vec::new(),
local_images: Vec::new(),
}),
EventMsg::AgentMessage(AgentMessageEvent {
message: "A2".into(),
}),
EventMsg::ThreadRolledBack(ThreadRolledBackEvent { num_turns: 1 }),
EventMsg::UserMessage(UserMessageEvent {
message: "Third".into(),
images: None,
text_elements: Vec::new(),
local_images: Vec::new(),
}),
EventMsg::AgentMessage(AgentMessageEvent {
message: "A3".into(),
}),
];
let turns = build_turns_from_event_msgs(&events);
let expected = vec![
Turn {
id: "turn-1".into(),
status: TurnStatus::Completed,
error: None,
items: vec![
ThreadItem::UserMessage {
id: "item-1".into(),
content: vec![UserInput::Text {
text: "First".into(),
text_elements: Vec::new(),
}],
},
ThreadItem::AgentMessage {
id: "item-2".into(),
text: "A1".into(),
},
],
},
Turn {
id: "turn-2".into(),
status: TurnStatus::Completed,
error: None,
items: vec![
ThreadItem::UserMessage {
id: "item-3".into(),
content: vec![UserInput::Text {
text: "Third".into(),
text_elements: Vec::new(),
}],
},
ThreadItem::AgentMessage {
id: "item-4".into(),
text: "A3".into(),
},
],
},
];
assert_eq!(turns, expected);
}
#[test]
fn thread_rollback_clears_all_turns_when_num_turns_exceeds_history() {
let events = vec![
EventMsg::UserMessage(UserMessageEvent {
message: "One".into(),
images: None,
text_elements: Vec::new(),
local_images: Vec::new(),
}),
EventMsg::AgentMessage(AgentMessageEvent {
message: "A1".into(),
}),
EventMsg::UserMessage(UserMessageEvent {
message: "Two".into(),
images: None,
text_elements: Vec::new(),
local_images: Vec::new(),
}),
EventMsg::AgentMessage(AgentMessageEvent {
message: "A2".into(),
}),
EventMsg::ThreadRolledBack(ThreadRolledBackEvent { num_turns: 99 }),
];
let turns = build_turns_from_event_msgs(&events);
assert_eq!(turns, Vec::<Turn>::new());
}
}
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