Integration: Agents now use LibP2P Gossipsub for real-time peer discovery and heartbeats
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anthonyrawlins
@@ -7,11 +7,12 @@ use chrs_backbeat::{BeatFrame, StatusClaim};
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use chrs_exec::{DockerExecutor, TaskRequest};
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use chrs_prompts::get_system_prompt;
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use chrs_code_edit::WorktreeManager;
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use chrs_discovery::SwarmManager;
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use chrs_discovery::{SwarmManager, BusHandle, BusMessage};
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use chrono::{Utc, DateTime};
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use std::path::Path;
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use std::time::Duration;
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use tokio::time::sleep;
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use tokio::sync::mpsc;
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use std::collections::HashMap;
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use uuid::Uuid;
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@@ -24,6 +25,8 @@ pub struct CHORUSAgent {
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pub council: CouncilManager,
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pub executor: DockerExecutor,
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pub code_edit: Option<WorktreeManager>,
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pub bus: BusHandle,
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pub bus_rx: mpsc::UnboundedReceiver<BusMessage>,
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pub peers: HashMap<String, Peer>,
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pub last_heartbeat_check: DateTime<Utc>,
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pub current_beat: u32,
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@@ -40,7 +43,6 @@ impl CHORUSAgent {
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std::fs::create_dir_all(&graph_path)?;
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std::fs::create_dir_all(&repo_path)?;
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// Initialize Git repo if it doesn't exist for code-edit
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if !repo_path.join(".git").exists() {
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let _ = git2::Repository::init(&repo_path)?;
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}
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@@ -49,7 +51,6 @@ impl CHORUSAgent {
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let graph = DoltGraph::init(&graph_path)?;
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let code_edit = WorktreeManager::open(&repo_path).ok();
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// Ensure table exists
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let _ = graph.create_table("task_log", "id VARCHAR(255) PRIMARY KEY, topic TEXT, payload TEXT, received_at TEXT");
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let _ = graph.create_table("execution_results", "id VARCHAR(255) PRIMARY KEY, task_id TEXT, stdout TEXT, stderr TEXT, duration_ms INT");
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@@ -62,10 +63,9 @@ impl CHORUSAgent {
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let executor = DockerExecutor::new()?;
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let system_prompt = get_system_prompt(role).to_string();
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// Start P2P Discovery in background
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tokio::spawn(async move {
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let _ = SwarmManager::start_discovery_loop().await;
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});
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// Initialize P2P Bus
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let (bus_tx, bus_rx) = mpsc::unbounded_channel();
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let bus = SwarmManager::start_bus(bus_tx).await?;
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Ok(Self {
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id: id.to_string(),
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@@ -75,6 +75,8 @@ impl CHORUSAgent {
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council,
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executor,
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code_edit,
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bus,
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bus_rx,
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peers: HashMap::new(),
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last_heartbeat_check: Utc::now(),
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current_beat: 0,
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@@ -82,50 +84,29 @@ impl CHORUSAgent {
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})
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}
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/// Agent's 'thinking' phase where it processes a message using its specialized prompt.
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pub async fn think(&self, _message: &str) -> String {
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println!("[AGENT {}] Thinking as {:?}...", self.id, self.role);
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format!("Reasoning based on: {}", self.system_prompt)
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}
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/// Main execution loop for the agent.
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pub async fn run_loop(&mut self) {
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println!("[AGENT {}] Role: {:?} starting...", self.id, self.role);
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loop {
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// 1. Broadcast peer presence
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let _ = self.council.broadcast_heartbeat("heartbeat");
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// 1. Broadcast presence via P2P Bus
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let heartbeat_payload = serde_json::to_vec(&self.council.local_peer).unwrap();
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let _ = self.bus.publish("chorus-heartbeat", heartbeat_payload);
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// 2. Check for Pulse
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match self.mailbox.receive_broadcasts("beat_frame", self.last_heartbeat_check) {
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Ok(messages) => {
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for msg in messages {
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if let Ok(frame) = serde_json::from_value::<BeatFrame>(msg.payload) {
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self.handle_beat(frame).await;
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}
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}
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}
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Err(e) => eprintln!("Mailbox beat error: {}", e),
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}
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// 3. Check for Peer Discovery (Mailbox fallback)
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match self.mailbox.receive_broadcasts("heartbeat", self.last_heartbeat_check) {
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Ok(messages) => {
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for msg in messages {
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if let Ok(peer) = serde_json::from_value::<Peer>(msg.payload) {
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if peer.id != self.id {
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if !self.peers.contains_key(&peer.id) {
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println!("[AGENT {}] Discovered peer: {} ({:?})", self.id, peer.id, peer.role);
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}
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self.peers.insert(peer.id.clone(), peer);
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// 2. Check P2P Bus for messages
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while let Ok(msg) = self.bus_rx.try_recv() {
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if msg.topic == "chorus-heartbeat" {
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if let Ok(peer) = serde_json::from_slice::<Peer>(&msg.payload) {
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if peer.id != self.id {
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if !self.peers.contains_key(&peer.id) {
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println!("[AGENT {}] P2P Discovered peer: {} ({:?})", self.id, peer.id, peer.role);
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}
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self.peers.insert(peer.id.clone(), peer);
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}
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}
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self.last_heartbeat_check = Utc::now();
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}
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Err(e) => eprintln!("Mailbox discovery error: {}", e),
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}
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// 4. Check for direct messages
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// 3. Check for Pulse (Backbeat) and Tasks (Mailbox fallback for now)
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match self.mailbox.receive_pending(&self.id) {
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Ok(messages) => {
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for msg in messages {
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@@ -139,27 +120,6 @@ impl CHORUSAgent {
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}
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}
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async fn handle_beat(&mut self, frame: BeatFrame) {
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self.current_beat = frame.beat_index;
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let claim = StatusClaim {
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agent_id: self.id.clone(),
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task_id: None,
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beat_index: self.current_beat,
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state: "idle".into(),
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progress: 1.0,
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};
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let msg = Message {
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id: Uuid::new_v4(),
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from_peer: self.id.clone(),
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to_peer: "council".into(),
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topic: "status_claim".into(),
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payload: serde_json::to_value(&claim).unwrap(),
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sent_at: Utc::now(),
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read_at: None,
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};
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let _ = self.mailbox.send(&msg);
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}
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pub async fn handle_message(&mut self, msg: Message) {
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println!("[AGENT {}] Handling message: {}", self.id, msg.topic);
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@@ -172,7 +132,6 @@ impl CHORUSAgent {
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let _ = self.graph.insert_node("task_log", log_entry);
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let _ = self.graph.commit(&format!("Logged task: {}", msg.topic));
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// 1. Delegation logic (Architect)
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if msg.topic == "task" && (self.role == Role::Architect || self.role == Role::SeniorSoftwareArchitect) {
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let peers_vec: Vec<Peer> = self.peers.values().cloned().collect();
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if !peers_vec.is_empty() {
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@@ -184,27 +143,18 @@ impl CHORUSAgent {
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}
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}
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// 2. Execution logic (Coder/Developer) with Isolated Worktree
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if msg.topic == "implementation_task" || msg.topic == "execution_task" {
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println!("[AGENT {}] Preparing workspace for task...", self.id);
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// Spawn task branch
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if let Some(mgr) = &self.code_edit {
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let _ = mgr.spawn_task_branch(&msg.id.to_string());
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let _ = mgr.checkout_branch(&format!("task/{}", msg.id));
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}
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println!("[AGENT {}] Executing task in sandbox...", self.id);
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let _reasoning = self.think(&format!("Task: {:?}", msg.payload)).await;
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let req = TaskRequest {
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language: "base".into(),
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code: "echo 'CHORUS TASK EXECUTION SUCCESS' && ls -la".into(),
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code: "echo 'CHORUS TASK EXECUTION SUCCESS'".into(),
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timeout_secs: 30,
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};
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match self.executor.execute(req).await {
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Ok(res) => {
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println!("[AGENT {}] Execution successful.", self.id);
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let result_entry = serde_json::json!({
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"id": Uuid::new_v4().to_string(),
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"task_id": msg.id.to_string(),
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@@ -219,11 +169,6 @@ impl CHORUSAgent {
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}
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}
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if msg.topic == "security_audit_task" {
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println!("[AGENT {}] Performing security audit...", self.id);
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let _reasoning = self.think("Perform security audit on latest implementation").await;
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}
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let _ = self.mailbox.mark_read(msg.id);
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}
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}
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