package tools import ( "context" "errors" "fmt" "os" "path/filepath" "strings" "sync" "time" "clawgo/pkg/bus" "clawgo/pkg/ekg" "clawgo/pkg/providers" ) type SubagentTask struct { ID string `json:"id"` Task string `json:"task"` Label string `json:"label"` Role string `json:"role"` AgentID string `json:"agent_id"` Transport string `json:"transport,omitempty"` NodeID string `json:"node_id,omitempty"` ParentAgentID string `json:"parent_agent_id,omitempty"` NotifyMainPolicy string `json:"notify_main_policy,omitempty"` SessionKey string `json:"session_key"` MemoryNS string `json:"memory_ns"` SystemPrompt string `json:"system_prompt,omitempty"` SystemPromptFile string `json:"system_prompt_file,omitempty"` ToolAllowlist []string `json:"tool_allowlist,omitempty"` MaxRetries int `json:"max_retries,omitempty"` RetryBackoff int `json:"retry_backoff,omitempty"` TimeoutSec int `json:"timeout_sec,omitempty"` MaxTaskChars int `json:"max_task_chars,omitempty"` MaxResultChars int `json:"max_result_chars,omitempty"` RetryCount int `json:"retry_count,omitempty"` ThreadID string `json:"thread_id,omitempty"` CorrelationID string `json:"correlation_id,omitempty"` ParentRunID string `json:"parent_run_id,omitempty"` LastMessageID string `json:"last_message_id,omitempty"` WaitingReply bool `json:"waiting_for_reply,omitempty"` SharedState map[string]interface{} `json:"shared_state,omitempty"` OriginChannel string `json:"origin_channel,omitempty"` OriginChatID string `json:"origin_chat_id,omitempty"` Status string `json:"status"` Result string `json:"result,omitempty"` Steering []string `json:"steering,omitempty"` Created int64 `json:"created"` Updated int64 `json:"updated"` } type SubagentManager struct { tasks map[string]*SubagentTask cancelFuncs map[string]context.CancelFunc recoverableTaskIDs []string archiveAfterMinute int64 mu sync.RWMutex provider providers.LLMProvider bus *bus.MessageBus workspace string nextID int runFunc SubagentRunFunc profileStore *SubagentProfileStore runStore *SubagentRunStore mailboxStore *AgentMailboxStore ekg *ekg.Engine } type SubagentSpawnOptions struct { Task string Label string Role string AgentID string NotifyMainPolicy string MaxRetries int RetryBackoff int TimeoutSec int MaxTaskChars int MaxResultChars int OriginChannel string OriginChatID string ThreadID string CorrelationID string ParentRunID string } func NewSubagentManager(provider providers.LLMProvider, workspace string, bus *bus.MessageBus) *SubagentManager { store := NewSubagentProfileStore(workspace) runStore := NewSubagentRunStore(workspace) mailboxStore := NewAgentMailboxStore(workspace) mgr := &SubagentManager{ tasks: make(map[string]*SubagentTask), cancelFuncs: make(map[string]context.CancelFunc), archiveAfterMinute: 60, provider: provider, bus: bus, workspace: workspace, nextID: 1, profileStore: store, runStore: runStore, mailboxStore: mailboxStore, ekg: ekg.New(workspace), } if runStore != nil { for _, task := range runStore.List() { mgr.tasks[task.ID] = task if task.Status == "running" { mgr.recoverableTaskIDs = append(mgr.recoverableTaskIDs, task.ID) } } mgr.nextID = runStore.NextIDSeed() } go mgr.resumeRecoveredTasks() return mgr } func (sm *SubagentManager) Spawn(ctx context.Context, opts SubagentSpawnOptions) (string, error) { task, err := sm.spawnTask(ctx, opts) if err != nil { return "", err } desc := fmt.Sprintf("Spawned subagent for task: %s (agent=%s)", task.Task, task.AgentID) if task.Label != "" { desc = fmt.Sprintf("Spawned subagent '%s' for task: %s (agent=%s)", task.Label, task.Task, task.AgentID) } if task.Role != "" { desc += fmt.Sprintf(" role=%s", task.Role) } return desc, nil } func (sm *SubagentManager) SpawnTask(ctx context.Context, opts SubagentSpawnOptions) (*SubagentTask, error) { return sm.spawnTask(ctx, opts) } func (sm *SubagentManager) spawnTask(ctx context.Context, opts SubagentSpawnOptions) (*SubagentTask, error) { task := strings.TrimSpace(opts.Task) if task == "" { return nil, fmt.Errorf("task is required") } label := strings.TrimSpace(opts.Label) role := strings.TrimSpace(opts.Role) agentID := normalizeSubagentIdentifier(opts.AgentID) originalRole := role var profile *SubagentProfile if sm.profileStore != nil { if agentID != "" { if p, ok, err := sm.profileStore.Get(agentID); err != nil { return nil, err } else if ok { profile = p } } else if role != "" { if p, ok, err := sm.profileStore.FindByRole(role); err != nil { return nil, err } else if ok { profile = p agentID = normalizeSubagentIdentifier(p.AgentID) } } } if agentID == "" { agentID = normalizeSubagentIdentifier(role) } if agentID == "" { agentID = "default" } memoryNS := agentID systemPrompt := "" systemPromptFile := "" transport := "local" nodeID := "" parentAgentID := "" notifyMainPolicy := "final_only" toolAllowlist := []string(nil) maxRetries := 0 retryBackoff := 1000 timeoutSec := 0 maxTaskChars := 0 maxResultChars := 0 if profile == nil && sm.profileStore != nil { if p, ok, err := sm.profileStore.Get(agentID); err != nil { return nil, err } else if ok { profile = p } } if profile != nil { if strings.EqualFold(strings.TrimSpace(profile.Status), "disabled") { return nil, fmt.Errorf("subagent profile '%s' is disabled", profile.AgentID) } if label == "" { label = strings.TrimSpace(profile.Name) } if role == "" { role = strings.TrimSpace(profile.Role) } if ns := normalizeSubagentIdentifier(profile.MemoryNamespace); ns != "" { memoryNS = ns } transport = strings.TrimSpace(profile.Transport) if transport == "" { transport = "local" } nodeID = strings.TrimSpace(profile.NodeID) parentAgentID = strings.TrimSpace(profile.ParentAgentID) notifyMainPolicy = normalizeNotifyMainPolicy(profile.NotifyMainPolicy) systemPrompt = strings.TrimSpace(profile.SystemPrompt) systemPromptFile = strings.TrimSpace(profile.SystemPromptFile) toolAllowlist = append([]string(nil), profile.ToolAllowlist...) maxRetries = profile.MaxRetries retryBackoff = profile.RetryBackoff timeoutSec = profile.TimeoutSec maxTaskChars = profile.MaxTaskChars maxResultChars = profile.MaxResultChars } if opts.MaxRetries > 0 { maxRetries = opts.MaxRetries } if opts.RetryBackoff > 0 { retryBackoff = opts.RetryBackoff } if opts.TimeoutSec > 0 { timeoutSec = opts.TimeoutSec } if opts.MaxTaskChars > 0 { maxTaskChars = opts.MaxTaskChars } if opts.MaxResultChars > 0 { maxResultChars = opts.MaxResultChars } if maxTaskChars > 0 && len(task) > maxTaskChars { return nil, fmt.Errorf("task exceeds max_task_chars quota (%d > %d)", len(task), maxTaskChars) } maxRetries = normalizePositiveBound(maxRetries, 0, 8) retryBackoff = normalizePositiveBound(retryBackoff, 500, 120000) timeoutSec = normalizePositiveBound(timeoutSec, 0, 3600) maxTaskChars = normalizePositiveBound(maxTaskChars, 0, 400000) maxResultChars = normalizePositiveBound(maxResultChars, 0, 400000) if role == "" { role = originalRole } originChannel := strings.TrimSpace(opts.OriginChannel) originChatID := strings.TrimSpace(opts.OriginChatID) if raw := strings.TrimSpace(opts.NotifyMainPolicy); raw != "" { notifyMainPolicy = normalizeNotifyMainPolicy(raw) } threadID := strings.TrimSpace(opts.ThreadID) correlationID := strings.TrimSpace(opts.CorrelationID) parentRunID := strings.TrimSpace(opts.ParentRunID) sm.mu.Lock() defer sm.mu.Unlock() taskID := fmt.Sprintf("subagent-%d", sm.nextID) sm.nextID++ sessionKey := buildSubagentSessionKey(agentID, taskID) now := time.Now().UnixMilli() if correlationID == "" { correlationID = taskID } if sm.mailboxStore != nil { thread, err := sm.mailboxStore.EnsureThread(AgentThread{ ThreadID: threadID, Owner: "main", Participants: []string{"main", agentID}, Status: "open", Topic: task, CreatedAt: now, UpdatedAt: now, }) if err == nil { threadID = thread.ThreadID } } subagentTask := &SubagentTask{ ID: taskID, Task: task, Label: label, Role: role, AgentID: agentID, Transport: transport, NodeID: nodeID, ParentAgentID: parentAgentID, NotifyMainPolicy: notifyMainPolicy, SessionKey: sessionKey, MemoryNS: memoryNS, SystemPrompt: systemPrompt, SystemPromptFile: systemPromptFile, ToolAllowlist: toolAllowlist, MaxRetries: maxRetries, RetryBackoff: retryBackoff, TimeoutSec: timeoutSec, MaxTaskChars: maxTaskChars, MaxResultChars: maxResultChars, RetryCount: 0, ThreadID: threadID, CorrelationID: correlationID, ParentRunID: parentRunID, OriginChannel: originChannel, OriginChatID: originChatID, Status: "running", Created: now, Updated: now, } taskCtx, cancel := context.WithCancel(ctx) sm.tasks[taskID] = subagentTask sm.cancelFuncs[taskID] = cancel sm.recordMailboxMessageLocked(subagentTask, AgentMessage{ ThreadID: threadID, FromAgent: "main", ToAgent: agentID, CorrelationID: correlationID, Type: "task", Content: task, RequiresReply: true, Status: "queued", CreatedAt: now, }) sm.persistTaskLocked(subagentTask, "spawned", "") go sm.runTask(taskCtx, subagentTask) return cloneSubagentTask(subagentTask), nil } func (sm *SubagentManager) runTask(ctx context.Context, task *SubagentTask) { defer func() { sm.mu.Lock() delete(sm.cancelFuncs, task.ID) sm.mu.Unlock() }() sm.mu.Lock() task.Status = "running" task.Created = time.Now().UnixMilli() task.Updated = task.Created sm.persistTaskLocked(task, "started", "") sm.mu.Unlock() result, runErr := sm.runWithRetry(ctx, task) sm.mu.Lock() if runErr != nil { task.Status = "failed" task.Result = fmt.Sprintf("Error: %v", runErr) task.Result = applySubagentResultQuota(task.Result, task.MaxResultChars) task.Updated = time.Now().UnixMilli() task.WaitingReply = false sm.recordMailboxMessageLocked(task, AgentMessage{ ThreadID: task.ThreadID, FromAgent: task.AgentID, ToAgent: "main", ReplyTo: task.LastMessageID, CorrelationID: task.CorrelationID, Type: "result", Content: task.Result, Status: "delivered", CreatedAt: task.Updated, }) sm.persistTaskLocked(task, "completed", task.Result) } else { task.Status = "completed" task.Result = applySubagentResultQuota(result, task.MaxResultChars) task.Updated = time.Now().UnixMilli() task.WaitingReply = false sm.recordMailboxMessageLocked(task, AgentMessage{ ThreadID: task.ThreadID, FromAgent: task.AgentID, ToAgent: "main", ReplyTo: task.LastMessageID, CorrelationID: task.CorrelationID, Type: "result", Content: task.Result, Status: "delivered", CreatedAt: task.Updated, }) sm.persistTaskLocked(task, "completed", task.Result) } sm.mu.Unlock() sm.recordEKG(task, runErr) // 2. Result broadcast if sm.bus != nil && shouldNotifyMainOnFinal(task.NotifyMainPolicy, runErr, task) { announceContent, notifyReason := buildSubagentMainNotification(task, runErr) sm.bus.PublishInbound(bus.InboundMessage{ Channel: "system", SenderID: fmt.Sprintf("subagent:%s", task.ID), ChatID: fmt.Sprintf("%s:%s", task.OriginChannel, task.OriginChatID), SessionKey: task.SessionKey, Content: announceContent, Metadata: map[string]string{ "trigger": "subagent", "subagent_id": task.ID, "agent_id": task.AgentID, "role": task.Role, "session_key": task.SessionKey, "memory_ns": task.MemoryNS, "retry_count": fmt.Sprintf("%d", task.RetryCount), "timeout_sec": fmt.Sprintf("%d", task.TimeoutSec), "status": task.Status, "notify_reason": notifyReason, }, }) } } func (sm *SubagentManager) recordEKG(task *SubagentTask, runErr error) { if sm == nil || sm.ekg == nil || task == nil { return } status := "success" logText := strings.TrimSpace(task.Result) if runErr != nil { status = "error" if isBlockedSubagentError(runErr) { logText = "blocked: " + strings.TrimSpace(task.Result) } } sm.ekg.Record(ekg.Event{ TaskID: task.ID, Session: task.SessionKey, Channel: task.OriginChannel, Source: "subagent", Status: status, Log: logText, }) } func normalizeNotifyMainPolicy(v string) string { switch strings.ToLower(strings.TrimSpace(v)) { case "", "final_only": return "final_only" case "milestone", "on_blocked", "always", "internal_only": return strings.ToLower(strings.TrimSpace(v)) default: return "final_only" } } func shouldNotifyMainOnFinal(policy string, runErr error, task *SubagentTask) bool { switch normalizeNotifyMainPolicy(policy) { case "internal_only": return false case "always", "final_only": return true case "on_blocked": return isBlockedSubagentError(runErr) case "milestone": return false default: return true } } func buildSubagentMainNotification(task *SubagentTask, runErr error) (string, string) { status := "completed" reason := "final" if runErr != nil { status = "failed" if isBlockedSubagentError(runErr) { status = "blocked" reason = "blocked" } } return fmt.Sprintf( "Subagent update\nagent: %s\nrun: %s\nstatus: %s\nreason: %s\ntask: %s\nsummary: %s", strings.TrimSpace(task.AgentID), strings.TrimSpace(task.ID), status, reason, summarizeSubagentText(firstNonEmpty(task.Label, task.Task), 120), summarizeSubagentText(task.Result, 280), ), reason } func isBlockedSubagentError(err error) bool { if err == nil { return false } if errors.Is(err, context.DeadlineExceeded) { return true } msg := strings.ToLower(strings.TrimSpace(err.Error())) if msg == "" { return false } blockedHints := []string{ "timeout", "deadline exceeded", "quota", "rate limit", "too many requests", "permission denied", "requires input", "waiting for reply", "blocked", } for _, hint := range blockedHints { if strings.Contains(msg, hint) { return true } } return false } func summarizeSubagentText(s string, max int) string { s = strings.TrimSpace(strings.ReplaceAll(s, "\r\n", "\n")) s = strings.ReplaceAll(s, "\n", " ") s = strings.Join(strings.Fields(s), " ") if s == "" { return "(empty)" } if max > 0 && len(s) > max { return strings.TrimSpace(s[:max-3]) + "..." } return s } func firstNonEmpty(values ...string) string { for _, v := range values { if strings.TrimSpace(v) != "" { return strings.TrimSpace(v) } } return "" } func (sm *SubagentManager) runWithRetry(ctx context.Context, task *SubagentTask) (string, error) { maxRetries := normalizePositiveBound(task.MaxRetries, 0, 8) backoffMs := normalizePositiveBound(task.RetryBackoff, 500, 120000) timeoutSec := normalizePositiveBound(task.TimeoutSec, 0, 3600) var lastErr error for attempt := 0; attempt <= maxRetries; attempt++ { result, err := runStringTaskWithTaskWatchdog( ctx, timeoutSec, 2*time.Second, stringTaskWatchdogOptions{ ProgressFn: func() int { return sm.taskWatchdogProgress(task) }, CanExtend: func() bool { return sm.taskCanAutoExtend(task) }, }, func(runCtx context.Context) (string, error) { return sm.executeTaskOnce(runCtx, task) }, ) if err == nil { sm.mu.Lock() task.RetryCount = attempt task.Updated = time.Now().UnixMilli() sm.persistTaskLocked(task, "attempt_succeeded", "") sm.mu.Unlock() return result, nil } lastErr = err sm.mu.Lock() task.RetryCount = attempt task.Updated = time.Now().UnixMilli() sm.persistTaskLocked(task, "attempt_failed", err.Error()) sm.mu.Unlock() if attempt >= maxRetries { break } select { case <-ctx.Done(): return "", ctx.Err() case <-time.After(time.Duration(backoffMs) * time.Millisecond): } } if lastErr == nil { lastErr = fmt.Errorf("subagent task failed with unknown error") } return "", lastErr } func (sm *SubagentManager) taskWatchdogProgress(task *SubagentTask) int { if sm == nil || task == nil { return 0 } sm.mu.RLock() defer sm.mu.RUnlock() current, ok := sm.tasks[task.ID] if !ok || current == nil { current = task } if current.Updated <= 0 { return 0 } return int(current.Updated) } func (sm *SubagentManager) taskCanAutoExtend(task *SubagentTask) bool { if sm == nil || task == nil { return false } sm.mu.RLock() defer sm.mu.RUnlock() current, ok := sm.tasks[task.ID] if !ok || current == nil { current = task } return strings.EqualFold(strings.TrimSpace(current.Status), "running") } func (sm *SubagentManager) executeTaskOnce(ctx context.Context, task *SubagentTask) (string, error) { if task == nil { return "", fmt.Errorf("subagent task is nil") } pending, consumedIDs := sm.consumeThreadInbox(task) if sm.runFunc != nil { result, err := sm.runFunc(ctx, task) if err != nil { sm.restoreMessageStatuses(consumedIDs) } else { sm.ackMessageStatuses(consumedIDs) } return result, err } if sm.provider == nil { sm.restoreMessageStatuses(consumedIDs) return "", fmt.Errorf("no llm provider configured for subagent execution") } systemPrompt := sm.resolveSystemPrompt(task) messages := []providers.Message{ { Role: "system", Content: systemPrompt, }, { Role: "user", Content: task.Task, }, } if strings.TrimSpace(pending) != "" { messages = append(messages, providers.Message{ Role: "user", Content: "Mailbox updates on this thread:\n" + pending, }) } response, err := sm.provider.Chat(ctx, messages, nil, sm.provider.GetDefaultModel(), map[string]interface{}{ "max_tokens": 4096, }) if err != nil { sm.restoreMessageStatuses(consumedIDs) return "", err } sm.ackMessageStatuses(consumedIDs) return response.Content, nil } func (sm *SubagentManager) resolveSystemPrompt(task *SubagentTask) string { systemPrompt := "You are a subagent. Follow workspace AGENTS.md and complete the task independently." workspacePrompt := sm.readWorkspacePromptFile("AGENTS.md") if workspacePrompt != "" { systemPrompt = "Workspace policy (AGENTS.md):\n" + workspacePrompt + "\n\nComplete the given task independently and report the result." } if task == nil { return systemPrompt } if promptFile := strings.TrimSpace(task.SystemPromptFile); promptFile != "" { if promptText := sm.readWorkspacePromptFile(promptFile); promptText != "" { return systemPrompt + "\n\nSubagent policy (" + promptFile + "):\n" + promptText } } if rolePrompt := strings.TrimSpace(task.SystemPrompt); rolePrompt != "" { return systemPrompt + "\n\nRole-specific profile prompt:\n" + rolePrompt } return systemPrompt } func (sm *SubagentManager) readWorkspacePromptFile(relPath string) string { ws := strings.TrimSpace(sm.workspace) relPath = strings.TrimSpace(relPath) if ws == "" || relPath == "" || filepath.IsAbs(relPath) { return "" } fullPath := filepath.Clean(filepath.Join(ws, relPath)) relToWorkspace, err := filepath.Rel(ws, fullPath) if err != nil || strings.HasPrefix(relToWorkspace, "..") { return "" } data, err := os.ReadFile(fullPath) if err != nil { return "" } return strings.TrimSpace(string(data)) } type SubagentRunFunc func(ctx context.Context, task *SubagentTask) (string, error) func (sm *SubagentManager) SetRunFunc(f SubagentRunFunc) { sm.mu.Lock() defer sm.mu.Unlock() sm.runFunc = f go sm.resumeRecoveredTasks() } func (sm *SubagentManager) ProfileStore() *SubagentProfileStore { sm.mu.RLock() defer sm.mu.RUnlock() return sm.profileStore } func (sm *SubagentManager) resumeRecoveredTasks() { if sm == nil { return } sm.mu.Lock() if sm.runFunc == nil && sm.provider == nil { sm.mu.Unlock() return } taskIDs := append([]string(nil), sm.recoverableTaskIDs...) sm.recoverableTaskIDs = nil toResume := make([]*SubagentTask, 0, len(taskIDs)) for _, taskID := range taskIDs { task, ok := sm.tasks[taskID] if !ok || task == nil || task.Status != "running" { continue } task.Updated = time.Now().UnixMilli() sm.persistTaskLocked(task, "recovered", "auto-resumed after restart") toResume = append(toResume, task) } sm.mu.Unlock() for _, task := range toResume { taskCtx, cancel := context.WithCancel(context.Background()) sm.mu.Lock() sm.cancelFuncs[task.ID] = cancel sm.mu.Unlock() go sm.runTask(taskCtx, task) } } func (sm *SubagentManager) NextTaskSequence() int { sm.mu.RLock() defer sm.mu.RUnlock() return sm.nextID } func (sm *SubagentManager) GetTask(taskID string) (*SubagentTask, bool) { sm.mu.Lock() defer sm.mu.Unlock() sm.pruneArchivedLocked() task, ok := sm.tasks[taskID] if !ok && sm.runStore != nil { return sm.runStore.Get(taskID) } return task, ok } func (sm *SubagentManager) ListTasks() []*SubagentTask { sm.mu.Lock() defer sm.mu.Unlock() sm.pruneArchivedLocked() tasks := make([]*SubagentTask, 0, len(sm.tasks)) seen := make(map[string]struct{}, len(sm.tasks)) for _, task := range sm.tasks { tasks = append(tasks, task) seen[task.ID] = struct{}{} } if sm.runStore != nil { for _, task := range sm.runStore.List() { if _, ok := seen[task.ID]; ok { continue } tasks = append(tasks, task) } } return tasks } func (sm *SubagentManager) KillTask(taskID string) bool { sm.mu.Lock() defer sm.mu.Unlock() t, ok := sm.tasks[taskID] if !ok { return false } if cancel, ok := sm.cancelFuncs[taskID]; ok { cancel() delete(sm.cancelFuncs, taskID) } if t.Status == "running" { t.Status = "killed" t.WaitingReply = false t.Updated = time.Now().UnixMilli() sm.persistTaskLocked(t, "killed", "") } return true } func (sm *SubagentManager) SteerTask(taskID, message string) bool { return sm.sendTaskMessage(taskID, "main", "control", message, false, "") } func (sm *SubagentManager) SendTaskMessage(taskID, message string) bool { return sm.sendTaskMessage(taskID, "main", "message", message, false, "") } func (sm *SubagentManager) ReplyToTask(taskID, replyToMessageID, message string) bool { return sm.sendTaskMessage(taskID, "main", "reply", message, false, replyToMessageID) } func (sm *SubagentManager) AckTaskMessage(taskID, messageID string) bool { sm.mu.Lock() defer sm.mu.Unlock() t, ok := sm.tasks[taskID] if !ok { return false } if sm.mailboxStore == nil { return false } if strings.TrimSpace(messageID) == "" { return false } t.Updated = time.Now().UnixMilli() msg, err := sm.mailboxStore.UpdateMessageStatus(messageID, "acked", t.Updated) if err != nil { return false } t.LastMessageID = msg.MessageID t.WaitingReply = false sm.persistTaskLocked(t, "acked", messageID) return true } func (sm *SubagentManager) ResumeTask(ctx context.Context, taskID string) (string, bool) { sm.mu.RLock() t, ok := sm.tasks[taskID] sm.mu.RUnlock() if !ok { return "", false } if strings.TrimSpace(t.Task) == "" { return "", false } label := strings.TrimSpace(t.Label) if label == "" { label = "resumed" } else { label = label + "-resumed" } _, err := sm.Spawn(ctx, SubagentSpawnOptions{ Task: t.Task, Label: label, Role: t.Role, AgentID: t.AgentID, MaxRetries: t.MaxRetries, RetryBackoff: t.RetryBackoff, TimeoutSec: t.TimeoutSec, MaxTaskChars: t.MaxTaskChars, MaxResultChars: t.MaxResultChars, OriginChannel: t.OriginChannel, OriginChatID: t.OriginChatID, ThreadID: t.ThreadID, CorrelationID: t.CorrelationID, ParentRunID: t.ID, }) if err != nil { return "", false } sm.mu.Lock() if original, ok := sm.tasks[taskID]; ok { sm.persistTaskLocked(original, "resumed", label) } sm.mu.Unlock() return label, true } func (sm *SubagentManager) Events(taskID string, limit int) ([]SubagentRunEvent, error) { if sm.runStore == nil { return nil, nil } return sm.runStore.Events(taskID, limit) } func (sm *SubagentManager) Thread(threadID string) (*AgentThread, bool) { if sm.mailboxStore == nil { return nil, false } return sm.mailboxStore.Thread(threadID) } func (sm *SubagentManager) ThreadMessages(threadID string, limit int) ([]AgentMessage, error) { if sm.mailboxStore == nil { return nil, nil } return sm.mailboxStore.MessagesByThread(threadID, limit) } func (sm *SubagentManager) Inbox(agentID string, limit int) ([]AgentMessage, error) { if sm.mailboxStore == nil { return nil, nil } return sm.mailboxStore.Inbox(agentID, limit) } func (sm *SubagentManager) TaskInbox(taskID string, limit int) ([]AgentMessage, error) { sm.mu.RLock() task, ok := sm.tasks[taskID] sm.mu.RUnlock() if !ok || sm.mailboxStore == nil { return nil, nil } return sm.mailboxStore.ThreadInbox(task.ThreadID, task.AgentID, limit) } func (sm *SubagentManager) Message(messageID string) (*AgentMessage, bool) { if sm.mailboxStore == nil { return nil, false } return sm.mailboxStore.Message(messageID) } func (sm *SubagentManager) pruneArchivedLocked() { if sm.archiveAfterMinute <= 0 { return } cutoff := time.Now().Add(-time.Duration(sm.archiveAfterMinute) * time.Minute).UnixMilli() for id, t := range sm.tasks { if t.Status == "running" { continue } if t.Updated > 0 && t.Updated < cutoff { delete(sm.tasks, id) delete(sm.cancelFuncs, id) } } } func normalizePositiveBound(v, min, max int) int { if v < min { return min } if max > 0 && v > max { return max } return v } func applySubagentResultQuota(result string, maxChars int) string { if maxChars <= 0 { return result } if len(result) <= maxChars { return result } suffix := "\n\n[TRUNCATED: result exceeds max_result_chars quota]" trimmed := result[:maxChars] if len(trimmed)+len(suffix) > maxChars && maxChars > len(suffix) { trimmed = trimmed[:maxChars-len(suffix)] } return strings.TrimSpace(trimmed) + suffix } func normalizeSubagentIdentifier(in string) string { in = strings.TrimSpace(strings.ToLower(in)) if in == "" { return "" } var sb strings.Builder for _, r := range in { switch { case r >= 'a' && r <= 'z': sb.WriteRune(r) case r >= '0' && r <= '9': sb.WriteRune(r) case r == '-' || r == '_' || r == '.': sb.WriteRune(r) case r == ' ': sb.WriteRune('-') } } out := strings.Trim(sb.String(), "-_.") if out == "" { return "" } return out } func buildSubagentSessionKey(agentID, taskID string) string { a := normalizeSubagentIdentifier(agentID) if a == "" { a = "default" } t := normalizeSubagentIdentifier(taskID) if t == "" { t = "task" } return fmt.Sprintf("subagent:%s:%s", a, t) } func (sm *SubagentManager) persistTaskLocked(task *SubagentTask, eventType, message string) { if task == nil || sm.runStore == nil { return } cp := cloneSubagentTask(task) _ = sm.runStore.AppendRun(cp) _ = sm.runStore.AppendEvent(SubagentRunEvent{ RunID: cp.ID, AgentID: cp.AgentID, Type: strings.TrimSpace(eventType), Status: cp.Status, Message: strings.TrimSpace(message), RetryCount: cp.RetryCount, At: cp.Updated, }) } func (sm *SubagentManager) recordMailboxMessageLocked(task *SubagentTask, msg AgentMessage) { if sm.mailboxStore == nil || task == nil { return } if strings.TrimSpace(msg.ThreadID) == "" { msg.ThreadID = task.ThreadID } stored, err := sm.mailboxStore.AppendMessage(msg) if err != nil { return } task.LastMessageID = stored.MessageID if stored.RequiresReply { task.WaitingReply = true } } func (sm *SubagentManager) sendTaskMessage(taskID, fromAgent, msgType, message string, requiresReply bool, replyTo string) bool { sm.mu.Lock() defer sm.mu.Unlock() t, ok := sm.tasks[taskID] if !ok { return false } message = strings.TrimSpace(message) if message == "" { return false } fromAgent = strings.TrimSpace(fromAgent) if fromAgent == "" { fromAgent = "main" } t.Updated = time.Now().UnixMilli() if fromAgent == "main" { t.Steering = append(t.Steering, message) } if strings.TrimSpace(replyTo) == "" { replyTo = t.LastMessageID } toAgent := t.AgentID if fromAgent != "main" { toAgent = "main" } sm.recordMailboxMessageLocked(t, AgentMessage{ ThreadID: t.ThreadID, FromAgent: fromAgent, ToAgent: toAgent, ReplyTo: replyTo, CorrelationID: t.CorrelationID, Type: msgType, Content: message, RequiresReply: requiresReply, Status: "queued", CreatedAt: t.Updated, }) switch msgType { case "control": sm.persistTaskLocked(t, "steered", message) case "reply": sm.persistTaskLocked(t, "reply_sent", message) default: sm.persistTaskLocked(t, "message_sent", message) } return true } func (sm *SubagentManager) consumeThreadInbox(task *SubagentTask) (string, []string) { if task == nil || sm.mailboxStore == nil { return "", nil } msgs, err := sm.mailboxStore.ThreadInbox(task.ThreadID, task.AgentID, 0) if err != nil || len(msgs) == 0 { return "", nil } var sb strings.Builder consumed := make([]string, 0, len(msgs)) now := time.Now().UnixMilli() for _, msg := range msgs { if _, err := sm.mailboxStore.UpdateMessageStatus(msg.MessageID, "processing", now); err != nil { continue } consumed = append(consumed, msg.MessageID) sb.WriteString(fmt.Sprintf("- [%s] from=%s type=%s", msg.MessageID, msg.FromAgent, msg.Type)) if strings.TrimSpace(msg.ReplyTo) != "" { sb.WriteString(fmt.Sprintf(" reply_to=%s", msg.ReplyTo)) } sb.WriteString("\n") sb.WriteString(strings.TrimSpace(msg.Content)) sb.WriteString("\n") } return strings.TrimSpace(sb.String()), consumed } func (sm *SubagentManager) restoreMessageStatuses(messageIDs []string) { if sm.mailboxStore == nil || len(messageIDs) == 0 { return } now := time.Now().UnixMilli() for _, messageID := range messageIDs { _, _ = sm.mailboxStore.UpdateMessageStatus(messageID, "queued", now) } } func (sm *SubagentManager) ackMessageStatuses(messageIDs []string) { if sm.mailboxStore == nil || len(messageIDs) == 0 { return } now := time.Now().UnixMilli() for _, messageID := range messageIDs { _, _ = sm.mailboxStore.UpdateMessageStatus(messageID, "acked", now) } }