// Package app wires together services, coordinates agents, and manages // application lifecycle. package app import ( "context" "database/sql" "errors" "fmt" "io" "log/slog" "os" "strings" "sync" "time" tea "charm.land/bubbletea/v2" "charm.land/fantasy" "charm.land/lipgloss/v2" "github.com/charmbracelet/crush/internal/agent" "github.com/charmbracelet/crush/internal/agent/tools/mcp" "github.com/charmbracelet/crush/internal/config" "github.com/charmbracelet/crush/internal/csync" "github.com/charmbracelet/crush/internal/db" "github.com/charmbracelet/crush/internal/format" "github.com/charmbracelet/crush/internal/history" "github.com/charmbracelet/crush/internal/log" "github.com/charmbracelet/crush/internal/lsp" "github.com/charmbracelet/crush/internal/message" "github.com/charmbracelet/crush/internal/permission" "github.com/charmbracelet/crush/internal/pubsub" "github.com/charmbracelet/crush/internal/session" "github.com/charmbracelet/crush/internal/shell" "github.com/charmbracelet/crush/internal/tui/components/anim" "github.com/charmbracelet/crush/internal/tui/styles" "github.com/charmbracelet/crush/internal/update" "github.com/charmbracelet/crush/internal/version" "github.com/charmbracelet/x/ansi" "github.com/charmbracelet/x/exp/charmtone" "github.com/charmbracelet/x/term" ) // UpdateAvailableMsg is sent when a new version is available. type UpdateAvailableMsg struct { CurrentVersion string LatestVersion string IsDevelopment bool } type App struct { Sessions session.Service Messages message.Service History history.Service Permissions permission.Service AgentCoordinator agent.Coordinator LSPClients *csync.Map[string, *lsp.Client] config *config.Config serviceEventsWG *sync.WaitGroup eventsCtx context.Context events chan tea.Msg tuiWG *sync.WaitGroup // global context and cleanup functions globalCtx context.Context cleanupFuncs []func() error } // New initializes a new application instance. func New(ctx context.Context, conn *sql.DB, cfg *config.Config) (*App, error) { q := db.New(conn) sessions := session.NewService(q) messages := message.NewService(q) files := history.NewService(q, conn) skipPermissionsRequests := cfg.Permissions != nil && cfg.Permissions.SkipRequests var allowedTools []string if cfg.Permissions != nil && cfg.Permissions.AllowedTools != nil { allowedTools = cfg.Permissions.AllowedTools } app := &App{ Sessions: sessions, Messages: messages, History: files, Permissions: permission.NewPermissionService(cfg.WorkingDir(), skipPermissionsRequests, allowedTools), LSPClients: csync.NewMap[string, *lsp.Client](), globalCtx: ctx, config: cfg, events: make(chan tea.Msg, 100), serviceEventsWG: &sync.WaitGroup{}, tuiWG: &sync.WaitGroup{}, } app.setupEvents() // Initialize LSP clients in the background. app.initLSPClients(ctx) // Check for updates in the background. go app.checkForUpdates(ctx) go func() { slog.Info("Initializing MCP clients") mcp.Initialize(ctx, app.Permissions, cfg) }() // cleanup database upon app shutdown app.cleanupFuncs = append(app.cleanupFuncs, conn.Close, mcp.Close) // TODO: remove the concept of agent config, most likely. if !cfg.IsConfigured() { slog.Warn("No agent configuration found") return app, nil } if err := app.InitCoderAgent(ctx); err != nil { return nil, fmt.Errorf("failed to initialize coder agent: %w", err) } return app, nil } // Config returns the application configuration. func (app *App) Config() *config.Config { return app.config } // RunNonInteractive runs the application in non-interactive mode with the // given prompt, printing to stdout. func (app *App) RunNonInteractive(ctx context.Context, output io.Writer, prompt string, quiet bool) error { slog.Info("Running in non-interactive mode") ctx, cancel := context.WithCancel(ctx) defer cancel() var ( spinner *format.Spinner stdoutTTY bool stderrTTY bool stdinTTY bool ) if f, ok := output.(*os.File); ok { stdoutTTY = term.IsTerminal(f.Fd()) } stderrTTY = term.IsTerminal(os.Stderr.Fd()) stdinTTY = term.IsTerminal(os.Stdin.Fd()) if !quiet && stderrTTY { t := styles.CurrentTheme() // Detect background color to set the appropriate color for the // spinner's 'Generating...' text. Without this, that text would be // unreadable in light terminals. hasDarkBG := true if f, ok := output.(*os.File); ok && stdinTTY && stdoutTTY { hasDarkBG = lipgloss.HasDarkBackground(os.Stdin, f) } defaultFG := lipgloss.LightDark(hasDarkBG)(charmtone.Pepper, t.FgBase) spinner = format.NewSpinner(ctx, cancel, anim.Settings{ Size: 10, Label: "Generating", LabelColor: defaultFG, GradColorA: t.Primary, GradColorB: t.Secondary, CycleColors: true, }) spinner.Start() } // Helper function to stop spinner once. stopSpinner := func() { if !quiet && spinner != nil { spinner.Stop() spinner = nil } } // Wait for MCP initialization to complete before reading MCP tools. if err := mcp.WaitForInit(ctx); err != nil { return fmt.Errorf("failed to wait for MCP initialization: %w", err) } // force update of agent models before running so mcp tools are loaded app.AgentCoordinator.UpdateModels(ctx) defer stopSpinner() const maxPromptLengthForTitle = 100 const titlePrefix = "Non-interactive: " var titleSuffix string if len(prompt) > maxPromptLengthForTitle { titleSuffix = prompt[:maxPromptLengthForTitle] + "..." } else { titleSuffix = prompt } title := titlePrefix + titleSuffix sess, err := app.Sessions.Create(ctx, title) if err != nil { return fmt.Errorf("failed to create session for non-interactive mode: %w", err) } slog.Info("Created session for non-interactive run", "session_id", sess.ID) // Automatically approve all permission requests for this non-interactive // session. app.Permissions.AutoApproveSession(sess.ID) type response struct { result *fantasy.AgentResult err error } done := make(chan response, 1) go func(ctx context.Context, sessionID, prompt string) { result, err := app.AgentCoordinator.Run(ctx, sess.ID, prompt) if err != nil { done <- response{ err: fmt.Errorf("failed to start agent processing stream: %w", err), } } done <- response{ result: result, } }(ctx, sess.ID, prompt) messageEvents := app.Messages.Subscribe(ctx) messageReadBytes := make(map[string]int) defer func() { if stderrTTY { _, _ = fmt.Fprintf(os.Stderr, ansi.ResetProgressBar) } // Always print a newline at the end. If output is a TTY this will // prevent the prompt from overwriting the last line of output. _, _ = fmt.Fprintln(output) }() for { if stderrTTY { // HACK: Reinitialize the terminal progress bar on every iteration // so it doesn't get hidden by the terminal due to inactivity. _, _ = fmt.Fprintf(os.Stderr, ansi.SetIndeterminateProgressBar) } select { case result := <-done: stopSpinner() if result.err != nil { if errors.Is(result.err, context.Canceled) || errors.Is(result.err, agent.ErrRequestCancelled) { slog.Info("Non-interactive: agent processing cancelled", "session_id", sess.ID) return nil } return fmt.Errorf("agent processing failed: %w", result.err) } return nil case event := <-messageEvents: msg := event.Payload if msg.SessionID == sess.ID && msg.Role == message.Assistant && len(msg.Parts) > 0 { stopSpinner() content := msg.Content().String() readBytes := messageReadBytes[msg.ID] if len(content) < readBytes { slog.Error("Non-interactive: message content is shorter than read bytes", "message_length", len(content), "read_bytes", readBytes) return fmt.Errorf("message content is shorter than read bytes: %d < %d", len(content), readBytes) } part := content[readBytes:] // Trim leading whitespace. Sometimes the LLM includes leading // formatting and intentation, which we don't want here. if readBytes == 0 { part = strings.TrimLeft(part, " \t") } fmt.Fprint(output, part) messageReadBytes[msg.ID] = len(content) } case <-ctx.Done(): stopSpinner() return ctx.Err() } } } func (app *App) UpdateAgentModel(ctx context.Context) error { if app.AgentCoordinator == nil { return fmt.Errorf("agent configuration is missing") } return app.AgentCoordinator.UpdateModels(ctx) } func (app *App) setupEvents() { ctx, cancel := context.WithCancel(app.globalCtx) app.eventsCtx = ctx setupSubscriber(ctx, app.serviceEventsWG, "sessions", app.Sessions.Subscribe, app.events) setupSubscriber(ctx, app.serviceEventsWG, "messages", app.Messages.Subscribe, app.events) setupSubscriber(ctx, app.serviceEventsWG, "permissions", app.Permissions.Subscribe, app.events) setupSubscriber(ctx, app.serviceEventsWG, "permissions-notifications", app.Permissions.SubscribeNotifications, app.events) setupSubscriber(ctx, app.serviceEventsWG, "history", app.History.Subscribe, app.events) setupSubscriber(ctx, app.serviceEventsWG, "mcp", mcp.SubscribeEvents, app.events) setupSubscriber(ctx, app.serviceEventsWG, "lsp", SubscribeLSPEvents, app.events) cleanupFunc := func() error { cancel() app.serviceEventsWG.Wait() return nil } app.cleanupFuncs = append(app.cleanupFuncs, cleanupFunc) } func setupSubscriber[T any]( ctx context.Context, wg *sync.WaitGroup, name string, subscriber func(context.Context) <-chan pubsub.Event[T], outputCh chan<- tea.Msg, ) { wg.Go(func() { subCh := subscriber(ctx) for { select { case event, ok := <-subCh: if !ok { slog.Debug("subscription channel closed", "name", name) return } var msg tea.Msg = event select { case outputCh <- msg: case <-time.After(2 * time.Second): slog.Warn("message dropped due to slow consumer", "name", name) case <-ctx.Done(): slog.Debug("subscription cancelled", "name", name) return } case <-ctx.Done(): slog.Debug("subscription cancelled", "name", name) return } } }) } func (app *App) InitCoderAgent(ctx context.Context) error { coderAgentCfg := app.config.Agents[config.AgentCoder] if coderAgentCfg.ID == "" { return fmt.Errorf("coder agent configuration is missing") } var err error app.AgentCoordinator, err = agent.NewCoordinator( ctx, app.config, app.Sessions, app.Messages, app.Permissions, app.History, app.LSPClients, ) if err != nil { slog.Error("Failed to create coder agent", "err", err) return err } return nil } // Subscribe sends events to the TUI as tea.Msgs. func (app *App) Subscribe(program *tea.Program) { defer log.RecoverPanic("app.Subscribe", func() { slog.Info("TUI subscription panic: attempting graceful shutdown") program.Quit() }) app.tuiWG.Add(1) tuiCtx, tuiCancel := context.WithCancel(app.globalCtx) app.cleanupFuncs = append(app.cleanupFuncs, func() error { slog.Debug("Cancelling TUI message handler") tuiCancel() app.tuiWG.Wait() return nil }) defer app.tuiWG.Done() for { select { case <-tuiCtx.Done(): slog.Debug("TUI message handler shutting down") return case msg, ok := <-app.events: if !ok { slog.Debug("TUI message channel closed") return } program.Send(msg) } } } // Shutdown performs a graceful shutdown of the application. func (app *App) Shutdown() { start := time.Now() defer func() { slog.Info("Shutdown took " + time.Since(start).String()) }() // First, cancel all agents and wait for them to finish. This must complete // before closing the DB so agents can finish writing their state. if app.AgentCoordinator != nil { app.AgentCoordinator.CancelAll() } // Now run remaining cleanup tasks in parallel. var wg sync.WaitGroup // Kill all background shells. wg.Go(func() { shell.GetBackgroundShellManager().KillAll() }) // Shutdown all LSP clients. shutdownCtx, cancel := context.WithTimeout(app.globalCtx, 5*time.Second) defer cancel() for name, client := range app.LSPClients.Seq2() { wg.Go(func() { if err := client.Close(shutdownCtx); err != nil && !errors.Is(err, io.EOF) && !errors.Is(err, context.Canceled) && err.Error() != "signal: killed" { slog.Warn("Failed to shutdown LSP client", "name", name, "error", err) } }) } // Call all cleanup functions. for _, cleanup := range app.cleanupFuncs { if cleanup != nil { wg.Go(func() { if err := cleanup(); err != nil { slog.Error("Failed to cleanup app properly on shutdown", "error", err) } }) } } wg.Wait() } // checkForUpdates checks for available updates. func (app *App) checkForUpdates(ctx context.Context) { checkCtx, cancel := context.WithTimeout(ctx, 30*time.Second) defer cancel() info, err := update.Check(checkCtx, version.Version, update.Default) if err != nil || !info.Available() { return } app.events <- UpdateAvailableMsg{ CurrentVersion: info.Current, LatestVersion: info.Latest, IsDevelopment: info.IsDevelopment(), } }