/** * AgentSession - Core abstraction for agent lifecycle and session management. * * This class is shared between all run modes (interactive, print, rpc). * It encapsulates: * - Agent state access * - Event subscription with automatic session persistence * - Model and thinking level management * - Compaction (manual and auto) * - Bash execution * - Session switching and branching * * Modes use this class and add their own I/O layer on top. */ import { existsSync, mkdirSync, readFileSync, writeFileSync } from "node:fs"; import { basename, dirname } from "node:path"; import type { Agent, AgentEvent, AgentMessage, AgentState, AgentTool, ThinkingLevel, } from "@earendil-works/pi-agent-core"; import type { AssistantMessage, ImageContent, Message, Model, TextContent } from "@earendil-works/pi-ai"; import { clampThinkingLevel, cleanupSessionResources, getSupportedThinkingLevels, isContextOverflow, modelsAreEqual, resetApiProviders, streamSimple, } from "@earendil-works/pi-ai"; import { getThemeByName, theme } from "../modes/interactive/theme/theme.ts"; import { stripFrontmatter } from "../utils/frontmatter.ts"; import { resolvePath } from "../utils/paths.ts"; import { sleep } from "../utils/sleep.ts"; import { formatNoApiKeyFoundMessage, formatNoModelSelectedMessage } from "./auth-guidance.ts"; import { type BashResult, executeBashWithOperations } from "./bash-executor.ts"; import { type CompactionResult, calculateContextTokens, collectEntriesForBranchSummary, compact, estimateContextTokens, generateBranchSummary, prepareCompaction, shouldCompact, } from "./compaction/index.ts"; import { DEFAULT_THINKING_LEVEL } from "./defaults.ts"; import { exportSessionToHtml, type ToolHtmlRenderer } from "./export-html/index.ts"; import { createToolHtmlRenderer } from "./export-html/tool-renderer.ts"; import { type ContextUsage, type ExtensionCommandContextActions, type ExtensionErrorListener, type ExtensionMode, ExtensionRunner, type ExtensionUIContext, type InputSource, type MessageEndEvent, type MessageStartEvent, type MessageUpdateEvent, type ReplacedSessionContext, type SessionBeforeCompactResult, type SessionBeforeTreeResult, type SessionStartEvent, type ShutdownHandler, type ToolDefinition, type ToolExecutionEndEvent, type ToolExecutionStartEvent, type ToolExecutionUpdateEvent, type ToolInfo, type TreePreparation, type TurnEndEvent, type TurnStartEvent, wrapRegisteredTools, } from "./extensions/index.ts"; import { emitSessionShutdownEvent } from "./extensions/runner.ts"; import type { BashExecutionMessage, CustomMessage } from "./messages.ts"; import type { ModelRegistry } from "./model-registry.ts"; import { expandPromptTemplate, type PromptTemplate } from "./prompt-templates.ts"; import type { ResourceExtensionPaths, ResourceLoader } from "./resource-loader.ts"; import type { BranchSummaryEntry, CompactionEntry, SessionManager } from "./session-manager.ts"; import { CURRENT_SESSION_VERSION, getLatestCompactionEntry, type SessionHeader } from "./session-manager.ts"; import type { SettingsManager } from "./settings-manager.ts"; import type { SlashCommandInfo } from "./slash-commands.ts"; import { createSyntheticSourceInfo, type SourceInfo } from "./source-info.ts"; import { type BuildSystemPromptOptions, buildSystemPrompt } from "./system-prompt.ts"; import { type BashOperations, createLocalBashOperations } from "./tools/bash.ts"; import { createAllToolDefinitions } from "./tools/index.ts"; import { createToolDefinitionFromAgentTool } from "./tools/tool-definition-wrapper.ts"; // ============================================================================ // Skill Block Parsing // ============================================================================ /** Parsed skill block from a user message */ export interface ParsedSkillBlock { name: string; location: string; content: string; userMessage: string | undefined; } /** * Parse a skill block from message text. * Returns null if the text doesn't contain a skill block. */ export function parseSkillBlock(text: string): ParsedSkillBlock | null { const match = text.match(/^\n([\s\S]*?)\n<\/skill>(?:\n\n([\s\S]+))?$/); if (!match) return null; return { name: match[1], location: match[2], content: match[3], userMessage: match[4]?.trim() || undefined, }; } /** Session-specific events that extend the core AgentEvent */ export type AgentSessionEvent = | Exclude | { type: "agent_end"; messages: AgentMessage[]; willRetry: boolean; } | { type: "queue_update"; steering: readonly string[]; followUp: readonly string[]; } | { type: "compaction_start"; reason: "manual" | "threshold" | "overflow" } | { type: "session_info_changed"; name: string | undefined } | { type: "thinking_level_changed"; level: ThinkingLevel } | { type: "compaction_end"; reason: "manual" | "threshold" | "overflow"; result: CompactionResult | undefined; aborted: boolean; willRetry: boolean; errorMessage?: string; } | { type: "auto_retry_start"; attempt: number; maxAttempts: number; delayMs: number; errorMessage: string } | { type: "auto_retry_end"; success: boolean; attempt: number; finalError?: string }; /** Listener function for agent session events */ export type AgentSessionEventListener = (event: AgentSessionEvent) => void; // ============================================================================ // Types // ============================================================================ export interface AgentSessionConfig { agent: Agent; sessionManager: SessionManager; settingsManager: SettingsManager; cwd: string; /** Models to cycle through with Ctrl+P (from --models flag) */ scopedModels?: Array<{ model: Model; thinkingLevel?: ThinkingLevel }>; /** Resource loader for skills, prompts, themes, context files, system prompt */ resourceLoader: ResourceLoader; /** SDK custom tools registered outside extensions */ customTools?: ToolDefinition[]; /** Model registry for API key resolution and model discovery */ modelRegistry: ModelRegistry; /** Initial active built-in tool names. Default: [read, bash, edit, write] */ initialActiveToolNames?: string[]; /** Optional allowlist of tool names. When provided, only these tool names are exposed. */ allowedToolNames?: string[]; /** Optional denylist of tool names. When provided, these tool names are not exposed. */ excludedToolNames?: string[]; /** * Override base tools (useful for custom runtimes). * * These are synthesized into minimal ToolDefinitions internally so AgentSession can keep * a definition-first registry even when callers provide plain AgentTool instances. */ baseToolsOverride?: Record; /** Mutable ref used by Agent to access the current ExtensionRunner */ extensionRunnerRef?: { current?: ExtensionRunner }; /** Session start event metadata emitted when extensions bind to this runtime. */ sessionStartEvent?: SessionStartEvent; } export interface ExtensionBindings { uiContext?: ExtensionUIContext; mode?: ExtensionMode; commandContextActions?: ExtensionCommandContextActions; abortHandler?: () => void; shutdownHandler?: ShutdownHandler; onError?: ExtensionErrorListener; } /** Options for AgentSession.prompt() */ export interface PromptOptions { /** Whether to expand file-based prompt templates (default: true) */ expandPromptTemplates?: boolean; /** Image attachments */ images?: ImageContent[]; /** When streaming, how to queue the message: "steer" (interrupt) or "followUp" (wait). Required if streaming. */ streamingBehavior?: "steer" | "followUp"; /** Source of input for extension input event handlers. Defaults to "interactive". */ source?: InputSource; /** Internal hook used by RPC mode to observe prompt preflight acceptance or rejection. */ preflightResult?: (success: boolean) => void; } /** Result from cycleModel() */ export interface ModelCycleResult { model: Model; thinkingLevel: ThinkingLevel; /** Whether cycling through scoped models (--models flag) or all available */ isScoped: boolean; } /** Session statistics for /session command */ export interface SessionStats { sessionFile: string | undefined; sessionId: string; userMessages: number; assistantMessages: number; toolCalls: number; toolResults: number; totalMessages: number; tokens: { input: number; output: number; cacheRead: number; cacheWrite: number; total: number; }; cost: number; contextUsage?: ContextUsage; } interface ToolDefinitionEntry { definition: ToolDefinition; sourceInfo: SourceInfo; } // ============================================================================ // Constants // ============================================================================ /** Standard thinking levels */ const THINKING_LEVELS: ThinkingLevel[] = ["off", "minimal", "low", "medium", "high"]; // ============================================================================ // AgentSession Class // ============================================================================ export class AgentSession { readonly agent: Agent; readonly sessionManager: SessionManager; readonly settingsManager: SettingsManager; private _scopedModels: Array<{ model: Model; thinkingLevel?: ThinkingLevel }>; // Event subscription state private _unsubscribeAgent?: () => void; private _eventListeners: AgentSessionEventListener[] = []; /** Tracks pending steering messages for UI display. Removed when delivered. */ private _steeringMessages: string[] = []; /** Tracks pending follow-up messages for UI display. Removed when delivered. */ private _followUpMessages: string[] = []; /** Messages queued to be included with the next user prompt as context ("asides"). */ private _pendingNextTurnMessages: CustomMessage[] = []; // Compaction state private _compactionAbortController: AbortController | undefined = undefined; private _autoCompactionAbortController: AbortController | undefined = undefined; private _overflowRecoveryAttempted = false; // Branch summarization state private _branchSummaryAbortController: AbortController | undefined = undefined; // Retry state private _retryAbortController: AbortController | undefined = undefined; private _retryAttempt = 0; // Bash execution state private _bashAbortController: AbortController | undefined = undefined; private _pendingBashMessages: BashExecutionMessage[] = []; // Extension system private _extensionRunner!: ExtensionRunner; private _turnIndex = 0; private _resourceLoader: ResourceLoader; private _customTools: ToolDefinition[]; private _baseToolDefinitions: Map = new Map(); private _cwd: string; private _extensionRunnerRef?: { current?: ExtensionRunner }; private _initialActiveToolNames?: string[]; private _allowedToolNames?: Set; private _excludedToolNames?: Set; private _baseToolsOverride?: Record; private _sessionStartEvent: SessionStartEvent; private _extensionUIContext?: ExtensionUIContext; private _extensionMode: ExtensionMode = "print"; private _extensionCommandContextActions?: ExtensionCommandContextActions; private _extensionAbortHandler?: () => void; private _extensionShutdownHandler?: ShutdownHandler; private _extensionErrorListener?: ExtensionErrorListener; private _extensionErrorUnsubscriber?: () => void; // Model registry for API key resolution private _modelRegistry: ModelRegistry; // Tool registry for extension getTools/setTools private _toolRegistry: Map = new Map(); private _toolDefinitions: Map = new Map(); private _toolPromptSnippets: Map = new Map(); private _toolPromptGuidelines: Map = new Map(); // Base system prompt (without extension appends) - used to apply fresh appends each turn private _baseSystemPrompt = ""; private _baseSystemPromptOptions!: BuildSystemPromptOptions; constructor(config: AgentSessionConfig) { this.agent = config.agent; this.sessionManager = config.sessionManager; this.settingsManager = config.settingsManager; this._scopedModels = config.scopedModels ?? []; this._resourceLoader = config.resourceLoader; this._customTools = config.customTools ?? []; this._cwd = config.cwd; this._modelRegistry = config.modelRegistry; this._extensionRunnerRef = config.extensionRunnerRef; this._initialActiveToolNames = config.initialActiveToolNames; this._allowedToolNames = config.allowedToolNames ? new Set(config.allowedToolNames) : undefined; this._excludedToolNames = config.excludedToolNames ? new Set(config.excludedToolNames) : undefined; this._baseToolsOverride = config.baseToolsOverride; this._sessionStartEvent = config.sessionStartEvent ?? { type: "session_start", reason: "startup" }; // Always subscribe to agent events for internal handling // (session persistence, extensions, auto-compaction, retry logic) this._unsubscribeAgent = this.agent.subscribe(this._handleAgentEvent); this._installAgentToolHooks(); this._buildRuntime({ activeToolNames: this._initialActiveToolNames, includeAllExtensionTools: true, }); } /** Model registry for API key resolution and model discovery */ get modelRegistry(): ModelRegistry { return this._modelRegistry; } private async _getRequiredRequestAuth(model: Model): Promise<{ apiKey: string; headers?: Record; env?: Record; }> { const result = await this._modelRegistry.getApiKeyAndHeaders(model); if (!result.ok) { if (result.error.startsWith("No API key found")) { throw new Error(formatNoApiKeyFoundMessage(model.provider)); } throw new Error(result.error); } if (result.apiKey) { return { apiKey: result.apiKey, headers: result.headers, env: result.env }; } const isOAuth = this._modelRegistry.isUsingOAuth(model); if (isOAuth) { throw new Error( `Authentication failed for "${model.provider}". ` + `Credentials may have expired or network is unavailable. ` + `Run '/login ${model.provider}' to re-authenticate.`, ); } throw new Error(formatNoApiKeyFoundMessage(model.provider)); } private async _getCompactionRequestAuth(model: Model): Promise<{ apiKey?: string; headers?: Record; env?: Record; }> { if (this.agent.streamFn === streamSimple) { return this._getRequiredRequestAuth(model); } const result = await this._modelRegistry.getApiKeyAndHeaders(model); return result.ok ? { apiKey: result.apiKey, headers: result.headers, env: result.env } : {}; } /** * Install tool hooks once on the Agent instance. * * The callbacks read `this._extensionRunner` at execution time, so extension reload swaps in the * new runner without reinstalling hooks. Extension-specific tool wrappers are still used to adapt * registered tool execution to the extension context. Tool call and tool result interception now * happens here instead of in wrappers. */ private _installAgentToolHooks(): void { this.agent.beforeToolCall = async ({ toolCall, args }) => { const runner = this._extensionRunner; if (!runner.hasHandlers("tool_call")) { return undefined; } try { return await runner.emitToolCall({ type: "tool_call", toolName: toolCall.name, toolCallId: toolCall.id, input: args as Record, }); } catch (err) { if (err instanceof Error) { throw err; } throw new Error(`Extension failed, blocking execution: ${String(err)}`); } }; this.agent.afterToolCall = async ({ toolCall, args, result, isError }) => { const runner = this._extensionRunner; if (!runner.hasHandlers("tool_result")) { return undefined; } const hookResult = await runner.emitToolResult({ type: "tool_result", toolName: toolCall.name, toolCallId: toolCall.id, input: args as Record, content: result.content, details: result.details, isError, }); if (!hookResult) { return undefined; } return { content: hookResult.content, details: hookResult.details, isError: hookResult.isError ?? isError, }; }; } // ========================================================================= // Event Subscription // ========================================================================= /** Emit an event to all listeners */ private _emit(event: AgentSessionEvent): void { for (const l of this._eventListeners) { l(event); } } private _emitQueueUpdate(): void { this._emit({ type: "queue_update", steering: [...this._steeringMessages], followUp: [...this._followUpMessages], }); } // Track last assistant message for auto-compaction check private _lastAssistantMessage: AssistantMessage | undefined = undefined; /** Internal handler for agent events - shared by subscribe and reconnect */ private _handleAgentEvent = async (event: AgentEvent): Promise => { // When a user message starts, check if it's from either queue and remove it BEFORE emitting // This ensures the UI sees the updated queue state if (event.type === "message_start" && event.message.role === "user") { this._overflowRecoveryAttempted = false; const messageText = this._getUserMessageText(event.message); if (messageText) { // Check steering queue first const steeringIndex = this._steeringMessages.indexOf(messageText); if (steeringIndex !== -1) { this._steeringMessages.splice(steeringIndex, 1); this._emitQueueUpdate(); } else { // Check follow-up queue const followUpIndex = this._followUpMessages.indexOf(messageText); if (followUpIndex !== -1) { this._followUpMessages.splice(followUpIndex, 1); this._emitQueueUpdate(); } } } } // Emit to extensions first await this._emitExtensionEvent(event); // Notify all listeners this._emit(event.type === "agent_end" ? { ...event, willRetry: this._willRetryAfterAgentEnd(event) } : event); // Handle session persistence if (event.type === "message_end") { // Check if this is a custom message from extensions if (event.message.role === "custom") { // Persist as CustomMessageEntry this.sessionManager.appendCustomMessageEntry( event.message.customType, event.message.content, event.message.display, event.message.details, ); } else if ( event.message.role === "user" || event.message.role === "assistant" || event.message.role === "toolResult" ) { // Regular LLM message - persist as SessionMessageEntry this.sessionManager.appendMessage(event.message); } // Other message types (bashExecution, compactionSummary, branchSummary) are persisted elsewhere // Track assistant message for auto-compaction (checked on agent_end) if (event.message.role === "assistant") { this._lastAssistantMessage = event.message; const assistantMsg = event.message as AssistantMessage; if (assistantMsg.stopReason !== "error") { this._overflowRecoveryAttempted = false; } // Reset retry counter immediately on successful assistant response // This prevents accumulation across multiple LLM calls within a turn if (assistantMsg.stopReason !== "error" && this._retryAttempt > 0) { this._emit({ type: "auto_retry_end", success: true, attempt: this._retryAttempt, }); this._retryAttempt = 0; } } } }; private _willRetryAfterAgentEnd(event: Extract): boolean { const settings = this.settingsManager.getRetrySettings(); if (!settings.enabled || this._retryAttempt >= settings.maxRetries) { return false; } for (let i = event.messages.length - 1; i >= 0; i--) { const message = event.messages[i]; if (message.role === "assistant") { return this._isRetryableError(message as AssistantMessage); } } return false; } /** Extract text content from a message */ private _getUserMessageText(message: Message): string { if (message.role !== "user") return ""; const content = message.content; if (typeof content === "string") return content; const textBlocks = content.filter((c) => c.type === "text"); return textBlocks.map((c) => (c as TextContent).text).join(""); } /** Find the last assistant message in agent state (including aborted ones) */ private _findLastAssistantMessage(): AssistantMessage | undefined { const messages = this.agent.state.messages; for (let i = messages.length - 1; i >= 0; i--) { const msg = messages[i]; if (msg.role === "assistant") { return msg as AssistantMessage; } } return undefined; } private _replaceMessageInPlace(target: AgentMessage, replacement: AgentMessage): void { // Agent-core stores the finalized message object in its state before emitting message_end. // SessionManager persistence happens later in _handleAgentEvent() with event.message. // Mutating this object in place keeps agent state, later turn/agent events, listeners, // and the eventual SessionManager.appendMessage(event.message) persistence in sync. if (target === replacement) { return; } const targetRecord = target as unknown as Record; for (const key of Object.keys(targetRecord)) { delete targetRecord[key]; } Object.assign(targetRecord, replacement); } /** Emit extension events based on agent events */ private async _emitExtensionEvent(event: AgentEvent): Promise { if (event.type === "agent_start") { this._turnIndex = 0; await this._extensionRunner.emit({ type: "agent_start" }); } else if (event.type === "agent_end") { await this._extensionRunner.emit({ type: "agent_end", messages: event.messages }); } else if (event.type === "turn_start") { const extensionEvent: TurnStartEvent = { type: "turn_start", turnIndex: this._turnIndex, timestamp: Date.now(), }; await this._extensionRunner.emit(extensionEvent); } else if (event.type === "turn_end") { const extensionEvent: TurnEndEvent = { type: "turn_end", turnIndex: this._turnIndex, message: event.message, toolResults: event.toolResults, }; await this._extensionRunner.emit(extensionEvent); this._turnIndex++; } else if (event.type === "message_start") { const extensionEvent: MessageStartEvent = { type: "message_start", message: event.message, }; await this._extensionRunner.emit(extensionEvent); } else if (event.type === "message_update") { const extensionEvent: MessageUpdateEvent = { type: "message_update", message: event.message, assistantMessageEvent: event.assistantMessageEvent, }; await this._extensionRunner.emit(extensionEvent); } else if (event.type === "message_end") { const extensionEvent: MessageEndEvent = { type: "message_end", message: event.message, }; const replacement = await this._extensionRunner.emitMessageEnd(extensionEvent); if (replacement) { this._replaceMessageInPlace(event.message, replacement); } } else if (event.type === "tool_execution_start") { const extensionEvent: ToolExecutionStartEvent = { type: "tool_execution_start", toolCallId: event.toolCallId, toolName: event.toolName, args: event.args, }; await this._extensionRunner.emit(extensionEvent); } else if (event.type === "tool_execution_update") { const extensionEvent: ToolExecutionUpdateEvent = { type: "tool_execution_update", toolCallId: event.toolCallId, toolName: event.toolName, args: event.args, partialResult: event.partialResult, }; await this._extensionRunner.emit(extensionEvent); } else if (event.type === "tool_execution_end") { const extensionEvent: ToolExecutionEndEvent = { type: "tool_execution_end", toolCallId: event.toolCallId, toolName: event.toolName, result: event.result, isError: event.isError, }; await this._extensionRunner.emit(extensionEvent); } } /** * Subscribe to agent events. * Session persistence is handled internally (saves messages on message_end). * Multiple listeners can be added. Returns unsubscribe function for this listener. */ subscribe(listener: AgentSessionEventListener): () => void { this._eventListeners.push(listener); // Return unsubscribe function for this specific listener return () => { const index = this._eventListeners.indexOf(listener); if (index !== -1) { this._eventListeners.splice(index, 1); } }; } /** * Temporarily disconnect from agent events. * User listeners are preserved and will receive events again after resubscribe(). * Used internally during operations that need to pause event processing. */ private _disconnectFromAgent(): void { if (this._unsubscribeAgent) { this._unsubscribeAgent(); this._unsubscribeAgent = undefined; } } /** * Reconnect to agent events after _disconnectFromAgent(). * Preserves all existing listeners. */ private _reconnectToAgent(): void { if (this._unsubscribeAgent) return; // Already connected this._unsubscribeAgent = this.agent.subscribe(this._handleAgentEvent); } /** * Remove all listeners and disconnect from agent. * Call this when completely done with the session. */ dispose(): void { try { this.abortRetry(); this.abortCompaction(); this.abortBranchSummary(); this.abortBash(); this.agent.abort(); } catch { // Dispose must succeed even if an abort hook throws. } this._extensionRunner.invalidate( "This extension ctx is stale after session replacement or reload. Do not use a captured pi or command ctx after ctx.newSession(), ctx.fork(), ctx.switchSession(), or ctx.reload(). For newSession, fork, and switchSession, move post-replacement work into withSession and use the ctx passed to withSession. For reload, do not use the old ctx after await ctx.reload().", ); this._disconnectFromAgent(); this._eventListeners = []; cleanupSessionResources(this.sessionId); } // ========================================================================= // Read-only State Access // ========================================================================= /** Full agent state */ get state(): AgentState { return this.agent.state; } /** Current model (may be undefined if not yet selected) */ get model(): Model | undefined { return this.agent.state.model; } /** Current thinking level */ get thinkingLevel(): ThinkingLevel { return this.agent.state.thinkingLevel; } /** Whether agent is currently streaming a response */ get isStreaming(): boolean { return this.agent.state.isStreaming; } /** Current effective system prompt (includes any per-turn extension modifications) */ get systemPrompt(): string { return this.agent.state.systemPrompt; } /** Current retry attempt (0 if not retrying) */ get retryAttempt(): number { return this._retryAttempt; } /** * Get the names of currently active tools. * Returns the names of tools currently set on the agent. */ getActiveToolNames(): string[] { return this.agent.state.tools.map((t) => t.name); } /** * Get all configured tools with name, description, parameter schema, prompt guidelines, and source metadata. */ getAllTools(): ToolInfo[] { return Array.from(this._toolDefinitions.values()).map(({ definition, sourceInfo }) => ({ name: definition.name, description: definition.description, parameters: definition.parameters, promptGuidelines: definition.promptGuidelines, sourceInfo, })); } getToolDefinition(name: string): ToolDefinition | undefined { return this._toolDefinitions.get(name)?.definition; } /** * Set active tools by name. * Only tools in the registry can be enabled. Unknown tool names are ignored. * Also rebuilds the system prompt to reflect the new tool set. * Changes take effect on the next agent turn. */ setActiveToolsByName(toolNames: string[]): void { const tools: AgentTool[] = []; const validToolNames: string[] = []; for (const name of toolNames) { const tool = this._toolRegistry.get(name); if (tool) { tools.push(tool); validToolNames.push(name); } } this.agent.state.tools = tools; // Rebuild base system prompt with new tool set this._baseSystemPrompt = this._rebuildSystemPrompt(validToolNames); this.agent.state.systemPrompt = this._baseSystemPrompt; } /** Whether compaction or branch summarization is currently running */ get isCompacting(): boolean { return ( this._autoCompactionAbortController !== undefined || this._compactionAbortController !== undefined || this._branchSummaryAbortController !== undefined ); } /** All messages including custom types like BashExecutionMessage */ get messages(): AgentMessage[] { return this.agent.state.messages; } /** Current steering mode */ get steeringMode(): "all" | "one-at-a-time" { return this.agent.steeringMode; } /** Current follow-up mode */ get followUpMode(): "all" | "one-at-a-time" { return this.agent.followUpMode; } /** Current session file path, or undefined if sessions are disabled */ get sessionFile(): string | undefined { return this.sessionManager.getSessionFile(); } /** Current session ID */ get sessionId(): string { return this.sessionManager.getSessionId(); } /** Current session display name, if set */ get sessionName(): string | undefined { return this.sessionManager.getSessionName(); } /** Scoped models for cycling (from --models flag) */ get scopedModels(): ReadonlyArray<{ model: Model; thinkingLevel?: ThinkingLevel }> { return this._scopedModels; } /** Update scoped models for cycling */ setScopedModels(scopedModels: Array<{ model: Model; thinkingLevel?: ThinkingLevel }>): void { this._scopedModels = scopedModels; } /** File-based prompt templates */ get promptTemplates(): ReadonlyArray { return this._resourceLoader.getPrompts().prompts; } private _normalizePromptSnippet(text: string | undefined): string | undefined { if (!text) return undefined; const oneLine = text .replace(/[\r\n]+/g, " ") .replace(/\s+/g, " ") .trim(); return oneLine.length > 0 ? oneLine : undefined; } private _normalizePromptGuidelines(guidelines: string[] | undefined): string[] { if (!guidelines || guidelines.length === 0) { return []; } const unique = new Set(); for (const guideline of guidelines) { const normalized = guideline.trim(); if (normalized.length > 0) { unique.add(normalized); } } return Array.from(unique); } private _rebuildSystemPrompt(toolNames: string[]): string { const validToolNames = toolNames.filter((name) => this._toolRegistry.has(name)); const toolSnippets: Record = {}; const promptGuidelines: string[] = []; for (const name of validToolNames) { const snippet = this._toolPromptSnippets.get(name); if (snippet) { toolSnippets[name] = snippet; } const toolGuidelines = this._toolPromptGuidelines.get(name); if (toolGuidelines) { promptGuidelines.push(...toolGuidelines); } } const loaderSystemPrompt = this._resourceLoader.getSystemPrompt(); const loaderAppendSystemPrompt = this._resourceLoader.getAppendSystemPrompt(); const appendSystemPrompt = loaderAppendSystemPrompt.length > 0 ? loaderAppendSystemPrompt.join("\n\n") : undefined; const loadedSkills = this._resourceLoader.getSkills().skills; const loadedContextFiles = this._resourceLoader.getAgentsFiles().agentsFiles; this._baseSystemPromptOptions = { cwd: this._cwd, skills: loadedSkills, contextFiles: loadedContextFiles, customPrompt: loaderSystemPrompt, appendSystemPrompt, selectedTools: validToolNames, toolSnippets, promptGuidelines, }; return buildSystemPrompt(this._baseSystemPromptOptions); } // ========================================================================= // Prompting // ========================================================================= private async _runAgentPrompt(messages: AgentMessage | AgentMessage[]): Promise { try { await this.agent.prompt(messages); while (await this._handlePostAgentRun()) { await this.agent.continue(); } } finally { this._flushPendingBashMessages(); } } private async _handlePostAgentRun(): Promise { const msg = this._lastAssistantMessage; this._lastAssistantMessage = undefined; if (!msg) { return false; } if (this._isRetryableError(msg) && (await this._prepareRetry(msg))) { return true; } if (msg.stopReason === "error" && this._retryAttempt > 0) { this._emit({ type: "auto_retry_end", success: false, attempt: this._retryAttempt, finalError: msg.errorMessage, }); this._retryAttempt = 0; } if (await this._checkCompaction(msg)) { return true; } // The agent loop drains both queues before emitting agent_end. Any messages // here were queued by agent_end extension handlers and need a continuation. return this.agent.hasQueuedMessages(); } /** * Send a prompt to the agent. * - Handles extension commands (registered via pi.registerCommand) immediately, even during streaming * - Expands file-based prompt templates by default * - During streaming, queues via steer() or followUp() based on streamingBehavior option * - Validates model and API key before sending (when not streaming) * @throws Error if streaming and no streamingBehavior specified * @throws Error if no model selected or no API key available (when not streaming) */ async prompt(text: string, options?: PromptOptions): Promise { const expandPromptTemplates = options?.expandPromptTemplates ?? true; const preflightResult = options?.preflightResult; let messages: AgentMessage[] | undefined; try { // Handle extension commands first (execute immediately, even during streaming) // Extension commands manage their own LLM interaction via pi.sendMessage() if (expandPromptTemplates && text.startsWith("/")) { const handled = await this._tryExecuteExtensionCommand(text); if (handled) { // Extension command executed, no prompt to send preflightResult?.(true); return; } } // Emit input event for extension interception (before skill/template expansion) let currentText = text; let currentImages = options?.images; if (this._extensionRunner.hasHandlers("input")) { const inputResult = await this._extensionRunner.emitInput( currentText, currentImages, options?.source ?? "interactive", this.isStreaming ? options?.streamingBehavior : undefined, ); if (inputResult.action === "handled") { preflightResult?.(true); return; } if (inputResult.action === "transform") { currentText = inputResult.text; currentImages = inputResult.images ?? currentImages; } } // Expand skill commands (/skill:name args) and prompt templates (/template args) let expandedText = currentText; if (expandPromptTemplates) { expandedText = this._expandSkillCommand(expandedText); expandedText = expandPromptTemplate(expandedText, [...this.promptTemplates]); } // If streaming, queue via steer() or followUp() based on option if (this.isStreaming) { if (!options?.streamingBehavior) { throw new Error( "Agent is already processing. Specify streamingBehavior ('steer' or 'followUp') to queue the message.", ); } if (options.streamingBehavior === "followUp") { await this._queueFollowUp(expandedText, currentImages); } else { await this._queueSteer(expandedText, currentImages); } preflightResult?.(true); return; } // Flush any pending bash messages before the new prompt this._flushPendingBashMessages(); // Validate model if (!this.model) { throw new Error(formatNoModelSelectedMessage()); } if (!this._modelRegistry.hasConfiguredAuth(this.model)) { const isOAuth = this._modelRegistry.isUsingOAuth(this.model); if (isOAuth) { throw new Error( `Authentication failed for "${this.model.provider}". ` + `Credentials may have expired or network is unavailable. ` + `Run '/login ${this.model.provider}' to re-authenticate.`, ); } throw new Error(formatNoApiKeyFoundMessage(this.model.provider)); } // Check if we need to compact before sending (catches aborted responses) const lastAssistant = this._findLastAssistantMessage(); if (lastAssistant && (await this._checkCompaction(lastAssistant, false))) { try { await this.agent.continue(); while (await this._handlePostAgentRun()) { await this.agent.continue(); } } finally { this._flushPendingBashMessages(); } } // Build messages array (custom message if any, then user message) messages = []; // Add user message const userContent: (TextContent | ImageContent)[] = [{ type: "text", text: expandedText }]; if (currentImages) { userContent.push(...currentImages); } messages.push({ role: "user", content: userContent, timestamp: Date.now(), }); // Inject any pending "nextTurn" messages as context alongside the user message for (const msg of this._pendingNextTurnMessages) { messages.push(msg); } this._pendingNextTurnMessages = []; // Emit before_agent_start extension event const result = await this._extensionRunner.emitBeforeAgentStart( expandedText, currentImages, this._baseSystemPrompt, this._baseSystemPromptOptions, ); // Add all custom messages from extensions if (result?.messages) { for (const msg of result.messages) { messages.push({ role: "custom", customType: msg.customType, content: msg.content, display: msg.display, details: msg.details, timestamp: Date.now(), }); } } // Apply extension-modified system prompt, or reset to base if (result?.systemPrompt) { this.agent.state.systemPrompt = result.systemPrompt; } else { // Ensure we're using the base prompt (in case previous turn had modifications) this.agent.state.systemPrompt = this._baseSystemPrompt; } } catch (error) { preflightResult?.(false); throw error; } if (!messages) { return; } preflightResult?.(true); await this._runAgentPrompt(messages); } /** * Try to execute an extension command. Returns true if command was found and executed. */ private async _tryExecuteExtensionCommand(text: string): Promise { // Parse command name and args const spaceIndex = text.indexOf(" "); const commandName = spaceIndex === -1 ? text.slice(1) : text.slice(1, spaceIndex); const args = spaceIndex === -1 ? "" : text.slice(spaceIndex + 1); const command = this._extensionRunner.getCommand(commandName); if (!command) return false; // Get command context from extension runner (includes session control methods) const ctx = this._extensionRunner.createCommandContext(); try { await command.handler(args, ctx); return true; } catch (err) { // Emit error via extension runner this._extensionRunner.emitError({ extensionPath: `command:${commandName}`, event: "command", error: err instanceof Error ? err.message : String(err), }); return true; } } /** * Expand skill commands (/skill:name args) to their full content. * Returns the expanded text, or the original text if not a skill command or skill not found. * Emits errors via extension runner if file read fails. */ private _expandSkillCommand(text: string): string { if (!text.startsWith("/skill:")) return text; const spaceIndex = text.indexOf(" "); const skillName = spaceIndex === -1 ? text.slice(7) : text.slice(7, spaceIndex); const args = spaceIndex === -1 ? "" : text.slice(spaceIndex + 1).trim(); const skill = this.resourceLoader.getSkills().skills.find((s) => s.name === skillName); if (!skill) return text; // Unknown skill, pass through try { const content = readFileSync(skill.filePath, "utf-8"); const body = stripFrontmatter(content).trim(); const skillBlock = `\nReferences are relative to ${skill.baseDir}.\n\n${body}\n`; return args ? `${skillBlock}\n\n${args}` : skillBlock; } catch (err) { // Emit error like extension commands do this._extensionRunner.emitError({ extensionPath: skill.filePath, event: "skill_expansion", error: err instanceof Error ? err.message : String(err), }); return text; // Return original on error } } /** * Queue a steering message while the agent is running. * Delivered after the current assistant turn finishes executing its tool calls, * before the next LLM call. * Expands skill commands and prompt templates. Errors on extension commands. * @param images Optional image attachments to include with the message * @throws Error if text is an extension command */ async steer(text: string, images?: ImageContent[]): Promise { // Check for extension commands (cannot be queued) if (text.startsWith("/")) { this._throwIfExtensionCommand(text); } // Expand skill commands and prompt templates let expandedText = this._expandSkillCommand(text); expandedText = expandPromptTemplate(expandedText, [...this.promptTemplates]); await this._queueSteer(expandedText, images); } /** * Queue a follow-up message to be processed after the agent finishes. * Delivered only when agent has no more tool calls or steering messages. * Expands skill commands and prompt templates. Errors on extension commands. * @param images Optional image attachments to include with the message * @throws Error if text is an extension command */ async followUp(text: string, images?: ImageContent[]): Promise { // Check for extension commands (cannot be queued) if (text.startsWith("/")) { this._throwIfExtensionCommand(text); } // Expand skill commands and prompt templates let expandedText = this._expandSkillCommand(text); expandedText = expandPromptTemplate(expandedText, [...this.promptTemplates]); await this._queueFollowUp(expandedText, images); } /** * Internal: Queue a steering message (already expanded, no extension command check). */ private async _queueSteer(text: string, images?: ImageContent[]): Promise { this._steeringMessages.push(text); this._emitQueueUpdate(); const content: (TextContent | ImageContent)[] = [{ type: "text", text }]; if (images) { content.push(...images); } this.agent.steer({ role: "user", content, timestamp: Date.now(), }); } /** * Internal: Queue a follow-up message (already expanded, no extension command check). */ private async _queueFollowUp(text: string, images?: ImageContent[]): Promise { this._followUpMessages.push(text); this._emitQueueUpdate(); const content: (TextContent | ImageContent)[] = [{ type: "text", text }]; if (images) { content.push(...images); } this.agent.followUp({ role: "user", content, timestamp: Date.now(), }); } /** * Throw an error if the text is an extension command. */ private _throwIfExtensionCommand(text: string): void { const spaceIndex = text.indexOf(" "); const commandName = spaceIndex === -1 ? text.slice(1) : text.slice(1, spaceIndex); const command = this._extensionRunner.getCommand(commandName); if (command) { throw new Error( `Extension command "/${commandName}" cannot be queued. Use prompt() or execute the command when not streaming.`, ); } } /** * Send a custom message to the session. Creates a CustomMessageEntry. * * Handles three cases: * - Streaming: queues message, processed when loop pulls from queue * - Not streaming + triggerTurn: appends to state/session, starts new turn * - Not streaming + no trigger: appends to state/session, no turn * * @param message Custom message with customType, content, display, details * @param options.triggerTurn If true and not streaming, triggers a new LLM turn * @param options.deliverAs Delivery mode: "steer", "followUp", or "nextTurn" */ async sendCustomMessage( message: Pick, "customType" | "content" | "display" | "details">, options?: { triggerTurn?: boolean; deliverAs?: "steer" | "followUp" | "nextTurn" }, ): Promise { const appMessage = { role: "custom" as const, customType: message.customType, content: message.content, display: message.display, details: message.details, timestamp: Date.now(), } satisfies CustomMessage; if (options?.deliverAs === "nextTurn") { this._pendingNextTurnMessages.push(appMessage); } else if (this.isStreaming) { if (options?.deliverAs === "followUp") { this.agent.followUp(appMessage); } else { this.agent.steer(appMessage); } } else if (options?.triggerTurn) { await this._runAgentPrompt(appMessage); } else { this.agent.state.messages.push(appMessage); this.sessionManager.appendCustomMessageEntry( message.customType, message.content, message.display, message.details, ); this._emit({ type: "message_start", message: appMessage }); this._emit({ type: "message_end", message: appMessage }); } } /** * Send a user message to the agent. Always triggers a turn. * When the agent is streaming, use deliverAs to specify how to queue the message. * * @param content User message content (string or content array) * @param options.deliverAs Delivery mode when streaming: "steer" or "followUp" */ async sendUserMessage( content: string | (TextContent | ImageContent)[], options?: { deliverAs?: "steer" | "followUp" }, ): Promise { // Normalize content to text string + optional images let text: string; let images: ImageContent[] | undefined; if (typeof content === "string") { text = content; } else { const textParts: string[] = []; images = []; for (const part of content) { if (part.type === "text") { textParts.push(part.text); } else { images.push(part); } } text = textParts.join("\n"); if (images.length === 0) images = undefined; } // Use prompt() with expandPromptTemplates: false to skip command handling and template expansion await this.prompt(text, { expandPromptTemplates: false, streamingBehavior: options?.deliverAs, images, source: "extension", }); } /** * Clear all queued messages and return them. * Useful for restoring to editor when user aborts. * @returns Object with steering and followUp arrays */ clearQueue(): { steering: string[]; followUp: string[] } { const steering = [...this._steeringMessages]; const followUp = [...this._followUpMessages]; this._steeringMessages = []; this._followUpMessages = []; this.agent.clearAllQueues(); this._emitQueueUpdate(); return { steering, followUp }; } /** Number of pending messages (includes both steering and follow-up) */ get pendingMessageCount(): number { return this._steeringMessages.length + this._followUpMessages.length; } /** Get pending steering messages (read-only) */ getSteeringMessages(): readonly string[] { return this._steeringMessages; } /** Get pending follow-up messages (read-only) */ getFollowUpMessages(): readonly string[] { return this._followUpMessages; } get resourceLoader(): ResourceLoader { return this._resourceLoader; } /** * Abort current operation and wait for agent to become idle. */ async abort(): Promise { this.abortRetry(); this.agent.abort(); await this.agent.waitForIdle(); } // ========================================================================= // Model Management // ========================================================================= private async _emitModelSelect( nextModel: Model, previousModel: Model | undefined, source: "set" | "cycle" | "restore", ): Promise { if (modelsAreEqual(previousModel, nextModel)) return; await this._extensionRunner.emit({ type: "model_select", model: nextModel, previousModel, source, }); } /** * Set model directly. * Validates that auth is configured, saves to session and settings. * @throws Error if no auth is configured for the model */ async setModel(model: Model): Promise { if (!this._modelRegistry.hasConfiguredAuth(model)) { throw new Error(`No API key for ${model.provider}/${model.id}`); } const previousModel = this.model; const thinkingLevel = this._getThinkingLevelForModelSwitch(); this.agent.state.model = model; this.sessionManager.appendModelChange(model.provider, model.id); this.settingsManager.setDefaultModelAndProvider(model.provider, model.id); // Re-clamp thinking level for new model's capabilities this.setThinkingLevel(thinkingLevel); await this._emitModelSelect(model, previousModel, "set"); } /** * Cycle to next/previous model. * Uses scoped models (from --models flag) if available, otherwise all available models. * @param direction - "forward" (default) or "backward" * @returns The new model info, or undefined if only one model available */ async cycleModel(direction: "forward" | "backward" = "forward"): Promise { if (this._scopedModels.length > 0) { return this._cycleScopedModel(direction); } return this._cycleAvailableModel(direction); } private async _cycleScopedModel(direction: "forward" | "backward"): Promise { const scopedModels = this._scopedModels.filter((scoped) => this._modelRegistry.hasConfiguredAuth(scoped.model)); if (scopedModels.length <= 1) return undefined; const currentModel = this.model; let currentIndex = scopedModels.findIndex((sm) => modelsAreEqual(sm.model, currentModel)); if (currentIndex === -1) currentIndex = 0; const len = scopedModels.length; const nextIndex = direction === "forward" ? (currentIndex + 1) % len : (currentIndex - 1 + len) % len; const next = scopedModels[nextIndex]; const thinkingLevel = this._getThinkingLevelForModelSwitch(next.thinkingLevel); // Apply model this.agent.state.model = next.model; this.sessionManager.appendModelChange(next.model.provider, next.model.id); this.settingsManager.setDefaultModelAndProvider(next.model.provider, next.model.id); // Apply thinking level. // - Explicit scoped model thinking level overrides current session level // - Undefined scoped model thinking level inherits the current session preference // setThinkingLevel clamps to model capabilities. this.setThinkingLevel(thinkingLevel); await this._emitModelSelect(next.model, currentModel, "cycle"); return { model: next.model, thinkingLevel: this.thinkingLevel, isScoped: true }; } private async _cycleAvailableModel(direction: "forward" | "backward"): Promise { const availableModels = await this._modelRegistry.getAvailable(); if (availableModels.length <= 1) return undefined; const currentModel = this.model; let currentIndex = availableModels.findIndex((m) => modelsAreEqual(m, currentModel)); if (currentIndex === -1) currentIndex = 0; const len = availableModels.length; const nextIndex = direction === "forward" ? (currentIndex + 1) % len : (currentIndex - 1 + len) % len; const nextModel = availableModels[nextIndex]; const thinkingLevel = this._getThinkingLevelForModelSwitch(); this.agent.state.model = nextModel; this.sessionManager.appendModelChange(nextModel.provider, nextModel.id); this.settingsManager.setDefaultModelAndProvider(nextModel.provider, nextModel.id); // Re-clamp thinking level for new model's capabilities this.setThinkingLevel(thinkingLevel); await this._emitModelSelect(nextModel, currentModel, "cycle"); return { model: nextModel, thinkingLevel: this.thinkingLevel, isScoped: false }; } // ========================================================================= // Thinking Level Management // ========================================================================= /** * Set thinking level. * Clamps to model capabilities based on available thinking levels. * Saves to session and settings only if the level actually changes. */ setThinkingLevel(level: ThinkingLevel): void { const availableLevels = this.getAvailableThinkingLevels(); const effectiveLevel = availableLevels.includes(level) ? level : this._clampThinkingLevel(level, availableLevels); // Only persist if actually changing const previousLevel = this.agent.state.thinkingLevel; const isChanging = effectiveLevel !== previousLevel; this.agent.state.thinkingLevel = effectiveLevel; if (isChanging) { this.sessionManager.appendThinkingLevelChange(effectiveLevel); if (this.supportsThinking() || effectiveLevel !== "off") { this.settingsManager.setDefaultThinkingLevel(effectiveLevel); } this._emit({ type: "thinking_level_changed", level: effectiveLevel }); void this._extensionRunner.emit({ type: "thinking_level_select", level: effectiveLevel, previousLevel, }); } } /** * Cycle to next thinking level. * @returns New level, or undefined if model doesn't support thinking */ cycleThinkingLevel(): ThinkingLevel | undefined { if (!this.supportsThinking()) return undefined; const levels = this.getAvailableThinkingLevels(); const currentIndex = levels.indexOf(this.thinkingLevel); const nextIndex = (currentIndex + 1) % levels.length; const nextLevel = levels[nextIndex]; this.setThinkingLevel(nextLevel); return nextLevel; } /** * Get available thinking levels for current model. * The provider will clamp to what the specific model supports internally. */ getAvailableThinkingLevels(): ThinkingLevel[] { if (!this.model) return THINKING_LEVELS; return getSupportedThinkingLevels(this.model) as ThinkingLevel[]; } /** * Check if current model supports thinking/reasoning. */ supportsThinking(): boolean { return !!this.model?.reasoning; } private _getThinkingLevelForModelSwitch(explicitLevel?: ThinkingLevel): ThinkingLevel { if (explicitLevel !== undefined) { return explicitLevel; } if (!this.supportsThinking()) { return this.settingsManager.getDefaultThinkingLevel() ?? DEFAULT_THINKING_LEVEL; } return this.thinkingLevel; } private _clampThinkingLevel(level: ThinkingLevel, _availableLevels: ThinkingLevel[]): ThinkingLevel { return this.model ? (clampThinkingLevel(this.model, level) as ThinkingLevel) : "off"; } // ========================================================================= // Queue Mode Management // ========================================================================= private syncQueueModesFromSettings(): void { this.agent.steeringMode = this.settingsManager.getSteeringMode(); this.agent.followUpMode = this.settingsManager.getFollowUpMode(); } /** * Set steering message mode. * Saves to settings. */ setSteeringMode(mode: "all" | "one-at-a-time"): void { this.agent.steeringMode = mode; this.settingsManager.setSteeringMode(mode); } /** * Set follow-up message mode. * Saves to settings. */ setFollowUpMode(mode: "all" | "one-at-a-time"): void { this.agent.followUpMode = mode; this.settingsManager.setFollowUpMode(mode); } // ========================================================================= // Compaction // ========================================================================= /** * Manually compact the session context. * Aborts current agent operation first. * @param customInstructions Optional instructions for the compaction summary */ async compact(customInstructions?: string): Promise { this._disconnectFromAgent(); await this.abort(); this._compactionAbortController = new AbortController(); this._emit({ type: "compaction_start", reason: "manual" }); try { if (!this.model) { throw new Error(formatNoModelSelectedMessage()); } const { apiKey, headers, env } = await this._getCompactionRequestAuth(this.model); const pathEntries = this.sessionManager.getBranch(); const settings = this.settingsManager.getCompactionSettings(); const preparation = prepareCompaction(pathEntries, settings); if (!preparation) { // Check why we can't compact const lastEntry = pathEntries[pathEntries.length - 1]; if (lastEntry?.type === "compaction") { throw new Error("Already compacted"); } throw new Error("Nothing to compact (session too small)"); } let extensionCompaction: CompactionResult | undefined; let fromExtension = false; if (this._extensionRunner.hasHandlers("session_before_compact")) { const result = (await this._extensionRunner.emit({ type: "session_before_compact", preparation, branchEntries: pathEntries, customInstructions, signal: this._compactionAbortController.signal, })) as SessionBeforeCompactResult | undefined; if (result?.cancel) { throw new Error("Compaction cancelled"); } if (result?.compaction) { extensionCompaction = result.compaction; fromExtension = true; } } let summary: string; let firstKeptEntryId: string; let tokensBefore: number; let details: unknown; if (extensionCompaction) { // Extension provided compaction content summary = extensionCompaction.summary; firstKeptEntryId = extensionCompaction.firstKeptEntryId; tokensBefore = extensionCompaction.tokensBefore; details = extensionCompaction.details; } else { // Generate compaction result const result = await compact( preparation, this.model, apiKey, headers, customInstructions, this._compactionAbortController.signal, this.thinkingLevel, this.agent.streamFn, env, ); summary = result.summary; firstKeptEntryId = result.firstKeptEntryId; tokensBefore = result.tokensBefore; details = result.details; } if (this._compactionAbortController.signal.aborted) { throw new Error("Compaction cancelled"); } this.sessionManager.appendCompaction(summary, firstKeptEntryId, tokensBefore, details, fromExtension); const newEntries = this.sessionManager.getEntries(); const sessionContext = this.sessionManager.buildSessionContext(); this.agent.state.messages = sessionContext.messages; // Get the saved compaction entry for the extension event const savedCompactionEntry = newEntries.find((e) => e.type === "compaction" && e.summary === summary) as | CompactionEntry | undefined; if (this._extensionRunner && savedCompactionEntry) { await this._extensionRunner.emit({ type: "session_compact", compactionEntry: savedCompactionEntry, fromExtension, }); } const compactionResult = { summary, firstKeptEntryId, tokensBefore, details, }; this._emit({ type: "compaction_end", reason: "manual", result: compactionResult, aborted: false, willRetry: false, }); return compactionResult; } catch (error) { const message = error instanceof Error ? error.message : String(error); const aborted = message === "Compaction cancelled" || (error instanceof Error && error.name === "AbortError"); this._emit({ type: "compaction_end", reason: "manual", result: undefined, aborted, willRetry: false, errorMessage: aborted ? undefined : `Compaction failed: ${message}`, }); throw error; } finally { this._compactionAbortController = undefined; this._reconnectToAgent(); } } /** * Cancel in-progress compaction (manual or auto). */ abortCompaction(): void { this._compactionAbortController?.abort(); this._autoCompactionAbortController?.abort(); } /** * Cancel in-progress branch summarization. */ abortBranchSummary(): void { this._branchSummaryAbortController?.abort(); } /** * Check if compaction is needed and run it. * Called after agent_end and before prompt submission. * * Two cases: * 1. Overflow: LLM returned context overflow error, remove error message from agent state, compact, auto-retry * 2. Threshold: Context over threshold, compact, NO auto-retry (user continues manually) * * @param assistantMessage The assistant message to check * @param skipAbortedCheck If false, include aborted messages (for pre-prompt check). Default: true */ private async _checkCompaction(assistantMessage: AssistantMessage, skipAbortedCheck = true): Promise { const settings = this.settingsManager.getCompactionSettings(); if (!settings.enabled) return false; // Skip if message was aborted (user cancelled) - unless skipAbortedCheck is false if (skipAbortedCheck && assistantMessage.stopReason === "aborted") return false; const contextWindow = this.model?.contextWindow ?? 0; // Skip overflow check if the message came from a different model. // This handles the case where user switched from a smaller-context model (e.g. opus) // to a larger-context model (e.g. codex) - the overflow error from the old model // shouldn't trigger compaction for the new model. const sameModel = this.model && assistantMessage.provider === this.model.provider && assistantMessage.model === this.model.id; // Skip compaction checks if this assistant message is older than the latest // compaction boundary. This prevents a stale pre-compaction usage/error // from retriggering compaction on the first prompt after compaction. const compactionEntry = getLatestCompactionEntry(this.sessionManager.getBranch()); const assistantIsFromBeforeCompaction = compactionEntry !== null && assistantMessage.timestamp <= new Date(compactionEntry.timestamp).getTime(); if (assistantIsFromBeforeCompaction) { return false; } // Case 1: Overflow - LLM returned context overflow error if (sameModel && isContextOverflow(assistantMessage, contextWindow)) { if (this._overflowRecoveryAttempted) { this._emit({ type: "compaction_end", reason: "overflow", result: undefined, aborted: false, willRetry: false, errorMessage: "Context overflow recovery failed after one compact-and-retry attempt. Try reducing context or switching to a larger-context model.", }); return false; } this._overflowRecoveryAttempted = true; // Remove the error message from agent state (it IS saved to session for history, // but we don't want it in context for the retry) const messages = this.agent.state.messages; if (messages.length > 0 && messages[messages.length - 1].role === "assistant") { this.agent.state.messages = messages.slice(0, -1); } return await this._runAutoCompaction("overflow", true); } // Case 2: Threshold - context is getting large // For error messages (no usage data), estimate from last successful response. // This ensures sessions that hit persistent API errors (e.g. 529) can still compact. let contextTokens: number; if (assistantMessage.stopReason === "error") { const messages = this.agent.state.messages; const estimate = estimateContextTokens(messages); if (estimate.lastUsageIndex === null) return false; // No usage data at all // Verify the usage source is post-compaction. Kept pre-compaction messages // have stale usage reflecting the old (larger) context and would falsely // trigger compaction right after one just finished. const usageMsg = messages[estimate.lastUsageIndex]; if ( compactionEntry && usageMsg.role === "assistant" && (usageMsg as AssistantMessage).timestamp <= new Date(compactionEntry.timestamp).getTime() ) { return false; } contextTokens = estimate.tokens; } else { contextTokens = calculateContextTokens(assistantMessage.usage); } if (shouldCompact(contextTokens, contextWindow, settings)) { return await this._runAutoCompaction("threshold", false); } return false; } /** * Internal: Run auto-compaction with events. */ private async _runAutoCompaction(reason: "overflow" | "threshold", willRetry: boolean): Promise { const settings = this.settingsManager.getCompactionSettings(); this._emit({ type: "compaction_start", reason }); this._autoCompactionAbortController = new AbortController(); try { if (!this.model) { this._emit({ type: "compaction_end", reason, result: undefined, aborted: false, willRetry: false, }); return false; } let apiKey: string | undefined; let headers: Record | undefined; let env: Record | undefined; if (this.agent.streamFn === streamSimple) { const authResult = await this._modelRegistry.getApiKeyAndHeaders(this.model); if (!authResult.ok || !authResult.apiKey) { this._emit({ type: "compaction_end", reason, result: undefined, aborted: false, willRetry: false, }); return false; } apiKey = authResult.apiKey; headers = authResult.headers; env = authResult.env; } else { ({ apiKey, headers, env } = await this._getCompactionRequestAuth(this.model)); } const pathEntries = this.sessionManager.getBranch(); const preparation = prepareCompaction(pathEntries, settings); if (!preparation) { this._emit({ type: "compaction_end", reason, result: undefined, aborted: false, willRetry: false, }); return false; } let extensionCompaction: CompactionResult | undefined; let fromExtension = false; if (this._extensionRunner.hasHandlers("session_before_compact")) { const extensionResult = (await this._extensionRunner.emit({ type: "session_before_compact", preparation, branchEntries: pathEntries, customInstructions: undefined, signal: this._autoCompactionAbortController.signal, })) as SessionBeforeCompactResult | undefined; if (extensionResult?.cancel) { this._emit({ type: "compaction_end", reason, result: undefined, aborted: true, willRetry: false, }); return false; } if (extensionResult?.compaction) { extensionCompaction = extensionResult.compaction; fromExtension = true; } } let summary: string; let firstKeptEntryId: string; let tokensBefore: number; let details: unknown; if (extensionCompaction) { // Extension provided compaction content summary = extensionCompaction.summary; firstKeptEntryId = extensionCompaction.firstKeptEntryId; tokensBefore = extensionCompaction.tokensBefore; details = extensionCompaction.details; } else { // Generate compaction result const compactResult = await compact( preparation, this.model, apiKey, headers, undefined, this._autoCompactionAbortController.signal, this.thinkingLevel, this.agent.streamFn, env, ); summary = compactResult.summary; firstKeptEntryId = compactResult.firstKeptEntryId; tokensBefore = compactResult.tokensBefore; details = compactResult.details; } if (this._autoCompactionAbortController.signal.aborted) { this._emit({ type: "compaction_end", reason, result: undefined, aborted: true, willRetry: false, }); return false; } this.sessionManager.appendCompaction(summary, firstKeptEntryId, tokensBefore, details, fromExtension); const newEntries = this.sessionManager.getEntries(); const sessionContext = this.sessionManager.buildSessionContext(); this.agent.state.messages = sessionContext.messages; // Get the saved compaction entry for the extension event const savedCompactionEntry = newEntries.find((e) => e.type === "compaction" && e.summary === summary) as | CompactionEntry | undefined; if (this._extensionRunner && savedCompactionEntry) { await this._extensionRunner.emit({ type: "session_compact", compactionEntry: savedCompactionEntry, fromExtension, }); } const result: CompactionResult = { summary, firstKeptEntryId, tokensBefore, details, }; this._emit({ type: "compaction_end", reason, result, aborted: false, willRetry }); if (willRetry) { const messages = this.agent.state.messages; const lastMsg = messages[messages.length - 1]; if (lastMsg?.role === "assistant" && (lastMsg as AssistantMessage).stopReason === "error") { this.agent.state.messages = messages.slice(0, -1); } return true; } // Auto-compaction can complete while follow-up/steering/custom messages are waiting. // Continue once so queued messages are delivered. return this.agent.hasQueuedMessages(); } catch (error) { const errorMessage = error instanceof Error ? error.message : "compaction failed"; this._emit({ type: "compaction_end", reason, result: undefined, aborted: false, willRetry: false, errorMessage: reason === "overflow" ? `Context overflow recovery failed: ${errorMessage}` : `Auto-compaction failed: ${errorMessage}`, }); return false; } finally { this._autoCompactionAbortController = undefined; } } /** * Toggle auto-compaction setting. */ setAutoCompactionEnabled(enabled: boolean): void { this.settingsManager.setCompactionEnabled(enabled); } /** Whether auto-compaction is enabled */ get autoCompactionEnabled(): boolean { return this.settingsManager.getCompactionEnabled(); } async bindExtensions(bindings: ExtensionBindings): Promise { if (bindings.uiContext !== undefined) { this._extensionUIContext = bindings.uiContext; } if (bindings.mode !== undefined) { this._extensionMode = bindings.mode; } if (bindings.commandContextActions !== undefined) { this._extensionCommandContextActions = bindings.commandContextActions; } if (bindings.abortHandler !== undefined) { this._extensionAbortHandler = bindings.abortHandler; } if (bindings.shutdownHandler !== undefined) { this._extensionShutdownHandler = bindings.shutdownHandler; } if (bindings.onError !== undefined) { this._extensionErrorListener = bindings.onError; } this._applyExtensionBindings(this._extensionRunner); await this._extensionRunner.emit(this._sessionStartEvent); await this.extendResourcesFromExtensions(this._sessionStartEvent.reason === "reload" ? "reload" : "startup"); } private async extendResourcesFromExtensions(reason: "startup" | "reload"): Promise { if (!this._extensionRunner.hasHandlers("resources_discover")) { return; } const { skillPaths, promptPaths, themePaths } = await this._extensionRunner.emitResourcesDiscover( this._cwd, reason, ); if (skillPaths.length === 0 && promptPaths.length === 0 && themePaths.length === 0) { return; } const extensionPaths: ResourceExtensionPaths = { skillPaths: this.buildExtensionResourcePaths(skillPaths), promptPaths: this.buildExtensionResourcePaths(promptPaths), themePaths: this.buildExtensionResourcePaths(themePaths), }; this._resourceLoader.extendResources(extensionPaths); this._baseSystemPrompt = this._rebuildSystemPrompt(this.getActiveToolNames()); this.agent.state.systemPrompt = this._baseSystemPrompt; } private buildExtensionResourcePaths(entries: Array<{ path: string; extensionPath: string }>): Array<{ path: string; metadata: { source: string; scope: "temporary"; origin: "top-level"; baseDir?: string }; }> { return entries.map((entry) => { const source = this.getExtensionSourceLabel(entry.extensionPath); const baseDir = entry.extensionPath.startsWith("<") ? undefined : dirname(entry.extensionPath); return { path: entry.path, metadata: { source, scope: "temporary", origin: "top-level", baseDir, }, }; }); } private getExtensionSourceLabel(extensionPath: string): string { if (extensionPath.startsWith("<")) { return `extension:${extensionPath.replace(/[<>]/g, "")}`; } const base = basename(extensionPath); const name = base.replace(/\.(ts|js)$/, ""); return `extension:${name}`; } private _applyExtensionBindings(runner: ExtensionRunner): void { runner.setUIContext(this._extensionUIContext, this._extensionMode); runner.bindCommandContext(this._extensionCommandContextActions); this._extensionErrorUnsubscriber?.(); this._extensionErrorUnsubscriber = this._extensionErrorListener ? runner.onError(this._extensionErrorListener) : undefined; } private _refreshCurrentModelFromRegistry(): void { const currentModel = this.model; if (!currentModel) { return; } const refreshedModel = this._modelRegistry.find(currentModel.provider, currentModel.id); if (!refreshedModel || refreshedModel === currentModel) { return; } this.agent.state.model = refreshedModel; } private _bindExtensionCore(runner: ExtensionRunner): void { const getCommands = (): SlashCommandInfo[] => { const extensionCommands: SlashCommandInfo[] = runner.getRegisteredCommands().map((command) => ({ name: command.invocationName, description: command.description, source: "extension", sourceInfo: command.sourceInfo, })); const templates: SlashCommandInfo[] = this.promptTemplates.map((template) => ({ name: template.name, description: template.description, source: "prompt", sourceInfo: template.sourceInfo, })); const skills: SlashCommandInfo[] = this._resourceLoader.getSkills().skills.map((skill) => ({ name: `skill:${skill.name}`, description: skill.description, source: "skill", sourceInfo: skill.sourceInfo, })); return [...extensionCommands, ...templates, ...skills]; }; runner.bindCore( { sendMessage: (message, options) => { this.sendCustomMessage(message, options).catch((err) => { runner.emitError({ extensionPath: "", event: "send_message", error: err instanceof Error ? err.message : String(err), }); }); }, sendUserMessage: (content, options) => { this.sendUserMessage(content, options).catch((err) => { runner.emitError({ extensionPath: "", event: "send_user_message", error: err instanceof Error ? err.message : String(err), }); }); }, appendEntry: (customType, data) => { this.sessionManager.appendCustomEntry(customType, data); }, setSessionName: (name) => { this.setSessionName(name); }, getSessionName: () => { return this.sessionManager.getSessionName(); }, setLabel: (entryId, label) => { this.sessionManager.appendLabelChange(entryId, label); }, getActiveTools: () => this.getActiveToolNames(), getAllTools: () => this.getAllTools(), setActiveTools: (toolNames) => this.setActiveToolsByName(toolNames), refreshTools: () => this._refreshToolRegistry(), getCommands, setModel: async (model) => { if (!this.modelRegistry.hasConfiguredAuth(model)) return false; await this.setModel(model); return true; }, getThinkingLevel: () => this.thinkingLevel, setThinkingLevel: (level) => this.setThinkingLevel(level), }, { getModel: () => this.model, isIdle: () => !this.isStreaming, isProjectTrusted: () => this.settingsManager.isProjectTrusted(), getSignal: () => this.agent.signal, abort: () => { if (this._extensionAbortHandler) { this._extensionAbortHandler(); return; } void this.abort(); }, hasPendingMessages: () => this.pendingMessageCount > 0, shutdown: () => { this._extensionShutdownHandler?.(); }, getContextUsage: () => this.getContextUsage(), compact: (options) => { void (async () => { try { const result = await this.compact(options?.customInstructions); options?.onComplete?.(result); } catch (error) { const err = error instanceof Error ? error : new Error(String(error)); options?.onError?.(err); } })(); }, getSystemPrompt: () => this.systemPrompt, getSystemPromptOptions: () => this._baseSystemPromptOptions, }, { registerProvider: (name, config) => { this._modelRegistry.registerProvider(name, config); this._refreshCurrentModelFromRegistry(); }, unregisterProvider: (name) => { this._modelRegistry.unregisterProvider(name); this._refreshCurrentModelFromRegistry(); }, }, ); } private _refreshToolRegistry(options?: { activeToolNames?: string[]; includeAllExtensionTools?: boolean }): void { const previousRegistryNames = new Set(this._toolRegistry.keys()); const previousActiveToolNames = this.getActiveToolNames(); const allowedToolNames = this._allowedToolNames; const excludedToolNames = this._excludedToolNames; const isAllowedTool = (name: string): boolean => (!allowedToolNames || allowedToolNames.has(name)) && !excludedToolNames?.has(name); const registeredTools = this._extensionRunner.getAllRegisteredTools(); const allCustomTools = [ ...registeredTools, ...this._customTools.map((definition) => ({ definition, sourceInfo: createSyntheticSourceInfo(``, { source: "sdk" }), })), ].filter((tool) => isAllowedTool(tool.definition.name)); const definitionRegistry = new Map( Array.from(this._baseToolDefinitions.entries()) .filter(([name]) => isAllowedTool(name)) .map(([name, definition]) => [ name, { definition, sourceInfo: createSyntheticSourceInfo(``, { source: "builtin" }), }, ]), ); for (const tool of allCustomTools) { definitionRegistry.set(tool.definition.name, { definition: tool.definition, sourceInfo: tool.sourceInfo, }); } this._toolDefinitions = definitionRegistry; this._toolPromptSnippets = new Map( Array.from(definitionRegistry.values()) .map(({ definition }) => { const snippet = this._normalizePromptSnippet(definition.promptSnippet); return snippet ? ([definition.name, snippet] as const) : undefined; }) .filter((entry): entry is readonly [string, string] => entry !== undefined), ); this._toolPromptGuidelines = new Map( Array.from(definitionRegistry.values()) .map(({ definition }) => { const guidelines = this._normalizePromptGuidelines(definition.promptGuidelines); return guidelines.length > 0 ? ([definition.name, guidelines] as const) : undefined; }) .filter((entry): entry is readonly [string, string[]] => entry !== undefined), ); const runner = this._extensionRunner; const wrappedExtensionTools = wrapRegisteredTools(allCustomTools, runner); const wrappedBuiltInTools = wrapRegisteredTools( Array.from(this._baseToolDefinitions.values()) .filter((definition) => isAllowedTool(definition.name)) .map((definition) => ({ definition, sourceInfo: createSyntheticSourceInfo(``, { source: "builtin" }), })), runner, ); const toolRegistry = new Map(wrappedBuiltInTools.map((tool) => [tool.name, tool])); for (const tool of wrappedExtensionTools as AgentTool[]) { toolRegistry.set(tool.name, tool); } this._toolRegistry = toolRegistry; const nextActiveToolNames = ( options?.activeToolNames ? [...options.activeToolNames] : [...previousActiveToolNames] ).filter((name) => isAllowedTool(name)); if (allowedToolNames) { for (const toolName of this._toolRegistry.keys()) { if (allowedToolNames.has(toolName)) { nextActiveToolNames.push(toolName); } } } else if (options?.includeAllExtensionTools) { for (const tool of wrappedExtensionTools) { nextActiveToolNames.push(tool.name); } } else if (!options?.activeToolNames) { for (const toolName of this._toolRegistry.keys()) { if (!previousRegistryNames.has(toolName)) { nextActiveToolNames.push(toolName); } } } this.setActiveToolsByName([...new Set(nextActiveToolNames)]); } private _buildRuntime(options: { activeToolNames?: string[]; flagValues?: Map; includeAllExtensionTools?: boolean; }): void { const autoResizeImages = this.settingsManager.getImageAutoResize(); const shellCommandPrefix = this.settingsManager.getShellCommandPrefix(); const shellPath = this.settingsManager.getShellPath(); const baseToolDefinitions = this._baseToolsOverride ? Object.fromEntries( Object.entries(this._baseToolsOverride).map(([name, tool]) => [ name, createToolDefinitionFromAgentTool(tool), ]), ) : createAllToolDefinitions(this._cwd, { read: { autoResizeImages }, bash: { commandPrefix: shellCommandPrefix, shellPath }, }); this._baseToolDefinitions = new Map( Object.entries(baseToolDefinitions).map(([name, tool]) => [name, tool as ToolDefinition]), ); const extensionsResult = this._resourceLoader.getExtensions(); if (options.flagValues) { for (const [name, value] of options.flagValues) { extensionsResult.runtime.flagValues.set(name, value); } } this._extensionRunner = new ExtensionRunner( extensionsResult.extensions, extensionsResult.runtime, this._cwd, this.sessionManager, this._modelRegistry, ); if (this._extensionRunnerRef) { this._extensionRunnerRef.current = this._extensionRunner; } this._bindExtensionCore(this._extensionRunner); this._applyExtensionBindings(this._extensionRunner); const defaultActiveToolNames = this._baseToolsOverride ? Object.keys(this._baseToolsOverride) : ["read", "bash", "edit", "write"]; const baseActiveToolNames = options.activeToolNames ?? defaultActiveToolNames; this._refreshToolRegistry({ activeToolNames: baseActiveToolNames, includeAllExtensionTools: options.includeAllExtensionTools, }); } async reload(): Promise { const previousFlagValues = this._extensionRunner.getFlagValues(); await emitSessionShutdownEvent(this._extensionRunner, { type: "session_shutdown", reason: "reload" }); await this.settingsManager.reload(); this.syncQueueModesFromSettings(); resetApiProviders(); await this._resourceLoader.reload(); this._buildRuntime({ activeToolNames: this.getActiveToolNames(), flagValues: previousFlagValues, includeAllExtensionTools: true, }); const hasBindings = this._extensionUIContext || this._extensionCommandContextActions || this._extensionShutdownHandler || this._extensionErrorListener; if (hasBindings) { await this._extensionRunner.emit({ type: "session_start", reason: "reload" }); await this.extendResourcesFromExtensions("reload"); } } // ========================================================================= // Auto-Retry // ========================================================================= private _isNonRetryableProviderLimitError(errorMessage: string): boolean { return /GoUsageLimitError|FreeUsageLimitError|Monthly usage limit reached|available balance|insufficient_quota|out of budget|quota exceeded|billing/i.test( errorMessage, ); } /** * Check if an error is retryable (overloaded, rate limit, server errors). * Context overflow errors are NOT retryable (handled by compaction instead). */ private _isRetryableError(message: AssistantMessage): boolean { if (message.stopReason !== "error" || !message.errorMessage) return false; // Context overflow is handled by compaction, not retry const contextWindow = this.model?.contextWindow ?? 0; if (isContextOverflow(message, contextWindow)) return false; const err = message.errorMessage; if (this._isNonRetryableProviderLimitError(err)) return false; // Match: overloaded_error, provider returned error, rate limit, 429, 500, 502, 503, 504, service unavailable, network/connection errors (including connection lost), WebSocket transport closes/errors, fetch failed, premature stream endings, HTTP/2 closed before response, terminated, retry delay exceeded return /overloaded|provider.?returned.?error|rate.?limit|too many requests|429|500|502|503|504|service.?unavailable|server.?error|internal.?error|network.?error|connection.?error|connection.?refused|connection.?lost|websocket.?closed|websocket.?error|other side closed|fetch failed|upstream.?connect|reset before headers|socket hang up|ended without|stream ended before message_stop|http2 request did not get a response|timed? out|timeout|terminated|retry delay/i.test( err, ); } /** * Prepare a retryable error for continuation with exponential backoff. * @returns true if the caller should continue the agent, false otherwise */ private async _prepareRetry(message: AssistantMessage): Promise { const settings = this.settingsManager.getRetrySettings(); if (!settings.enabled) { return false; } this._retryAttempt++; if (this._retryAttempt > settings.maxRetries) { // Preserve the completed attempt count so post-run handling can emit the final failure. this._retryAttempt--; return false; } const delayMs = settings.baseDelayMs * 2 ** (this._retryAttempt - 1); this._emit({ type: "auto_retry_start", attempt: this._retryAttempt, maxAttempts: settings.maxRetries, delayMs, errorMessage: message.errorMessage || "Unknown error", }); // Remove error message from agent state (keep in session for history) const messages = this.agent.state.messages; if (messages.length > 0 && messages[messages.length - 1].role === "assistant") { this.agent.state.messages = messages.slice(0, -1); } // Wait with exponential backoff (abortable) this._retryAbortController = new AbortController(); try { await sleep(delayMs, this._retryAbortController.signal); } catch { // Aborted during sleep - emit end event so UI can clean up const attempt = this._retryAttempt; this._retryAttempt = 0; this._emit({ type: "auto_retry_end", success: false, attempt, finalError: "Retry cancelled", }); return false; } finally { this._retryAbortController = undefined; } return true; } /** * Cancel in-progress retry. */ abortRetry(): void { this._retryAbortController?.abort(); } /** Whether auto-retry is currently in progress */ get isRetrying(): boolean { return this._retryAbortController !== undefined; } /** Whether auto-retry is enabled */ get autoRetryEnabled(): boolean { return this.settingsManager.getRetryEnabled(); } /** * Toggle auto-retry setting. */ setAutoRetryEnabled(enabled: boolean): void { this.settingsManager.setRetryEnabled(enabled); } // ========================================================================= // Bash Execution // ========================================================================= /** * Execute a bash command. * Adds result to agent context and session. * @param command The bash command to execute * @param onChunk Optional streaming callback for output * @param options.excludeFromContext If true, command output won't be sent to LLM (!! prefix) * @param options.operations Custom BashOperations for remote execution */ async executeBash( command: string, onChunk?: (chunk: string) => void, options?: { excludeFromContext?: boolean; operations?: BashOperations }, ): Promise { this._bashAbortController = new AbortController(); // Apply command prefix if configured (e.g., "shopt -s expand_aliases" for alias support) const prefix = this.settingsManager.getShellCommandPrefix(); const shellPath = this.settingsManager.getShellPath(); const resolvedCommand = prefix ? `${prefix}\n${command}` : command; try { const result = await executeBashWithOperations( resolvedCommand, this.sessionManager.getCwd(), options?.operations ?? createLocalBashOperations({ shellPath }), { onChunk, signal: this._bashAbortController.signal, }, ); this.recordBashResult(command, result, options); return result; } finally { this._bashAbortController = undefined; } } /** * Record a bash execution result in session history. * Used by executeBash and by extensions that handle bash execution themselves. */ recordBashResult(command: string, result: BashResult, options?: { excludeFromContext?: boolean }): void { const bashMessage: BashExecutionMessage = { role: "bashExecution", command, output: result.output, exitCode: result.exitCode, cancelled: result.cancelled, truncated: result.truncated, fullOutputPath: result.fullOutputPath, timestamp: Date.now(), excludeFromContext: options?.excludeFromContext, }; // If agent is streaming, defer adding to avoid breaking tool_use/tool_result ordering if (this.isStreaming) { // Queue for later - will be flushed on agent_end this._pendingBashMessages.push(bashMessage); } else { // Add to agent state immediately this.agent.state.messages.push(bashMessage); // Save to session this.sessionManager.appendMessage(bashMessage); } } /** * Cancel running bash command. */ abortBash(): void { this._bashAbortController?.abort(); } /** Whether a bash command is currently running */ get isBashRunning(): boolean { return this._bashAbortController !== undefined; } /** Whether there are pending bash messages waiting to be flushed */ get hasPendingBashMessages(): boolean { return this._pendingBashMessages.length > 0; } /** * Flush pending bash messages to agent state and session. * Called after agent turn completes to maintain proper message ordering. */ private _flushPendingBashMessages(): void { if (this._pendingBashMessages.length === 0) return; for (const bashMessage of this._pendingBashMessages) { // Add to agent state this.agent.state.messages.push(bashMessage); // Save to session this.sessionManager.appendMessage(bashMessage); } this._pendingBashMessages = []; } // ========================================================================= // Session Management // ========================================================================= /** * Set a display name for the current session. */ setSessionName(name: string): void { this.sessionManager.appendSessionInfo(name); this._emit({ type: "session_info_changed", name: this.sessionManager.getSessionName() }); } // ========================================================================= // Tree Navigation // ========================================================================= /** * Navigate to a different node in the session tree. * Unlike fork() which creates a new session file, this stays in the same file. * * @param targetId The entry ID to navigate to * @param options.summarize Whether user wants to summarize abandoned branch * @param options.customInstructions Custom instructions for summarizer * @param options.replaceInstructions If true, customInstructions replaces the default prompt * @param options.label Label to attach to the branch summary entry * @returns Result with editorText (if user message) and cancelled status */ async navigateTree( targetId: string, options: { summarize?: boolean; customInstructions?: string; replaceInstructions?: boolean; label?: string } = {}, ): Promise<{ editorText?: string; cancelled: boolean; aborted?: boolean; summaryEntry?: BranchSummaryEntry }> { const oldLeafId = this.sessionManager.getLeafId(); // No-op if already at target if (targetId === oldLeafId) { return { cancelled: false }; } // Model required for summarization if (options.summarize && !this.model) { throw new Error("No model available for summarization"); } const targetEntry = this.sessionManager.getEntry(targetId); if (!targetEntry) { throw new Error(`Entry ${targetId} not found`); } // Collect entries to summarize (from old leaf to common ancestor) const { entries: entriesToSummarize, commonAncestorId } = collectEntriesForBranchSummary( this.sessionManager, oldLeafId, targetId, ); // Prepare event data - mutable so extensions can override let customInstructions = options.customInstructions; let replaceInstructions = options.replaceInstructions; let label = options.label; const preparation: TreePreparation = { targetId, oldLeafId, commonAncestorId, entriesToSummarize, userWantsSummary: options.summarize ?? false, customInstructions, replaceInstructions, label, }; // Set up abort controller for summarization this._branchSummaryAbortController = new AbortController(); try { let extensionSummary: { summary: string; details?: unknown } | undefined; let fromExtension = false; // Emit session_before_tree event if (this._extensionRunner.hasHandlers("session_before_tree")) { const result = (await this._extensionRunner.emit({ type: "session_before_tree", preparation, signal: this._branchSummaryAbortController.signal, })) as SessionBeforeTreeResult | undefined; if (result?.cancel) { return { cancelled: true }; } if (result?.summary && options.summarize) { extensionSummary = result.summary; fromExtension = true; } // Allow extensions to override instructions and label if (result?.customInstructions !== undefined) { customInstructions = result.customInstructions; } if (result?.replaceInstructions !== undefined) { replaceInstructions = result.replaceInstructions; } if (result?.label !== undefined) { label = result.label; } } // Run default summarizer if needed let summaryText: string | undefined; let summaryDetails: unknown; if (options.summarize && entriesToSummarize.length > 0 && !extensionSummary) { const model = this.model!; const { apiKey, headers, env } = await this._getRequiredRequestAuth(model); const branchSummarySettings = this.settingsManager.getBranchSummarySettings(); const result = await generateBranchSummary(entriesToSummarize, { model, apiKey, headers, env, signal: this._branchSummaryAbortController.signal, customInstructions, replaceInstructions, reserveTokens: branchSummarySettings.reserveTokens, streamFn: this.agent.streamFn, }); if (result.aborted) { return { cancelled: true, aborted: true }; } if (result.error) { throw new Error(result.error); } summaryText = result.summary; summaryDetails = { readFiles: result.readFiles || [], modifiedFiles: result.modifiedFiles || [], }; } else if (extensionSummary) { summaryText = extensionSummary.summary; summaryDetails = extensionSummary.details; } // Determine the new leaf position based on target type let newLeafId: string | null; let editorText: string | undefined; if (targetEntry.type === "message" && targetEntry.message.role === "user") { // User message: leaf = parent (null if root), text goes to editor newLeafId = targetEntry.parentId; editorText = this._extractUserMessageText(targetEntry.message.content); } else if (targetEntry.type === "custom_message") { // Custom message: leaf = parent (null if root), text goes to editor newLeafId = targetEntry.parentId; editorText = typeof targetEntry.content === "string" ? targetEntry.content : targetEntry.content .filter((c): c is { type: "text"; text: string } => c.type === "text") .map((c) => c.text) .join(""); } else { // Non-user message: leaf = selected node newLeafId = targetId; } // Switch leaf (with or without summary) // Summary is attached at the navigation target position (newLeafId), not the old branch let summaryEntry: BranchSummaryEntry | undefined; if (summaryText) { // Create summary at target position (can be null for root) const summaryId = this.sessionManager.branchWithSummary( newLeafId, summaryText, summaryDetails, fromExtension, ); summaryEntry = this.sessionManager.getEntry(summaryId) as BranchSummaryEntry; // Attach label to the summary entry if (label) { this.sessionManager.appendLabelChange(summaryId, label); } } else if (newLeafId === null) { // No summary, navigating to root - reset leaf this.sessionManager.resetLeaf(); } else { // No summary, navigating to non-root this.sessionManager.branch(newLeafId); } // Attach label to target entry when not summarizing (no summary entry to label) if (label && !summaryText) { this.sessionManager.appendLabelChange(targetId, label); } // Update agent state const sessionContext = this.sessionManager.buildSessionContext(); this.agent.state.messages = sessionContext.messages; // Emit session_tree event await this._extensionRunner.emit({ type: "session_tree", newLeafId: this.sessionManager.getLeafId(), oldLeafId, summaryEntry, fromExtension: summaryText ? fromExtension : undefined, }); // Emit to custom tools return { editorText, cancelled: false, summaryEntry }; } finally { this._branchSummaryAbortController = undefined; } } /** * Get all user messages from session for fork selector. */ getUserMessagesForForking(): Array<{ entryId: string; text: string }> { const entries = this.sessionManager.getEntries(); const result: Array<{ entryId: string; text: string }> = []; for (const entry of entries) { if (entry.type !== "message") continue; if (entry.message.role !== "user") continue; const text = this._extractUserMessageText(entry.message.content); if (text) { result.push({ entryId: entry.id, text }); } } return result; } private _extractUserMessageText(content: string | Array<{ type: string; text?: string }>): string { if (typeof content === "string") return content; if (Array.isArray(content)) { return content .filter((c): c is { type: "text"; text: string } => c.type === "text") .map((c) => c.text) .join(""); } return ""; } /** * Get session statistics. */ getSessionStats(): SessionStats { const state = this.state; const userMessages = state.messages.filter((m) => m.role === "user").length; const assistantMessages = state.messages.filter((m) => m.role === "assistant").length; const toolResults = state.messages.filter((m) => m.role === "toolResult").length; let toolCalls = 0; let totalInput = 0; let totalOutput = 0; let totalCacheRead = 0; let totalCacheWrite = 0; let totalCost = 0; for (const message of state.messages) { if (message.role === "assistant") { const assistantMsg = message as AssistantMessage; toolCalls += assistantMsg.content.filter((c) => c.type === "toolCall").length; totalInput += assistantMsg.usage.input; totalOutput += assistantMsg.usage.output; totalCacheRead += assistantMsg.usage.cacheRead; totalCacheWrite += assistantMsg.usage.cacheWrite; totalCost += assistantMsg.usage.cost.total; } } return { sessionFile: this.sessionFile, sessionId: this.sessionId, userMessages, assistantMessages, toolCalls, toolResults, totalMessages: state.messages.length, tokens: { input: totalInput, output: totalOutput, cacheRead: totalCacheRead, cacheWrite: totalCacheWrite, total: totalInput + totalOutput + totalCacheRead + totalCacheWrite, }, cost: totalCost, contextUsage: this.getContextUsage(), }; } getContextUsage(): ContextUsage | undefined { const model = this.model; if (!model) return undefined; const contextWindow = model.contextWindow ?? 0; if (contextWindow <= 0) return undefined; // After compaction, the last assistant usage reflects pre-compaction context size. // We can only trust usage from an assistant that responded after the latest compaction. // If no such assistant exists, context token count is unknown until the next LLM response. const branchEntries = this.sessionManager.getBranch(); const latestCompaction = getLatestCompactionEntry(branchEntries); if (latestCompaction) { // Check if there's a valid assistant usage after the compaction boundary const compactionIndex = branchEntries.lastIndexOf(latestCompaction); let hasPostCompactionUsage = false; for (let i = branchEntries.length - 1; i > compactionIndex; i--) { const entry = branchEntries[i]; if (entry.type === "message" && entry.message.role === "assistant") { const assistant = entry.message; if (assistant.stopReason !== "aborted" && assistant.stopReason !== "error") { const contextTokens = calculateContextTokens(assistant.usage); if (contextTokens > 0) { hasPostCompactionUsage = true; } break; } } } if (!hasPostCompactionUsage) { return { tokens: null, contextWindow, percent: null }; } } const estimate = estimateContextTokens(this.messages); const percent = (estimate.tokens / contextWindow) * 100; return { tokens: estimate.tokens, contextWindow, percent, }; } /** * Export session to HTML. * @param outputPath Optional output path (defaults to session directory) * @returns Path to exported file */ async exportToHtml(outputPath?: string): Promise { const configuredThemeName = this.settingsManager.getTheme(); const themeName = configuredThemeName && getThemeByName(configuredThemeName) ? configuredThemeName : undefined; // Create tool renderer if we have an extension runner (for custom tool HTML rendering) const toolRenderer: ToolHtmlRenderer = createToolHtmlRenderer({ getToolDefinition: (name) => this.getToolDefinition(name), theme, cwd: this.sessionManager.getCwd(), }); return await exportSessionToHtml(this.sessionManager, this.state, { outputPath, themeName, toolRenderer, }); } /** * Export the current session branch to a JSONL file. * Writes the session header followed by all entries on the current branch path. * @param outputPath Target file path. If omitted, generates a timestamped file in cwd. * @returns The resolved output file path. */ exportToJsonl(outputPath?: string): string { const filePath = resolvePath( outputPath ?? `session-${new Date().toISOString().replace(/[:.]/g, "-")}.jsonl`, process.cwd(), ); const dir = dirname(filePath); if (!existsSync(dir)) { mkdirSync(dir, { recursive: true }); } const header: SessionHeader = { type: "session", version: CURRENT_SESSION_VERSION, id: this.sessionManager.getSessionId(), timestamp: new Date().toISOString(), cwd: this.sessionManager.getCwd(), }; const branchEntries = this.sessionManager.getBranch(); const lines = [JSON.stringify(header)]; // Re-chain parentIds to form a linear sequence let prevId: string | null = null; for (const entry of branchEntries) { const linear = { ...entry, parentId: prevId }; lines.push(JSON.stringify(linear)); prevId = entry.id; } writeFileSync(filePath, `${lines.join("\n")}\n`); return filePath; } // ========================================================================= // Utilities // ========================================================================= /** * Get text content of last assistant message. * Useful for /copy command. * @returns Text content, or undefined if no assistant message exists */ getLastAssistantText(): string | undefined { const lastAssistant = this.messages .slice() .reverse() .find((m) => { if (m.role !== "assistant") return false; const msg = m as AssistantMessage; // Skip aborted messages with no content if (msg.stopReason === "aborted" && msg.content.length === 0) return false; return true; }); if (!lastAssistant) return undefined; let text = ""; for (const content of (lastAssistant as AssistantMessage).content) { if (content.type === "text") { text += content.text; } } return text.trim() || undefined; } // ========================================================================= // Extension System // ========================================================================= createReplacedSessionContext(): ReplacedSessionContext { const context = Object.defineProperties( {}, Object.getOwnPropertyDescriptors(this._extensionRunner.createCommandContext()), ) as ReplacedSessionContext; context.sendMessage = (message, options) => this.sendCustomMessage(message, options); context.sendUserMessage = (content, options) => this.sendUserMessage(content, options); return context; } /** * Check if extensions have handlers for a specific event type. */ hasExtensionHandlers(eventType: string): boolean { return this._extensionRunner.hasHandlers(eventType); } /** * Get the extension runner (for setting UI context and error handlers). */ get extensionRunner(): ExtensionRunner { return this._extensionRunner; } }