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singularity-forge/src/headless.ts
TÂCHES 0a2c9b64c6 feat: stream full text and thinking output in headless verbose mode (#2934) 
Previously, headless --verbose mode accumulated text_delta events into a
buffer and displayed a single truncated 120-char [thinking] line before
tool calls. The model's actual text responses between tool calls were
effectively invisible.

Changes:
- Stream text_delta and thinking_delta events directly to stderr in
  verbose mode with [text] and [thinking] block markers
- No truncation — full model output is visible
- Fix non-verbose fallback: read from ame.delta (correct field) instead
  of ame.text (always undefined for text_delta events)
- Track inTextBlock/inThinkingBlock state to properly close streaming
  blocks before tool calls
- Expand summarizeToolArgs with support for async_bash, await_job,
  cancel_job, find, ls, lsp, hashline_edit, subagent, browser_navigate,
  and gsd_* tools
- Add streaming formatter functions: formatTextStart, formatTextEnd,
  formatThinkingStart, formatThinkingEnd
- Update tests for new tool arg summarization and path field handling
2026-03-27 21:57:11 -06:00

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/**
* Headless Orchestrator — `gsd headless`
*
* Runs any /gsd subcommand without a TUI by spawning a child process in
* RPC mode, auto-responding to extension UI requests, and streaming
* progress to stderr.
*
* Exit codes:
* 0 — complete (command finished successfully)
* 1 — error or timeout
* 10 — blocked (command reported a blocker)
* 11 — cancelled (SIGINT/SIGTERM received)
*/
import { existsSync, mkdirSync, writeFileSync } from 'node:fs'
import { join } from 'node:path'
import { resolve } from 'node:path'
import { ChildProcess } from 'node:child_process'
import { RpcClient, SessionManager } from '@gsd/pi-coding-agent'
import type { SessionInfo } from '@gsd/pi-coding-agent'
import { getProjectSessionsDir } from './project-sessions.js'
import { loadAndValidateAnswerFile, AnswerInjector } from './headless-answers.js'
import {
isTerminalNotification,
isBlockedNotification,
isMilestoneReadyNotification,
isQuickCommand,
FIRE_AND_FORGET_METHODS,
IDLE_TIMEOUT_MS,
NEW_MILESTONE_IDLE_TIMEOUT_MS,
EXIT_SUCCESS,
EXIT_ERROR,
EXIT_BLOCKED,
EXIT_CANCELLED,
mapStatusToExitCode,
} from './headless-events.js'
import type { OutputFormat, HeadlessJsonResult } from './headless-types.js'
import { VALID_OUTPUT_FORMATS } from './headless-types.js'
import {
handleExtensionUIRequest,
formatProgress,
formatThinkingLine,
formatTextStart,
formatTextEnd,
formatThinkingStart,
formatThinkingEnd,
startSupervisedStdinReader,
} from './headless-ui.js'
import type { ExtensionUIRequest, ProgressContext } from './headless-ui.js'
import {
loadContext,
bootstrapGsdProject,
} from './headless-context.js'
// ---------------------------------------------------------------------------
// Types
// ---------------------------------------------------------------------------
export interface HeadlessOptions {
timeout: number
json: boolean
outputFormat: OutputFormat
model?: string
command: string
commandArgs: string[]
context?: string // file path or '-' for stdin
contextText?: string // inline text
auto?: boolean // chain into auto-mode after milestone creation
verbose?: boolean // show tool calls in output
maxRestarts?: number // auto-restart on crash (default 3, 0 to disable)
supervised?: boolean // supervised mode: forward interactive requests to orchestrator
responseTimeout?: number // timeout for orchestrator response (default 30000ms)
answers?: string // path to answers JSON file
eventFilter?: Set<string> // filter JSONL output to specific event types
resumeSession?: string // session ID to resume (--resume <id>)
bare?: boolean // --bare: suppress CLAUDE.md/AGENTS.md, user skills, project preferences
}
interface TrackedEvent {
type: string
timestamp: number
detail?: string
}
// ---------------------------------------------------------------------------
// Resume Session Resolution
// ---------------------------------------------------------------------------
export interface ResumeSessionResult {
session?: SessionInfo
error?: string
}
/**
* Resolve a session prefix to a single session.
* Exact id match is preferred over prefix match.
* Returns `{ session }` on unique match or `{ error }` on 0/ambiguous matches.
*/
export function resolveResumeSession(sessions: SessionInfo[], prefix: string): ResumeSessionResult {
// Exact match takes priority
const exact = sessions.find(s => s.id === prefix)
if (exact) {
return { session: exact }
}
// Prefix match
const matches = sessions.filter(s => s.id.startsWith(prefix))
if (matches.length === 0) {
return { error: `No session matching '${prefix}' found` }
}
if (matches.length > 1) {
const list = matches.map(s => ` ${s.id}`).join('\n')
return { error: `Ambiguous session prefix '${prefix}' matches ${matches.length} sessions:\n${list}` }
}
return { session: matches[0] }
}
// ---------------------------------------------------------------------------
// CLI Argument Parser
// ---------------------------------------------------------------------------
export function parseHeadlessArgs(argv: string[]): HeadlessOptions {
const options: HeadlessOptions = {
timeout: 300_000,
json: false,
outputFormat: 'text',
command: 'auto',
commandArgs: [],
}
const args = argv.slice(2)
for (let i = 0; i < args.length; i++) {
const arg = args[i]
if (arg === 'headless') continue
if (arg.startsWith('--')) {
if (arg === '--timeout' && i + 1 < args.length) {
options.timeout = parseInt(args[++i], 10)
if (Number.isNaN(options.timeout) || options.timeout < 0) {
process.stderr.write('[headless] Error: --timeout must be a non-negative integer (milliseconds, 0 to disable)\n')
process.exit(1)
}
} else if (arg === '--json') {
options.json = true
options.outputFormat = 'stream-json'
} else if (arg === '--output-format' && i + 1 < args.length) {
const fmt = args[++i]
if (!VALID_OUTPUT_FORMATS.has(fmt)) {
process.stderr.write(`[headless] Error: --output-format must be one of: text, json, stream-json (got '${fmt}')\n`)
process.exit(1)
}
options.outputFormat = fmt as OutputFormat
if (fmt === 'stream-json' || fmt === 'json') {
options.json = true
}
} else if (arg === '--model' && i + 1 < args.length) {
// --model can also be passed from the main CLI; headless-specific takes precedence
options.model = args[++i]
} else if (arg === '--context' && i + 1 < args.length) {
options.context = args[++i]
} else if (arg === '--context-text' && i + 1 < args.length) {
options.contextText = args[++i]
} else if (arg === '--auto') {
options.auto = true
} else if (arg === '--verbose') {
options.verbose = true
} else if (arg === '--max-restarts' && i + 1 < args.length) {
options.maxRestarts = parseInt(args[++i], 10)
if (Number.isNaN(options.maxRestarts) || options.maxRestarts < 0) {
process.stderr.write('[headless] Error: --max-restarts must be a non-negative integer\n')
process.exit(1)
}
} else if (arg === '--answers' && i + 1 < args.length) {
options.answers = args[++i]
} else if (arg === '--events' && i + 1 < args.length) {
options.eventFilter = new Set(args[++i].split(','))
options.json = true // --events implies --json
if (options.outputFormat === 'text') {
options.outputFormat = 'stream-json'
}
} else if (arg === '--supervised') {
options.supervised = true
options.json = true // supervised implies json
if (options.outputFormat === 'text') {
options.outputFormat = 'stream-json'
}
} else if (arg === '--response-timeout' && i + 1 < args.length) {
options.responseTimeout = parseInt(args[++i], 10)
if (Number.isNaN(options.responseTimeout) || options.responseTimeout <= 0) {
process.stderr.write('[headless] Error: --response-timeout must be a positive integer (milliseconds)\n')
process.exit(1)
}
} else if (arg === '--resume' && i + 1 < args.length) {
options.resumeSession = args[++i]
} else if (arg === '--bare') {
options.bare = true
}
} else if (options.command === 'auto') {
options.command = arg
} else {
options.commandArgs.push(arg)
}
}
return options
}
// ---------------------------------------------------------------------------
// Main Orchestrator
// ---------------------------------------------------------------------------
export async function runHeadless(options: HeadlessOptions): Promise<void> {
const maxRestarts = options.maxRestarts ?? 3
let restartCount = 0
while (true) {
const result = await runHeadlessOnce(options, restartCount)
// Success or blocked — exit normally
if (result.exitCode === EXIT_SUCCESS || result.exitCode === EXIT_BLOCKED) {
process.exit(result.exitCode)
}
// Crash/error — check if we should restart
if (restartCount >= maxRestarts) {
process.stderr.write(`[headless] Max restarts (${maxRestarts}) reached. Exiting.\n`)
process.exit(result.exitCode)
}
// Don't restart if SIGINT/SIGTERM was received
if (result.interrupted) {
process.exit(result.exitCode)
}
restartCount++
const backoffMs = Math.min(5000 * restartCount, 30_000)
process.stderr.write(`[headless] Restarting in ${(backoffMs / 1000).toFixed(0)}s (attempt ${restartCount}/${maxRestarts})...\n`)
await new Promise(resolve => setTimeout(resolve, backoffMs))
}
}
async function runHeadlessOnce(options: HeadlessOptions, restartCount: number): Promise<{ exitCode: number; interrupted: boolean }> {
let interrupted = false
const startTime = Date.now()
const isNewMilestone = options.command === 'new-milestone'
// new-milestone involves codebase investigation + artifact writing — needs more time
if (isNewMilestone && options.timeout === 300_000) {
options.timeout = 600_000 // 10 minutes
}
// auto-mode sessions are long-running (minutes to hours) with their own internal
// per-unit timeout via auto-supervisor. Disable the overall timeout unless the
// user explicitly set --timeout.
const isAutoMode = options.command === 'auto'
const isMultiTurnCommand = options.command === 'auto' || options.command === 'next'
if (isAutoMode && options.timeout === 300_000) {
options.timeout = 0
}
// Supervised mode cannot share stdin with --context -
if (options.supervised && options.context === '-') {
process.stderr.write('[headless] Error: --supervised cannot be used with --context - (both require stdin)\n')
process.exit(1)
}
// Load answer injection file
let injector: AnswerInjector | undefined
if (options.answers) {
try {
const answerFile = loadAndValidateAnswerFile(resolve(options.answers))
injector = new AnswerInjector(answerFile)
if (!options.json) {
process.stderr.write(`[headless] Loaded answer file: ${options.answers}\n`)
}
} catch (err) {
process.stderr.write(`[headless] Error loading answer file: ${err instanceof Error ? err.message : String(err)}\n`)
process.exit(1)
}
}
// For new-milestone, load context and bootstrap .gsd/ before spawning RPC child
if (isNewMilestone) {
if (!options.context && !options.contextText) {
process.stderr.write('[headless] Error: new-milestone requires --context <file> or --context-text <text>\n')
process.exit(1)
}
let contextContent: string
try {
contextContent = await loadContext(options)
} catch (err) {
process.stderr.write(`[headless] Error loading context: ${err instanceof Error ? err.message : String(err)}\n`)
process.exit(1)
}
// Bootstrap .gsd/ if needed
const gsdDir = join(process.cwd(), '.gsd')
if (!existsSync(gsdDir)) {
if (!options.json) {
process.stderr.write('[headless] Bootstrapping .gsd/ project structure...\n')
}
bootstrapGsdProject(process.cwd())
}
// Write context to temp file for the RPC child to read
const runtimeDir = join(gsdDir, 'runtime')
mkdirSync(runtimeDir, { recursive: true })
writeFileSync(join(runtimeDir, 'headless-context.md'), contextContent, 'utf-8')
}
// Validate .gsd/ directory (skip for new-milestone since we just bootstrapped it)
const gsdDir = join(process.cwd(), '.gsd')
if (!isNewMilestone && !existsSync(gsdDir)) {
process.stderr.write('[headless] Error: No .gsd/ directory found in current directory.\n')
process.stderr.write("[headless] Run 'gsd' interactively first to initialize a project.\n")
process.exit(1)
}
// Query: read-only state snapshot, no RPC child needed
if (options.command === 'query') {
const { handleQuery } = await import('./headless-query.js')
const result = await handleQuery(process.cwd())
return { exitCode: result.exitCode, interrupted: false }
}
// Resolve CLI path for the child process
const cliPath = process.env.GSD_BIN_PATH || process.argv[1]
if (!cliPath) {
process.stderr.write('[headless] Error: Cannot determine CLI path. Set GSD_BIN_PATH or run via gsd.\n')
process.exit(1)
}
// Create RPC client
const clientOptions: Record<string, unknown> = {
cliPath,
cwd: process.cwd(),
}
if (options.model) {
clientOptions.model = options.model
}
if (injector) {
clientOptions.env = injector.getSecretEnvVars()
}
// Signal headless mode to the GSD extension (skips UAT human pause, etc.)
clientOptions.env = { ...(clientOptions.env as Record<string, string> || {}), GSD_HEADLESS: '1' }
// Propagate --bare to the child process
if (options.bare) {
clientOptions.args = [...((clientOptions.args as string[]) || []), '--bare']
}
const client = new RpcClient(clientOptions)
// Event tracking
let totalEvents = 0
let toolCallCount = 0
let blocked = false
let completed = false
let exitCode = 0
let milestoneReady = false // tracks "Milestone X ready." for auto-chaining
const recentEvents: TrackedEvent[] = []
// JSON batch mode: cost aggregation (cumulative-max pattern per K004)
let cumulativeCostUsd = 0
let cumulativeInputTokens = 0
let cumulativeOutputTokens = 0
let cumulativeCacheReadTokens = 0
let cumulativeCacheWriteTokens = 0
let lastSessionId: string | undefined
// Verbose text-mode state
const toolStartTimes = new Map<string, number>()
let lastCostData: { costUsd: number; inputTokens: number; outputTokens: number } | undefined
let thinkingBuffer = ''
// Streaming state: tracks whether we're inside a text or thinking block
let inTextBlock = false
let inThinkingBlock = false
// Emit HeadlessJsonResult to stdout for --output-format json batch mode
function emitBatchJsonResult(): void {
if (options.outputFormat !== 'json') return
const duration = Date.now() - startTime
const status: HeadlessJsonResult['status'] = blocked ? 'blocked'
: exitCode === EXIT_CANCELLED ? 'cancelled'
: exitCode === EXIT_ERROR ? (totalEvents === 0 ? 'error' : 'timeout')
: 'success'
const result: HeadlessJsonResult = {
status,
exitCode,
sessionId: lastSessionId,
duration,
cost: {
total: cumulativeCostUsd,
input_tokens: cumulativeInputTokens,
output_tokens: cumulativeOutputTokens,
cache_read_tokens: cumulativeCacheReadTokens,
cache_write_tokens: cumulativeCacheWriteTokens,
},
toolCalls: toolCallCount,
events: totalEvents,
}
process.stdout.write(JSON.stringify(result) + '\n')
}
function trackEvent(event: Record<string, unknown>): void {
totalEvents++
const type = String(event.type ?? 'unknown')
if (type === 'tool_execution_start') {
toolCallCount++
}
// Keep last 20 events for diagnostics
const detail =
type === 'tool_execution_start'
? String(event.toolName ?? '')
: type === 'extension_ui_request'
? `${event.method}: ${event.title ?? event.message ?? ''}`
: undefined
recentEvents.push({ type, timestamp: Date.now(), detail })
if (recentEvents.length > 20) recentEvents.shift()
}
// Client started flag — replaces old stdinWriter null-check
let clientStarted = false
// Adapter for AnswerInjector — wraps client.sendUIResponse in a writeToStdin-compatible callback
// Initialized after client.start(); events won't fire before then
let injectorStdinAdapter: (data: string) => void = () => {}
// Supervised mode state
const pendingResponseTimers = new Map<string, ReturnType<typeof setTimeout>>()
let supervisedFallback = false
let stopSupervisedReader: (() => void) | null = null
const onStdinClose = () => {
supervisedFallback = true
process.stderr.write('[headless] Warning: orchestrator stdin closed, falling back to auto-response\n')
}
if (options.supervised) {
process.stdin.on('close', onStdinClose)
}
// Completion promise
let resolveCompletion: () => void
const completionPromise = new Promise<void>((resolve) => {
resolveCompletion = resolve
})
// Idle timeout — fallback completion detection
let idleTimer: ReturnType<typeof setTimeout> | null = null
const effectiveIdleTimeout = isNewMilestone ? NEW_MILESTONE_IDLE_TIMEOUT_MS : IDLE_TIMEOUT_MS
function resetIdleTimer(): void {
if (idleTimer) clearTimeout(idleTimer)
if (toolCallCount > 0) {
idleTimer = setTimeout(() => {
completed = true
resolveCompletion()
}, effectiveIdleTimeout)
}
}
// Precompute supervised response timeout
const responseTimeout = options.responseTimeout ?? 30_000
// Overall timeout (disabled when options.timeout === 0, e.g. auto-mode)
const timeoutTimer = options.timeout > 0
? setTimeout(() => {
process.stderr.write(`[headless] Timeout after ${options.timeout / 1000}s\n`)
exitCode = EXIT_ERROR
resolveCompletion()
}, options.timeout)
: null
// Event handler
client.onEvent((event) => {
const eventObj = event as unknown as Record<string, unknown>
trackEvent(eventObj)
resetIdleTimer()
// Answer injector: observe events for question metadata
injector?.observeEvent(eventObj)
// --json / --output-format stream-json: forward events as JSONL to stdout (filtered if --events)
// --output-format json (batch mode): suppress streaming, track cost for final result
if (options.json && options.outputFormat === 'stream-json') {
const eventType = String(eventObj.type ?? '')
if (!options.eventFilter || options.eventFilter.has(eventType)) {
process.stdout.write(JSON.stringify(eventObj) + '\n')
}
} else if (options.outputFormat === 'json') {
// Batch mode: silently track cost_update events (cumulative-max per K004)
const eventType = String(eventObj.type ?? '')
if (eventType === 'cost_update') {
const data = eventObj as Record<string, unknown>
const cumCost = data.cumulativeCost as Record<string, unknown> | undefined
if (cumCost) {
cumulativeCostUsd = Math.max(cumulativeCostUsd, Number(cumCost.costUsd ?? 0))
const tokens = data.tokens as Record<string, number> | undefined
if (tokens) {
cumulativeInputTokens = Math.max(cumulativeInputTokens, tokens.input ?? 0)
cumulativeOutputTokens = Math.max(cumulativeOutputTokens, tokens.output ?? 0)
cumulativeCacheReadTokens = Math.max(cumulativeCacheReadTokens, tokens.cacheRead ?? 0)
cumulativeCacheWriteTokens = Math.max(cumulativeCacheWriteTokens, tokens.cacheWrite ?? 0)
}
}
}
// Track sessionId from init_result
if (eventType === 'init_result') {
lastSessionId = String((eventObj as Record<string, unknown>).sessionId ?? '')
}
} else if (!options.json) {
// Progress output to stderr with verbose state tracking
const eventType = String(eventObj.type ?? '')
// Track cost_update events for agent_end summary
if (eventType === 'cost_update') {
const data = eventObj as Record<string, unknown>
const cumCost = data.cumulativeCost as Record<string, unknown> | undefined
if (cumCost) {
const tokens = data.tokens as Record<string, number> | undefined
lastCostData = {
costUsd: Number(cumCost.costUsd ?? 0),
inputTokens: tokens?.input ?? 0,
outputTokens: tokens?.output ?? 0,
}
}
}
// Stream assistant text and thinking deltas in verbose mode
if (eventType === 'message_update') {
const ame = eventObj.assistantMessageEvent as Record<string, unknown> | undefined
if (ame && options.verbose) {
const ameType = String(ame.type ?? '')
// --- Text streaming ---
if (ameType === 'text_start') {
inTextBlock = true
process.stderr.write(formatTextStart())
} else if (ameType === 'text_delta') {
const delta = String(ame.delta ?? ame.text ?? '')
if (delta) {
if (!inTextBlock) {
// Edge case: delta without start
inTextBlock = true
process.stderr.write(formatTextStart())
}
process.stderr.write(delta)
}
} else if (ameType === 'text_end') {
if (inTextBlock) {
process.stderr.write(formatTextEnd() + '\n')
inTextBlock = false
}
}
// --- Thinking streaming ---
else if (ameType === 'thinking_start') {
inThinkingBlock = true
process.stderr.write(formatThinkingStart())
} else if (ameType === 'thinking_delta') {
const delta = String(ame.delta ?? ame.text ?? '')
if (delta) {
if (!inThinkingBlock) {
inThinkingBlock = true
process.stderr.write(formatThinkingStart())
}
process.stderr.write(delta)
}
} else if (ameType === 'thinking_end') {
if (inThinkingBlock) {
process.stderr.write(formatThinkingEnd() + '\n')
inThinkingBlock = false
}
}
}
// Non-verbose: accumulate text_delta for truncated one-liner
else if (ame?.type === 'text_delta') {
thinkingBuffer += String(ame.delta ?? ame.text ?? '')
}
}
// Track tool execution start timestamps
if (eventType === 'tool_execution_start') {
const toolCallId = String(eventObj.toolCallId ?? eventObj.id ?? '')
if (toolCallId) toolStartTimes.set(toolCallId, Date.now())
}
// Close any open streaming blocks before tool calls or message end
if (options.verbose && (eventType === 'tool_execution_start' || eventType === 'message_end')) {
if (inTextBlock) {
process.stderr.write('\n')
inTextBlock = false
}
if (inThinkingBlock) {
process.stderr.write('\n')
inThinkingBlock = false
}
}
// Non-verbose: flush accumulated buffer as truncated one-liner
else if (!options.verbose && thinkingBuffer.trim() &&
(eventType === 'tool_execution_start' || eventType === 'message_end')) {
process.stderr.write(formatThinkingLine(thinkingBuffer) + '\n')
thinkingBuffer = ''
}
// Compute tool duration for tool_execution_end
let toolDuration: number | undefined
let isToolError = false
if (eventType === 'tool_execution_end') {
const toolCallId = String(eventObj.toolCallId ?? eventObj.id ?? '')
const startTime = toolStartTimes.get(toolCallId)
if (startTime) {
toolDuration = Date.now() - startTime
toolStartTimes.delete(toolCallId)
}
isToolError = eventObj.isError === true || eventObj.error != null
}
const ctx: ProgressContext = {
verbose: !!options.verbose,
toolDuration,
isError: isToolError,
lastCost: eventType === 'agent_end' ? lastCostData : undefined,
}
const line = formatProgress(eventObj, ctx)
if (line) process.stderr.write(line + '\n')
}
// Handle execution_complete (v2 structured completion)
// Skip for multi-turn commands (auto, next) — their completion is detected via
// isTerminalNotification("Auto-mode stopped..."/"Step-mode stopped..."), not per-turn events
if (eventObj.type === 'execution_complete' && !completed && !isMultiTurnCommand) {
completed = true
const status = String(eventObj.status ?? 'success')
exitCode = mapStatusToExitCode(status)
if (eventObj.status === 'blocked') blocked = true
resolveCompletion()
return
}
// Handle extension_ui_request
if (eventObj.type === 'extension_ui_request' && clientStarted) {
// Check for terminal notification before auto-responding
if (isBlockedNotification(eventObj)) {
blocked = true
}
// Detect "Milestone X ready." for auto-mode chaining
if (isMilestoneReadyNotification(eventObj)) {
milestoneReady = true
}
if (isTerminalNotification(eventObj)) {
completed = true
}
// Answer injection: try to handle with pre-supplied answers before supervised/auto
if (injector && !FIRE_AND_FORGET_METHODS.has(String(eventObj.method ?? ''))) {
if (injector.tryHandle(eventObj, injectorStdinAdapter)) {
if (completed) {
exitCode = blocked ? EXIT_BLOCKED : EXIT_SUCCESS
resolveCompletion()
}
return
}
}
const method = String(eventObj.method ?? '')
const shouldSupervise = options.supervised && !supervisedFallback
&& !FIRE_AND_FORGET_METHODS.has(method)
if (shouldSupervise) {
// Interactive request in supervised mode — let orchestrator respond
const eventId = String(eventObj.id ?? '')
const timer = setTimeout(() => {
pendingResponseTimers.delete(eventId)
handleExtensionUIRequest(eventObj as unknown as ExtensionUIRequest, client)
process.stdout.write(JSON.stringify({ type: 'supervised_timeout', id: eventId, method }) + '\n')
}, responseTimeout)
pendingResponseTimers.set(eventId, timer)
} else {
handleExtensionUIRequest(eventObj as unknown as ExtensionUIRequest, client)
}
// If we detected a terminal notification, resolve after responding
if (completed) {
exitCode = blocked ? EXIT_BLOCKED : EXIT_SUCCESS
resolveCompletion()
return
}
}
// Quick commands: resolve on first agent_end
if (eventObj.type === 'agent_end' && isQuickCommand(options.command) && !completed) {
completed = true
resolveCompletion()
return
}
// Long-running commands: agent_end after tool execution — possible completion
// The idle timer + terminal notification handle this case.
})
// Signal handling
const signalHandler = () => {
process.stderr.write('\n[headless] Interrupted, stopping child process...\n')
interrupted = true
exitCode = EXIT_CANCELLED
// Kill child process — don't await, just fire and exit.
// The main flow may be awaiting a promise that resolves when the child dies,
// which would race with this handler. Exit synchronously to ensure correct exit code.
try { client.stop().catch(() => {}) } catch {}
if (timeoutTimer) clearTimeout(timeoutTimer)
if (idleTimer) clearTimeout(idleTimer)
// Emit batch JSON result if in json mode before exiting
if (options.outputFormat === 'json') {
emitBatchJsonResult()
}
process.exit(exitCode)
}
process.on('SIGINT', signalHandler)
process.on('SIGTERM', signalHandler)
// Start the RPC session
try {
await client.start()
} catch (err) {
process.stderr.write(`[headless] Error: Failed to start RPC session: ${err instanceof Error ? err.message : String(err)}\n`)
if (timeoutTimer) clearTimeout(timeoutTimer)
process.exit(1)
}
// v2 protocol negotiation — attempt init for structured completion events
let v2Enabled = false
try {
await client.init({ clientId: 'gsd-headless' })
v2Enabled = true
} catch {
process.stderr.write('[headless] Warning: v2 init failed, falling back to v1 string-matching\n')
}
clientStarted = true
// --resume: resolve session ID and switch to it
if (options.resumeSession) {
const projectSessionsDir = getProjectSessionsDir(process.cwd())
const sessions = await SessionManager.list(process.cwd(), projectSessionsDir)
const result = resolveResumeSession(sessions, options.resumeSession)
if (result.error) {
process.stderr.write(`[headless] Error: ${result.error}\n`)
await client.stop()
if (timeoutTimer) clearTimeout(timeoutTimer)
process.exit(1)
}
const matched = result.session!
const switchResult = await client.switchSession(matched.path)
if (switchResult.cancelled) {
process.stderr.write(`[headless] Error: Session switch to '${matched.id}' was cancelled by an extension\n`)
await client.stop()
if (timeoutTimer) clearTimeout(timeoutTimer)
process.exit(1)
}
process.stderr.write(`[headless] Resuming session ${matched.id}\n`)
}
// Build injector adapter — wraps client.sendUIResponse for AnswerInjector's writeToStdin interface
injectorStdinAdapter = (data: string) => {
try {
const parsed = JSON.parse(data.trim())
if (parsed.type === 'extension_ui_response' && parsed.id) {
const { id, value, values, confirmed, cancelled } = parsed
client.sendUIResponse(id, { value, values, confirmed, cancelled })
}
} catch {
process.stderr.write('[headless] Warning: injector adapter received unparseable data\n')
}
}
// Start supervised stdin reader for orchestrator commands
if (options.supervised) {
stopSupervisedReader = startSupervisedStdinReader(client, (id) => {
const timer = pendingResponseTimers.get(id)
if (timer) {
clearTimeout(timer)
pendingResponseTimers.delete(id)
}
})
// Ensure stdin is in flowing mode for JSONL reading
process.stdin.resume()
}
// Detect child process crash (read-only exit event subscription — not stdin access)
const internalProcess = (client as any).process as ChildProcess
if (internalProcess) {
internalProcess.on('exit', (code) => {
if (!completed) {
const msg = `[headless] Child process exited unexpectedly with code ${code ?? 'null'}\n`
process.stderr.write(msg)
exitCode = EXIT_ERROR
resolveCompletion()
}
})
}
if (!options.json) {
process.stderr.write(`[headless] Running /gsd ${options.command}${options.commandArgs.length > 0 ? ' ' + options.commandArgs.join(' ') : ''}...\n`)
}
// Send the command
const command = `/gsd ${options.command}${options.commandArgs.length > 0 ? ' ' + options.commandArgs.join(' ') : ''}`
try {
await client.prompt(command)
} catch (err) {
process.stderr.write(`[headless] Error: Failed to send prompt: ${err instanceof Error ? err.message : String(err)}\n`)
exitCode = EXIT_ERROR
}
// Wait for completion
if (exitCode === EXIT_SUCCESS || exitCode === EXIT_BLOCKED) {
await completionPromise
}
// Auto-mode chaining: if --auto and milestone creation succeeded, send /gsd auto
if (isNewMilestone && options.auto && milestoneReady && !blocked && exitCode === EXIT_SUCCESS) {
if (!options.json) {
process.stderr.write('[headless] Milestone ready — chaining into auto-mode...\n')
}
// Reset completion state for the auto-mode phase.
// Disable the overall timeout — auto-mode has its own internal supervisor.
if (timeoutTimer) clearTimeout(timeoutTimer)
completed = false
milestoneReady = false
blocked = false
const autoCompletionPromise = new Promise<void>((resolve) => {
resolveCompletion = resolve
})
try {
await client.prompt('/gsd auto')
} catch (err) {
process.stderr.write(`[headless] Error: Failed to start auto-mode: ${err instanceof Error ? err.message : String(err)}\n`)
exitCode = EXIT_ERROR
}
if (exitCode === EXIT_SUCCESS || exitCode === EXIT_BLOCKED) {
await autoCompletionPromise
}
}
// Cleanup
if (timeoutTimer) clearTimeout(timeoutTimer)
if (idleTimer) clearTimeout(idleTimer)
pendingResponseTimers.forEach((timer) => clearTimeout(timer))
pendingResponseTimers.clear()
stopSupervisedReader?.()
process.stdin.removeListener('close', onStdinClose)
process.removeListener('SIGINT', signalHandler)
process.removeListener('SIGTERM', signalHandler)
await client.stop()
// Summary
const duration = ((Date.now() - startTime) / 1000).toFixed(1)
const status = blocked ? 'blocked' : exitCode === EXIT_CANCELLED ? 'cancelled' : exitCode === EXIT_ERROR ? (totalEvents === 0 ? 'error' : 'timeout') : 'complete'
process.stderr.write(`[headless] Status: ${status}\n`)
process.stderr.write(`[headless] Duration: ${duration}s\n`)
process.stderr.write(`[headless] Events: ${totalEvents} total, ${toolCallCount} tool calls\n`)
if (options.eventFilter) {
process.stderr.write(`[headless] Event filter: ${[...options.eventFilter].join(', ')}\n`)
}
if (restartCount > 0) {
process.stderr.write(`[headless] Restarts: ${restartCount}\n`)
}
// Answer injection stats
if (injector) {
const stats = injector.getStats()
process.stderr.write(`[headless] Answers: ${stats.questionsAnswered} answered, ${stats.questionsDefaulted} defaulted, ${stats.secretsProvided} secrets\n`)
for (const warning of injector.getUnusedWarnings()) {
process.stderr.write(`${warning}\n`)
}
}
// On failure, print last 5 events for diagnostics
if (exitCode !== 0) {
const lastFive = recentEvents.slice(-5)
if (lastFive.length > 0) {
process.stderr.write('[headless] Last events:\n')
for (const e of lastFive) {
process.stderr.write(` ${e.type}${e.detail ? `: ${e.detail}` : ''}\n`)
}
}
}
// Emit structured JSON result in batch mode
emitBatchJsonResult()
return { exitCode, interrupted }
}
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