import { Router } from 'express'; import { z } from 'zod'; import { fileURLToPath } from 'url'; import { writeFile, unlink } from 'fs/promises'; import { join } from 'path'; import { tmpdir } from 'os'; import { randomUUID } from 'crypto'; import { validate } from '../validate.js'; import { asyncWrap } from '../errors.js'; import * as conversations from '../../db/repos/conversations.js'; import * as messages from '../../db/repos/messages.js'; import * as agents from '../../db/repos/agents.js'; import { runClaudeTurn } from '../../ai/claude_cli.js'; const COMPANION_SLUG = 'companion'; const SYSTEM = `You are the Void companion — a concise, helpful assistant embedded in a personal knowledge system. Ground answers in the Void's content: call the context tool to see what the owner is looking at, and search/read before answering factual questions. When the owner asks you to change something, use propose_change — it creates a draft they approve; you cannot apply changes directly. Be brief.`; /** Absolute path to the companion MCP stdio server. */ const COMPANION_STDIO_PATH = fileURLToPath( new URL('../../mcp/companion-stdio.js', import.meta.url) ); async function resolveConversation(space_id) { const agent = await agents.getBySlug(COMPANION_SLUG); const convo = await conversations.findOrCreateForSpace(space_id, agent.id, { kind: 'user', id: null }); return { agent, convo }; } export const spacesScopedRouter = Router({ mergeParams: true }); spacesScopedRouter.get('/', asyncWrap(async (req, res) => { const { agent, convo } = await resolveConversation(req.params.space_id); const rows = await messages.listByConversation(convo.id); res.json({ conversation_id: convo.id, agent: { id: agent.id, slug: agent.slug, name: agent.name }, messages: rows }); })); const turnSchema = z.object({ text: z.string().min(1), view: z.object({ entityType: z.string(), entityId: z.string() }).partial().optional() }); spacesScopedRouter.post('/turn', validate({ body: turnSchema }), asyncWrap(async (req, res) => { const { agent, convo } = await resolveConversation(req.params.space_id); const { text, view } = req.body; await messages.append(convo.id, { role: 'user', body: text }); res.writeHead(200, { 'Content-Type': 'text/event-stream', 'Cache-Control': 'no-cache', Connection: 'keep-alive' }); const send = (event, data) => res.write(`event: ${event}\ndata: ${JSON.stringify(data)}\n\n`); // Write a per-turn MCP config temp file declaring the companion stdio server. // DB connection env is inherited from the void-server process — no creds needed here. const mcpConfigPath = join(tmpdir(), `void-mcp-${randomUUID()}.json`); const agentActor = { kind: 'agent', id: agent.id, capabilities: agent.capabilities, scopes: agent.scopes }; const mcpConfig = { mcpServers: { void: { command: 'node', args: [COMPANION_STDIO_PATH], env: { VOID_SPACE_ID: req.params.space_id, VOID_AGENT_JSON: JSON.stringify(agentActor), VOID_VIEW_JSON: view ? JSON.stringify(view) : '' } } } }; await writeFile(mcpConfigPath, JSON.stringify(mcpConfig)); const claudeExe = req.app.locals.claudeExe || process.env.CLAUDE_EXE || 'claude'; const draftIds = []; let result; try { result = await runClaudeTurn({ sessionId: convo.id, systemPrompt: SYSTEM, userText: text, mcpConfigPath, allowedTools: [ 'mcp__void__search', 'mcp__void__read', 'mcp__void__context', 'mcp__void__propose_change' ], claudeExe, home: process.env.VOID_CLAUDE_HOME || undefined, onEvent: (e) => { if (e.type === 'delta') { send('delta', { type: 'delta', text: e.text }); } else if (e.type === 'tool') { send('tool', { type: 'tool', tool: e.tool, status: e.status }); } else if (e.type === 'tool_result') { // Extract pending_change_id from the MCP tool result. // // companion-stdio.js returns: // { content: [{ type:'text', text: JSON.stringify(result) }], structuredContent: result } // // claude_cli.js surfaces this as: // { type:'tool_result', name, result: raw.content } // where result = the content array: [{ type:'text', text:'...' }] // // Defensive parsing: try structuredContent first (future-proof), then // scan content array text blocks and JSON.parse them. let parsed = null; try { // Shape A: structuredContent forwarded through (hypothetical future CLI) if (e.result?.structuredContent?.pending_change_id) { parsed = e.result.structuredContent; } // Shape B: array of content blocks (real current shape from companion-stdio.js) if (!parsed && Array.isArray(e.result)) { for (const block of e.result) { if (block?.type === 'text' && block.text) { try { const candidate = JSON.parse(block.text); if (candidate?.pending_change_id) { parsed = candidate; break; } } catch { // not JSON or not a change result — skip } } } } } catch { // parsing failed — no draft to surface } if (parsed?.pending_change_id) { draftIds.push(parsed.pending_change_id); send('draft', { type: 'draft', pending_change_id: parsed.pending_change_id, summary: parsed.summary || 'a change' }); } } else if (e.type === 'error') { send('error', { type: 'error', message: e.message }); } // 'result' events are captured via the resolved return value; no SSE needed mid-stream. } }); } catch (e) { send('error', { message: String(e?.message || e) }); res.end(); // Clean up temp file even on error unlink(mcpConfigPath).catch(() => {}); return; } // Clean up the temp MCP config file unlink(mcpConfigPath).catch(() => {}); const assistant = await messages.append(convo.id, { role: 'assistant', body: result.text, agent_id: agent.id, metadata: { tool_trace: result.toolTrace, draft_ids: draftIds, usage: result.usage } }); send('done', { assistant_message_id: assistant.id, draft_ids: draftIds, usage: result.usage }); res.end(); }) );