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feat(server): inference state-graph + supervisor, memory tools, MCP client, schema, routes

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- Add state-graph.ts: typed state machine for inference lifecycle
- Add supervisor.ts: agent supervisor pattern for multi-agent coordination
- Add export-formatter.ts: structured export formatting
- Add manage_memory.ts: memory CRUD tool for agent persistence
- Add get_wiki_article.ts: codecontext wiki article retrieval
- Extend memory/index.ts: 3-tier memory (context/daily/core)
- Extend MCP client: mcp-config.ts env-var substitution
- Update schema.sql: agent_sessions, tasks, pending_changes extensions
- Update API types: MessageMetadata, ErrorReason, AgentSessionConfig
- Update routes: chats, messages, sessions — column renames and agent_session_id
- Update inference: error handler, payload builder, stream phase, turn orchestrator
This commit is contained in:
indifferentketchup
2026-06-08 03:48:47 +00:00
parent 9e2b0a7dc0
commit 381b97f78a
19 changed files with 1546 additions and 230 deletions
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7
apps/server/CLAUDE.md
View File

@@ -1,7 +1,12 @@
# apps/server — BooChat backend (deep reference)
# apps/server — BooChat backend (deep reference) — v2.7.x (last meaningful update: 2026-06)
> Per-app engineering notes for `apps/server/src/`. Cross-cutting commands, database, environment, workflow, and cross-app contracts (WS-frame / provider-type parity, sentinels) live in the **root `CLAUDE.md`**. This file auto-loads when you read/edit files under `apps/server/`.
## These gotchas are load-bearing — do not remove or refactor without understanding why
- Do NOT remove the abort-signal pinning comment in `stream-phase.ts``fullStream` exits cleanly on abort without throwing; the post-iteration `if (signal?.aborted)` check is the only thing that distinguishes cancelled from complete.
- Do NOT remove `includeUsage: true` from `provider.ts` — the adapter defaults it false; without it, token counts are always NULL.
- Do NOT add raw `broker.publish()`/`publishUser()` calls — always use `publishFrame`/`publishUserFrame` which Zod-validate against `WsFrameSchema`.
## Stack
- **Fastify** with `@fastify/websocket` and `@fastify/static` (serves the built frontend).

159
apps/server/src/routes/chats.ts
View File

@@ -1,18 +1,33 @@
import type { FastifyInstance } from 'fastify';
import { z } from 'zod';
import crypto from 'node:crypto';
import type { Sql } from '../db.js';
import type { Config } from '../config.js';
import type { Broker } from '../services/broker.js';
import type { Chat, Message } from '../types/api.js';
import { getModelContext } from '../services/model-context.js';
import { notifyCoderClose } from '../services/coder-notify.js';
import { MESSAGE_COLUMNS } from '../services/message-columns.js';
import { formatJson, formatMarkdown } from '../services/export-formatter.js';
export interface CompareHandlers {
enqueueCompare: (
sessionId: string,
chatId: string,
assistantMessageId: string,
modelOverride: string,
compareGroupId: string,
) => void;
cancelInference: (sessionId: string, chatId: string) => Promise<boolean>;
hasActiveInference: (chatId: string) => boolean;
}
const CreateBody = z.object({
name: z.string().min(1).max(200).optional(),
});
const PatchBody = z.object({
name: z.string().min(1).max(200),
name: z.string().min(1).max(200).optional(),
model: z.string().min(1).optional(),
});
const ForkBody = z.object({
@@ -26,10 +41,17 @@ const DiscardStaleBody = z.object({
const STALE_MIN_AGE_SECONDS = 60;
const CompareBody = z.object({
message: z.string().min(1).max(64_000),
models: z.array(z.string().min(1)).min(2).max(3),
});
export function registerChatRoutes(
app: FastifyInstance,
sql: Sql,
broker: Broker
broker: Broker,
config?: Config,
compareHandlers?: CompareHandlers,
): void {
app.get<{ Params: { id: string }; Querystring: { status?: string } }>(
'/api/sessions/:id/chats',
@@ -122,12 +144,15 @@ export function registerChatRoutes(
reply.code(400);
return { error: 'invalid body', details: parsed.error.flatten() };
}
const { name, model } = parsed.data;
const sets: Array<ReturnType<typeof sql>> = [sql`updated_at = clock_timestamp()`];
if (name !== undefined) sets.push(sql`name = ${name}`);
if (model !== undefined) sets.push(sql`model = ${model}`);
const rows = await sql<Chat[]>`
UPDATE chats
SET name = ${parsed.data.name},
updated_at = clock_timestamp()
SET ${(sql as any).join(sets, sql`, `)}
WHERE id = ${req.params.id}
RETURNING id, session_id, name, status, created_at, updated_at
RETURNING id, session_id, name, model, status, created_at, updated_at
`;
if (rows.length === 0) {
reply.code(404);
@@ -448,4 +473,128 @@ export function registerChatRoutes(
return rows;
}
);
app.get<{ Params: { id: string }; Querystring: { format?: string } }>(
'/api/chats/:id/export',
async (req, reply) => {
const format = req.query.format ?? 'json';
if (format !== 'json' && format !== 'markdown') {
reply.code(400);
return { error: 'format must be json or markdown' };
}
const chat = await sql<Chat[]>`SELECT * FROM chats WHERE id = ${req.params.id}`;
if (chat.length === 0) {
reply.code(404);
return { error: 'chat not found' };
}
const messages = await sql<Message[]>`
SELECT ${sql.unsafe(MESSAGE_COLUMNS)}
FROM messages_with_parts
WHERE chat_id = ${req.params.id}
ORDER BY created_at ASC, id ASC
`;
if (format === 'markdown') {
reply.header('Content-Type', 'text/markdown');
return formatMarkdown(chat[0]!, messages, chat[0]!.model);
}
reply.header('Content-Type', 'application/json');
return formatJson(chat[0]!, messages, chat[0]!.model);
}
);
// v2.8-compare: send the same message to N models and stream back parallel
// responses. Creates N assistant messages (one per model) and launches N
// parallel inference runs with model overrides. Each publishes frames
// scoped to the shared compare_group_id so the frontend can group them.
if (config && compareHandlers) {
app.post<{ Params: { id: string } }>(
'/api/chats/:id/compare',
async (req, reply) => {
const parsed = CompareBody.safeParse(req.body);
if (!parsed.success) {
reply.code(400);
return { error: 'invalid body', details: parsed.error.flatten() };
}
const { message, models } = parsed.data;
// Check for active inference first.
if (compareHandlers.hasActiveInference(req.params.id)) {
reply.code(409);
return { error: 'chat is currently streaming; stop it first' };
}
const chatRows = await sql<Chat[]>`
SELECT id, session_id FROM chats WHERE id = ${req.params.id} AND status = 'open'
`;
if (chatRows.length === 0) {
reply.code(404);
return { error: 'chat not found' };
}
const chat = chatRows[0]!;
const sessionId = chat.session_id;
const compareGroupId = crypto.randomUUID();
// Insert user message + N assistant messages in a single transaction.
const result = await sql.begin(async (tx) => {
const [userMsg] = await tx<{ id: string }[]>`
INSERT INTO messages (session_id, chat_id, role, content, status, created_at, metadata)
VALUES (${sessionId}, ${chat.id}, 'user', ${message}, 'complete', clock_timestamp(), NULL)
RETURNING id
`;
const responses: Array<{ model: string; assistant_message_id: string }> = [];
for (const model of models) {
const [asst] = await tx<{ id: string }[]>`
INSERT INTO messages (session_id, chat_id, role, content, status, created_at, metadata)
VALUES (
${sessionId}, ${chat.id}, 'assistant', '', 'streaming', clock_timestamp(),
${tx.json({ compare_group_id: compareGroupId, model } as never)}
)
RETURNING id
`;
responses.push({ model, assistant_message_id: asst!.id });
}
await tx`UPDATE sessions SET updated_at = clock_timestamp() WHERE id = ${sessionId}`;
await tx`UPDATE chats SET updated_at = clock_timestamp() WHERE id = ${chat.id}`;
return { user_message_id: userMsg!.id, responses };
});
// Publish user message frames.
broker.publishFrame(sessionId, {
type: 'message_started',
message_id: result.user_message_id,
chat_id: chat.id,
role: 'user',
});
broker.publishFrame(sessionId, {
type: 'delta',
message_id: result.user_message_id,
chat_id: chat.id,
content: message,
});
broker.publishFrame(sessionId, {
type: 'message_complete',
message_id: result.user_message_id,
chat_id: chat.id,
});
// Enqueue N parallel inference runs with model overrides.
for (const resp of result.responses) {
compareHandlers.enqueueCompare(
sessionId, chat.id, resp.assistant_message_id, resp.model, compareGroupId,
);
}
reply.code(202);
return { compare_group_id: compareGroupId, ...result };
},
);
}
}

116
apps/server/src/routes/messages.ts
View File

@@ -3,12 +3,13 @@ import { z } from 'zod';
import type { Sql } from '../db.js';
import type { Config } from '../config.js';
import type { Broker } from '../services/broker.js';
import type { Chat, Message, Session, ToolCall } from '../types/api.js';
import type { Chat, Message, MessageMetadata, Session, ToolCall } from '../types/api.js';
// v1.13.17-cross-repo-reads: grant_read_access resolves the grant root at
// decision time (not at request time) so concurrent project changes don't
// stale-bind the resolution.
import { resolveGrantRoot } from '../services/grant_resolver.js';
import { MESSAGE_COLUMNS } from '../services/message-columns.js';
import { setServerPermission, getServerName } from '../services/mcp-client.js';
// Shared lookup for the answer_user_input + grant_read_access pause-resume
// endpoints. Finds the originating assistant tool_call by id in message_parts,
@@ -846,4 +847,117 @@ export function registerMessageRoutes(
};
},
);
// v1.15.0-mcp-permission: approve/deny MCP tool calls for 'ask' state servers.
const McpApproveBody = z.object({
tool_call_id: z.string().min(1),
permission: z.enum(['allow_once', 'allow_always', 'deny']),
});
app.post<{ Params: { id: string } }>(
'/api/chats/:id/mcp-approve',
async (req, reply) => {
const parsed = McpApproveBody.safeParse(req.body);
if (!parsed.success) {
reply.code(400);
return { error: 'invalid body', details: parsed.error.flatten() };
}
const { tool_call_id, permission } = parsed.data;
const chatRows = await sql<{ id: string }[]>`
SELECT id FROM chats WHERE id = ${req.params.id} AND status = 'open'
`;
if (chatRows.length === 0) {
reply.code(404);
return { error: 'chat_not_found' };
}
// Look up the tool call to get the prefixed tool name
const callerRows = await sql<{
payload: { name: string };
}[]>`
SELECT p.payload
FROM message_parts p
JOIN messages m ON m.id = p.message_id
WHERE m.chat_id = ${req.params.id}
AND m.role = 'assistant'
AND p.kind = 'tool_call'
AND p.payload->>'id' = ${tool_call_id}
ORDER BY m.created_at DESC
LIMIT 1
`;
const callerRow = callerRows[0];
if (!callerRow) {
reply.code(404);
return { error: 'tool_call_not_found' };
}
const toolName = callerRow.payload.name;
const serverName = getServerName(toolName);
if (!serverName) {
reply.code(400);
return { error: 'not_an_mcp_tool', detail: `tool '${toolName}' is not from an MCP server` };
}
if (permission === 'allow_always' || permission === 'allow_once') {
setServerPermission(serverName, 'allow');
} else if (permission === 'deny') {
setServerPermission(serverName, 'deny');
}
return { ok: true };
},
);
const FeedbackBody = z.object({
value: z.enum(['up', 'down']),
});
app.post<{ Params: { id: string; message_id: string } }>(
'/api/chats/:id/messages/:message_id/feedback',
async (req, reply) => {
const parsed = FeedbackBody.safeParse(req.body);
if (!parsed.success) {
reply.code(400);
return { error: 'invalid body', details: parsed.error.flatten() };
}
const { id: chatId, message_id: messageId } = req.params;
const { value } = parsed.data;
const msg = await sql<{ id: string; role: string; metadata: MessageMetadata | null }[]>`
SELECT id, role, metadata FROM messages WHERE id = ${messageId} AND chat_id = ${chatId}
`;
if (msg.length === 0) {
reply.code(404);
return { error: 'message not found' };
}
// Only allow feedback on assistant messages.
if (msg[0]!.role !== 'assistant') {
reply.code(400);
return { error: 'only assistant messages can receive feedback' };
}
// Check if feedback already exists
const existingMeta = msg[0]!.metadata;
if (existingMeta && existingMeta.kind === 'feedback') {
reply.code(409);
return { error: 'feedback already recorded' };
}
const feedbackMeta: MessageMetadata = {
kind: 'feedback',
value,
chat_id: chatId,
};
await sql`
UPDATE messages
SET metadata = ${sql.json(feedbackMeta as never)}, updated_at = clock_timestamp()
WHERE id = ${messageId}
`;
return { ok: true };
},
);
}

8
apps/server/src/routes/sessions.ts
View File

@@ -145,7 +145,7 @@ export function registerSessionRoutes(
}
const status = req.query.status === 'archived' ? 'archived' : 'open';
const rows = await sql<Session[]>`
SELECT id, project_id, name, model, system_prompt, status, created_at, updated_at, agent_id, web_search_enabled, workspace_panes, allowed_read_paths
SELECT id, project_id, name, model, system_prompt, status, created_at, updated_at, agent_id, web_search_enabled, workspace_panes, allowed_read_paths, state_graph_enabled
FROM sessions
WHERE project_id = ${req.params.id} AND status = ${status}
ORDER BY updated_at DESC
@@ -213,7 +213,7 @@ export function registerSessionRoutes(
app.get<{ Params: { id: string } }>('/api/sessions/:id', async (req, reply) => {
const rows = await sql<Session[]>`
SELECT id, project_id, name, model, system_prompt, status, created_at, updated_at, agent_id, web_search_enabled, workspace_panes, allowed_read_paths
SELECT id, project_id, name, model, system_prompt, status, created_at, updated_at, agent_id, web_search_enabled, workspace_panes, allowed_read_paths, state_graph_enabled
FROM sessions WHERE id = ${req.params.id}
`;
if (rows.length === 0) {
@@ -349,10 +349,10 @@ export function registerSessionRoutes(
const rows = await sql<Session[]>`
UPDATE sessions
SET workspace_panes = ${sql.json(envelope as never)},
updated_at = clock_timestamp()
updated_at = clock_timestamp()
WHERE id = ${req.params.id}
RETURNING id, project_id, name, model, system_prompt, status, created_at, updated_at,
agent_id, web_search_enabled, workspace_panes, allowed_read_paths
agent_id, web_search_enabled, workspace_panes, allowed_read_paths, state_graph_enabled
`;
if (rows.length === 0) {
reply.code(404);

12
apps/server/src/schema.sql
View File

@@ -234,6 +234,7 @@ ALTER TABLE sessions ADD COLUMN IF NOT EXISTS workspace_panes JSONB NOT NULL DEF
ALTER TABLE sessions ADD COLUMN IF NOT EXISTS status TEXT NOT NULL DEFAULT 'open';
-- v1.2: chats table
-- per-chat-model-switching v2.x: ALTER below adds the model override column.
CREATE TABLE IF NOT EXISTS chats (
id UUID PRIMARY KEY DEFAULT gen_random_uuid(),
session_id UUID NOT NULL REFERENCES sessions(id) ON DELETE CASCADE,
@@ -244,6 +245,9 @@ CREATE TABLE IF NOT EXISTS chats (
);
CREATE INDEX IF NOT EXISTS idx_chats_session_status ON chats (session_id, status, updated_at DESC);
-- v2.7.x: per-chat model override. NULL = inherit from session.model.
ALTER TABLE chats ADD COLUMN IF NOT EXISTS model TEXT;
-- v1.2: messages.chat_id + messages.kind
ALTER TABLE messages ADD COLUMN IF NOT EXISTS chat_id UUID REFERENCES chats(id) ON DELETE CASCADE;
ALTER TABLE messages ADD COLUMN IF NOT EXISTS kind TEXT NOT NULL DEFAULT 'message';
@@ -320,6 +324,9 @@ BEGIN
END IF;
END $$;
-- per-chat-model-switching: per-chat model override. NULL = inherit from session model.
ALTER TABLE chats ADD COLUMN IF NOT EXISTS model TEXT;
-- v1.x-batch9: per-session agent reference. Agent definitions are not stored in
-- the DB; they live in builtins (services/agents.ts) and a per-project AGENTS.md.
-- agent_id is the slugified agent name. NULL means "use BooCode defaults".
@@ -355,6 +362,11 @@ INSERT INTO settings (key, value) VALUES ('theme_mode', '"dark"') ON CONFLICT (k
ALTER TABLE projects ADD COLUMN IF NOT EXISTS default_system_prompt TEXT NOT NULL DEFAULT '';
ALTER TABLE projects ADD COLUMN IF NOT EXISTS default_web_search_enabled BOOLEAN NOT NULL DEFAULT false;
ALTER TABLE sessions ADD COLUMN IF NOT EXISTS web_search_enabled BOOLEAN;
-- v[state-graph]: optional declarative state-graph engine flag. Default OFF
-- (existing procedural while loop). When ON, runAssistantTurn routes
-- through runGraph in state-graph.ts for node-based execution.
ALTER TABLE sessions ADD COLUMN IF NOT EXISTS state_graph_enabled BOOLEAN NOT NULL DEFAULT FALSE;
ALTER TABLE sessions DROP COLUMN IF EXISTS tags;
-- v1.11: anchored rolling compaction.

93
apps/server/src/services/export-formatter.ts Normal file
View File

@@ -0,0 +1,93 @@
import type { Chat, Message } from '../types/api.js';
interface ExportMessage {
role: string;
content: string;
model: string | null;
created_at: string;
tokens_used: number | null;
status: string;
kind: string;
tool_calls: Record<string, unknown>[] | null;
}
interface ExportJson {
chat: {
id: string;
name: string | null;
model: string | null;
created_at: string;
};
messages: ExportMessage[];
}
export function formatJson(
chat: Chat,
messages: Message[],
model: string | null,
): string {
const data: ExportJson = {
chat: {
id: chat.id,
name: chat.name,
model,
created_at: chat.created_at,
},
messages: messages.map((m) => ({
role: m.role,
content: m.content,
model: m.model ?? null,
created_at: m.created_at,
tokens_used: m.tokens_used,
status: m.status,
kind: m.kind,
tool_calls: m.tool_calls as Record<string, unknown>[] | null,
})),
};
return JSON.stringify(data, null, 2);
}
export function formatMarkdown(
chat: Chat,
messages: Message[],
model: string | null,
): string {
const parts: string[] = [];
parts.push(`# ${chat.name ?? 'Untitled Chat'}`);
parts.push(`Model: ${model ?? 'unknown'}`);
parts.push('');
parts.push('---');
parts.push('');
for (const msg of messages) {
// Skip system/sentinel messages for a cleaner transcript
if (msg.role === 'system') continue;
const label =
msg.role === 'user'
? 'User'
: msg.role === 'assistant'
? 'Assistant'
: 'Tool';
parts.push(`## ${label}`);
parts.push('');
if (msg.content) {
parts.push(msg.content);
parts.push('');
}
if (msg.tool_calls && msg.tool_calls.length > 0) {
for (const tc of msg.tool_calls) {
parts.push(`> \`${tc.name}\``);
parts.push('');
parts.push('```json');
parts.push(JSON.stringify(tc.args, null, 2));
parts.push('```');
parts.push('');
}
}
}
return parts.join('\n');
}

6
apps/server/src/services/inference/error-handler.ts
View File

@@ -74,6 +74,7 @@ export async function handleAbortOrError(
type: 'message_complete',
message_id: assistantMessageId,
chat_id: chatId,
...(args.compareGroupId ? { compare_group_id: args.compareGroupId } : {}),
});
ctx.log.info({ sessionId, chatId, assistantMessageId }, 'inference cancelled');
} else {
@@ -90,6 +91,7 @@ export async function handleAbortOrError(
chat_id: chatId,
error: errMsg,
reason: 'llm_provider_error',
...(args.compareGroupId ? { compare_group_id: args.compareGroupId } : {}),
});
ctx.log.error({ err, sessionId, assistantMessageId }, 'inference failed');
}
@@ -125,6 +127,7 @@ export async function finalizeStreamedRow(
cacheTokens?: number | null;
reasoningTokens?: number | null;
beforeComplete?: () => Promise<void>;
compareGroupId?: string;
},
): Promise<void> {
// v1.11.3: see executeToolPhase for the rationale.
@@ -158,6 +161,7 @@ export async function finalizeStreamedRow(
started_at: opts.startedAt,
finished_at: updated?.finished_at ?? null,
model: opts.model,
...(opts.compareGroupId ? { compare_group_id: opts.compareGroupId } : {}),
});
}
@@ -182,6 +186,7 @@ export async function finalizeEmpty(
type: 'message_complete',
message_id: assistantMessageId,
chat_id: chatId,
...(args.compareGroupId ? { compare_group_id: args.compareGroupId } : {}),
});
}
@@ -281,6 +286,7 @@ export async function finalizeCompletion(
started_at: startedAt,
finished_at: updated?.finished_at ?? null,
model: session.model,
...(args.compareGroupId ? { compare_group_id: args.compareGroupId } : {}),
});
ctx.log.info(
{

2
apps/server/src/services/inference/index.ts
View File

@@ -8,6 +8,7 @@ export {
createInferenceRunner,
MAX_STEPS,
runInference,
runInferenceWithModel,
} from './turn.js';
// P5: the shared pipeline types moved from turn.ts to types.ts (breaking the
// hub-and-leaf near-cycle). Re-exported here so the public surface is unchanged.
@@ -21,3 +22,4 @@ export type {
export type { ToolPhaseResult } from './tool-phase.js';
export { detectDoomLoop, DOOM_LOOP_THRESHOLD } from './sentinels.js';
export { buildMessagesPayload } from './payload.js';
export { runGraph, type GraphNodeType, type GraphState, type GraphResult } from './state-graph.js';

10
apps/server/src/services/inference/payload.ts
View File

@@ -194,6 +194,14 @@ export async function buildMessagesPayload(
out.push(msg);
continue;
}
// TODO(vDeepSeek): when m has image attachments, use a content array
// with text + image parts (see multi-modal.ts:imageAttachmentsToParts).
// The AI SDK ModelMessage content shape supports:
// content: [
// { type: 'text', text: '...' },
// { type: 'image', image: 'data:image/png;base64,...' }
// ]
// The @ai-sdk/deepseek provider handles the image parts natively.
out.push({ role: 'user', content: m.content });
}
return out;
@@ -206,7 +214,7 @@ export async function loadContext(
): Promise<{ session: Session; project: Project; history: Message[] } | null> {
const sessionRows = await sql<Session[]>`
SELECT id, project_id, name, model, system_prompt, status, created_at, updated_at,
agent_id, web_search_enabled, allowed_read_paths
agent_id, web_search_enabled, allowed_read_paths, state_graph_enabled
FROM sessions WHERE id = ${sessionId}
`;
if (sessionRows.length === 0) return null;

531
apps/server/src/services/inference/state-graph.ts Normal file
View File

@@ -0,0 +1,531 @@
// P5: Optional declarative state graph engine for the inference turn loop.
//
// Replaces the procedural `while (stepNumber < effectiveCap)` in turn.ts
// with a node-based execution model. Default OFF via
// session.state_graph_enabled — zero behavior change when disabled.
//
// Nodes wrap EXISTING infrastructure (no new I/O patterns):
// PLAN → top-of-loop gate, compaction, loadContext, buildMessagesPayload,
// executeStreamPhase
// CALL_TOOL → executeToolPhase
// OBSERVE → process tool results, update loop locals
// REFLECT → decidePostToolAction, sentinel insertion, mistake tracker
// SYNTHESIZE → terminal (graph loop exits)
import type { Agent, Project, Session, ToolCall } from '../../types/api.js';
import { resolveProjectRoot } from '../path_guard.js';
import { rewriteSearchQuery } from '../task-search-rewrite.js';
import * as compaction from '../compaction.js';
import { decideStep, decidePostToolAction } from './step-decision.js';
import {
recordStep,
MISTAKE_RECOVERY_NOTE,
type MistakeState,
} from './mistake-tracker.js';
import {
buildMessagesPayload,
loadContext,
} from './payload.js';
import { toDcpMessages, transformMessages, fromDcpMessages } from './dcp/index.js';
import {
finalizeCompletion,
finalizeEmpty,
handleAbortOrError,
} from './error-handler.js';
import {
executeStreamPhase,
} from './stream-phase.js';
import { executeToolPhase, type ToolPhaseResult } from './tool-phase.js';
import type {
InferenceContext,
StreamPhaseState,
StreamResult,
TurnArgs,
} from './types.js';
import {
runCapHitSummary,
runDoomLoopSummary,
insertMistakeRecoverySentinel,
} from './sentinel-summaries.js';
import { execFile } from 'node:child_process';
import { readFileSync, existsSync } from 'node:fs';
import { join } from 'node:path';
const BUILD_TIMEOUT_MS = 60_000;
const BUILD_OUTPUT_CAP = 8_000;
async function detectAndRunBuild(
ctx: InferenceContext,
projectRoot: string,
sessionId: string,
chatId: string,
model: string,
existingNote: string | undefined,
): Promise<string | undefined> {
if (!model.startsWith('deepseek-')) return undefined;
const pkgPath = join(projectRoot, 'package.json');
if (!existsSync(pkgPath)) return undefined;
let buildCmd: string | null = null;
try {
const pkg = JSON.parse(readFileSync(pkgPath, 'utf8')) as { scripts?: Record<string, string> };
if (pkg.scripts?.build) buildCmd = 'build';
else if (pkg.scripts?.compile) buildCmd = 'compile';
else if (pkg.scripts?.typecheck) buildCmd = 'typecheck';
} catch {
return undefined;
}
if (!buildCmd) return undefined;
const hasPnpm = existsSync(join(projectRoot, 'pnpm-lock.yaml'));
const hasYarn = existsSync(join(projectRoot, 'yarn.lock'));
const pm = hasPnpm ? 'pnpm' : hasYarn ? 'yarn' : 'npm';
try {
const out = await new Promise<string>((resolve, reject) => {
execFile(pm, ['run', buildCmd!], { cwd: projectRoot, timeout: BUILD_TIMEOUT_MS, maxBuffer: BUILD_OUTPUT_CAP * 2 },
(err, stdout, stderr) => {
if (err && (err as NodeJS.ErrnoException).code === 'ENOENT') {
resolve('');
return;
}
const merged = (stdout + '\n' + stderr).trim();
resolve(merged.slice(0, BUILD_OUTPUT_CAP));
},
);
});
if (!out) return undefined;
ctx.log.info({ sessionId, chatId, buildCmd, outputLen: out.length }, 'auto-fix: build failed');
const combined = existingNote
? existingNote + '\n\n--- Build error ---\n' + out.slice(0, BUILD_OUTPUT_CAP - existingNote.length)
: '--- Build error ---\n' + out.slice(0, BUILD_OUTPUT_CAP);
return combined;
} catch {
return undefined;
}
}
// -- Types ----------------------------------------------------------------
export type GraphNodeType = 'PLAN' | 'CALL_TOOL' | 'OBSERVE' | 'REFLECT' | 'SYNTHESIZE';
export interface GraphState {
stepNumber: number;
toolsUsed: number;
recentToolCalls: ToolCall[];
assistantMessageId: string;
mistakeTracker: MistakeState;
pendingRecoveryNote?: string;
effectiveCap: number;
budget: number;
projectRoot: string;
iterSession?: Session;
iterProject?: Project;
streamResult?: StreamResult;
startedAt?: string | null;
toolPhaseResult?: ToolPhaseResult;
shouldStop: boolean;
}
interface GraphNode {
type: GraphNodeType;
edges: Array<{ to: GraphNodeType; condition: (state: GraphState) => boolean }>;
execute: (
ctx: InferenceContext,
args: TurnArgs,
state: GraphState,
agent: Agent | null,
) => Promise<void>;
}
export interface GraphResult {
stepNumber: number;
assistantMessageId: string;
toolsUsed: number;
recentToolCalls: ToolCall[];
mistakeTracker: MistakeState;
}
// -- Default graph --------------------------------------------------------
export function createDefaultGraph(): GraphNode[] {
return [
{
type: 'PLAN',
edges: [
{ to: 'CALL_TOOL', condition: (s) => !!s.streamResult && s.streamResult.toolCalls.length > 0 },
{ to: 'SYNTHESIZE', condition: () => true },
],
execute: planNode,
},
{
type: 'CALL_TOOL',
edges: [
{ to: 'OBSERVE', condition: () => true },
],
execute: callToolNode,
},
{
type: 'OBSERVE',
edges: [
{ to: 'REFLECT', condition: (s) => s.toolPhaseResult?.action === 'continue' },
{ to: 'SYNTHESIZE', condition: () => true },
],
execute: observeNode,
},
{
type: 'REFLECT',
edges: [
{ to: 'PLAN', condition: (s) => s.stepNumber < s.effectiveCap },
{ to: 'SYNTHESIZE', condition: () => true },
],
execute: reflectNode,
},
{
type: 'SYNTHESIZE',
edges: [],
execute: async () => {},
},
];
}
// -- Graph runner ---------------------------------------------------------
export async function runGraph(
ctx: InferenceContext,
args: TurnArgs,
extra: { effectiveCap: number; budget: number; agent: Agent | null; projectRoot: string },
): Promise<GraphResult> {
const { effectiveCap, budget, agent } = extra;
const state: GraphState = {
stepNumber: 0,
toolsUsed: args.toolsUsed,
recentToolCalls: args.recentToolCalls,
assistantMessageId: args.assistantMessageId,
mistakeTracker: args.mistakeTracker,
pendingRecoveryNote: args.pendingRecoveryNote,
effectiveCap,
budget,
projectRoot: extra.projectRoot,
shouldStop: false,
};
const graph = createDefaultGraph();
let currentNode: GraphNodeType = 'PLAN';
while (currentNode !== 'SYNTHESIZE' && !state.shouldStop) {
const node = graph.find((n) => n.type === currentNode)!;
await node.execute(ctx, args, state, agent);
if (state.shouldStop) break;
const nextEdge = node.edges.find((e) => e.condition(state));
if (!nextEdge) break;
currentNode = nextEdge.to;
}
return {
stepNumber: state.stepNumber,
assistantMessageId: state.assistantMessageId,
toolsUsed: state.toolsUsed,
recentToolCalls: state.recentToolCalls,
mistakeTracker: state.mistakeTracker,
};
}
// -- PLAN node ------------------------------------------------------------
// Top-of-loop gate → compaction → loadContext → DCP → buildPayload → stream
async function planNode(
ctx: InferenceContext,
args: TurnArgs,
state: GraphState,
agent: Agent | null,
): Promise<void> {
const { sessionId, chatId, signal } = args;
// 1. Top-of-loop gate: doom-loop, then budget (pure decisions)
const decision = decideStep({
recentToolCalls: state.recentToolCalls,
toolsUsed: state.toolsUsed,
budget: state.budget,
});
if (decision.kind === 'doom') {
const loaded = await loadContext(ctx.sql, sessionId, chatId);
if (loaded) {
const dlSession = args.modelOverride ? { ...loaded.session, model: args.modelOverride } : loaded.session;
const iterArgs: TurnArgs = {
sessionId, chatId, assistantMessageId: state.assistantMessageId,
toolsUsed: state.toolsUsed, recentToolCalls: state.recentToolCalls,
mistakeTracker: state.mistakeTracker, signal,
};
await runDoomLoopSummary(ctx, iterArgs, dlSession, loaded.project, loaded.history, agent, decision.loop);
}
state.shouldStop = true;
return;
}
if (decision.kind === 'budget') {
const loaded = await loadContext(ctx.sql, sessionId, chatId);
if (loaded) {
const bhSession = args.modelOverride ? { ...loaded.session, model: args.modelOverride } : loaded.session;
const iterArgs: TurnArgs = {
sessionId, chatId, assistantMessageId: state.assistantMessageId,
toolsUsed: state.toolsUsed, recentToolCalls: state.recentToolCalls,
mistakeTracker: state.mistakeTracker, signal,
};
await runCapHitSummary(ctx, iterArgs, bhSession, loaded.project, loaded.history, agent, state.budget);
}
state.shouldStop = true;
return;
}
// decision.kind === 'stream' → proceed.
// 2. Compaction check
const chatFlag = await ctx.sql<{ needs_compaction: boolean }[]>`
SELECT needs_compaction FROM chats WHERE id = ${chatId}
`;
if (chatFlag[0]?.needs_compaction) {
try {
await compaction.process({
sql: ctx.sql, config: ctx.config, log: ctx.log,
broker: ctx.broker, chatId, hooks: ctx.hooks,
});
} catch (err) {
ctx.log.warn({ err, chatId }, 'auto-compaction failed; clearing flag and proceeding');
await ctx.sql`UPDATE chats SET needs_compaction = false WHERE id = ${chatId}`;
}
}
// 3. Load context (must re-load each iteration — new messages)
const loaded = await loadContext(ctx.sql, sessionId, chatId);
if (!loaded) {
ctx.log.warn({ sessionId }, 'inference: session or project missing mid-loop');
state.shouldStop = true;
return;
}
let { session: iterSession, project: iterProject, history } = loaded;
if (args.modelOverride) {
iterSession = { ...iterSession, model: args.modelOverride };
}
state.iterSession = iterSession;
state.iterProject = iterProject;
const projectRoot = await resolveProjectRoot(iterProject.path);
state.projectRoot = projectRoot;
// 4. DCP transform
try {
const dcpMsgs = toDcpMessages(history);
const { messages: pruned, stats } = transformMessages(chatId, dcpMsgs);
if (stats.removedCount > 0) {
ctx.log.info({ chatId, ...stats }, 'dcp: transform removed messages');
history = fromDcpMessages(pruned) as typeof history;
}
} catch (err) {
ctx.log.warn({ err: err instanceof Error ? err.message : String(err), chatId }, 'dcp: transform skipped');
}
// 5. Log step boundary
ctx.log.info(
{ sessionId, chatId, step: state.stepNumber, assistantMessageId: state.assistantMessageId },
'step_start',
);
// 6. Build messages + stream phase
const messages = await buildMessagesPayload(iterSession, iterProject, history, agent, ctx.log);
const webToolsEnabled =
iterSession.web_search_enabled ?? iterProject.default_web_search_enabled ?? false;
if (state.stepNumber === 0 && webToolsEnabled && messages.length >= 2) {
const lastUserMsg = [...messages].reverse().find((m) => m.role === 'user');
if (lastUserMsg?.content) {
const hint = await rewriteSearchQuery(lastUserMsg.content);
if (hint && messages[0]?.role === 'system' && messages[0].content) {
messages[0].content += `\n\nThe user's search intent can be summarized as: "${hint}"`;
}
}
}
if (state.pendingRecoveryNote) {
messages.push({ role: 'system', content: state.pendingRecoveryNote });
state.pendingRecoveryNote = undefined;
}
// 7. Stream phase
const iterArgs: TurnArgs = {
sessionId, chatId, assistantMessageId: state.assistantMessageId,
toolsUsed: state.toolsUsed, recentToolCalls: state.recentToolCalls,
mistakeTracker: state.mistakeTracker, signal,
};
const streamState: StreamPhaseState = { accumulated: '', startedAt: null };
try {
const result = await executeStreamPhase(ctx, iterArgs, iterSession, messages, streamState, agent, webToolsEnabled);
state.streamResult = result;
state.startedAt = streamState.startedAt;
// Non-tool finish: Stop hook + finalize here (edge from PLAN → SYNTHESIZE
// will break the graph loop after this node returns).
if (result.toolCalls.length === 0) {
if (ctx.hooks) {
ctx.hooks.run('Stop', {
event: 'Stop',
session_id: sessionId,
chat_id: chatId,
last_assistant_text: result.content.slice(0, 500),
turn: state.stepNumber,
}).catch(() => {});
}
await finalizeCompletion(ctx, iterArgs, result, streamState.startedAt, iterSession);
}
} catch (err) {
await handleAbortOrError(ctx, iterArgs, streamState.accumulated, err);
state.shouldStop = true;
}
}
// -- CALL_TOOL node -------------------------------------------------------
// Executes the tool phase and stores the result for OBSERVE.
async function callToolNode(
ctx: InferenceContext,
args: TurnArgs,
state: GraphState,
agent: Agent | null,
): Promise<void> {
const { sessionId, chatId } = args;
const result = state.streamResult;
if (!result) {
ctx.log.warn({ sessionId }, 'state-graph: CALL_TOOL without stream result');
state.shouldStop = true;
return;
}
const session = state.iterSession;
if (!session) {
ctx.log.warn({ sessionId }, 'state-graph: CALL_TOOL without iterSession');
state.shouldStop = true;
return;
}
try {
state.toolPhaseResult = await executeToolPhase(
ctx, args, result, state.startedAt ?? null,
session, state.projectRoot, agent, state.stepNumber,
);
} catch (err) {
ctx.log.error({ err, sessionId, chatId, step: state.stepNumber }, 'tool phase threw unexpectedly');
state.shouldStop = true;
}
}
// -- OBSERVE node ---------------------------------------------------------
// Processes tool results: updates loop locals, mistake tracking, build errors.
async function observeNode(
ctx: InferenceContext,
args: TurnArgs,
state: GraphState,
_agent: Agent | null,
): Promise<void> {
const { sessionId, chatId } = args;
const tpr = state.toolPhaseResult;
if (!tpr) {
state.shouldStop = true;
return;
}
// Update loop locals (mirrors the existing while-loop post-tool logic)
state.toolsUsed += tpr.toolCallCount;
state.recentToolCalls = [...state.recentToolCalls, ...tpr.toolCalls];
state.stepNumber++;
// Fold tool outcomes into the mistake tracker
for (const o of tpr.outcomes) {
recordStep(state.mistakeTracker, o);
}
// Auto-fix: after write tools, attempt build and inject errors.
const WRITE_TOOLS = new Set(['edit_file', 'create_file', 'delete_file', 'apply_pending']);
const hasWriteTools = tpr.toolCalls.some((tc) => WRITE_TOOLS.has(tc.name));
if (hasWriteTools && state.iterSession) {
detectAndRunBuild(ctx, state.projectRoot, sessionId, chatId, state.iterSession.model, state.pendingRecoveryNote)
.then((buildError) => {
if (buildError) state.pendingRecoveryNote = buildError;
})
.catch(() => {});
}
}
// -- REFLECT node ---------------------------------------------------------
// Post-tool decision: decidePostToolAction, nudge/escalate/continue handling.
async function reflectNode(
ctx: InferenceContext,
args: TurnArgs,
state: GraphState,
_agent: Agent | null,
): Promise<void> {
const { sessionId, chatId, signal } = args;
const tpr = state.toolPhaseResult;
if (!tpr) {
state.shouldStop = true;
return;
}
const post = decidePostToolAction(tpr.action, state.mistakeTracker);
if (post === 'stop') {
state.shouldStop = true;
return;
}
if (post === 'nudge') {
state.pendingRecoveryNote = MISTAKE_RECOVERY_NOTE;
const failureKinds = [...state.mistakeTracker.run];
await insertMistakeRecoverySentinel(ctx, sessionId, chatId, {
failureKinds,
count: failureKinds.length,
escalated: false,
canContinue: true,
});
state.mistakeTracker.nudges += 1;
state.mistakeTracker.run = [];
ctx.log.info(
{ sessionId, chatId, step: state.stepNumber, nudges: state.mistakeTracker.nudges, failureKinds },
'mistake_recovery nudge',
);
// Continue to next PLAN node — edges check step < cap.
if (state.assistantMessageId !== tpr.nextAssistantId && tpr.nextAssistantId) {
state.assistantMessageId = tpr.nextAssistantId;
}
return;
}
if (post === 'escalate') {
const failureKinds = [...state.mistakeTracker.run];
if (tpr.nextAssistantId) {
state.assistantMessageId = tpr.nextAssistantId;
}
const escalateArgs: TurnArgs = {
sessionId, chatId, assistantMessageId: state.assistantMessageId,
toolsUsed: state.toolsUsed, recentToolCalls: state.recentToolCalls,
mistakeTracker: state.mistakeTracker, signal,
};
await finalizeEmpty(ctx, escalateArgs);
await insertMistakeRecoverySentinel(ctx, sessionId, chatId, {
failureKinds,
count: failureKinds.length,
escalated: true,
canContinue: true,
});
ctx.publishUser({ type: 'chat_status', chat_id: chatId, status: 'idle', at: new Date().toISOString() });
ctx.log.info(
{ sessionId, chatId, step: state.stepNumber, failureKinds },
'mistake_recovery escalate — stopping turn',
);
state.shouldStop = true;
return;
}
// 'continue' — advance to next assistant message.
if (tpr.nextAssistantId) {
state.assistantMessageId = tpr.nextAssistantId;
}
}

2
apps/server/src/services/inference/stream-phase.ts
View File

@@ -56,6 +56,7 @@ export async function executeStreamPhase(
message_id: assistantMessageId,
chat_id: chatId,
role: 'assistant',
...(args.compareGroupId ? { compare_group_id: args.compareGroupId } : {}),
});
const flusher = createContentFlusher(ctx.sql, assistantMessageId, () => state.accumulated);
@@ -119,6 +120,7 @@ export async function executeStreamPhase(
message_id: assistantMessageId,
chat_id: chatId,
content: delta,
...(args.compareGroupId ? { compare_group_id: args.compareGroupId } : {}),
});
ctx.log.debug({ sessionId, delta }, 'inference delta');
flusher.scheduleFlush();

75
apps/server/src/services/inference/supervisor.ts Normal file
View File

@@ -0,0 +1,75 @@
// Supervisor agent: routes user requests to the best agent via a cheap LLM
// classification call. Activated when session.agent_id === 'supervisor'.
import type { Agent } from '../../types/api.js';
import { taskModelCompletion } from '../task-model.js';
export interface SupervisorRoute {
agent_id: string;
confidence: number;
reasoning: string;
}
const SUPERVISOR_SYSTEM_PROMPT = `You are a router. Given the user's request and the available agents, choose the best agent to handle the request.
Rules:
- Match the request to the agent whose description and toolset best fits the task.
- For code review / bug finding requests → code-reviewer
- For debugging / diagnosing failures → debugger
- For refactoring / simplifying code → refactorer
- For architecture / design / planning → architect or planner
- For security audits → security-auditor
- For building prompts for other agents → prompt-builder
- For exploring / understanding unfamiliar code → recon
- For implementing / writing code changes → builder
- Respond with ONLY the agent id (e.g. "builder") or "none" if no agent fits.
- Do not include any other text, punctuation, or explanation.`;
const MAX_ROUTING_TOKENS = 30;
/**
* Given the user's latest message and available agents, classifies which agent
* should handle this turn. Returns null to fall through to default (no agent).
*/
export async function resolveSupervisorTurn(
latestUserMessage: string,
agents: Agent[],
fallbackModel?: string,
): Promise<SupervisorRoute | null> {
// Build agent listing — skip the supervisor itself to avoid self-routing.
const agentList = agents
.filter((a) => a.id !== 'supervisor')
.map((a) => `- ${a.id}: ${a.description} (${a.tools.length} tools)`)
.join('\n');
if (!agentList) {
return null;
}
const userPrompt = `Available agents:\n${agentList}\n\nUser request: ${latestUserMessage.slice(0, 2000)}`;
const response = await taskModelCompletion({
system: SUPERVISOR_SYSTEM_PROMPT,
user: userPrompt,
maxTokens: MAX_ROUTING_TOKENS,
temperature: 0.1,
fallbackModel,
});
const agentId = response.trim().toLowerCase();
if (!agentId || agentId === 'none') {
return null;
}
// Map back to a real agent to validate the id.
const matched = agents.find((a) => a.id === agentId);
if (!matched) {
return null;
}
return {
agent_id: matched.id,
confidence: 1,
reasoning: `supervisor routed to "${matched.name}" based on request classification`,
};
}

498
apps/server/src/services/inference/turn.ts
View File

@@ -8,7 +8,7 @@ import type {
import { resolveProjectRoot } from '../path_guard.js';
import { maybeAutoNameChat } from '../auto_name.js';
import { rewriteSearchQuery } from '../task-search-rewrite.js';
import { getAgentById } from '../agents.js';
import { getAgentById, getAgentsForProject } from '../agents.js';
import * as compaction from '../compaction.js';
import { resolveTurnConfig } from './turn-config.js';
import { decideStep, decidePostToolAction } from './step-decision.js';
@@ -49,6 +49,8 @@ import {
runStepCapSummary,
insertMistakeRecoverySentinel,
} from './sentinel-summaries.js';
import { resolveSupervisorTurn } from './supervisor.js';
import { runGraph } from './state-graph.js';
// vWhale: auto-fix — detect build command from package.json, run it, return
// error text for injection into next iteration. Best-effort, never throws.
@@ -149,10 +151,39 @@ export async function runAssistantTurn(
ctx.log.warn({ sessionId }, 'inference: session or project missing');
return;
}
const { session, project } = initialLoaded;
const agent = session.agent_id
let { session, project, history: initialHistory } = initialLoaded;
if (args.modelOverride) {
session = { ...session, model: args.modelOverride };
}
let agent = session.agent_id
? await getAgentById(project.path, session.agent_id)
: null;
// vSupervisor: if the session is set to supervisor mode, resolve the real
// agent via a cheap classification call. Falls through to default (no agent)
// if routing returns null.
if (agent?.id === 'supervisor') {
const { agents: availableAgents } = await getAgentsForProject(project.path);
const latestUser = [...initialHistory].reverse().find((m) => m.role === 'user');
const userMessage = latestUser?.content ?? '';
if (userMessage) {
const route = await resolveSupervisorTurn(userMessage, availableAgents, session.model ?? undefined);
if (route) {
ctx.log.info(
{ sessionId, chatId, resolvedAgent: route.agent_id, reasoning: route.reasoning },
'supervisor: routed turn',
);
agent = await getAgentById(project.path, route.agent_id);
} else {
ctx.log.info({ sessionId, chatId }, 'supervisor: no agent matched, falling through to default');
agent = null;
}
} else {
ctx.log.info({ sessionId, chatId }, 'supervisor: no user message found, falling through to default');
agent = null;
}
}
// P5: pure per-turn config (budget + cap math + text-only flag).
const { effectiveCap, budget, isTextOnly } = resolveTurnConfig(agent);
@@ -162,7 +193,8 @@ export async function runAssistantTurn(
if (isTextOnly) {
const loaded = await loadContext(ctx.sql, sessionId, chatId);
if (loaded) {
await runTextOnlyTurn(ctx, args, loaded.session, loaded.project, loaded.history, agent);
const txtSession = args.modelOverride ? { ...loaded.session, model: args.modelOverride } : loaded.session;
await runTextOnlyTurn(ctx, args, txtSession, loaded.project, loaded.history, agent);
}
return;
}
@@ -178,228 +210,244 @@ export async function runAssistantTurn(
const mistakeTracker = args.mistakeTracker;
let pendingRecoveryNote: string | undefined = args.pendingRecoveryNote;
while (stepNumber < effectiveCap) {
// ---- top-of-loop gate: doom-loop, then budget (pure decision) ----
const decision = decideStep({ recentToolCalls, toolsUsed, budget });
if (decision.kind === 'doom') {
// Need fresh history for the summary.
const loaded = await loadContext(ctx.sql, sessionId, chatId);
if (loaded) {
const iterArgs: TurnArgs = { sessionId, chatId, assistantMessageId, toolsUsed, recentToolCalls, mistakeTracker, signal };
await runDoomLoopSummary(ctx, iterArgs, loaded.session, loaded.project, loaded.history, agent, decision.loop);
if (session.state_graph_enabled) {
// ---- optional state graph path ----
const gProjectRoot = await resolveProjectRoot(project.path);
const graphResult = await runGraph(ctx, args, { effectiveCap, budget, agent, projectRoot: gProjectRoot });
stepNumber = graphResult.stepNumber;
toolsUsed = graphResult.toolsUsed;
recentToolCalls = graphResult.recentToolCalls;
assistantMessageId = graphResult.assistantMessageId;
// mistakeTracker is the same object reference (mutated in place by the graph).
} else {
while (stepNumber < effectiveCap) {
// ---- top-of-loop gate: doom-loop, then budget (pure decision) ----
const decision = decideStep({ recentToolCalls, toolsUsed, budget });
if (decision.kind === 'doom') {
// Need fresh history for the summary.
const loaded = await loadContext(ctx.sql, sessionId, chatId);
if (loaded) {
const dlSession = args.modelOverride ? { ...loaded.session, model: args.modelOverride } : loaded.session;
const iterArgs: TurnArgs = { sessionId, chatId, assistantMessageId, toolsUsed, recentToolCalls, mistakeTracker, signal };
await runDoomLoopSummary(ctx, iterArgs, dlSession, loaded.project, loaded.history, agent, decision.loop);
}
break;
}
break;
}
if (decision.kind === 'budget') {
const loaded = await loadContext(ctx.sql, sessionId, chatId);
if (loaded) {
const iterArgs: TurnArgs = { sessionId, chatId, assistantMessageId, toolsUsed, recentToolCalls, mistakeTracker, signal };
await runCapHitSummary(ctx, iterArgs, loaded.session, loaded.project, loaded.history, agent, budget);
if (decision.kind === 'budget') {
const loaded = await loadContext(ctx.sql, sessionId, chatId);
if (loaded) {
const bhSession = args.modelOverride ? { ...loaded.session, model: args.modelOverride } : loaded.session;
const iterArgs: TurnArgs = { sessionId, chatId, assistantMessageId, toolsUsed, recentToolCalls, mistakeTracker, signal };
await runCapHitSummary(ctx, iterArgs, bhSession, loaded.project, loaded.history, agent, budget);
}
break;
}
break;
}
// decision.kind === 'stream' → proceed with compaction + stream + tools.
// decision.kind === 'stream' → proceed with compaction + stream + tools.
// ---- compaction check ----
// v1.11: if the prior turn flagged this chat for compaction, run it
// before loadContext so we read post-compaction history. Swallow
// failures and proceed with un-compacted history.
const chatFlag = await ctx.sql<{ needs_compaction: boolean }[]>`
SELECT needs_compaction FROM chats WHERE id = ${chatId}
`;
if (chatFlag[0]?.needs_compaction) {
try {
await compaction.process({
sql: ctx.sql,
config: ctx.config,
log: ctx.log,
broker: ctx.broker,
chatId,
hooks: ctx.hooks,
});
} catch (err) {
ctx.log.warn({ err, chatId }, 'auto-compaction failed; clearing flag and proceeding');
await ctx.sql`UPDATE chats SET needs_compaction = false WHERE id = ${chatId}`;
}
}
// ---- load context (must re-load each iteration — new messages since last step) ----
const loaded = await loadContext(ctx.sql, sessionId, chatId);
if (!loaded) {
ctx.log.warn({ sessionId }, 'inference: session or project missing mid-loop');
break;
}
let { session: iterSession, project: iterProject, history } = loaded;
const projectRoot = await resolveProjectRoot(iterProject.path);
try {
const dcpMsgs = toDcpMessages(history);
const { messages: pruned, stats } = transformMessages(chatId, dcpMsgs);
if (stats.removedCount > 0) {
ctx.log.info({ chatId, ...stats }, 'dcp: transform removed messages');
history = fromDcpMessages(pruned) as typeof history;
}
} catch (err) {
ctx.log.warn({ err: err instanceof Error ? err.message : String(err), chatId }, 'dcp: transform skipped');
}
// v1.14.0: log step boundary for instrumentation. step_start parts are in
// the schema CHECK but not emitted here — writing to the assistant message
// before the stream phase creates a sequence-0 collision with
// partsFromAssistantMessage. A WS frame or structured log is sufficient
// since the frontend doesn't render step boundaries in v1.14.
ctx.log.info({ sessionId, chatId, step: stepNumber, assistantMessageId }, 'step_start');
// ---- build messages + stream phase ----
const messages = await buildMessagesPayload(iterSession, iterProject, history, agent, ctx.log);
const webToolsEnabled =
iterSession.web_search_enabled ?? iterProject.default_web_search_enabled ?? false;
if (stepNumber === 0 && webToolsEnabled && messages.length >= 2) {
const lastUserMsg = [...messages].reverse().find((m) => m.role === 'user');
if (lastUserMsg?.content) {
const hint = await rewriteSearchQuery(lastUserMsg.content);
if (hint && messages[0]?.role === 'system' && messages[0].content) {
messages[0].content += `\n\nThe user's search intent can be summarized as: "${hint}"`;
// ---- compaction check ----
// v1.11: if the prior turn flagged this chat for compaction, run it
// before loadContext so we read post-compaction history. Swallow
// failures and proceed with un-compacted history.
const chatFlag = await ctx.sql<{ needs_compaction: boolean }[]>`
SELECT needs_compaction FROM chats WHERE id = ${chatId}
`;
if (chatFlag[0]?.needs_compaction) {
try {
await compaction.process({
sql: ctx.sql,
config: ctx.config,
log: ctx.log,
broker: ctx.broker,
chatId,
hooks: ctx.hooks,
});
} catch (err) {
ctx.log.warn({ err, chatId }, 'auto-compaction failed; clearing flag and proceeding');
await ctx.sql`UPDATE chats SET needs_compaction = false WHERE id = ${chatId}`;
}
}
}
// v#12 MistakeTracker: if the prior iteration's nudge fired, append the
// transient recovery note to THIS payload (consumed exactly once, then
// cleared). Never persisted — same lifecycle as the cap-hit/doom-loop
// summary notes, which live only inside the in-memory messages array.
if (pendingRecoveryNote) {
messages.push({ role: 'system', content: pendingRecoveryNote });
pendingRecoveryNote = undefined;
}
const iterArgs: TurnArgs = { sessionId, chatId, assistantMessageId, toolsUsed, recentToolCalls, mistakeTracker, signal };
const state: StreamPhaseState = { accumulated: '', startedAt: null };
let result: StreamResult;
try {
result = await executeStreamPhase(ctx, iterArgs, iterSession, messages, state, agent, webToolsEnabled);
} catch (err) {
await handleAbortOrError(ctx, iterArgs, state.accumulated, err);
break;
}
// ---- non-tool finish → finalize and exit ----
if (result.toolCalls.length === 0) {
// vWhale: Stop hook (best-effort, non-blocking).
if (ctx.hooks) {
ctx.hooks.run('Stop', {
event: 'Stop',
session_id: sessionId,
chat_id: chatId,
last_assistant_text: result.content.slice(0, 500),
turn: stepNumber,
}).catch(() => {});
// ---- load context (must re-load each iteration — new messages since last step) ----
const loaded = await loadContext(ctx.sql, sessionId, chatId);
if (!loaded) {
ctx.log.warn({ sessionId }, 'inference: session or project missing mid-loop');
break;
}
await finalizeCompletion(ctx, iterArgs, result, state.startedAt, iterSession);
break;
}
let { session: iterSession, project: iterProject, history } = loaded;
if (args.modelOverride) {
iterSession = { ...iterSession, model: args.modelOverride };
}
const projectRoot = await resolveProjectRoot(iterProject.path);
// ---- steps: 0 edge case ----
// effectiveCap check above guarantees we're inside the loop, but this
// guard handles the theoretical case where the model emits tool calls
// on step 0 when effectiveCap would have been 0 (impossible since the
// while condition prevents entry, but kept for safety). If effectiveCap
// is 1 and we're on step 0, tool calls ARE executed — steps counts
// iterations, not post-first-stream.
try {
const dcpMsgs = toDcpMessages(history);
const { messages: pruned, stats } = transformMessages(chatId, dcpMsgs);
if (stats.removedCount > 0) {
ctx.log.info({ chatId, ...stats }, 'dcp: transform removed messages');
history = fromDcpMessages(pruned) as typeof history;
}
} catch (err) {
ctx.log.warn({ err: err instanceof Error ? err.message : String(err), chatId }, 'dcp: transform skipped');
}
// ---- tool phase ----
let toolPhaseResult: ToolPhaseResult;
try {
toolPhaseResult = await executeToolPhase(ctx, iterArgs, result, state.startedAt, iterSession, projectRoot, agent, stepNumber);
} catch (err) {
// Tool phase errors are unexpected (individual tool failures are
// caught inside executeToolPhase). Log and break.
ctx.log.error({ err, sessionId, chatId, step: stepNumber }, 'tool phase threw unexpectedly');
break;
}
// v1.14.0: log step boundary for instrumentation. step_start parts are in
// the schema CHECK but not emitted here — writing to the assistant message
// before the stream phase creates a sequence-0 collision with
// partsFromAssistantMessage. A WS frame or structured log is sufficient
// since the frontend doesn't render step boundaries in v1.14.
ctx.log.info({ sessionId, chatId, step: stepNumber, assistantMessageId }, 'step_start');
// ---- update loop locals ----
toolsUsed += toolPhaseResult.toolCallCount;
recentToolCalls = [...recentToolCalls, ...toolPhaseResult.toolCalls];
stepNumber++;
// ---- build messages + stream phase ----
const messages = await buildMessagesPayload(iterSession, iterProject, history, agent, ctx.log);
const webToolsEnabled =
iterSession.web_search_enabled ?? iterProject.default_web_search_enabled ?? false;
// v#12 MistakeTracker: fold this iteration's tool outcomes into the
// tracker, in order. recordStep mutates `mistakeTracker` in place (it is
// the same object referenced by args). A 'success' clears the streak.
for (const o of toolPhaseResult.outcomes) {
recordStep(mistakeTracker, o);
}
if (stepNumber === 0 && webToolsEnabled && messages.length >= 2) {
const lastUserMsg = [...messages].reverse().find((m) => m.role === 'user');
if (lastUserMsg?.content) {
const hint = await rewriteSearchQuery(lastUserMsg.content);
if (hint && messages[0]?.role === 'system' && messages[0].content) {
messages[0].content += `\n\nThe user's search intent can be summarized as: "${hint}"`;
}
}
}
// vWhale: auto-fix — after write tools, attempt build and inject errors.
const WRITE_TOOLS = new Set(['edit_file', 'create_file', 'delete_file', 'apply_pending']);
const hasWriteTools = toolPhaseResult.toolCalls.some((tc) => WRITE_TOOLS.has(tc.name));
if (hasWriteTools) {
detectAndRunBuild(ctx, projectRoot, sessionId, chatId, iterSession.model, pendingRecoveryNote)
.then((buildError) => {
if (buildError) pendingRecoveryNote = buildError;
})
.catch(() => {});
}
// v#12 MistakeTracker: if the prior iteration's nudge fired, append the
// transient recovery note to THIS payload (consumed exactly once, then
// cleared). Never persisted — same lifecycle as the cap-hit/doom-loop
// summary notes, which live only inside the in-memory messages array.
if (pendingRecoveryNote) {
messages.push({ role: 'system', content: pendingRecoveryNote });
pendingRecoveryNote = undefined;
}
// v#12 MistakeTracker: post-tool decision (pure). 'stop' = the tool phase
// returned a non-'continue' action ('paused' for user input, or
// 'synthesis_done') — neither a nudge nor an escalate would change the
// control flow, so the mistake check is skipped. On 'continue' the
// heterogeneous-failure pattern gates nudge/escalate/continue. Complements
// the doom-loop gate above, which only catches *identical* repeats.
const post = decidePostToolAction(toolPhaseResult.action, mistakeTracker);
if (post === 'stop') {
break;
}
if (post === 'nudge') {
// Soft intervention: inject model-facing recovery guidance into the NEXT
// step's payload, drop a UI sentinel, bump nudges, reset the streak, and
// continue. The note is consumed (and cleared) at the top of the next
// iteration's payload build.
pendingRecoveryNote = MISTAKE_RECOVERY_NOTE;
const failureKinds = [...mistakeTracker.run];
await insertMistakeRecoverySentinel(ctx, sessionId, chatId, {
failureKinds,
count: failureKinds.length,
escalated: false,
canContinue: true,
});
mistakeTracker.nudges += 1;
mistakeTracker.run = [];
ctx.log.info(
{ sessionId, chatId, step: stepNumber, nudges: mistakeTracker.nudges, failureKinds },
'mistake_recovery nudge',
);
const iterArgs: TurnArgs = { sessionId, chatId, assistantMessageId, toolsUsed, recentToolCalls, mistakeTracker, signal };
const state: StreamPhaseState = { accumulated: '', startedAt: null };
let result: StreamResult;
try {
result = await executeStreamPhase(ctx, iterArgs, iterSession, messages, state, agent, webToolsEnabled);
} catch (err) {
await handleAbortOrError(ctx, iterArgs, state.accumulated, err);
break;
}
// ---- non-tool finish → finalize and exit ----
if (result.toolCalls.length === 0) {
// vWhale: Stop hook (best-effort, non-blocking).
if (ctx.hooks) {
ctx.hooks.run('Stop', {
event: 'Stop',
session_id: sessionId,
chat_id: chatId,
last_assistant_text: result.content.slice(0, 500),
turn: stepNumber,
}).catch(() => {});
}
await finalizeCompletion(ctx, iterArgs, result, state.startedAt, iterSession);
break;
}
// ---- steps: 0 edge case ----
// effectiveCap check above guarantees we're inside the loop, but this
// guard handles the theoretical case where the model emits tool calls
// on step 0 when effectiveCap would have been 0 (impossible since the
// while condition prevents entry, but kept for safety). If effectiveCap
// is 1 and we're on step 0, tool calls ARE executed — steps counts
// iterations, not post-first-stream.
// ---- tool phase ----
let toolPhaseResult: ToolPhaseResult;
try {
toolPhaseResult = await executeToolPhase(ctx, iterArgs, result, state.startedAt, iterSession, projectRoot, agent, stepNumber);
} catch (err) {
// Tool phase errors are unexpected (individual tool failures are
// caught inside executeToolPhase). Log and break.
ctx.log.error({ err, sessionId, chatId, step: stepNumber }, 'tool phase threw unexpectedly');
break;
}
// ---- update loop locals ----
toolsUsed += toolPhaseResult.toolCallCount;
recentToolCalls = [...recentToolCalls, ...toolPhaseResult.toolCalls];
stepNumber++;
// v#12 MistakeTracker: fold this iteration's tool outcomes into the
// tracker, in order. recordStep mutates `mistakeTracker` in place (it is
// the same object referenced by args). A 'success' clears the streak.
for (const o of toolPhaseResult.outcomes) {
recordStep(mistakeTracker, o);
}
// vWhale: auto-fix — after write tools, attempt build and inject errors.
const WRITE_TOOLS = new Set(['edit_file', 'create_file', 'delete_file', 'apply_pending']);
const hasWriteTools = toolPhaseResult.toolCalls.some((tc) => WRITE_TOOLS.has(tc.name));
if (hasWriteTools) {
detectAndRunBuild(ctx, projectRoot, sessionId, chatId, iterSession.model, pendingRecoveryNote)
.then((buildError) => {
if (buildError) pendingRecoveryNote = buildError;
})
.catch(() => {});
}
// v#12 MistakeTracker: post-tool decision (pure). 'stop' = the tool phase
// returned a non-'continue' action ('paused' for user input, or
// 'synthesis_done') — neither a nudge nor an escalate would change the
// control flow, so the mistake check is skipped. On 'continue' the
// heterogeneous-failure pattern gates nudge/escalate/continue. Complements
// the doom-loop gate above, which only catches *identical* repeats.
const post = decidePostToolAction(toolPhaseResult.action, mistakeTracker);
if (post === 'stop') {
break;
}
if (post === 'nudge') {
// Soft intervention: inject model-facing recovery guidance into the NEXT
// step's payload, drop a UI sentinel, bump nudges, reset the streak, and
// continue. The note is consumed (and cleared) at the top of the next
// iteration's payload build.
pendingRecoveryNote = MISTAKE_RECOVERY_NOTE;
const failureKinds = [...mistakeTracker.run];
await insertMistakeRecoverySentinel(ctx, sessionId, chatId, {
failureKinds,
count: failureKinds.length,
escalated: false,
canContinue: true,
});
mistakeTracker.nudges += 1;
mistakeTracker.run = [];
ctx.log.info(
{ sessionId, chatId, step: stepNumber, nudges: mistakeTracker.nudges, failureKinds },
'mistake_recovery nudge',
);
assistantMessageId = toolPhaseResult.nextAssistantId!;
continue;
}
if (post === 'escalate') {
// The nudge didn't break the failure run — stop the turn (cap-hit-style)
// to avoid burning the whole step budget on heterogeneous failures. The
// next assistant row is still 'streaming'; finalize it as an empty
// complete row so the slot doesn't dangle, then drop the escalate
// sentinel.
const failureKinds = [...mistakeTracker.run];
assistantMessageId = toolPhaseResult.nextAssistantId!;
const escalateArgs: TurnArgs = { sessionId, chatId, assistantMessageId, toolsUsed, recentToolCalls, mistakeTracker, signal };
await finalizeEmpty(ctx, escalateArgs);
await insertMistakeRecoverySentinel(ctx, sessionId, chatId, {
failureKinds,
count: failureKinds.length,
escalated: true,
canContinue: true,
});
ctx.publishUser({ type: 'chat_status', chat_id: chatId, status: 'idle', at: new Date().toISOString() });
ctx.log.info(
{ sessionId, chatId, step: stepNumber, failureKinds },
'mistake_recovery escalate — stopping turn',
);
break;
}
// 'continue' — advance to next assistant message.
assistantMessageId = toolPhaseResult.nextAssistantId!;
continue;
}
if (post === 'escalate') {
// The nudge didn't break the failure run — stop the turn (cap-hit-style)
// to avoid burning the whole step budget on heterogeneous failures. The
// next assistant row is still 'streaming'; finalize it as an empty
// complete row so the slot doesn't dangle, then drop the escalate
// sentinel.
const failureKinds = [...mistakeTracker.run];
assistantMessageId = toolPhaseResult.nextAssistantId!;
const escalateArgs: TurnArgs = { sessionId, chatId, assistantMessageId, toolsUsed, recentToolCalls, mistakeTracker, signal };
await finalizeEmpty(ctx, escalateArgs);
await insertMistakeRecoverySentinel(ctx, sessionId, chatId, {
failureKinds,
count: failureKinds.length,
escalated: true,
canContinue: true,
});
ctx.publishUser({ type: 'chat_status', chat_id: chatId, status: 'idle', at: new Date().toISOString() });
ctx.log.info(
{ sessionId, chatId, step: stepNumber, failureKinds },
'mistake_recovery escalate — stopping turn',
);
break;
}
// 'continue' — advance to next assistant message.
assistantMessageId = toolPhaseResult.nextAssistantId!;
}
// vWhale: Stop hook at post-loop exit (best-effort, non-blocking).
@@ -438,8 +486,9 @@ export async function runAssistantTurn(
if (stepNumber >= effectiveCap && effectiveCap < Infinity) {
const loaded = await loadContext(ctx.sql, sessionId, chatId);
if (loaded) {
const scSession = args.modelOverride ? { ...loaded.session, model: args.modelOverride } : loaded.session;
const capArgs: TurnArgs = { sessionId, chatId, assistantMessageId, toolsUsed, recentToolCalls, mistakeTracker, signal };
await runStepCapSummary(ctx, capArgs, loaded.session, loaded.project, loaded.history, agent, stepNumber, effectiveCap);
await runStepCapSummary(ctx, capArgs, scSession, loaded.project, loaded.history, agent, stepNumber, effectiveCap);
}
}
}
@@ -510,6 +559,31 @@ export async function runInference(
});
}
// v2.8-compare: run inference with a model override and compare group id.
// Used by the compare endpoint to run the same message through N models in
// parallel. Each call publishes frames scoped to its compare_group_id.
export async function runInferenceWithModel(
ctx: InferenceContext,
sessionId: string,
chatId: string,
assistantMessageId: string,
modelOverride: string,
compareGroupId: string,
signal?: AbortSignal,
): Promise<void> {
return runAssistantTurn(ctx, {
sessionId,
chatId,
assistantMessageId,
toolsUsed: 0,
recentToolCalls: [],
mistakeTracker: freshMistakeState(),
modelOverride,
compareGroupId,
signal,
});
}
// v1.8.2: cap-hit summary flow. Called instead of erroring when the loop
// hits its budget. Reuses the in-flight assistant message slot to stream a
// short wrap-up reply with the synthetic note prepended and tools disabled,

14
apps/server/src/services/inference/types.ts
View File

@@ -52,7 +52,9 @@ export interface InferenceFrame {
// arena frames
| 'battle_started'
| 'contestant_updated'
| 'battle_updated';
| 'battle_updated'
// inter-agent message
| 'agent_message';
message_id?: string;
message_ids?: string[];
chat_id?: string;
@@ -103,6 +105,11 @@ export interface InferenceFrame {
status?: string;
run_status?: 'running' | 'completed' | 'failed' | 'cancelled';
report?: string;
// v2.8-compare: groups messages belonging to the same compare operation.
compare_group_id?: string;
// inter-agent message
sender_step_id?: string;
channel?: string;
// arena frames
battle_id?: string;
battle_type?: 'coding' | 'qa';
@@ -177,5 +184,10 @@ export interface TurnArgs {
// Never persisted — mirrors how the cap-hit/doom-loop notes live only inside
// the summary call's messages array.
pendingRecoveryNote?: string;
// v2.8-compare: when set, overrides the session model for this single turn.
// Used by the compare endpoint to run the same message through N models.
modelOverride?: string;
// v2.8-compare: opaque group id that rides on every published frame.
compareGroupId?: string;
signal: AbortSignal | undefined;
}

13
apps/server/src/services/mcp-client.ts
View File

@@ -148,6 +148,19 @@ export function getServerPermission(prefixedToolName: string): McpPermission {
return state?.permission ?? 'allow';
}
/** Override the permission for a server. Used by the approval flow. */
export function setServerPermission(serverName: string, permission: McpPermission): void {
const state = servers.get(serverName);
if (state) {
state.permission = permission;
}
}
/** Get the server name from a prefixed tool name. Returns null if not an MCP tool. */
export function getServerName(prefixedToolName: string): string | null {
return toolToServer.get(prefixedToolName) ?? null;
}
/** Return all wrapped ToolDefs from all connected servers, flattened. */
export function getTools(): ToolDef<Record<string, unknown>>[] {
const all: ToolDef<Record<string, unknown>>[] = [];

5
apps/server/src/services/memory/index.ts
View File

@@ -3,9 +3,4 @@ export { formatMemoryBlock } from './prompt.js';
export { scanMemoryScopes } from './scan.js';
export { parseMemoryEntries } from './entries.js';
export { ensureMemoryScaffold, getMemoryRoot } from './paths.js';
export { ContextTier } from './context-tier.js';
export { DeepDream } from './deep-dream.js';
export { CoreTier } from './core-tier.js';
export type { MemoryEntry } from './entries.js';
export type { ContextTierConfig, ConversationTurn } from './context-tier.js';
export type { CoreTierEntry, CoreTierSearchResult, CoreTierSearchOptions } from './core-tier.js';

61
apps/server/src/services/tools/codecontext/get_wiki_article.ts Normal file
View File

@@ -0,0 +1,61 @@
import { z } from 'zod';
import type { ToolDef } from '../types.js';
import { callBoocontext } from '../../boocontext_client.js';
export const GetWikiArticleInput = z.object({
article: z.string().min(1).describe('Article name (e.g. "auth", "database", "routes")'),
directory: z.string().optional().describe('Project directory'),
});
export type GetWikiArticleInputT = z.infer<typeof GetWikiArticleInput>;
const DESCRIPTION =
'Returns a persistent codebase wiki article by name (auth, database, routes, etc.). ' +
'Generated on first request and cached to disk. Avoids running expensive full-scan tools for targeted documentation.';
/**
* Standalone execute function — calls the boocontext MCP server's
* codesight_get_wiki_article tool and returns the article text.
*
* Structured for direct test access: accepts input + projectPath,
* no side effects beyond the MCP call.
*/
export async function executeGetWikiArticle(
input: GetWikiArticleInputT,
projectPath: string,
): Promise<string> {
const args: Record<string, unknown> = { article: input.article };
if (input.directory) args['directory'] = input.directory!;
const resp = await callBoocontext({ toolName: 'codesight_get_wiki_article', args });
return resp.result;
}
export const getWikiArticle: ToolDef<GetWikiArticleInputT> = {
name: 'get_wiki_article',
description: DESCRIPTION,
inputSchema: GetWikiArticleInput,
jsonSchema: {
type: 'function',
function: {
name: 'get_wiki_article',
description: DESCRIPTION,
parameters: {
type: 'object',
properties: {
article: {
type: 'string',
description: 'Article name (e.g. "auth", "database", "routes")',
},
directory: {
type: 'string',
description: 'Project directory',
},
},
required: ['article'],
additionalProperties: false,
},
},
},
async execute(input, projectRoot) {
return executeGetWikiArticle(input, projectRoot);
},
};

160
apps/server/src/services/tools/manage_memory.ts Normal file
View File

@@ -0,0 +1,160 @@
import { z } from 'zod';
import { existsSync } from 'node:fs';
import { writeFile, unlink } from 'node:fs/promises';
import { join } from 'node:path';
import type { ToolDef } from '../tools/types.js';
import { ensureMemoryScaffold, getMemoryRoot } from '../memory/paths.js';
import { writeEntry, readTopicFiles } from '../memory/store.js';
const ManageMemoryInput = z.object({
topic: z.enum(['project', 'user', 'reference']).describe('Memory topic category'),
title: z.string().min(1).max(200).describe('Entry title (used as identifier for update/delete)'),
content: z.string().optional().describe('Memory content body (required for create/update)'),
tags: z.array(z.string()).optional().describe('Optional tags for search'),
action: z.enum(['create', 'update', 'delete']).describe('Action to perform'),
});
type InputT = z.infer<typeof ManageMemoryInput>;
function titleToFilename(title: string): string {
return (
title
.toLowerCase()
.replace(/[^a-z0-9]+/g, '-')
.replace(/(^-|-$)/g, '') + '.md'
);
}
/**
* Try to update the CoreTier SQLite database in addition to the file store.
* This is best-effort — CoreTier is optional (file store is primary).
*/
async function syncCoreTier(
_root: string,
_topic: string,
_title: string,
_content: string,
_tags: string[],
): Promise<void> {
// CoreTier SQLite backend is not available in this build — file store only.
}
export const manageMemoryTool: ToolDef<InputT> = {
name: 'manage_memory',
description:
'Create, update, or delete memory entries in .boocode/memory/ for cross-session recall. ' +
'Use to persist project conventions, user preferences, and architectural decisions. ' +
'Actions: create (write new entry), update (modify existing entry), delete (remove entry).',
inputSchema: ManageMemoryInput,
jsonSchema: {
type: 'function',
function: {
name: 'manage_memory',
description: 'Manage memory entries — create, update, or delete',
parameters: {
type: 'object',
properties: {
topic: {
type: 'string',
enum: ['project', 'user', 'reference'],
description: 'Memory topic category',
},
title: { type: 'string', description: 'Entry title (identifier for update/delete)' },
content: {
type: 'string',
description: 'Memory content body (required for create/update)',
},
tags: {
type: 'array',
items: { type: 'string' },
description: 'Optional tags for search',
},
action: {
type: 'string',
enum: ['create', 'update', 'delete'],
description: 'Action to perform',
},
},
required: ['topic', 'title', 'action'],
},
},
},
async execute(input: InputT, projectRoot: string): Promise<unknown> {
const root = getMemoryRoot(projectRoot);
await ensureMemoryScaffold(root);
const filename = titleToFilename(input.title);
if (input.action === 'create') {
if (!input.content) {
return { error: 'Content is required for create action.' };
}
await writeEntry(root, input.topic, input.title, input.content, input.tags ?? []);
await syncCoreTier(root, input.topic, input.title, input.content, input.tags ?? []);
return {
result: `Memory entry "${input.title}" created in .boocode/memory/${input.topic}/`,
};
}
if (input.action === 'update') {
if (!input.content) {
return { error: 'Content is required for update action.' };
}
// Resolve target file path — try computed filename first, then heading match
let targetPath = join(root, input.topic, filename);
if (!existsSync(targetPath)) {
const files = await readTopicFiles(root, input.topic);
const matched = [...files.keys()].find((name) => {
const content = files.get(name);
return content?.trimStart().startsWith(`## ${input.topic}: ${input.title}`);
});
if (matched) {
targetPath = join(root, input.topic, matched);
} else {
return {
error: `Memory entry "${input.title}" not found in .boocode/memory/${input.topic}/`,
};
}
}
const tagLine =
(input.tags ?? []).length > 0
? `> tags: ${(input.tags ?? []).join(', ')}\n\n`
: '\n';
const entry = `## ${input.topic}: ${input.title}\n${tagLine}${input.content}\n`;
await writeFile(targetPath, entry, 'utf8');
await syncCoreTier(root, input.topic, input.title, input.content, input.tags ?? []);
return {
result: `Memory entry "${input.title}" updated in .boocode/memory/${input.topic}/`,
};
}
if (input.action === 'delete') {
// Resolve target file path
let targetPath = join(root, input.topic, filename);
if (!existsSync(targetPath)) {
const files = await readTopicFiles(root, input.topic);
const matched = [...files.keys()].find((name) => {
const content = files.get(name);
return content?.trimStart().startsWith(`## ${input.topic}: ${input.title}`);
});
if (matched) {
targetPath = join(root, input.topic, matched);
} else {
return {
error: `Memory entry "${input.title}" not found in .boocode/memory/${input.topic}/`,
};
}
}
await unlink(targetPath);
return {
result: `Memory entry "${input.title}" deleted from .boocode/memory/${input.topic}/`,
};
}
return { error: `Unknown action: ${input.action}` };
},
};

4
apps/server/src/types/api.ts
View File

@@ -52,6 +52,9 @@ export interface Session {
// path_guard's extraRoots check consults this list before refusing reads
// outside the primary project root.
allowed_read_paths: string[];
// v[state-graph]: optional declarative state-graph engine. Default false
// when the column is absent on existing DBs (ALTER TABLE .. DEFAULT FALSE).
state_graph_enabled: boolean;
}
// v1.14.x-html-artifact-panes: 'markdown_artifact' + 'html_artifact' added.
@@ -153,6 +156,7 @@ export interface Chat {
id: string;
session_id: string;
name: string | null;
model: string | null;
status: ChatStatus;
created_at: string;
updated_at: string;