import type { AgentMessage } from "@mariozechner/pi-agent-core"; import { beforeEach, describe, expect, it, vi } from "vitest"; import { compactEmbeddedPiSessionDirect } from "../agents/pi-embedded-runner/compact.runtime.js"; import type { OpenClawConfig } from "../config/types.openclaw.js"; // --------------------------------------------------------------------------- // We dynamically import the registry so we can get a fresh module per test // group when needed. For most groups we use the shared singleton directly. // --------------------------------------------------------------------------- import { delegateCompactionToRuntime } from "./delegate.js"; import { LegacyContextEngine, registerLegacyContextEngine } from "./legacy.js"; import { registerContextEngine, registerContextEngineForOwner, getContextEngineFactory, listContextEngineIds, resolveContextEngine, } from "./registry.js"; import type { ContextEngineFactory, ContextEngineRegistrationResult } from "./registry.js"; import type { ContextEngine, ContextEngineInfo, AssembleResult, CompactResult, ContextEngineMaintenanceResult, IngestResult, } from "./types.js"; vi.mock("../agents/pi-embedded-runner/compact.runtime.js", () => ({ compactEmbeddedPiSessionDirect: vi.fn(async () => ({ ok: true, compacted: false, reason: "mock compaction", result: { summary: "", firstKeptEntryId: "", tokensBefore: 0, tokensAfter: 0, details: undefined, }, })), })); const mockedCompactEmbeddedPiSessionDirect = vi.mocked(compactEmbeddedPiSessionDirect); // --------------------------------------------------------------------------- // Helpers // --------------------------------------------------------------------------- /** Build a config object with a contextEngine slot for testing. */ function configWithSlot(engineId: string): OpenClawConfig { return { plugins: { slots: { contextEngine: engineId } } }; } function makeMockMessage(role: "user" | "assistant" = "user", text = "hello"): AgentMessage { return { role, content: text, timestamp: Date.now() } as AgentMessage; } function registerPromptTrackingEngine(engineId: string) { const calls: Array> = []; registerContextEngine(engineId, () => ({ info: { id: engineId, name: "Prompt Tracker", version: "0.0.0" }, async ingest() { return { ingested: false }; }, async assemble(params) { calls.push({ ...params }); return { messages: params.messages, estimatedTokens: 0 }; }, async compact() { return { ok: true, compacted: false }; }, })); return calls; } /** A minimal mock engine that satisfies the ContextEngine interface. */ class MockContextEngine implements ContextEngine { readonly info: ContextEngineInfo = { id: "mock", name: "Mock Engine", version: "0.0.1", }; async ingest(_params: { sessionId: string; sessionKey?: string; message: AgentMessage; isHeartbeat?: boolean; }): Promise { return { ingested: true }; } async assemble(params: { sessionId: string; sessionKey?: string; messages: AgentMessage[]; tokenBudget?: number; }): Promise { return { messages: params.messages, estimatedTokens: 42, systemPromptAddition: "mock system addition", }; } async compact(_params: { sessionId: string; sessionKey?: string; sessionFile: string; tokenBudget?: number; compactionTarget?: "budget" | "threshold"; customInstructions?: string; runtimeContext?: Record; }): Promise { return { ok: true, compacted: true, reason: "mock compaction", result: { summary: "mock summary", tokensBefore: 100, tokensAfter: 50, }, }; } async dispose(): Promise { // no-op } } class LegacySessionKeyStrictEngine implements ContextEngine { readonly info: ContextEngineInfo = { id: "legacy-sessionkey-strict", name: "Legacy SessionKey Strict Engine", }; readonly ingestCalls: Array> = []; readonly assembleCalls: Array> = []; readonly compactCalls: Array> = []; readonly maintainCalls: Array> = []; readonly ingestedMessages: AgentMessage[] = []; private rejectSessionKey(params: { sessionKey?: string }): void { if (Object.prototype.hasOwnProperty.call(params, "sessionKey")) { throw new Error("Unrecognized key(s) in object: 'sessionKey'"); } } async ingest(params: { sessionId: string; sessionKey?: string; message: AgentMessage; isHeartbeat?: boolean; }): Promise { this.ingestCalls.push({ ...params }); this.rejectSessionKey(params); this.ingestedMessages.push(params.message); return { ingested: true }; } async assemble(params: { sessionId: string; sessionKey?: string; messages: AgentMessage[]; tokenBudget?: number; prompt?: string; }): Promise { this.assembleCalls.push({ ...params }); this.rejectSessionKey(params); return { messages: params.messages, estimatedTokens: 7, }; } async compact(params: { sessionId: string; sessionKey?: string; sessionFile: string; tokenBudget?: number; compactionTarget?: "budget" | "threshold"; customInstructions?: string; runtimeContext?: Record; }): Promise { this.compactCalls.push({ ...params }); this.rejectSessionKey(params); return { ok: true, compacted: true, result: { tokensBefore: 50, tokensAfter: 25, }, }; } async maintain(params: { sessionId: string; sessionKey?: string; sessionFile: string; runtimeContext?: Record; }): Promise { this.maintainCalls.push({ ...params }); this.rejectSessionKey(params); return { changed: false, bytesFreed: 0, rewrittenEntries: 0, }; } } class SessionKeyRuntimeErrorEngine implements ContextEngine { readonly info: ContextEngineInfo = { id: "sessionkey-runtime-error", name: "SessionKey Runtime Error Engine", }; assembleCalls = 0; constructor(private readonly errorMessage = "sessionKey lookup failed") {} async ingest(_params: { sessionId: string; sessionKey?: string; message: AgentMessage; isHeartbeat?: boolean; }): Promise { return { ingested: true }; } async assemble(_params: { sessionId: string; sessionKey?: string; messages: AgentMessage[]; tokenBudget?: number; }): Promise { this.assembleCalls += 1; throw new Error(this.errorMessage); } async compact(_params: { sessionId: string; sessionKey?: string; sessionFile: string; tokenBudget?: number; compactionTarget?: "budget" | "threshold"; customInstructions?: string; runtimeContext?: Record; }): Promise { return { ok: true, compacted: false, }; } } class LegacyAssembleStrictEngine implements ContextEngine { readonly info: ContextEngineInfo = { id: "legacy-assemble-strict", name: "Legacy Assemble Strict Engine", }; readonly assembleCalls: Array> = []; async ingest(_params: { sessionId: string; sessionKey?: string; message: AgentMessage; isHeartbeat?: boolean; }): Promise { return { ingested: true }; } async assemble(params: { sessionId: string; sessionKey?: string; messages: AgentMessage[]; tokenBudget?: number; prompt?: string; }): Promise { this.assembleCalls.push({ ...params }); if (Object.prototype.hasOwnProperty.call(params, "sessionKey")) { throw new Error("Unrecognized key(s) in object: 'sessionKey'"); } if (Object.prototype.hasOwnProperty.call(params, "prompt")) { throw new Error("Unrecognized key(s) in object: 'prompt'"); } return { messages: params.messages, estimatedTokens: 3, }; } async compact(_params: { sessionId: string; sessionKey?: string; sessionFile: string; tokenBudget?: number; compactionTarget?: "budget" | "threshold"; customInstructions?: string; runtimeContext?: Record; }): Promise { return { ok: true, compacted: false, }; } } // ═══════════════════════════════════════════════════════════════════════════ // 1. Engine contract tests // ═══════════════════════════════════════════════════════════════════════════ describe("Engine contract tests", () => { beforeEach(() => { mockedCompactEmbeddedPiSessionDirect.mockClear(); }); it("a mock engine implementing ContextEngine can be registered and resolved", async () => { const factory = () => new MockContextEngine(); registerContextEngine("mock", factory); const resolved = getContextEngineFactory("mock"); expect(resolved).toBe(factory); const engine = await resolved!(); expect(engine).toBeInstanceOf(MockContextEngine); expect(engine.info.id).toBe("mock"); }); it("legacy compact preserves runtimeContext currentTokenCount when top-level value is absent", async () => { const engine = new LegacyContextEngine(); await engine.compact({ sessionId: "s1", sessionFile: "/tmp/session.json", runtimeContext: { workspaceDir: "/tmp/workspace", currentTokenCount: 277403, }, }); expect(mockedCompactEmbeddedPiSessionDirect).toHaveBeenCalledWith( expect.objectContaining({ currentTokenCount: 277403, }), ); }); it("delegateCompactionToRuntime reuses the legacy runtime bridge", async () => { const result = await delegateCompactionToRuntime({ sessionId: "s2", sessionFile: "/tmp/session.json", tokenBudget: 4096, runtimeContext: { workspaceDir: "/tmp/workspace", currentTokenCount: 12345, }, }); expect(mockedCompactEmbeddedPiSessionDirect).toHaveBeenCalledWith( expect.objectContaining({ sessionId: "s2", sessionFile: "/tmp/session.json", tokenBudget: 4096, currentTokenCount: 12345, workspaceDir: "/tmp/workspace", }), ); expect(result).toEqual({ ok: true, compacted: false, reason: "mock compaction", result: { summary: "", firstKeptEntryId: "", tokensBefore: 0, tokensAfter: 0, details: undefined, }, }); }); }); // ═══════════════════════════════════════════════════════════════════════════ // 2. Registry tests // ═══════════════════════════════════════════════════════════════════════════ describe("Registry tests", () => { it("registerContextEngine() stores retrievable factories", () => { const factory = () => new MockContextEngine(); registerContextEngine("reg-test-2", factory); const retrieved = getContextEngineFactory("reg-test-2"); expect(retrieved).toBe(factory); expect(typeof retrieved).toBe("function"); }); it("listContextEngineIds() returns all registered ids", () => { // Ensure at least our test entries exist registerContextEngine("reg-test-a", () => new MockContextEngine()); registerContextEngine("reg-test-b", () => new MockContextEngine()); const ids = listContextEngineIds(); expect(ids).toContain("reg-test-a"); expect(ids).toContain("reg-test-b"); expect(Array.isArray(ids)).toBe(true); }); it("registering the same id with the same owner refreshes the factory", () => { const factory1 = () => new MockContextEngine(); const factory2 = () => new MockContextEngine(); expect( registerContextEngineForOwner("reg-overwrite", factory1, "owner-a", { allowSameOwnerRefresh: true, }), ).toEqual({ ok: true }); expect(getContextEngineFactory("reg-overwrite")).toBe(factory1); expect( registerContextEngineForOwner("reg-overwrite", factory2, "owner-a", { allowSameOwnerRefresh: true, }), ).toEqual({ ok: true }); expect(getContextEngineFactory("reg-overwrite")).toBe(factory2); expect(getContextEngineFactory("reg-overwrite")).not.toBe(factory1); }); it("rejects context engine registrations from a different owner", () => { const factory1 = () => new MockContextEngine(); const factory2 = () => new MockContextEngine(); expect( registerContextEngineForOwner("reg-owner-guard", factory1, "owner-a", { allowSameOwnerRefresh: true, }), ).toEqual({ ok: true }); expect(registerContextEngineForOwner("reg-owner-guard", factory2, "owner-b")).toEqual({ ok: false, existingOwner: "owner-a", }); expect(getContextEngineFactory("reg-owner-guard")).toBe(factory1); }); it("public registerContextEngine cannot spoof owner or refresh existing ids", () => { const ownedFactory = () => new MockContextEngine(); expect( registerContextEngineForOwner("public-owner-guard", ownedFactory, "owner-a", { allowSameOwnerRefresh: true, }), ).toEqual({ ok: true }); const spoofAttempt = ( registerContextEngine as unknown as ( id: string, factory: ContextEngineFactory, opts?: { owner?: string }, ) => ContextEngineRegistrationResult )("public-owner-guard", () => new MockContextEngine(), { owner: "owner-a" }); expect(spoofAttempt).toEqual({ ok: false, existingOwner: "owner-a", }); expect(getContextEngineFactory("public-owner-guard")).toBe(ownedFactory); }); it("public registerContextEngine reserves the default legacy id", () => { const legacyAttempt = ( registerContextEngine as unknown as ( id: string, factory: ContextEngineFactory, opts?: { owner?: string }, ) => ContextEngineRegistrationResult )("legacy", () => new MockContextEngine(), { owner: "core" }); expect(legacyAttempt).toEqual({ ok: false, existingOwner: "core", }); }); it("shares registered engines across duplicate module copies", async () => { const registryUrl = new URL("./registry.ts", import.meta.url).href; const suffix = Date.now().toString(36); const first = await import(/* @vite-ignore */ `${registryUrl}?copy=${suffix}-a`); const second = await import(/* @vite-ignore */ `${registryUrl}?copy=${suffix}-b`); const engineId = `dup-copy-${suffix}`; const factory = () => new MockContextEngine(); first.registerContextEngine(engineId, factory); expect(second.getContextEngineFactory(engineId)).toBe(factory); }); }); // ═══════════════════════════════════════════════════════════════════════════ // 3. Default engine selection // ═══════════════════════════════════════════════════════════════════════════ describe("Legacy sessionKey compatibility", () => { it("memoizes legacy mode after the first strict compatibility retry", async () => { const engineId = `legacy-sessionkey-${Date.now().toString(36)}`; const strictEngine = new LegacySessionKeyStrictEngine(); registerContextEngine(engineId, () => strictEngine); const engine = await resolveContextEngine(configWithSlot(engineId)); const firstAssembled = await engine.assemble({ sessionId: "s1", sessionKey: "agent:main:test", messages: [makeMockMessage()], }); const compacted = await engine.compact({ sessionId: "s1", sessionKey: "agent:main:test", sessionFile: "/tmp/session.json", }); expect(firstAssembled.estimatedTokens).toBe(7); expect(compacted.compacted).toBe(true); expect(strictEngine.assembleCalls).toHaveLength(2); expect(strictEngine.assembleCalls[0]).toHaveProperty("sessionKey", "agent:main:test"); expect(strictEngine.assembleCalls[1]).not.toHaveProperty("sessionKey"); expect(strictEngine.compactCalls).toHaveLength(1); expect(strictEngine.compactCalls[0]).not.toHaveProperty("sessionKey"); }); it("retries strict ingest once and ingests each message only once", async () => { const engineId = `legacy-sessionkey-ingest-${Date.now().toString(36)}`; const strictEngine = new LegacySessionKeyStrictEngine(); registerContextEngine(engineId, () => strictEngine); const engine = await resolveContextEngine(configWithSlot(engineId)); const firstMessage = makeMockMessage("user", "first"); const secondMessage = makeMockMessage("assistant", "second"); await engine.ingest({ sessionId: "s1", sessionKey: "agent:main:test", message: firstMessage, }); await engine.ingest({ sessionId: "s1", sessionKey: "agent:main:test", message: secondMessage, }); expect(strictEngine.ingestCalls).toHaveLength(3); expect(strictEngine.ingestCalls[0]).toHaveProperty("sessionKey", "agent:main:test"); expect(strictEngine.ingestCalls[1]).not.toHaveProperty("sessionKey"); expect(strictEngine.ingestCalls[2]).not.toHaveProperty("sessionKey"); expect(strictEngine.ingestedMessages).toEqual([firstMessage, secondMessage]); }); it("retries strict maintain once and memoizes legacy mode there too", async () => { const engineId = `legacy-sessionkey-maintain-${Date.now().toString(36)}`; const strictEngine = new LegacySessionKeyStrictEngine(); registerContextEngine(engineId, () => strictEngine); const engine = await resolveContextEngine(configWithSlot(engineId)); await engine.maintain?.({ sessionId: "s1", sessionKey: "agent:main:test", sessionFile: "/tmp/session.json", }); expect(strictEngine.maintainCalls).toHaveLength(2); expect(strictEngine.maintainCalls[0]).toHaveProperty("sessionKey", "agent:main:test"); expect(strictEngine.maintainCalls[1]).not.toHaveProperty("sessionKey"); }); it("does not retry non-compat runtime errors", async () => { const engineId = `sessionkey-runtime-${Date.now().toString(36)}`; const runtimeErrorEngine = new SessionKeyRuntimeErrorEngine(); registerContextEngine(engineId, () => runtimeErrorEngine); const engine = await resolveContextEngine(configWithSlot(engineId)); await expect( engine.assemble({ sessionId: "s1", sessionKey: "agent:main:test", messages: [makeMockMessage()], }), ).rejects.toThrow("sessionKey lookup failed"); expect(runtimeErrorEngine.assembleCalls).toBe(1); }); it("does not treat 'Unknown sessionKey' runtime failures as schema-compat errors", async () => { const engineId = `sessionkey-unknown-runtime-${Date.now().toString(36)}`; const runtimeErrorEngine = new SessionKeyRuntimeErrorEngine( 'Unknown sessionKey "agent:main:missing"', ); registerContextEngine(engineId, () => runtimeErrorEngine); const engine = await resolveContextEngine(configWithSlot(engineId)); await expect( engine.assemble({ sessionId: "s1", sessionKey: "agent:main:missing", messages: [makeMockMessage()], }), ).rejects.toThrow('Unknown sessionKey "agent:main:missing"'); expect(runtimeErrorEngine.assembleCalls).toBe(1); }); }); describe("Default engine selection", () => { // Ensure both legacy and a custom test engine are registered before these tests. beforeEach(() => { // Registration is idempotent (Map.set), so calling again is safe. registerLegacyContextEngine(); // Register a lightweight custom stub so we don't need external resources. registerContextEngine("test-engine", () => { const engine: ContextEngine = { info: { id: "test-engine", name: "Custom Test Engine", version: "0.0.0" }, async ingest() { return { ingested: true }; }, async assemble({ messages }) { return { messages, estimatedTokens: 0 }; }, async compact() { return { ok: true, compacted: false }; }, }; return engine; }); }); it("resolveContextEngine() with no config returns the default ('legacy') engine", async () => { const engine = await resolveContextEngine(); expect(engine.info.id).toBe("legacy"); }); it("resolveContextEngine() with config contextEngine='legacy' returns legacy engine", async () => { const engine = await resolveContextEngine(configWithSlot("legacy")); expect(engine.info.id).toBe("legacy"); }); it("resolveContextEngine() with config contextEngine='test-engine' returns the custom engine", async () => { const engine = await resolveContextEngine(configWithSlot("test-engine")); expect(engine.info.id).toBe("test-engine"); }); }); // ═══════════════════════════════════════════════════════════════════════════ // 4. Invalid engine fallback // ═══════════════════════════════════════════════════════════════════════════ describe("Invalid engine fallback", () => { it("includes the requested id and available ids in unknown-engine errors", async () => { // Ensure at least legacy is registered so we see it in the available list registerLegacyContextEngine(); try { await resolveContextEngine(configWithSlot("does-not-exist")); // Should not reach here expect.unreachable("Expected resolveContextEngine to throw"); } catch (err: unknown) { const message = err instanceof Error ? err.message : String(err); expect(message).toContain("does-not-exist"); expect(message).toContain("not registered"); // Should mention available engines expect(message).toMatch(/Available engines:/); // At least "legacy" should be listed as available expect(message).toContain("legacy"); } }); }); // ═══════════════════════════════════════════════════════════════════════════ // 5. LegacyContextEngine parity // ═══════════════════════════════════════════════════════════════════════════ describe("LegacyContextEngine parity", () => { it("ingest() returns { ingested: false } (no-op)", async () => { const engine = new LegacyContextEngine(); const result = await engine.ingest({ sessionId: "s1", message: makeMockMessage(), }); expect(result).toEqual({ ingested: false }); }); it("assemble() returns messages as-is (pass-through)", async () => { const engine = new LegacyContextEngine(); const messages = [ makeMockMessage("user", "first"), makeMockMessage("assistant", "second"), makeMockMessage("user", "third"), ]; const result = await engine.assemble({ sessionId: "s1", messages, }); // Messages should be the exact same array reference (pass-through) expect(result.messages).toBe(messages); expect(result.messages).toHaveLength(3); expect(result.estimatedTokens).toBe(0); expect(result.systemPromptAddition).toBeUndefined(); }); it("dispose() completes without error", async () => { const engine = new LegacyContextEngine(); await expect(engine.dispose()).resolves.toBeUndefined(); }); }); // ═══════════════════════════════════════════════════════════════════════════ // 5b. assemble() prompt forwarding // ═══════════════════════════════════════════════════════════════════════════ describe("assemble() prompt forwarding", () => { it("forwards prompt to the underlying engine", async () => { const engineId = `prompt-fwd-${Date.now().toString(36)}`; const calls = registerPromptTrackingEngine(engineId); const engine = await resolveContextEngine(configWithSlot(engineId)); await engine.assemble({ sessionId: "s1", messages: [makeMockMessage("user", "hello")], prompt: "hello", }); expect(calls).toHaveLength(1); expect(calls[0]).toHaveProperty("prompt", "hello"); }); it("omits prompt when not provided", async () => { const engineId = `prompt-omit-${Date.now().toString(36)}`; const calls = registerPromptTrackingEngine(engineId); const engine = await resolveContextEngine(configWithSlot(engineId)); await engine.assemble({ sessionId: "s1", messages: [makeMockMessage("user", "hello")], }); expect(calls).toHaveLength(1); expect(calls[0]).not.toHaveProperty("prompt"); }); it("does not leak prompt key when caller spreads undefined", async () => { // Guards against the pattern `{ prompt: params.prompt }` when params.prompt // is undefined — JavaScript keeps the key present with value undefined, // which breaks engines that guard with `'prompt' in params`. const engineId = `prompt-undef-${Date.now().toString(36)}`; const calls = registerPromptTrackingEngine(engineId); const engine = await resolveContextEngine(configWithSlot(engineId)); // Simulate the attempt.ts call-site pattern: conditional spread const callerPrompt: string | undefined = undefined; await engine.assemble({ sessionId: "s1", messages: [makeMockMessage("user", "hello")], ...(callerPrompt !== undefined ? { prompt: callerPrompt } : {}), }); expect(calls).toHaveLength(1); expect(calls[0]).not.toHaveProperty("prompt"); expect(Object.keys(calls[0] as object)).not.toContain("prompt"); }); it("retries strict legacy assemble without sessionKey and prompt", async () => { const engineId = `prompt-legacy-${Date.now().toString(36)}`; const strictEngine = new LegacyAssembleStrictEngine(); registerContextEngine(engineId, () => strictEngine); const engine = await resolveContextEngine(configWithSlot(engineId)); const result = await engine.assemble({ sessionId: "s1", sessionKey: "agent:main:test", messages: [makeMockMessage("user", "hello")], prompt: "hello", }); expect(result.estimatedTokens).toBe(3); expect(strictEngine.assembleCalls).toHaveLength(3); expect(strictEngine.assembleCalls[0]).toHaveProperty("sessionKey", "agent:main:test"); expect(strictEngine.assembleCalls[0]).toHaveProperty("prompt", "hello"); expect(strictEngine.assembleCalls[1]).not.toHaveProperty("sessionKey"); expect(strictEngine.assembleCalls[1]).toHaveProperty("prompt", "hello"); expect(strictEngine.assembleCalls[2]).not.toHaveProperty("sessionKey"); expect(strictEngine.assembleCalls[2]).not.toHaveProperty("prompt"); }); }); // ═══════════════════════════════════════════════════════════════════════════ // 6. Initialization guard // ═══════════════════════════════════════════════════════════════════════════ describe("Initialization guard", () => { it("ensureContextEnginesInitialized() is idempotent and registers legacy", async () => { const { ensureContextEnginesInitialized } = await import("./init.js"); expect(() => ensureContextEnginesInitialized()).not.toThrow(); expect(() => ensureContextEnginesInitialized()).not.toThrow(); const ids = listContextEngineIds(); expect(ids).toContain("legacy"); }); }); // ═══════════════════════════════════════════════════════════════════════════ // 7. Bundle chunk isolation (#40096) // // Published builds may split the context-engine registry across multiple // output chunks. The Symbol.for() keyed global ensures that a plugin // calling registerContextEngine() from chunk A is visible to // resolveContextEngine() imported from chunk B. // // These tests exercise the invariant that failed in 2026.3.7 when // lossless-claw registered successfully but resolution could not find it. // ═══════════════════════════════════════════════════════════════════════════ describe("Bundle chunk isolation (#40096)", () => { it("Symbol.for key is stable across independently loaded modules", async () => { // Simulate two distinct bundle chunks by loading the registry module // twice with different query strings (forces separate module instances // in Vite/esbuild but shares globalThis). const ts = Date.now().toString(36); const registryUrl = new URL("./registry.ts", import.meta.url).href; const chunkA = await import(/* @vite-ignore */ `${registryUrl}?chunk=a-${ts}`); const chunkB = await import(/* @vite-ignore */ `${registryUrl}?chunk=b-${ts}`); // Chunk A registers an engine const engineId = `cross-chunk-${ts}`; chunkA.registerContextEngine(engineId, () => new MockContextEngine()); // Chunk B must see it expect(chunkB.getContextEngineFactory(engineId)).toBeDefined(); expect(chunkB.listContextEngineIds()).toContain(engineId); }); it("resolveContextEngine from chunk B finds engine registered in chunk A", async () => { const ts = Date.now().toString(36); const registryUrl = new URL("./registry.ts", import.meta.url).href; const chunkA = await import(/* @vite-ignore */ `${registryUrl}?chunk=resolve-a-${ts}`); const chunkB = await import(/* @vite-ignore */ `${registryUrl}?chunk=resolve-b-${ts}`); const engineId = `resolve-cross-${ts}`; chunkA.registerContextEngine(engineId, () => ({ info: { id: engineId, name: "Cross-chunk Engine", version: "0.0.1" }, async ingest() { return { ingested: true }; }, async assemble({ messages }: { messages: AgentMessage[] }) { return { messages, estimatedTokens: 0 }; }, async compact() { return { ok: true, compacted: false }; }, })); // Resolve from chunk B using a config that points to this engine const engine = await chunkB.resolveContextEngine(configWithSlot(engineId)); expect(engine.info.id).toBe(engineId); }); it("concurrent registration from multiple chunks does not lose entries", async () => { const ts = Date.now().toString(36); const registryUrl = new URL("./registry.ts", import.meta.url).href; let releaseRegistrations: (() => void) | undefined; const registrationStart = new Promise((resolve) => { releaseRegistrations = resolve; }); // Load 5 "chunks" in parallel const chunks = await Promise.all( Array.from( { length: 5 }, (_, i) => import(/* @vite-ignore */ `${registryUrl}?concurrent-${ts}-${i}`), ), ); const ids = chunks.map((_, i) => `concurrent-${ts}-${i}`); const registrationTasks = chunks.map(async (chunk, i) => { const id = `concurrent-${ts}-${i}`; await registrationStart; chunk.registerContextEngine(id, () => new MockContextEngine()); }); releaseRegistrations?.(); await Promise.all(registrationTasks); // All 5 engines must be visible from any chunk const allIds = chunks[0].listContextEngineIds(); for (const id of ids) { expect(allIds).toContain(id); } }); });