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2026-07-13 12:21:01 +08:00

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JavaScript

/**
* Unit tests for the MiMo Free no-auth provider.
*
* Covers the parts that would silently break the bootstrap → JWT → chat flow:
* - fingerprint / session id primitives (format + determinism)
* - JWT bootstrap (caching, exp parsing, error paths)
* - system marker injection (the 403 anti-abuse gate)
* - executor wiring (headers, transformRequest, registration)
* - provider/model config registration
*/
import { describe, it, expect, vi, beforeEach } from "vitest";
// Mock proxyAwareFetch so bootstrapJwt never hits the network.
const fetchMock = vi.fn();
vi.mock("../../open-sse/utils/proxyFetch.js", () => ({
proxyAwareFetch: (...args) => fetchMock(...args),
}));
import { MimoFreeExecutor, __test__ } from "../../open-sse/executors/mimo-free.js";
import { getExecutor } from "../../open-sse/executors/index.js";
import { PROVIDERS } from "../../open-sse/config/providers.js";
import { PROVIDER_MODELS, PROVIDER_ID_TO_ALIAS } from "../../open-sse/config/providerModels.js";
import { FREE_PROVIDERS } from "../../src/shared/constants/providers.js";
const {
generateFingerprint, generateSessionId, bootstrapJwt, resetJwtCache, parseJwtExp,
injectSystemMarker, MIMO_SYSTEM_MARKER, SESSION_AFFINITY_PREFIX, BOOTSTRAP_URL, CHAT_URL,
} = __test__;
function jsonResponse(data, { ok = true, status = 200 } = {}) {
return { ok, status, json: async () => data };
}
// Build a fake JWT with the given exp (seconds) in the payload.
function makeJwt(expSec) {
const header = Buffer.from(JSON.stringify({ alg: "HS256" })).toString("base64url");
const payload = Buffer.from(JSON.stringify({ exp: expSec })).toString("base64url");
return `${header}.${payload}.sig`;
}
beforeEach(() => {
fetchMock.mockReset();
resetJwtCache();
});
describe("generateSessionId", () => {
it("uses the ses_ prefix and a 24-char random suffix", () => {
const id = generateSessionId();
expect(id.startsWith(SESSION_AFFINITY_PREFIX)).toBe(true);
expect(id.length).toBe(SESSION_AFFINITY_PREFIX.length + 24);
});
it("only emits lowercase alphanumeric characters in the suffix", () => {
expect(generateSessionId().slice(SESSION_AFFINITY_PREFIX.length)).toMatch(/^[a-z0-9]{24}$/);
});
it("produces a fresh id on each call", () => {
expect(generateSessionId()).not.toBe(generateSessionId());
});
});
describe("generateFingerprint", () => {
it("returns a 64-char hex sha256 digest", () => {
expect(generateFingerprint()).toMatch(/^[a-f0-9]{64}$/);
});
it("is stable per machine (deterministic across calls)", () => {
expect(generateFingerprint()).toBe(generateFingerprint());
});
});
describe("parseJwtExp", () => {
it("derives the expiry from the JWT exp claim (ms)", () => {
const expSec = Math.floor(Date.now() / 1000) + 3600;
expect(parseJwtExp(makeJwt(expSec))).toBe(expSec * 1000);
});
it("falls back to a future timestamp when the JWT is unparseable", () => {
const before = Date.now();
const result = parseJwtExp("not-a-jwt");
expect(result).toBeGreaterThan(before);
});
});
describe("injectSystemMarker", () => {
it("prepends a system message with the marker when none is present", () => {
const out = injectSystemMarker({ messages: [{ role: "user", content: "hi" }] });
expect(out.messages[0].role).toBe("system");
expect(out.messages[0].content).toContain(MIMO_SYSTEM_MARKER);
});
it("preserves the original user message after injection", () => {
const out = injectSystemMarker({ messages: [{ role: "user", content: "write a haiku" }] });
expect(out.messages.find((m) => m.role === "user").content).toBe("write a haiku");
});
it("keeps a caller-provided system prompt alongside the marker", () => {
const out = injectSystemMarker({
messages: [
{ role: "system", content: "You are a pirate." },
{ role: "user", content: "hi" },
],
});
const sys = out.messages.filter((m) => m.role === "system").map((m) => m.content).join("\n");
expect(sys).toContain(MIMO_SYSTEM_MARKER);
expect(sys).toContain("You are a pirate.");
});
it("does not duplicate the marker when already present", () => {
const out = injectSystemMarker({
messages: [
{ role: "system", content: `${MIMO_SYSTEM_MARKER}\nExtra.` },
{ role: "user", content: "hi" },
],
});
const count = out.messages.filter(
(m) => m.role === "system" && m.content.includes(MIMO_SYSTEM_MARKER)
).length;
expect(count).toBe(1);
});
it("leaves a body without a messages array untouched", () => {
const body = { prompt: "legacy" };
expect(injectSystemMarker(body)).toBe(body);
});
});
describe("bootstrapJwt", () => {
it("returns the jwt from the bootstrap response", async () => {
fetchMock.mockResolvedValueOnce(jsonResponse({ jwt: makeJwt(Math.floor(Date.now() / 1000) + 3600) }));
const jwt = await bootstrapJwt();
expect(jwt).toMatch(/\./);
expect(fetchMock).toHaveBeenCalledTimes(1);
expect(fetchMock.mock.calls[0][0]).toBe(BOOTSTRAP_URL);
});
it("sends the machine fingerprint as the bootstrap client", async () => {
fetchMock.mockResolvedValueOnce(jsonResponse({ jwt: makeJwt(Math.floor(Date.now() / 1000) + 3600) }));
await bootstrapJwt();
const body = JSON.parse(fetchMock.mock.calls[0][1].body);
expect(body.client).toBe(generateFingerprint());
});
it("caches the jwt and does not re-fetch while still valid", async () => {
fetchMock.mockResolvedValueOnce(jsonResponse({ jwt: makeJwt(Math.floor(Date.now() / 1000) + 3600) }));
const first = await bootstrapJwt();
const second = await bootstrapJwt();
expect(first).toBe(second);
expect(fetchMock).toHaveBeenCalledTimes(1);
});
it("re-fetches once the cached jwt is within the expiry buffer", async () => {
// exp 100s out < 300s buffer → treated as near-expiry.
fetchMock.mockResolvedValueOnce(jsonResponse({ jwt: makeJwt(Math.floor(Date.now() / 1000) + 100) }));
await bootstrapJwt();
const fresh = makeJwt(Math.floor(Date.now() / 1000) + 3600);
fetchMock.mockResolvedValueOnce(jsonResponse({ jwt: fresh }));
expect(await bootstrapJwt()).toBe(fresh);
expect(fetchMock).toHaveBeenCalledTimes(2);
});
it("throws when the bootstrap response is not ok", async () => {
fetchMock.mockResolvedValueOnce(jsonResponse({}, { ok: false, status: 403 }));
await expect(bootstrapJwt()).rejects.toThrow(/bootstrap failed: 403/);
});
it("throws when the bootstrap response has no jwt", async () => {
fetchMock.mockResolvedValueOnce(jsonResponse({ expiresIn: 3600 }));
await expect(bootstrapJwt()).rejects.toThrow(/no JWT/);
});
});
describe("MimoFreeExecutor", () => {
const exec = new MimoFreeExecutor();
it("buildUrl returns the free-ai chat endpoint", () => {
expect(exec.buildUrl()).toBe(CHAT_URL);
});
it("buildHeaders includes the MiMo source and session affinity", () => {
const h = exec.buildHeaders({}, true);
expect(h["X-Mimo-Source"]).toBe("mimocode-cli-free");
expect(h["x-session-affinity"]).toMatch(/^ses_/);
expect(h["Accept"]).toBe("text/event-stream");
});
it("transformRequest injects the system marker", () => {
const out = exec.transformRequest("mimo-auto", { messages: [{ role: "user", content: "hi" }] });
expect(out.messages[0].content).toContain(MIMO_SYSTEM_MARKER);
});
it("execute injects the marker and sends a Bearer JWT to the chat endpoint", async () => {
fetchMock.mockResolvedValueOnce(jsonResponse({ jwt: makeJwt(Math.floor(Date.now() / 1000) + 3600) }));
fetchMock.mockResolvedValueOnce({ ok: true, status: 200 });
const { url, headers, transformedBody } = await exec.execute({
model: "mimo-auto",
body: { model: "mimo-auto", stream: true, messages: [{ role: "user", content: "hi" }] },
stream: true,
credentials: {},
});
expect(url).toBe(CHAT_URL);
expect(headers["Authorization"]).toMatch(/^Bearer /);
expect(transformedBody.messages[0].content).toContain(MIMO_SYSTEM_MARKER);
// first call = bootstrap, second = chat with auth header
const chatHeaders = fetchMock.mock.calls[1][1].headers;
expect(chatHeaders["Authorization"]).toMatch(/^Bearer /);
});
it("re-bootstraps and retries once on a 403 from the chat endpoint", async () => {
fetchMock.mockResolvedValueOnce(jsonResponse({ jwt: makeJwt(Math.floor(Date.now() / 1000) + 3600) }));
fetchMock.mockResolvedValueOnce({ ok: false, status: 403 });
fetchMock.mockResolvedValueOnce(jsonResponse({ jwt: makeJwt(Math.floor(Date.now() / 1000) + 3600) }));
fetchMock.mockResolvedValueOnce({ ok: true, status: 200 });
const { response } = await exec.execute({
model: "mimo-auto",
body: { messages: [{ role: "user", content: "hi" }] },
stream: true,
credentials: {},
});
expect(response.status).toBe(200);
// bootstrap, chat(403), re-bootstrap, chat(200)
expect(fetchMock).toHaveBeenCalledTimes(4);
});
});
describe("MiMo Free provider registration", () => {
it("registers a specialized executor for mimo-free and the mmf alias", () => {
expect(getExecutor("mimo-free")).toBeInstanceOf(MimoFreeExecutor);
expect(getExecutor("mmf")).toBeInstanceOf(MimoFreeExecutor);
});
it("registers mimo-free as a no-auth provider in open-sse config", () => {
expect(PROVIDERS["mimo-free"]?.noAuth).toBe(true);
expect(PROVIDERS.mmf?.noAuth).toBe(true);
});
it("exposes only mimo-auto (the sole free-channel model)", () => {
expect(PROVIDER_MODELS.mmf.map((m) => m.id)).toEqual(["mimo-auto"]);
});
it("maps the mimo-free alias to mmf", () => {
expect(PROVIDER_ID_TO_ALIAS["mimo-free"]).toBe("mmf");
});
it("lists mimo-free in the dashboard FREE_PROVIDERS catalog", () => {
expect(FREE_PROVIDERS["mimo-free"]?.alias).toBe("mmf");
expect(FREE_PROVIDERS["mimo-free"]?.noAuth).toBe(true);
});
});