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* Unit tests for Qoder encoding + COSY signing primitives.
*
* These cover the parts that would silently produce wrong-but-plausible
* output if logic regressed:
* - body encoder boundary cases (empty input, lengths not divisible by 3)
* - COSY header production (signature deterministic given fixed inputs,
* all required headers present, sigPath correctly stripped)
* - device flow URL construction
*/
import { describe, it, expect } from "vitest";
import crypto from "crypto";
import { qoderEncodeBody } from "../../src/lib/qoder/encoding.js";
import { buildCosyHeaders } from "../../src/lib/qoder/cosy.js";
import { QoderService } from "../../src/lib/oauth/services/qoder.js";
import {
QODER_CHAT_URL_ENCODED,
QODER_MODEL_LIST_URL,
QODER_MODEL_MAP,
} from "../../src/lib/qoder/constants.js";
import { PROVIDER_MODELS } from "../../open-sse/config/providerModels.js";
import { __test__ as qoderExecutorInternals } from "../../open-sse/executors/qoder.js";
// Convenience aliases β tests were originally written against module-level
// helpers; the QoderService class wraps them so each test creates its own
// instance to avoid hidden state.
const generatePkcePair = () => new QoderService().generatePkcePair();
const initiateDeviceFlow = () => new QoderService().initiateDeviceFlow();
const parseExpiry = QoderService.parseExpiry;
describe("QODER_MODEL_MAP", () => {
it("allows Qoder's latest model key", () => {
expect(QODER_MODEL_MAP.qmodel_latest).toBe("qmodel_latest");
});
it("exposes Qoder's latest model in the static provider catalog", () => {
expect(PROVIDER_MODELS.qd.some((model) => model.id === "qmodel_latest")).toBe(true);
});
});
describe("qoderEncodeBody", () => {
it("preserves base64 length (input length divisible by 3)", () => {
const input = Buffer.from("abcdef", "utf8"); // 6 bytes β 8 base64 chars
const encoded = qoderEncodeBody(input);
expect(encoded.length).toBe(8);
});
it("preserves base64 length (input length not divisible by 3)", () => {
const input = Buffer.from("hello", "utf8"); // 5 bytes β 8 base64 chars (with padding)
const encoded = qoderEncodeBody(input);
expect(encoded.length).toBe(8);
});
it("handles empty input without throwing", () => {
const encoded = qoderEncodeBody(Buffer.alloc(0));
expect(encoded).toBe("");
});
it("accepts string and Buffer inputs equivalently", () => {
const a = qoderEncodeBody("hello");
const b = qoderEncodeBody(Buffer.from("hello", "utf8"));
expect(a).toBe(b);
});
it("only emits characters from the custom alphabet", () => {
// The custom alphabet is "_doRTgHZBKcGVjlvpC,@aFSx#DPuNJme&i*MzLOEn)sUrthbf%Y^w.(kIQyXqWA!"
// plus "$" for the padding char. If the substitution step regresses,
// characters outside that set would leak into the output.
const allowed = new Set(
"_doRTgHZBKcGVjlvpC,@aFSx#DPuNJme&i*MzLOEn)sUrthbf%Y^w.(kIQyXqWA!$",
);
const encoded = qoderEncodeBody(
"hello world this is a longer string for testing 0123456789",
);
for (const ch of encoded) {
expect(allowed.has(ch), `unexpected char in output: ${JSON.stringify(ch)}`).toBe(true);
}
});
it("is deterministic for identical input", () => {
const a = qoderEncodeBody("abc");
const b = qoderEncodeBody("abc");
expect(a).toBe(b);
});
it("produces different output for different input", () => {
const a = qoderEncodeBody("abc");
const b = qoderEncodeBody("xyz");
expect(a).not.toBe(b);
});
});
describe("generatePkcePair", () => {
it("produces base64url-safe verifier and challenge of the right length", () => {
const { verifier, challenge } = generatePkcePair();
// 32 bytes β 43 base64url chars (no padding)
expect(verifier.length).toBe(43);
expect(challenge.length).toBe(43);
expect(verifier).toMatch(/^[A-Za-z0-9_-]+$/);
expect(challenge).toMatch(/^[A-Za-z0-9_-]+$/);
});
it("verifier and challenge are different (challenge is sha256 of verifier)", () => {
const { verifier, challenge } = generatePkcePair();
expect(verifier).not.toBe(challenge);
// S256: challenge should be base64url(sha256(verifier))
const expected = crypto
.createHash("sha256")
.update(verifier)
.digest("base64")
.replace(/=/g, "")
.replace(/\+/g, "-")
.replace(/\//g, "_");
expect(challenge).toBe(expected);
});
it("returns codeVerifier (not verifier) on the higher-level helper", () => {
// Regression: the providers.js qoder entry once read flow.verifier (undefined)
// because initiateDeviceFlow returns the field as `codeVerifier`.
const flow = initiateDeviceFlow();
expect(typeof flow.codeVerifier).toBe("string");
expect(flow.codeVerifier.length).toBe(43);
expect(flow.verifier).toBeUndefined();
});
});
describe("initiateDeviceFlow", () => {
it("produces a verification URL pointing at qoder.com/device/selectAccounts", () => {
const flow = initiateDeviceFlow();
expect(flow.verificationUriComplete).toMatch(
/^https:\/\/qoder\.com\/device\/selectAccounts\?/,
);
expect(flow.verificationUriComplete).toContain("challenge_method=S256");
expect(flow.verificationUriComplete).toContain(`nonce=${flow.nonce}`);
expect(flow.verificationUriComplete).toContain(`machine_id=${flow.machineId}`);
});
it("returns nonce and machineId as UUIDs", () => {
const flow = initiateDeviceFlow();
const uuidRe = /^[0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}$/;
expect(flow.nonce).toMatch(uuidRe);
expect(flow.machineId).toMatch(uuidRe);
});
});
describe("buildCosyHeaders", () => {
const creds = {
userId: "test-user-id",
authToken: "dt-test-token",
name: "Test",
email: "test@example.com",
machineId: "fixed-machine-id",
};
it("produces all required Cosy-* headers", () => {
const headers = buildCosyHeaders(Buffer.alloc(0), QODER_MODEL_LIST_URL, creds);
const required = [
"Authorization",
"Cosy-Key",
"Cosy-User",
"Cosy-Date",
"Cosy-Version",
"Cosy-Machineid",
"Cosy-Machinetoken",
"Cosy-Machinetype",
"Cosy-Machineos",
"Cosy-Clienttype",
"Cosy-Clientip",
"Cosy-Bodyhash",
"Cosy-Bodylength",
"Cosy-Sigpath",
"Cosy-Data-Policy",
"Login-Version",
"X-Request-Id",
];
for (const key of required) {
expect(headers[key], `missing header ${key}`).toBeDefined();
}
});
it("Authorization is a Bearer COSY token with payload+sig", () => {
const headers = buildCosyHeaders(Buffer.alloc(0), QODER_MODEL_LIST_URL, creds);
expect(headers.Authorization).toMatch(/^Bearer COSY\.[A-Za-z0-9+/=]+\.[a-f0-9]{32}$/);
});
it("Cosy-Sigpath strips the leading /algo prefix", () => {
const headers = buildCosyHeaders(Buffer.alloc(0), QODER_MODEL_LIST_URL, creds);
expect(headers["Cosy-Sigpath"]).toBe("/api/v2/model/list");
});
it("Cosy-Sigpath also handles the encoded chat URL", () => {
const headers = buildCosyHeaders(Buffer.from("body", "utf8"), QODER_CHAT_URL_ENCODED, creds);
expect(headers["Cosy-Sigpath"]).toBe(
"/api/v2/service/pro/sse/agent_chat_generation",
);
});
it("Cosy-Bodyhash is the MD5 of the request body, Cosy-Bodylength is the length", () => {
const body = Buffer.from("hello qoder", "utf8");
const headers = buildCosyHeaders(body, QODER_MODEL_LIST_URL, creds);
const expectedHash = crypto.createHash("md5").update(body).digest("hex");
expect(headers["Cosy-Bodyhash"]).toBe(expectedHash);
expect(headers["Cosy-Bodylength"]).toBe(String(body.length));
});
it("empty body produces the canonical empty-MD5 hash", () => {
const headers = buildCosyHeaders(Buffer.alloc(0), QODER_MODEL_LIST_URL, creds);
expect(headers["Cosy-Bodyhash"]).toBe("d41d8cd98f00b204e9800998ecf8427e");
expect(headers["Cosy-Bodylength"]).toBe("0");
});
it("Cosy-Machineid + Cosy-Machinetoken match the supplied machineId", () => {
const headers = buildCosyHeaders(Buffer.alloc(0), QODER_MODEL_LIST_URL, creds);
expect(headers["Cosy-Machineid"]).toBe("fixed-machine-id");
expect(headers["Cosy-Machinetoken"]).toBe("fixed-machine-id");
});
it("auto-generates a machineId when none is supplied", () => {
const headers = buildCosyHeaders(Buffer.alloc(0), QODER_MODEL_LIST_URL, {
...creds,
machineId: "",
});
expect(headers["Cosy-Machineid"]).toMatch(
/^[0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}$/,
);
});
it("throws when userId is missing", () => {
expect(() =>
buildCosyHeaders(Buffer.alloc(0), QODER_MODEL_LIST_URL, { ...creds, userId: "" }),
).toThrow(/user id is empty/);
});
it("throws when authToken is missing", () => {
expect(() =>
buildCosyHeaders(Buffer.alloc(0), QODER_MODEL_LIST_URL, { ...creds, authToken: "" }),
).toThrow(/auth token is empty/);
});
it("Cosy-User reflects the supplied userId verbatim", () => {
const headers = buildCosyHeaders(Buffer.alloc(0), QODER_MODEL_LIST_URL, creds);
expect(headers["Cosy-User"]).toBe("test-user-id");
});
it("two calls with identical inputs differ only in fields that include fresh randomness", () => {
// The signature fingerprints a fresh AES key + UUID per call, so the
// signature, Cosy-Key, X-Request-Id, and Cosy-Date (1s resolution)
// can differ β but Cosy-User, Cosy-Bodyhash, Cosy-Bodylength,
// Cosy-Sigpath, and the machineId-derived headers must be stable.
const a = buildCosyHeaders(Buffer.from("payload", "utf8"), QODER_CHAT_URL_ENCODED, creds);
const b = buildCosyHeaders(Buffer.from("payload", "utf8"), QODER_CHAT_URL_ENCODED, creds);
expect(a["Cosy-User"]).toBe(b["Cosy-User"]);
expect(a["Cosy-Bodyhash"]).toBe(b["Cosy-Bodyhash"]);
expect(a["Cosy-Bodylength"]).toBe(b["Cosy-Bodylength"]);
expect(a["Cosy-Sigpath"]).toBe(b["Cosy-Sigpath"]);
expect(a["Cosy-Machineid"]).toBe(b["Cosy-Machineid"]);
expect(a["X-Request-Id"]).not.toBe(b["X-Request-Id"]);
});
});
describe("parseExpiry", () => {
// Regression for review finding #2: numeric expires_at was silently
// dropped because the function only inspected strings.
it("accepts ms-epoch as a JSON number", () => {
const future = Date.now() + 60_000;
expect(parseExpiry(future, undefined)).toBe(future);
});
it("accepts ms-epoch as a numeric string", () => {
const future = Date.now() + 60_000;
expect(parseExpiry(String(future), undefined)).toBe(future);
});
it("accepts RFC3339 strings", () => {
const iso = "2030-01-02T03:04:05Z";
expect(parseExpiry(iso, undefined)).toBe(Date.parse(iso));
});
// Regression for review finding #5: Date.parse("2026") returns Jan 1 2026,
// so a short numeric string like "2026" used to be interpreted as a year
// instead of falling through to the integer-ms branch. We now try the
// pure-numeric path first so this can't happen again.
it("does not interpret short numeric strings as a year", () => {
// "1700000000" (Unix seconds) should NOT come out as Date.parse("1700000000")
const result = parseExpiry("1700000000", undefined);
// 1.7e9 ms = 1970-01-20 β the function's contract is ms, so we expect
// exactly that value, not a year interpretation.
expect(result).toBe(1_700_000_000);
});
it("falls back to expiresInSeconds when expiresAt is missing", () => {
const before = Date.now();
const result = parseExpiry(undefined, 60);
const after = Date.now();
expect(result).toBeGreaterThanOrEqual(before + 60_000);
expect(result).toBeLessThanOrEqual(after + 60_000);
});
// Regression for review finding #7: expiresInSeconds=0 used to be treated
// as missing and silently fabricated 30-day default. We now honor 0 as
// "already expired".
it("treats expires_in: 0 as already expired (now), not 30-day fallback", () => {
const before = Date.now();
const result = parseExpiry(undefined, 0);
const after = Date.now();
expect(result).toBeGreaterThanOrEqual(before);
expect(result).toBeLessThanOrEqual(after);
});
it("falls back to ~30 days when both inputs are missing", () => {
const before = Date.now();
const result = parseExpiry(undefined, undefined);
const expected = before + 30 * 24 * 60 * 60 * 1000;
// Allow a small skew to absorb test runtime.
expect(result).toBeGreaterThanOrEqual(expected - 5_000);
expect(result).toBeLessThanOrEqual(expected + 5_000);
});
it("falls back to ~30 days when both inputs are unparseable", () => {
const before = Date.now();
const result = parseExpiry("not-a-date", -5);
const expected = before + 30 * 24 * 60 * 60 * 1000;
expect(result).toBeGreaterThanOrEqual(expected - 5_000);
expect(result).toBeLessThanOrEqual(expected + 5_000);
});
});
describe("normalizeMessages", () => {
const { normalizeMessages } = qoderExecutorInternals;
it("hoists role:system out of messages into systemText", () => {
const result = normalizeMessages([
{ role: "system", content: "you are helpful" },
{ role: "user", content: "hi" },
]);
expect(result.systemText).toBe("you are helpful");
expect(result.messages).toHaveLength(1);
expect(result.messages[0].role).toBe("user");
});
it("flattens multipart text content into a string", () => {
const result = normalizeMessages([
{
role: "user",
content: [
{ type: "text", text: "part1" },
{ type: "text", text: "part2" },
],
},
]);
expect(result.messages[0].content).toBe("part1\npart2");
});
it("joins multiple system messages with a blank line", () => {
const result = normalizeMessages([
{ role: "system", content: "rule 1" },
{ role: "system", content: "rule 2" },
{ role: "user", content: "hi" },
]);
expect(result.systemText).toBe("rule 1\n\nrule 2");
});
it("returns empty results for empty input", () => {
const result = normalizeMessages([]);
expect(result.messages).toEqual([]);
expect(result.systemText).toBe("");
});
});
describe("wrapQoderSSE", () => {
const { wrapQoderSSE } = qoderExecutorInternals;
// Helper: build a fake Response carrying the given lines as the body.
function makeResponse(lines, { status = 200 } = {}) {
const body = new ReadableStream({
start(controller) {
const encoder = new TextEncoder();
for (const line of lines) controller.enqueue(encoder.encode(line));
controller.close();
},
});
return new Response(body, { status });
}
// Helper: drain a wrapped response into an array of decoded SSE events.
async function drain(response) {
const reader = response.body.getReader();
const decoder = new TextDecoder();
let buf = "";
while (true) {
const { done, value } = await reader.read();
if (done) break;
buf += decoder.decode(value, { stream: true });
}
buf += decoder.decode();
return buf;
}
it("forwards an OpenAI envelope chunk and emits [DONE] in flush", async () => {
const inner = JSON.stringify({ choices: [{ delta: { content: "hi" } }] });
const upstream = `data: ${JSON.stringify({ statusCodeValue: 200, body: inner })}\n\n`;
const wrapped = wrapQoderSSE(makeResponse([upstream]), "qoder/auto");
const out = await drain(wrapped);
expect(out).toContain(`data: ${inner}\n\n`);
expect(out).toContain("data: [DONE]\n\n");
});
// Regression for review finding #4: a final data: line without a trailing
// newline used to be silently dropped from `buffer` in flush().
it("drains a trailing partial line without a newline in flush()", async () => {
const inner = JSON.stringify({ choices: [{ delta: { content: "tail" } }], finish_reason: "stop" });
// Note: NO trailing \n on the final line.
const upstream = `data: ${JSON.stringify({ statusCodeValue: 200, body: inner })}`;
const wrapped = wrapQoderSSE(makeResponse([upstream]), "qoder/auto");
const out = await drain(wrapped);
expect(out).toContain(`data: ${inner}\n\n`);
});
// Regression for review finding #3: chunks could leak past [DONE] when
// the success branch had no doneEmitted guard. We synthesize an error
// envelope (which sets doneEmitted=true) followed by a valid envelope
// and assert the second envelope is NOT forwarded.
it("does not forward chunks after [DONE] has been emitted", async () => {
const errorEnv = JSON.stringify({ statusCodeValue: 500, body: "boom" });
const validInner = JSON.stringify({ choices: [{ delta: { content: "leak" } }] });
const validEnv = JSON.stringify({ statusCodeValue: 200, body: validInner });
const wrapped = wrapQoderSSE(
makeResponse([`data: ${errorEnv}\n\ndata: ${validEnv}\n\n`]),
"qoder/auto",
);
const out = await drain(wrapped);
expect(out).not.toContain("leak");
// Should still have a single [DONE].
const doneCount = (out.match(/data: \[DONE\]/g) || []).length;
expect(doneCount).toBe(1);
});
// Regression for review finding #6: literal newlines inside the inner
// OpenAI body would split the SSE frame across multiple data: lines.
// We now strip them so the frame stays a single event.
it("strips embedded newlines from inner body before forwarding", async () => {
const innerWithNewlines = '{"choices":[{"delta":{"content":"a\nb"}}]}';
const env = JSON.stringify({ statusCodeValue: 200, body: innerWithNewlines });
const wrapped = wrapQoderSSE(makeResponse([`data: ${env}\n\n`]), "qoder/auto");
const out = await drain(wrapped);
// The forwarded data: line should be a single event terminated by \n\n
// and contain no internal \n other than the trailing pair.
const dataLine = out.split("\n\n").find((l) => l.startsWith("data: ") && !l.includes("[DONE]"));
expect(dataLine).toBeDefined();
// Body sans "data: " prefix should be valid JSON.
expect(() => JSON.parse(dataLine.slice("data: ".length))).not.toThrow();
});
it("upstream error envelope produces an error chunk + [DONE]", async () => {
const env = JSON.stringify({ statusCodeValue: 503, body: "service unavailable" });
const wrapped = wrapQoderSSE(makeResponse([`data: ${env}\n\n`]), "qoder/lite");
const out = await drain(wrapped);
expect(out).toContain("[qoder error 503");
expect(out).toContain("data: [DONE]\n\n");
});
it("non-ok responses are returned unchanged (no transform)", () => {
const r = new Response("not ok", { status: 500 });
const wrapped = wrapQoderSSE(r, "qoder/auto");
expect(wrapped).toBe(r);
});
});
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