Files
2026-07-13 12:58:18 +08:00

720 lines
28 KiB
TypeScript

/**
* Tests for showcase/scripts/lib/manifest.ts.
*
* parseManifest is the single source of truth for reading and shape-validating
* manifest.yaml. Tests pin the tagged-union return shape that the consumers
* (audit.ts / validate-parity.ts / capture-previews.ts) rely on.
*/
import { describe, it, expect, beforeEach, afterEach, vi } from "vitest";
import fs from "fs";
import os from "os";
import path from "path";
import { parseManifest, createDemoId, type DemoId } from "../manifest.js";
// chmod-enforcement probe so tests that rely on EACCES can be cleanly
// skipped on CI runners that ignore chmod (running as root, certain
// network mounts). Mirrors the probe in validate-pins.test.ts.
const isRoot = process.getuid?.() === 0;
function probeChmodEnforced(): boolean {
if (isRoot) return false;
let probe: string | undefined;
try {
probe = fs.mkdtempSync(path.join(os.tmpdir(), "lib-manifest-chmod-probe-"));
fs.chmodSync(probe, 0o000);
try {
fs.readdirSync(probe);
return false;
} catch (e) {
const err = e as NodeJS.ErrnoException;
return err.code === "EACCES";
}
} catch {
return false;
} finally {
if (probe) {
try {
fs.chmodSync(probe, 0o755);
} catch {
// best-effort restore
}
try {
fs.rmSync(probe, { recursive: true, force: true });
} catch {
// best-effort
}
}
}
}
const chmodEnforced = probeChmodEnforced();
const cannotEnforceEacces = isRoot || !chmodEnforced;
function tmpdir(prefix = "lib-manifest-"): string {
return fs.mkdtempSync(path.join(os.tmpdir(), prefix));
}
function write(file: string, body: string): void {
fs.mkdirSync(path.dirname(file), { recursive: true });
fs.writeFileSync(file, body, "utf-8");
}
describe("parseManifest", () => {
let root: string;
beforeEach(() => {
root = tmpdir();
});
afterEach(() => {
fs.rmSync(root, { recursive: true, force: true });
});
it("returns {kind:'missing'} when the file does not exist", () => {
const r = parseManifest(path.join(root, "does-not-exist.yaml"));
expect(r.kind).toBe("missing");
});
it("returns {kind:'malformed', subkind:'shape'} for an empty file (yaml.parse → null)", () => {
// Empty YAML parses to null, which is not a valid manifest mapping. The
// guard must reject it before callers try to read .demos / .deployed.
// This is a SHAPE error (YAML parsed, result was null), not a syntax
// error.
const f = path.join(root, "manifest.yaml");
write(f, "");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error.length).toBeGreaterThan(0);
}
});
it("returns {kind:'malformed', subkind:'shape'} for a non-object YAML (bare scalar)", () => {
const f = path.join(root, "manifest.yaml");
write(f, "42\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
}
});
it("returns {kind:'malformed', subkind:'shape'} for an array at top level", () => {
const f = path.join(root, "manifest.yaml");
write(f, "- a\n- b\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
}
});
it("returns {kind:'malformed', subkind:'syntax'} for a syntactically broken YAML", () => {
// Subkind discriminator separates YAML parser failures (syntax) from
// post-parse shape-mismatch failures (shape). CI can route these
// differently — a syntax error is almost always a typo; a shape error
// points at a schema-drift issue.
const f = path.join(root, "manifest.yaml");
write(f, "demos: [[[\nunterminated\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("syntax");
}
});
it("returns {kind:'malformed', subkind:'shape'} when slug is missing", () => {
// slug is required — every consumer (audit.ts / validate-parity.ts /
// capture-previews.ts) relies on it. Missing slug = unconditional bug.
const f = path.join(root, "manifest.yaml");
write(f, "name: My Pkg\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/slug/i);
}
});
it("returns {kind:'malformed', subkind:'shape'} when slug is not a string", () => {
// YAML `slug: 42` parses to a number; the `as Manifest` cast would
// previously have let the number propagate. parseManifest must reject.
const f = path.join(root, "manifest.yaml");
write(f, "slug: 42\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/slug/i);
}
});
it("returns {kind:'malformed', subkind:'shape'} when slug is the empty string", () => {
const f = path.join(root, "manifest.yaml");
write(f, 'slug: ""\n');
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
}
});
it("returns {kind:'malformed', subkind:'shape'} when name is present but not a string", () => {
// name is optional but, if present, must be a string. Previously the
// `as Manifest` cast would have let a number through silently.
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\nname: 42\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/name/i);
}
});
it("returns {kind:'malformed', subkind:'shape'} when demos is not an array", () => {
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos: not-array\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/demos/i);
}
});
it("accepts {kind:'ok'} when demos is explicitly null (treated as omitted)", () => {
// `demos: ~` (YAML explicit null) is semantically equivalent to
// "demos omitted" — the current implementation short-circuits on
// `obj.demos != null` so both null and undefined are allowed. This
// test locks in that behavior. Prior to the simplification, the code
// path guarded on `obj.demos !== undefined` which meant YAML's null
// hit the non-array branch and reported "expected array, got object"
// (because `typeof null === "object"`) — a confusing message.
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos: ~\n");
const r = parseManifest(f);
expect(r.kind).toBe("ok");
});
it("reports non-nullish non-array demos with precise type (number, not 'object')", () => {
// describeType special-cases null/array so the error message is
// correct for the JS footgun where `typeof null === "object"` and
// `typeof [] === "object"`. Here a number should say "got number".
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos: 42\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.error).toMatch(/got number/);
}
});
it("returns {kind:'malformed', subkind:'shape'} when a demo entry lacks a string id", () => {
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos:\n - noid: true\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/id/i);
}
});
it("returns {kind:'malformed', subkind:'shape'} when deployed is present but not a boolean", () => {
const f = path.join(root, "manifest.yaml");
write(f, 'slug: x\ndeployed: "yes"\n');
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/deployed/i);
}
});
it("returns {kind:'ok', manifest} for a valid manifest", () => {
const f = path.join(root, "manifest.yaml");
write(
f,
"slug: mypkg\nname: My Pkg\ndeployed: true\ndemos:\n - id: foo\n name: Foo\n - id: bar\n",
);
const r = parseManifest(f);
expect(r.kind).toBe("ok");
if (r.kind === "ok") {
expect(r.manifest.slug).toBe("mypkg");
expect(r.manifest.name).toBe("My Pkg");
expect(r.manifest.deployed).toBe(true);
expect(r.manifest.demos?.length).toBe(2);
expect(r.manifest.demos?.[0].id).toBe("foo");
}
});
it("returns {kind:'ok', manifest} with deployed:false preserved", () => {
// Symmetric to the deployed:true positive test above. `deployed: false`
// is a legal boolean and must parse as {kind:"ok"} with the flag
// preserved, not collapsed into undefined. The strict boolean guard
// rejects stringly-typed "no", "false", etc., but a real boolean false
// must round-trip cleanly.
const f = path.join(root, "manifest.yaml");
write(f, "slug: mypkg\ndeployed: false\n");
const r = parseManifest(f);
expect(r.kind).toBe("ok");
if (r.kind === "ok") {
expect(r.manifest.slug).toBe("mypkg");
expect(r.manifest.deployed).toBe(false);
}
});
it("returns {kind:'ok'} with an empty demos array when demos is omitted", () => {
// `demos` is always set by parseManifest: empty readonly
// array when the manifest omits the field, so callers can iterate
// without `?.` chaining. The old optional-undefined shape is gone.
const f = path.join(root, "manifest.yaml");
write(f, "slug: mypkg\n");
const r = parseManifest(f);
expect(r.kind).toBe("ok");
if (r.kind === "ok") {
expect(r.manifest.demos).toEqual([]);
}
});
it("returns {kind:'malformed', subkind:'shape'} when demos[i] is null", () => {
// YAML `demos: [~]` parses to `[null]`. The per-entry object guard must
// reject this as shape-malformed rather than crashing on `d.id` later.
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos:\n - ~\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/demos\[0\].*null/i);
}
});
it("returns {kind:'malformed', subkind:'shape'} when demos[i] is a scalar", () => {
// YAML `demos: [42]` parses to `[42]`. The per-entry object guard must
// describe the concrete scalar type in the error (not "object").
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos:\n - 42\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/demos\[0\].*number/i);
}
});
it("returns {kind:'malformed', subkind:'shape'} when demos[i].id is an empty string", () => {
// Empty ids would round-trip as valid strings but make downstream
// demo-path construction (`integrations/<slug>/src/app/demos/<id>`) collapse
// onto the demos dir itself. Reject at validation time.
const f = path.join(root, "manifest.yaml");
write(f, 'slug: x\ndemos:\n - id: ""\n');
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/demos\[0\]\.id.*non-empty/i);
}
});
it("returns {kind:'malformed', subkind:'shape'} on duplicate demo ids", () => {
// Two demos with the same id used to silently propagate — audit.ts
// would build two missing-demo-dir anomalies for the same path and
// validate-parity.ts would double-count coverage. Reject up-front.
const f = path.join(root, "manifest.yaml");
write(
f,
"slug: x\ndemos:\n - id: agentic-chat\n - id: human-in-the-loop\n - id: agentic-chat\n",
);
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/duplicate demo id.*agentic-chat/i);
}
});
it("verifies manifest.slug matches the expected dir slug", () => {
// parseManifest accepts an optional `dirSlug` parameter so callers
// that derive filePath from a slug can detect drift between the
// manifest's declared slug and the directory that holds it (copy/
// paste error, rename-without-updating). Catch at the parser so
// downstream tools don't silently apply the wrong slug.
const f = path.join(root, "manifest.yaml");
write(f, "slug: bar-pkg\n");
const r = parseManifest(f, "foo-pkg");
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/slug.*mismatch|mismatch.*slug/i);
expect(r.error).toContain("foo-pkg");
expect(r.error).toContain("bar-pkg");
}
});
it("accepts a manifest where the declared slug matches dirSlug", () => {
// Positive case for the slug-mismatch check: matching slug and
// dirSlug should still return {kind:'ok'}.
const f = path.join(root, "manifest.yaml");
write(f, "slug: mypkg\n");
const r = parseManifest(f, "mypkg");
expect(r.kind).toBe("ok");
});
it("skips the slug-mismatch check when dirSlug is omitted (backwards-compatible)", () => {
// Callers that don't operate against the packages tree (test
// fixtures, programmatic invocations with synthetic paths) should
// continue to work unchanged when they don't pass dirSlug.
const f = path.join(root, "manifest.yaml");
write(f, "slug: whatever\n");
const r = parseManifest(f);
expect(r.kind).toBe("ok");
});
it("returns {kind:'malformed', subkind:'shape'} when a demo's name field is not a string", () => {
// Prior permissive behavior silently coerced non-string `name` to
// undefined. Match the strictness applied to top-level `name`:
// present-but-wrong-type is a shape malformed.
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos:\n - id: foo\n name: 42\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/demos\[0\]\.name/i);
}
});
it("freezes the returned manifest and its demos array", () => {
// parseManifest must return a frozen Manifest: downstream tools
// share the value across buckets and a mutation by one would poison
// the rest. Both the outer object and the nested demos array must
// be frozen.
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos:\n - id: foo\n - id: bar\n");
const r = parseManifest(f);
expect(r.kind).toBe("ok");
if (r.kind === "ok") {
expect(Object.isFrozen(r.manifest)).toBe(true);
expect(Object.isFrozen(r.manifest.demos)).toBe(true);
expect(() => {
(r.manifest as unknown as Record<string, unknown>)["new"] = "bogus";
}).toThrow();
expect(() => {
(r.manifest.demos as unknown as unknown[])[0] = { id: "x" };
}).toThrow();
}
});
// --- demo.route validation (added by R2 fix cycle) ---------------------
//
// `route` is optional on each demo. When present, it must be a non-empty
// string that begins with "/demos/". Downstream validators (validate-parity
// routeToDirName, bundle-demo-content) rely on the "/demos/" prefix to
// strip it uniformly; accepting a bare "/hitl" or a number silently
// produces the wrong on-disk directory lookup.
it("returns {kind:'malformed', subkind:'shape'} when demos[i].route is a number", () => {
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos:\n - id: foo\n route: 42\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/route/i);
}
});
it("returns {kind:'malformed', subkind:'shape'} when demos[i].route is null", () => {
// YAML `route: ~` parses to null. hasOwnProp is true but the value is
// not a string, so the non-empty-string guard rejects it.
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos:\n - id: foo\n route: ~\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/route/i);
}
});
it("returns {kind:'malformed', subkind:'shape'} when demos[i].route is an object", () => {
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos:\n - id: foo\n route:\n nested: true\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/route/i);
}
});
it("returns {kind:'malformed', subkind:'shape'} when demos[i].route is the empty string", () => {
const f = path.join(root, "manifest.yaml");
write(f, 'slug: x\ndemos:\n - id: foo\n route: ""\n');
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/route/i);
}
});
it("returns {kind:'malformed', subkind:'shape'} when demos[i].route does not start with /demos/", () => {
// Catches the exact anti-pattern the prefix guard exists for: a bare
// "/hitl" looks route-shaped but routeToDirName's prefix strip would
// return the whole string unchanged, then miss a real directory match.
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos:\n - id: foo\n route: /hitl\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/\/demos\//);
}
});
it("returns {kind:'malformed', subkind:'shape'} when demos[i].route is exactly '/demos/'", () => {
// The `/demos/` prefix guard accepts any string that starts with the
// prefix, including the bare prefix with an empty tail. Downstream
// consumers (routeToDirName, bundle-demo-content) strip the prefix and
// expect a non-empty segment to follow; an empty tail would silently
// point at the parent demos/ directory rather than a specific demo.
// Reject at the parser boundary so validate-parity / bundle-demo-content
// can treat a successful parse as a non-empty-segment invariant.
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos:\n - id: foo\n route: /demos/\n");
const r = parseManifest(f);
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/non-empty segment/i);
}
});
it("returns {kind:'ok'} and persists demo.route on the frozen entry when well-formed", () => {
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos:\n - id: foo\n route: /demos/hitl-in-chat\n");
const r = parseManifest(f);
expect(r.kind).toBe("ok");
if (r.kind === "ok") {
const first = r.manifest.demos?.[0];
expect(first?.id).toBe("foo");
expect(first?.route).toBe("/demos/hitl-in-chat");
expect(Object.isFrozen(first)).toBe(true);
}
});
it("returns {kind:'ok'} with demo.route undefined when route is omitted (backward compat)", () => {
// Absence of `route` must not be treated as shape-malformed. Existing
// manifests predate this field; they must still parse cleanly and the
// frozen demo entry's .route must be undefined (not null, not a
// placeholder).
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\ndemos:\n - id: foo\n");
const r = parseManifest(f);
expect(r.kind).toBe("ok");
if (r.kind === "ok") {
const first = r.manifest.demos?.[0];
expect(first?.id).toBe("foo");
expect(first?.route).toBeUndefined();
expect(Object.isFrozen(first)).toBe(true);
}
});
it("sets demos to a frozen empty readonly array when demos is omitted", () => {
// `demos` is non-optional in the public type: when absent, return an
// empty readonly array so consumers can iterate without `?.` chains.
const f = path.join(root, "manifest.yaml");
write(f, "slug: x\n");
const r = parseManifest(f);
expect(r.kind).toBe("ok");
if (r.kind === "ok") {
expect(r.manifest.demos).toEqual([]);
expect(Object.isFrozen(r.manifest.demos)).toBe(true);
}
});
it.skipIf(cannotEnforceEacces)(
"returns {kind:'unreadable'} when the parent dir is unreadable (EACCES on stat)",
() => {
// Regression for FX30-C Fix 2 (R29-2 H3): parseManifest used
// fs.existsSync which CONFLATES ENOENT with EACCES — a manifest
// whose parent dir is 0700 owned by another user collapses to
// "missing" instead of surfacing as "unreadable". That's the
// exact anti-pattern probeDir in validate-parity.ts was written
// to avoid. parseManifest must use statSync + errno inspection
// so EACCES/ENOTDIR/etc route to `{kind:"unreadable"}`.
const root = fs.mkdtempSync(
path.join(os.tmpdir(), "lib-manifest-parent-eacces-"),
);
const parentDir = path.join(root, "locked");
fs.mkdirSync(parentDir);
const manifestFile = path.join(parentDir, "manifest.yaml");
fs.writeFileSync(manifestFile, "slug: ok\n");
fs.chmodSync(parentDir, 0o000);
try {
const r = parseManifest(manifestFile);
expect(r.kind).toBe("unreadable");
} finally {
try {
fs.chmodSync(parentDir, 0o755);
} catch {
// best-effort
}
fs.rmSync(root, { recursive: true, force: true });
}
},
);
it("returns {kind:'unreadable'} when statSync throws a non-ENOENT errno", () => {
// Deterministic variant of the chmod-based test above: stub statSync
// to throw EACCES so the behavior is verified even on FS layers that
// ignore chmod. Pre-ENOENT semantics (via fs.existsSync) would have
// collapsed this to {kind:"missing"}.
const tmp = fs.mkdtempSync(
path.join(os.tmpdir(), "lib-manifest-stat-spy-"),
);
const f = path.join(tmp, "manifest.yaml");
fs.writeFileSync(f, "slug: ok\n");
const orig = fs.statSync;
const spy = vi.spyOn(fs, "statSync").mockImplementation(((
p: fs.PathLike,
options?: unknown,
) => {
if (typeof p === "string" && p === f) {
const e: NodeJS.ErrnoException = new Error("EACCES: injected");
e.code = "EACCES";
throw e;
}
return (orig as unknown as (p: fs.PathLike, o?: unknown) => unknown)(
p,
options,
);
}) as typeof fs.statSync);
try {
const r = parseManifest(f);
expect(r.kind).toBe("unreadable");
if (r.kind === "unreadable") {
expect(r.error).toContain("EACCES");
}
} finally {
spy.mockRestore();
fs.rmSync(tmp, { recursive: true, force: true });
}
});
it("returns {kind:'missing'} (not 'unreadable') when statSync throws ENOENT", () => {
// ENOENT is the legitimate "file absent" signal and must continue to
// route to {kind:"missing"}. Only non-ENOENT errno values escalate
// to "unreadable".
const r = parseManifest(
path.join(os.tmpdir(), "definitely-absent-xyz", "manifest.yaml"),
);
expect(r.kind).toBe("missing");
});
it("returns {kind:'malformed'} when dirSlug is the empty string (caller bug)", () => {
// Regression for FX30-C Fix 3 (R29-2 H2): `""` is NOT a valid opt-out
// sentinel — `undefined` means "caller opted out of slug-check".
// An empty string usually comes from path.basename on a weird path
// (trailing slash, etc.) in the caller; silently collapsing it to
// undefined hides a caller bug. The parser must surface it.
const tmp = fs.mkdtempSync(
path.join(os.tmpdir(), "lib-manifest-empty-slug-"),
);
const f = path.join(tmp, "manifest.yaml");
fs.writeFileSync(f, "slug: mypkg\n");
try {
const r = parseManifest(f, "");
expect(r.kind).toBe("malformed");
if (r.kind === "malformed") {
expect(r.subkind).toBe("shape");
expect(r.error).toMatch(/empty.*dirSlug|dirSlug.*empty/i);
}
} finally {
fs.rmSync(tmp, { recursive: true, force: true });
}
});
it("returns {kind:'unreadable'} when readFileSync throws (e.g. EACCES)", () => {
// Simulate a permission error via spy. existsSync returns true but
// readFileSync throws — the parser must surface this as 'unreadable',
// distinct from 'missing' (file absent) and 'malformed' (file present,
// contents bad).
//
// The spy falls through to the original implementation for any path
// other than the target manifest. Throwing "unexpected readFileSync
// call" from within a spy masked the real failure (e.g. vitest's own
// readFileSync for transform cache) with a confusing error — fall-
// through is the correct behavior for a mock of this shape.
const f = path.join(root, "manifest.yaml");
write(f, "slug: ok\n");
const orig = fs.readFileSync;
const spy = vi.spyOn(fs, "readFileSync").mockImplementation(((
p: fs.PathOrFileDescriptor,
options?: unknown,
) => {
if (typeof p === "string" && p === f) {
const e: NodeJS.ErrnoException = new Error("EACCES: permission denied");
e.code = "EACCES";
throw e;
}
return (
orig as unknown as (p: fs.PathOrFileDescriptor, o?: unknown) => unknown
)(p, options);
}) as typeof fs.readFileSync);
try {
const r = parseManifest(f);
expect(r.kind).toBe("unreadable");
if (r.kind === "unreadable") {
expect(r.error).toContain("EACCES");
}
} finally {
spy.mockRestore();
}
});
});
describe("createDemoId", () => {
it("accepts a non-empty string and returns a branded DemoId", () => {
const id = createDemoId("foo");
expect(id).toBe("foo");
});
it("returns null for the empty string", () => {
expect(createDemoId("")).toBeNull();
});
it("accepts unknown input and returns null for non-string values", () => {
// Signature widened from (s: string) to (s: unknown) so the dead
// typeof check becomes a live guard. Non-string inputs at API
// boundaries (yaml.parse results, untyped JSON) return null rather
// than silently producing a fake branded id.
expect(createDemoId(null)).toBeNull();
expect(createDemoId(undefined)).toBeNull();
expect(createDemoId(42)).toBeNull();
expect(createDemoId({})).toBeNull();
expect(createDemoId([])).toBeNull();
expect(createDemoId(true)).toBeNull();
});
it("narrows its input via a type predicate (compile-time shape)", () => {
// The returned value, when non-null, is both a DemoId AND carries a
// TypeScript narrowing that lets callers read it as a string without
// further casts. This test is mostly structural — the assertion is
// that the code compiles; we still run a basic runtime check.
const candidate: unknown = "abc";
const id = createDemoId(candidate);
if (id !== null) {
// Compiler should accept DemoId as assignable to a string-slot.
const asString: string = id;
expect(asString).toBe("abc");
// Also exercise the DemoId type import to ensure the export exists.
const branded: DemoId = id;
expect(branded).toBe("abc");
}
});
});