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Shade/packages/shade-storage-indexeddb/tests/indexeddb-storage.test.ts
Sterister f5f42fe557 release(v4.3.0): browser persistence via @shade/storage-indexeddb 
Ship an official IndexedDB-backed StorageProvider so browser-based Shade
consumers persist identity, prekeys, sessions, retired identities,
peer-verification state and stream-resume rows across tab refresh and
browser restart. Closes the gap that forced browser apps onto
storage:"memory" (regenerated identity each load, orphaned device
records server-side).

- New package @shade/storage-indexeddb (4.3.0): full StorageProvider
  conformance, schema v1, idb-backed; bumpPeerIdentityVersion is wrapped
  in a single readwrite IDB transaction (atomic, vs SQLite's
  read-then-upsert race).
- @shade/sdk resolveStorage() accepts { type: 'indexeddb', dbName? } via
  dynamic import (lazy, optional dep — same pattern as
  @shade/storage-postgres). Named StorageSpec type now reused by
  ResolvedConfig.
- Tests: 16 new tests in shade-storage-indexeddb (StorageProvider
  surface + peer-verifications + full E2EE conversation surviving a
  simulated tab reload). Run on fake-indexeddb.
- Lockstep version bump 4.2.1 → 4.3.0 across all 25 packages.
- Publish scripts updated to include the new package.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-05 17:35:02 +02:00

273 lines
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import 'fake-indexeddb/auto';
import { describe, test, expect, beforeEach, afterEach } from 'bun:test';
import { IndexedDBStorage } from '../src/indexeddb-storage.js';
import { SubtleCryptoProvider, MemoryStorage as _MemoryStorage } from '@shade/crypto-web';
import { ShadeSessionManager } from '@shade/core';
import type { IdentityKeyPair, SignedPreKey, OneTimePreKey } from '@shade/core';
void _MemoryStorage; // keep import side-effect-free reference shape
const crypto = new SubtleCryptoProvider();
function randBytes(n: number): Uint8Array {
const buf = new Uint8Array(n);
globalThis.crypto.getRandomValues(buf);
return buf;
}
function uniqueDbName(): string {
return `shade-test-${Date.now()}-${Math.random().toString(36).slice(2)}`;
}
async function deleteDb(dbName: string): Promise<void> {
await new Promise<void>((resolve, reject) => {
const req = indexedDB.deleteDatabase(dbName);
req.onsuccess = () => resolve();
req.onerror = () => reject(req.error);
req.onblocked = () => resolve();
});
}
describe('IndexedDBStorage', () => {
let dbName: string;
let storage: IndexedDBStorage;
beforeEach(async () => {
dbName = uniqueDbName();
storage = await IndexedDBStorage.create({ dbName });
});
afterEach(async () => {
await storage.close();
await deleteDb(dbName);
});
// ─── Identity ──────────────────────────────────────────────
describe('identity', () => {
test('returns null when no identity stored', async () => {
expect(await storage.getIdentityKeyPair()).toBeNull();
});
test('save and retrieve identity keypair', async () => {
const ikp: IdentityKeyPair = {
signingPublicKey: randBytes(32),
signingPrivateKey: randBytes(32),
dhPublicKey: randBytes(32),
dhPrivateKey: randBytes(32),
};
await storage.saveIdentityKeyPair(ikp);
const restored = await storage.getIdentityKeyPair();
expect(restored).not.toBeNull();
expect(restored!.signingPublicKey).toEqual(ikp.signingPublicKey);
expect(restored!.dhPrivateKey).toEqual(ikp.dhPrivateKey);
});
test('registration ID roundtrip', async () => {
expect(await storage.getLocalRegistrationId()).toBe(0);
await storage.saveLocalRegistrationId(42);
expect(await storage.getLocalRegistrationId()).toBe(42);
});
});
// ─── Signed PreKeys ───────────────────────────────────────
describe('signed prekeys', () => {
test('save, get, remove', async () => {
const spk: SignedPreKey = {
keyId: 1,
keyPair: { publicKey: randBytes(32), privateKey: randBytes(32) },
signature: randBytes(64),
timestamp: Date.now(),
};
await storage.saveSignedPreKey(spk);
const restored = await storage.getSignedPreKey(1);
expect(restored).not.toBeNull();
expect(restored!.keyId).toBe(1);
expect(restored!.keyPair.publicKey).toEqual(spk.keyPair.publicKey);
await storage.removeSignedPreKey(1);
expect(await storage.getSignedPreKey(1)).toBeNull();
});
});
// ─── One-Time PreKeys ─────────────────────────────────────
describe('one-time prekeys', () => {
test('save, get, remove, count', async () => {
const otpk: OneTimePreKey = {
keyId: 100,
keyPair: { publicKey: randBytes(32), privateKey: randBytes(32) },
};
await storage.saveOneTimePreKey(otpk);
expect(await storage.getOneTimePreKeyCount()).toBe(1);
const restored = await storage.getOneTimePreKey(100);
expect(restored!.keyId).toBe(100);
await storage.removeOneTimePreKey(100);
expect(await storage.getOneTimePreKeyCount()).toBe(0);
expect(await storage.getOneTimePreKey(100)).toBeNull();
});
});
// ─── Sessions ─────────────────────────────────────────────
describe('sessions', () => {
test('save and restore session with skipped keys', async () => {
const state = {
remoteIdentityKey: randBytes(32),
rootKey: randBytes(32),
sendChain: { chainKey: randBytes(32), counter: 5 },
receiveChain: { chainKey: randBytes(32), counter: 3 },
dhSend: { publicKey: randBytes(32), privateKey: randBytes(32) },
dhReceive: randBytes(32),
previousSendCounter: 4,
skippedKeys: new Map([['key:1', randBytes(32)]]),
};
await storage.saveSession('bob', state);
const restored = await storage.getSession('bob');
expect(restored).not.toBeNull();
expect(restored!.sendChain.counter).toBe(5);
expect(restored!.skippedKeys.size).toBe(1);
expect(restored!.skippedKeys.get('key:1')).toEqual(state.skippedKeys.get('key:1')!);
});
test('remove session', async () => {
await storage.saveSession('bob', {
remoteIdentityKey: randBytes(32),
rootKey: randBytes(32),
sendChain: { chainKey: randBytes(32), counter: 0 },
receiveChain: null,
dhSend: { publicKey: randBytes(32), privateKey: randBytes(32) },
dhReceive: null,
previousSendCounter: 0,
skippedKeys: new Map(),
});
await storage.removeSession('bob');
expect(await storage.getSession('bob')).toBeNull();
});
});
// ─── Trust ────────────────────────────────────────────────
describe('trust', () => {
test('TOFU: first use is trusted', async () => {
expect(await storage.isTrustedIdentity('bob', randBytes(32))).toBe(true);
});
test('saved identity matches', async () => {
const key = randBytes(32);
await storage.saveTrustedIdentity('bob', key);
expect(await storage.isTrustedIdentity('bob', key)).toBe(true);
expect(await storage.isTrustedIdentity('bob', randBytes(32))).toBe(false);
});
});
// ─── Retired identities ───────────────────────────────────
describe('retired identities', () => {
test('add, list (newest first), prune', async () => {
const mk = (retiredAt: number): { keyPair: IdentityKeyPair; retiredAt: number } => ({
keyPair: {
signingPublicKey: randBytes(32),
signingPrivateKey: randBytes(32),
dhPublicKey: randBytes(32),
dhPrivateKey: randBytes(32),
},
retiredAt,
});
await storage.addRetiredIdentity(mk(100));
await storage.addRetiredIdentity(mk(300));
await storage.addRetiredIdentity(mk(200));
const list = await storage.getRetiredIdentities();
expect(list.map((r) => r.retiredAt)).toEqual([300, 200, 100]);
await storage.pruneRetiredIdentities(250);
const after = await storage.getRetiredIdentities();
expect(after.map((r) => r.retiredAt)).toEqual([300]);
});
});
// ─── Crash Recovery ───────────────────────────────────────
describe('persistence across close/reopen', () => {
test('data survives close and reopen', async () => {
const ikp: IdentityKeyPair = {
signingPublicKey: randBytes(32),
signingPrivateKey: randBytes(32),
dhPublicKey: randBytes(32),
dhPrivateKey: randBytes(32),
};
await storage.saveIdentityKeyPair(ikp);
await storage.saveLocalRegistrationId(99);
await storage.saveSession('alice', {
remoteIdentityKey: randBytes(32),
rootKey: randBytes(32),
sendChain: { chainKey: randBytes(32), counter: 7 },
receiveChain: null,
dhSend: { publicKey: randBytes(32), privateKey: randBytes(32) },
dhReceive: null,
previousSendCounter: 0,
skippedKeys: new Map(),
});
// Close and reopen against the same dbName
await storage.close();
storage = await IndexedDBStorage.create({ dbName });
const restored = await storage.getIdentityKeyPair();
expect(restored!.signingPublicKey).toEqual(ikp.signingPublicKey);
expect(await storage.getLocalRegistrationId()).toBe(99);
const session = await storage.getSession('alice');
expect(session!.sendChain.counter).toBe(7);
});
});
// ─── Full E2EE with IndexedDBStorage ──────────────────────
describe('full E2EE conversation with persistent storage', () => {
test('encrypt, close, reopen, continue conversation', async () => {
const bobDbName = uniqueDbName();
let bobStorage = await IndexedDBStorage.create({ dbName: bobDbName });
try {
const alice = new ShadeSessionManager(crypto, storage);
let bob = new ShadeSessionManager(crypto, bobStorage);
await alice.initialize();
await bob.initialize();
const otpks = await bob.generateOneTimePreKeys(5);
const bundle = await bob.createPreKeyBundle();
bundle.oneTimePreKey = { keyId: otpks[0]!.keyId, publicKey: otpks[0]!.keyPair.publicKey };
await alice.initSessionFromBundle('bob', bundle);
const env1 = await alice.encrypt('bob', 'Hello persistent!');
expect(await bob.decrypt('alice', env1)).toBe('Hello persistent!');
const env2 = await bob.encrypt('alice', 'Got it!');
expect(await alice.decrypt('bob', env2)).toBe('Got it!');
// "Crash" Bob — close the IDB and reopen
await bobStorage.close();
bobStorage = await IndexedDBStorage.create({ dbName: bobDbName });
bob = new ShadeSessionManager(crypto, bobStorage);
await bob.initialize();
const env3 = await alice.encrypt('bob', 'After your restart');
expect(await bob.decrypt('alice', env3)).toBe('After your restart');
const env4 = await bob.encrypt('alice', 'I survived!');
expect(await alice.decrypt('bob', env4)).toBe('I survived!');
} finally {
await bobStorage.close();
await deleteDb(bobDbName);
}
});
});
});
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