/* global libsignal, textsecure */ describe('Key generation', function thisNeeded() { const count = 10; this.timeout(count * 2000); function validateStoredKeyPair(keyPair) { /* Ensure the keypair matches the format used internally by libsignal-protocol */ assert.isObject(keyPair, 'Stored keyPair is not an object'); assert.instanceOf(keyPair.pubKey, ArrayBuffer); assert.instanceOf(keyPair.privKey, ArrayBuffer); assert.strictEqual(keyPair.pubKey.byteLength, 33); assert.strictEqual(new Uint8Array(keyPair.pubKey)[0], 5); assert.strictEqual(keyPair.privKey.byteLength, 32); } function itStoresPreKey(keyId) { it(`prekey ${keyId} is valid`, () => textsecure.storage.protocol.loadPreKey(keyId).then(keyPair => { validateStoredKeyPair(keyPair); })); } function itStoresSignedPreKey(keyId) { it(`signed prekey ${keyId} is valid`, () => textsecure.storage.protocol.loadSignedPreKey(keyId).then(keyPair => { validateStoredKeyPair(keyPair); })); } function validateResultKey(resultKey) { return textsecure.storage.protocol .loadPreKey(resultKey.keyId) .then(keyPair => { assertEqualArrayBuffers(resultKey.publicKey, keyPair.pubKey); }); } function validateResultSignedKey(resultSignedKey) { return textsecure.storage.protocol .loadSignedPreKey(resultSignedKey.keyId) .then(keyPair => { assertEqualArrayBuffers(resultSignedKey.publicKey, keyPair.pubKey); }); } before(() => { localStorage.clear(); return libsignal.KeyHelper.generateIdentityKeyPair().then(keyPair => textsecure.storage.protocol.put('identityKey', keyPair) ); }); describe('the first time', () => { let result; /* result should have this format * { * preKeys: [ { keyId, publicKey }, ... ], * signedPreKey: { keyId, publicKey, signature }, * identityKey: * } */ before(() => { const accountManager = new textsecure.AccountManager(''); return accountManager.generateKeys(count).then(res => { result = res; }); }); for (let i = 1; i <= count; i += 1) { itStoresPreKey(i); } itStoresSignedPreKey(1); it(`result contains ${count} preKeys`, () => { assert.isArray(result.preKeys); assert.lengthOf(result.preKeys, count); for (let i = 0; i < count; i += 1) { assert.isObject(result.preKeys[i]); } }); it('result contains the correct keyIds', () => { for (let i = 0; i < count; i += 1) { assert.strictEqual(result.preKeys[i].keyId, i + 1); } }); it('result contains the correct public keys', () => Promise.all(result.preKeys.map(validateResultKey))); it('returns a signed prekey', () => { assert.strictEqual(result.signedPreKey.keyId, 1); assert.instanceOf(result.signedPreKey.signature, ArrayBuffer); return validateResultSignedKey(result.signedPreKey); }); }); describe('the second time', () => { let result; before(() => { const accountManager = new textsecure.AccountManager(''); return accountManager.generateKeys(count).then(res => { result = res; }); }); for (let i = 1; i <= 2 * count; i += 1) { itStoresPreKey(i); } itStoresSignedPreKey(1); itStoresSignedPreKey(2); it(`result contains ${count} preKeys`, () => { assert.isArray(result.preKeys); assert.lengthOf(result.preKeys, count); for (let i = 0; i < count; i += 1) { assert.isObject(result.preKeys[i]); } }); it('result contains the correct keyIds', () => { for (let i = 1; i <= count; i += 1) { assert.strictEqual(result.preKeys[i - 1].keyId, i + count); } }); it('result contains the correct public keys', () => Promise.all(result.preKeys.map(validateResultKey))); it('returns a signed prekey', () => { assert.strictEqual(result.signedPreKey.keyId, 2); assert.instanceOf(result.signedPreKey.signature, ArrayBuffer); return validateResultSignedKey(result.signedPreKey); }); }); describe('the third time', () => { let result; before(() => { const accountManager = new textsecure.AccountManager(''); return accountManager.generateKeys(count).then(res => { result = res; }); }); for (let i = 1; i <= 3 * count; i += 1) { itStoresPreKey(i); } itStoresSignedPreKey(2); itStoresSignedPreKey(3); it(`result contains ${count} preKeys`, () => { assert.isArray(result.preKeys); assert.lengthOf(result.preKeys, count); for (let i = 0; i < count; i += 1) { assert.isObject(result.preKeys[i]); } }); it('result contains the correct keyIds', () => { for (let i = 1; i <= count; i += 1) { assert.strictEqual(result.preKeys[i - 1].keyId, i + 2 * count); } }); it('result contains the correct public keys', () => Promise.all(result.preKeys.map(validateResultKey))); it('result contains a signed prekey', () => { assert.strictEqual(result.signedPreKey.keyId, 3); assert.instanceOf(result.signedPreKey.signature, ArrayBuffer); return validateResultSignedKey(result.signedPreKey); }); }); });