Esempio n. 1
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 @Test
 public void deterministicUpgradeEncrypted() throws Exception {
   group = new KeyChainGroup(params);
   final ECKey key = new ECKey();
   group.importKeys(key);
   final KeyCrypterScrypt crypter = new KeyCrypterScrypt();
   final KeyParameter aesKey = crypter.deriveKey("abc");
   assertTrue(group.isDeterministicUpgradeRequired());
   group.encrypt(crypter, aesKey);
   assertTrue(group.isDeterministicUpgradeRequired());
   try {
     group.upgradeToDeterministic(0, null);
     fail();
   } catch (DeterministicUpgradeRequiresPassword e) {
     // Expected.
   }
   group.upgradeToDeterministic(0, aesKey);
   assertFalse(group.isDeterministicUpgradeRequired());
   final DeterministicSeed deterministicSeed = group.getActiveKeyChain().getSeed();
   assertNotNull(deterministicSeed);
   assertTrue(deterministicSeed.isEncrypted());
   byte[] entropy =
       checkNotNull(group.getActiveKeyChain().toDecrypted(aesKey).getSeed()).getEntropyBytes();
   // Check we used the right key: oldest non rotating.
   byte[] truncatedBytes = Arrays.copyOfRange(key.getSecretBytes(), 0, 16);
   assertArrayEquals(entropy, truncatedBytes);
 }
Esempio n. 2
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  @Test
  public void deterministicUpgradeUnencrypted() throws Exception {
    // Check that a group that contains only random keys has its HD chain created using the private
    // key bytes of
    // the oldest random key, so upgrading the same wallet twice gives the same outcome.
    group = new KeyChainGroup(params);
    group.setLookaheadSize(LOOKAHEAD_SIZE); // Don't want slow tests.
    ECKey key1 = new ECKey();
    Utils.rollMockClock(86400);
    ECKey key2 = new ECKey();
    group.importKeys(key2, key1);

    List<Protos.Key> protobufs = group.serializeToProtobuf();
    group.upgradeToDeterministic(0, null);
    assertFalse(group.isDeterministicUpgradeRequired());
    DeterministicKey dkey1 = group.freshKey(KeyChain.KeyPurpose.RECEIVE_FUNDS);
    DeterministicSeed seed1 = group.getActiveKeyChain().getSeed();
    assertNotNull(seed1);

    group = KeyChainGroup.fromProtobufUnencrypted(params, protobufs);
    group.upgradeToDeterministic(0, null); // Should give same result as last time.
    DeterministicKey dkey2 = group.freshKey(KeyChain.KeyPurpose.RECEIVE_FUNDS);
    DeterministicSeed seed2 = group.getActiveKeyChain().getSeed();
    assertEquals(seed1, seed2);
    assertEquals(dkey1, dkey2);

    // Check we used the right (oldest) key despite backwards import order.
    byte[] truncatedBytes = Arrays.copyOfRange(key1.getSecretBytes(), 0, 16);
    assertArrayEquals(seed1.getEntropyBytes(), truncatedBytes);
  }
Esempio n. 3
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 @Test(expected = DeterministicUpgradeRequiredException.class)
 public void deterministicUpgradeRequired() throws Exception {
   // Check that if we try to use HD features in a KCG that only has random keys, we get an
   // exception.
   group = new KeyChainGroup(params);
   group.importKeys(new ECKey(), new ECKey());
   assertTrue(group.isDeterministicUpgradeRequired());
   group.freshKey(KeyChain.KeyPurpose.RECEIVE_FUNDS); // throws
 }