コード例 #1
0
  /**
   * Pre-generate enough keys to reach the lookahead size, but only if there are more than the
   * lookaheadThreshold to be generated, so that the Bloom filter does not have to be regenerated
   * that often.
   *
   * <p>The returned mutable list of keys must be inserted into the basic key chain.
   */
  private List<DeterministicKey> maybeLookAhead(
      DeterministicKey parent, int issued, int lookaheadSize, int lookaheadThreshold) {
    checkState(lock.isHeldByCurrentThread());
    final int numChildren = hierarchy.getNumChildren(parent.getPath());
    final int needed = issued + lookaheadSize + lookaheadThreshold - numChildren;

    if (needed <= lookaheadThreshold) return new ArrayList<DeterministicKey>();

    log.info(
        "{} keys needed for {} = {} issued + {} lookahead size + {} lookahead threshold - {} num children",
        needed,
        parent.getPathAsString(),
        issued,
        lookaheadSize,
        lookaheadThreshold,
        numChildren);

    List<DeterministicKey> result = new ArrayList<DeterministicKey>(needed);
    long now = System.currentTimeMillis();
    int nextChild = numChildren;
    for (int i = 0; i < needed; i++) {
      DeterministicKey key = HDKeyDerivation.deriveThisOrNextChildKey(parent, nextChild);
      key = key.getPubOnly();
      hierarchy.putKey(key);
      result.add(key);
      nextChild = key.getChildNumber().num() + 1;
    }
    log.info("Took {} msec", System.currentTimeMillis() - now);
    return result;
  }
コード例 #2
0
 // For internal usage only
 /* package */ List<ECKey> getKeys(boolean includeLookahead) {
   List<ECKey> keys = basicKeyChain.getKeys();
   if (!includeLookahead) {
     int treeSize = internalKey.getPath().size();
     List<ECKey> issuedKeys = new LinkedList<ECKey>();
     for (ECKey key : keys) {
       DeterministicKey detkey = (DeterministicKey) key;
       DeterministicKey parent = detkey.getParent();
       if (parent == null) continue;
       if (detkey.getPath().size() <= treeSize) continue;
       if (parent.equals(internalKey) && detkey.getChildNumber().i() > issuedInternalKeys)
         continue;
       if (parent.equals(externalKey) && detkey.getChildNumber().i() > issuedExternalKeys)
         continue;
       issuedKeys.add(detkey);
     }
     return issuedKeys;
   }
   return keys;
 }
コード例 #3
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 private void checkForBitFlip(DeterministicKey k) {
   DeterministicKey parent = checkNotNull(k.getParent());
   byte[] rederived =
       HDKeyDerivation.deriveChildKeyBytesFromPublic(
               parent, k.getChildNumber(), HDKeyDerivation.PublicDeriveMode.WITH_INVERSION)
           .keyBytes;
   byte[] actual = k.getPubKey();
   if (!Arrays.equals(rederived, actual))
     throw new IllegalStateException(
         String.format(
             "Bit-flip check failed: %s vs %s",
             Arrays.toString(rederived), Arrays.toString(actual)));
 }
コード例 #4
0
  /**
   * Mark the DeterministicKey as used. Also correct the issued{Internal|External}Keys counter,
   * because all lower children seem to be requested already. If the counter was updated, we also
   * might trigger lookahead.
   */
  public DeterministicKey markKeyAsUsed(DeterministicKey k) {
    int numChildren = k.getChildNumber().i() + 1;

    if (k.getParent() == internalKey) {
      if (issuedInternalKeys < numChildren) {
        issuedInternalKeys = numChildren;
        maybeLookAhead();
      }
    } else if (k.getParent() == externalKey) {
      if (issuedExternalKeys < numChildren) {
        issuedExternalKeys = numChildren;
        maybeLookAhead();
      }
    }
    return k;
  }
コード例 #5
0
 /**
  * Returns all the key chains found in the given list of keys. Typically there will only be one,
  * but in the case of key rotation it can happen that there are multiple chains found.
  */
 public static List<DeterministicKeyChain> fromProtobuf(
     List<Protos.Key> keys, @Nullable KeyCrypter crypter) throws UnreadableWalletException {
   List<DeterministicKeyChain> chains = newLinkedList();
   DeterministicSeed seed = null;
   DeterministicKeyChain chain = null;
   int lookaheadSize = -1;
   for (Protos.Key key : keys) {
     final Protos.Key.Type t = key.getType();
     if (t == Protos.Key.Type.DETERMINISTIC_MNEMONIC) {
       if (chain != null) {
         checkState(lookaheadSize >= 0);
         chain.setLookaheadSize(lookaheadSize);
         chain.maybeLookAhead();
         chains.add(chain);
         chain = null;
       }
       long timestamp = key.getCreationTimestamp() / 1000;
       String passphrase = DEFAULT_PASSPHRASE_FOR_MNEMONIC; // FIXME allow non-empty passphrase
       if (key.hasSecretBytes()) {
         seed = new DeterministicSeed(key.getSecretBytes().toStringUtf8(), passphrase, timestamp);
       } else if (key.hasEncryptedData()) {
         EncryptedData data =
             new EncryptedData(
                 key.getEncryptedData().getInitialisationVector().toByteArray(),
                 key.getEncryptedData().getEncryptedPrivateKey().toByteArray());
         seed = new DeterministicSeed(data, timestamp);
       } else {
         throw new UnreadableWalletException("Malformed key proto: " + key.toString());
       }
       if (log.isDebugEnabled()) log.debug("Deserializing: DETERMINISTIC_MNEMONIC: {}", seed);
     } else if (t == Protos.Key.Type.DETERMINISTIC_KEY) {
       if (!key.hasDeterministicKey())
         throw new UnreadableWalletException(
             "Deterministic key missing extra data: " + key.toString());
       byte[] chainCode = key.getDeterministicKey().getChainCode().toByteArray();
       // Deserialize the path through the tree.
       LinkedList<ChildNumber> path = newLinkedList();
       for (int i : key.getDeterministicKey().getPathList()) path.add(new ChildNumber(i));
       // Deserialize the public key and path.
       ECPoint pubkey = ECKey.CURVE.getCurve().decodePoint(key.getPublicKey().toByteArray());
       final ImmutableList<ChildNumber> immutablePath = ImmutableList.copyOf(path);
       // Possibly create the chain, if we didn't already do so yet.
       boolean isWatchingAccountKey = false;
       boolean isFollowingKey = false;
       // save previous chain if any if the key is marked as following. Current key and the next
       // ones are to be
       // placed in new following key chain
       if (key.getDeterministicKey().getIsFollowing()) {
         if (chain != null) {
           checkState(lookaheadSize >= 0);
           chain.setLookaheadSize(lookaheadSize);
           chain.maybeLookAhead();
           chains.add(chain);
           chain = null;
           seed = null;
         }
         isFollowingKey = true;
       }
       if (chain == null) {
         if (seed == null) {
           DeterministicKey accountKey =
               new DeterministicKey(immutablePath, chainCode, pubkey, null, null);
           if (!accountKey.getPath().equals(ACCOUNT_ZERO_PATH))
             throw new UnreadableWalletException(
                 "Expecting account key but found key with path: "
                     + HDUtils.formatPath(accountKey.getPath()));
           chain = new DeterministicKeyChain(accountKey, isFollowingKey);
           isWatchingAccountKey = true;
         } else {
           chain = new DeterministicKeyChain(seed, crypter);
           chain.lookaheadSize = LAZY_CALCULATE_LOOKAHEAD;
           // If the seed is encrypted, then the chain is incomplete at this point. However, we
           // will load
           // it up below as we parse in the keys. We just need to check at the end that we've
           // loaded
           // everything afterwards.
         }
       }
       // Find the parent key assuming this is not the root key, and not an account key for a
       // watching chain.
       DeterministicKey parent = null;
       if (!path.isEmpty() && !isWatchingAccountKey) {
         ChildNumber index = path.removeLast();
         parent = chain.hierarchy.get(path, false, false);
         path.add(index);
       }
       DeterministicKey detkey;
       if (key.hasSecretBytes()) {
         // Not encrypted: private key is available.
         final BigInteger priv = new BigInteger(1, key.getSecretBytes().toByteArray());
         detkey = new DeterministicKey(immutablePath, chainCode, pubkey, priv, parent);
       } else {
         if (key.hasEncryptedData()) {
           Protos.EncryptedData proto = key.getEncryptedData();
           EncryptedData data =
               new EncryptedData(
                   proto.getInitialisationVector().toByteArray(),
                   proto.getEncryptedPrivateKey().toByteArray());
           checkNotNull(crypter, "Encountered an encrypted key but no key crypter provided");
           detkey = new DeterministicKey(immutablePath, chainCode, crypter, pubkey, data, parent);
         } else {
           // No secret key bytes and key is not encrypted: either a watching key or private key
           // bytes
           // will be rederived on the fly from the parent.
           detkey = new DeterministicKey(immutablePath, chainCode, pubkey, null, parent);
         }
       }
       if (key.hasCreationTimestamp())
         detkey.setCreationTimeSeconds(key.getCreationTimestamp() / 1000);
       if (log.isDebugEnabled()) log.debug("Deserializing: DETERMINISTIC_KEY: {}", detkey);
       if (!isWatchingAccountKey) {
         // If the non-encrypted case, the non-leaf keys (account, internal, external) have already
         // been
         // rederived and inserted at this point and the two lines below are just a no-op. In the
         // encrypted
         // case though, we can't rederive and we must reinsert, potentially building the heirarchy
         // object
         // if need be.
         if (path.size() == 0) {
           // Master key.
           chain.rootKey = detkey;
           chain.hierarchy = new DeterministicHierarchy(detkey);
         } else if (path.size() == 2) {
           if (detkey.getChildNumber().num() == 0) {
             chain.externalKey = detkey;
             chain.issuedExternalKeys = key.getDeterministicKey().getIssuedSubkeys();
             lookaheadSize = Math.max(lookaheadSize, key.getDeterministicKey().getLookaheadSize());
           } else if (detkey.getChildNumber().num() == 1) {
             chain.internalKey = detkey;
             chain.issuedInternalKeys = key.getDeterministicKey().getIssuedSubkeys();
           }
         }
       }
       chain.hierarchy.putKey(detkey);
       chain.basicKeyChain.importKey(detkey);
     }
   }
   if (chain != null) {
     checkState(lookaheadSize >= 0);
     chain.setLookaheadSize(lookaheadSize);
     chain.maybeLookAhead();
     chains.add(chain);
   }
   return chains;
 }