/**
  * Deserialize an HD Key.
  *
  * @param parent The parent node in the given key's deterministic hierarchy.
  */
 public static DeterministicKey deserialize(
     NetworkParameters params, byte[] serializedKey, @Nullable DeterministicKey parent) {
   ByteBuffer buffer = ByteBuffer.wrap(serializedKey);
   int header = buffer.getInt();
   if (header != params.getBip32HeaderPriv() && header != params.getBip32HeaderPub())
     throw new IllegalArgumentException(
         "Unknown header bytes: " + toBase58(serializedKey).substring(0, 4));
   boolean pub = header == params.getBip32HeaderPub();
   int depth =
       buffer.get() & 0xFF; // convert signed byte to positive int since depth cannot be negative
   final int parentFingerprint = buffer.getInt();
   final int i = buffer.getInt();
   final ChildNumber childNumber = new ChildNumber(i);
   ImmutableList<ChildNumber> path;
   if (parent != null) {
     if (parentFingerprint == 0)
       throw new IllegalArgumentException("Parent was provided but this key doesn't have one");
     if (parent.getFingerprint() != parentFingerprint)
       throw new IllegalArgumentException("Parent fingerprints don't match");
     path = HDUtils.append(parent.getPath(), childNumber);
     if (path.size() != depth) throw new IllegalArgumentException("Depth does not match");
   } else {
     if (depth >= 1)
       // We have been given a key that is not a root key, yet we lack the object representing the
       // parent.
       // This can happen when deserializing an account key for a watching wallet.  In this case,
       // we assume that
       // the client wants to conceal the key's position in the hierarchy.  The path is truncated
       // at the
       // parent's node.
       path = ImmutableList.of(childNumber);
     else path = ImmutableList.of();
   }
   byte[] chainCode = new byte[32];
   buffer.get(chainCode);
   byte[] data = new byte[33];
   buffer.get(data);
   checkArgument(!buffer.hasRemaining(), "Found unexpected data in key");
   if (pub) {
     return new DeterministicKey(
         path,
         chainCode,
         new LazyECPoint(ECKey.CURVE.getCurve(), data),
         parent,
         depth,
         parentFingerprint);
   } else {
     return new DeterministicKey(
         path, chainCode, new BigInteger(1, data), parent, depth, parentFingerprint);
   }
 }
 /**
  * Returns the path of this key as a human readable string starting with M to indicate the master
  * key.
  */
 public String getPathAsString() {
   return HDUtils.formatPath(getPath());
 }