Esempio n. 1
0
 public MerkleTree(Vector<Indexable> v) {
   nodeMap = new HashMap<Integer, MerkleTreeNode>();
   this.store = v;
   int exp = 0;
   while ((int) Math.pow(2, exp) < store.size()) {
     exp++;
   }
   for (int i = store.size(); i < (int) Math.pow(2, exp); i++) {
     store.add(i, null);
   }
   Vector<MerkleTreeNode> hashes = new Vector<MerkleTreeNode>();
   for (int i = 0; i < store.size(); i++) {
     if (store.get(i) != null) {
       MerkleTreeNode temp = new MerkleTreeNode(store.get(i).getBytes(), i);
       nodeMap.put(i, temp);
       hashes.add(temp);
     } else {
       MerkleTreeNode temp = new MerkleTreeNode(i);
       nodeMap.put(i, temp);
       hashes.add(temp);
     }
   }
   while (hashes.size() > 1) {
     Vector<MerkleTreeNode> temp = new Vector<MerkleTreeNode>();
     for (int i = 0; i < hashes.size(); i += 2) {
       temp.add(MerkleTreeNode.combineDigestFactory(hashes.get(i), hashes.get(i + 1)));
     }
     hashes = temp;
   }
   root = hashes.get(0);
 }
Esempio n. 2
0
 private MerkleTreeNode update(MerkleTreeNode node) {
   MerkleTreeNode retNode = null;
   if (!node.dirty) {
     retNode = node;
   } else {
     retNode =
         MerkleTreeNode.combineDigestFactory(update(node.leftChild), update(node.rightChild));
   }
   return retNode;
 }
Esempio n. 3
0
 public void updateLeafData(int index, Indexable b) {
   // Check to see if we need to grow tree
   if (index <= root.max) {
     // node already exists, simply update
     store.set(index, b);
     MerkleTreeNode node = nodeMap.get(index);
     MerkleTreeNode newNode = new MerkleTreeNode(b.getBytes(), index);
     newNode.parent = node.parent;
     if (newNode.parent.leftChild == node) {
       newNode.parent.leftChild = newNode;
     } else {
       newNode.parent.rightChild = newNode;
     }
     markChainDirty(newNode);
   } else {
     // node is beyond our scope, grow tree
     while (index > root.max) {
       Vector<Indexable> vec = new Vector<Indexable>();
       int origSize = store.size();
       for (int i = origSize; i < 2 * origSize; i++) {
         if (i == index) {
           vec.add(i - origSize, b);
         } else {
           vec.add(i - origSize, null);
         }
       }
       MerkleTree newtree = new MerkleTree(vec);
       root = MerkleTreeNode.combineDigestFactory(root, newtree.root);
       for (int i = origSize; i < 2 * origSize; i++) {
         MerkleTreeNode tempNode = newtree.nodeMap.get(i - origSize);
         tempNode.max += origSize;
         tempNode.min += origSize;
         nodeMap.put(i, tempNode);
         store.add(i, newtree.store.get(i - origSize));
       }
     }
   }
 }