def test_add_2(self): merkle_tree = MerkleTree() merkle_tree.add(elements[0]) merkle_tree.add(elements[1]) self.assertEqual(len(merkle_tree), 2) self.assertEqual(merkle_tree.get(0), elements[0]) self.assertEqual(merkle_tree.get(1), elements[1])
def test_set_k(self): # tests that setting the k-th element has exactly the same effect as adding a new element mt1 = MerkleTree() mt2 = MerkleTree() for i in range(len(elements)): mt1.add(elements[i]) mt2.set(mt2.k, elements[i]) self.assertMerkleTreesEqual(mt1, mt2)
def test_root_3(self): merkle_tree = MerkleTree() merkle_tree.add(elements[0]) merkle_tree.add(elements[1]) merkle_tree.add(elements[2]) H01 = H(elements[0] + elements[1]) H2NIL = H(elements[2] + NIL) self.assertEqual(merkle_tree.root, H(H01 + H2NIL))
def test_construct(self): for i in range(len(elements)): # check if the Merkle trees obtained by adding the first i elements, # or constructing directing with the first i elements, are identical. mt1 = MerkleTree() for el in elements[:i]: mt1.add(el) mt2 = MerkleTree(elements[:i]) self.assertMerkleTreesEqual(mt1, mt2)
def test_prove_verify(self): merkle_tree = MerkleTree() for el in elements: merkle_tree.add(el) # for each pair i, j, try if the proof for element i passes when given element j. Should be true iff i == j for i in range(len(elements)): p = merkle_tree.prove_leaf(i) for j in range(len(elements)): self.assertEqual( merkle_proof_verify(merkle_tree.root, len(merkle_tree), elements[j], i, p), (i == j))
def test_proof(self): merkle_tree = MerkleTree() for el in elements: merkle_tree.add(el) H01 = H(elements[0] + elements[1]) H45 = H(elements[4] + elements[5]) H67 = H(NIL + NIL) H4567 = H(H45 + H67) p = merkle_tree.prove_leaf(3) # H('of') self.assertEqual(p[0], elements[2]) # sibling of leaf 3 self.assertEqual(p[1], H01) self.assertEqual(p[2], H4567)
def test_root_2(self): merkle_tree = MerkleTree() merkle_tree.add(elements[0]) merkle_tree.add(elements[1]) self.assertEqual(merkle_tree.root, H(elements[0] + elements[1]))
def test_root_1(self): merkle_tree = MerkleTree() merkle_tree.add(elements[0]) self.assertEqual(merkle_tree.root, elements[0])
def test_capacity(self): merkle_tree = MerkleTree() self.assertEqual(merkle_tree.capacity, 1) merkle_tree.add(elements[0]) self.assertEqual(merkle_tree.capacity, 1) merkle_tree.add(elements[1]) self.assertEqual(merkle_tree.capacity, 2) merkle_tree.add(elements[2]) self.assertEqual(merkle_tree.capacity, 4) merkle_tree.add(elements[3]) self.assertEqual(merkle_tree.capacity, 4) merkle_tree.add(elements[4]) self.assertEqual(merkle_tree.capacity, 8) merkle_tree.add(elements[5]) self.assertEqual(merkle_tree.capacity, 8)
def test_add_many(self): merkle_tree = MerkleTree() for i in range(len(elements)): merkle_tree.add(elements[i]) self.assertEqual(len(merkle_tree), i + 1) self.assertEqual(merkle_tree.get(i), elements[i])
def test_add_1(self): merkle_tree = MerkleTree() self.assertEqual(len(merkle_tree), 0) merkle_tree.add(elements[0]) self.assertEqual(len(merkle_tree), 1) self.assertEqual(merkle_tree.get(0), elements[0])