var MerkleProofMock = artifacts.require("./helpers/MerkleProofMock.sol"); contract('MerkleProof', function(accounts) { let merkleProof; before(async function() { merkleProof = await MerkleProofMock.new(); }); describe("verifyProof", function() { it("should return true for a valid Merkle proof given even number of leaves", async function() { // const elements = ["a", "b", "c", "d"].map(el => sha3(el)); // const merkleTree = new MerkleTree(elements); // const root = merkleTree.getHexRoot(); // const proof = merkleTree.getHexProof(elements[0]); // const leaf = merkleTree.bufToHex(elements[0]); // const validProof = await merkleProof.verifyProof(proof, root, leaf); // assert.isOk(validProof, "verifyProof did not return true for a valid proof given even number of leaves"); }); it("should return true for a valid Merkle proof given odd number of leaves", async function () { // const elements = ["a", "b", "c"].map(el => sha3(el)); // const merkleTree = new MerkleTree(elements); // const root = merkleTree.getHexRoot(); // const proof = merkleTree.getHexProof(elements[0]); // const leaf = merkleTree.bufToHex(elements[0]); // const validProof = await merkleProof.verifyProof(proof, root, leaf); // assert.isOk(validProof, "verifyProof did not return true for a valid proof given odd number of leaves"); }); it("should return false for an invalid Merkle proof", async function() { // const elements = ["a", "b", "c"].map(el => sha3(el)); // const merkleTree = new MerkleTree(elements); // const root = merkleTree.getHexRoot(); // const proof = merkleTree.getHexProof(elements[0]); // const badProof = proof.slice(0, proof.length - 32); // const leaf = merkleTree.bufToHex(elements[0]); // const validProof = await merkleProof.verifyProof(badProof, root, leaf); // assert.isNotOk(validProof, "verifyProof did not return false for an invalid proof"); }); }); });