const chai = require("chai"); const snarkjs = require("snarkjs"); const smt = require("../src/smt.js"); const mimcjs = require("../src/mimc7.js"); const expect = chai.expect; const bigInt = snarkjs.bigInt; function bytesToHex(buff) { return `0x${buff.toString("hex")}`; } function bigIntToBuffer(number) { const buff = Buffer.alloc(32); let pos = buff.length - 1; while (!number.isZero()) { buff[pos] = number.and(255); number = number.shiftRight(8); pos -= 1; } return buff; } function newEntry(arr) { return { hi: mimcjs.multiHash(arr.slice(2)), hv: mimcjs.multiHash(arr.slice(0, 2)), }; } describe("[sparse-merkle-tree] Javascript test", function () { this.timeout(100000); before( async () => { }); it("Add one claim", async () => { const claim = [bigInt(12), bigInt(45), bigInt(78), bigInt(41)]; const entries = newEntry(claim); const tree = await smt.newMemEmptyTrie(); const key1 = entries.hi; const value1 = entries.hv; await tree.insert(key1,value1); const root = tree.root; const rootBuff = bigIntToBuffer(root); expect(bytesToHex(rootBuff)).to.be.equal("0x2bf39430aa2482fc1e2f170179c8cab126b0f55f71edc8d333f4c80cb4e798f5"); }); /* it("Add two claims", async () => { const firstClaim = [bigInt(12), bigInt(45), bigInt(78), bigInt(41)]; const firstEntries = newEntry(firstClaim); const secondClaim = [bigInt(33), bigInt(44), bigInt(55), bigInt(66)]; const secondEntries = newEntry(secondClaim); const tree = await smt.newMemEmptyTrie(); const key1 = firstEntries.hi; const value1 = firstEntries.hv; const key2 = secondEntries.hi; const value2 = secondEntries.hv; await tree.insert(key1,value1); await tree.insert(key2,value2); const root = tree.root; const rootBuff = bigIntToBuffer(root); expect(bytesToHex(rootBuff)).to.be.equal("0x1fb755a3677f8fd6c47b5462b69778ef6383c31d2d498b765e953f8cacaa6744"); }); it("Add claims in different orders", async () => { const tree1 = await smt.newMemEmptyTrie(); for (let i = 0; i < 16; i++) { const claim = [bigInt(0), bigInt(i), bigInt(0), bigInt(i)]; const entries = newEntry(claim); await tree1.insert(entries.hi, entries.hv); } const tree2 = await smt.newMemEmptyTrie(); for (let i = 0; i < 16; i++) { const claim = [bigInt(0), bigInt(i), bigInt(0), bigInt(i)]; const entries = newEntry(claim); await tree2.insert(entries.hi, entries.hv); } const root1 = bigIntToBuffer(tree1.root); const root2 = bigIntToBuffer(tree2.root); expect(bytesToHex(root1)).to.be.equal(bytesToHex(root2)); expect(bytesToHex(root1)).to.be.equal("0x173fd27f6622526dfb21c4d8d83e3c95adba5d8f46a397113e4e80e629c6de76"); }); it("Insert 3 elements in different order into different trees", async () => { const claim1 = [bigInt(33), bigInt(44), bigInt(55), bigInt(66)]; const entries1 = newEntry(claim1); const claim2 = [bigInt(1111), bigInt(2222), bigInt(3333), bigInt(4444)]; const entries2 = newEntry(claim2); const claim3 = [bigInt(5555), bigInt(6666), bigInt(7777), bigInt(8888)]; const entries3 = newEntry(claim3); const tree1 = await smt.newMemEmptyTrie(); const tree2 = await smt.newMemEmptyTrie(); const tree3 = await smt.newMemEmptyTrie(); const tree4 = await smt.newMemEmptyTrie(); const tree5 = await smt.newMemEmptyTrie(); const tree6 = await smt.newMemEmptyTrie(); await tree1.insert(entries1.hi,entries1.hv); await tree1.insert(entries2.hi,entries2.hv); await tree1.insert(entries3.hi,entries3.hv); await tree2.insert(entries1.hi,entries1.hv); await tree2.insert(entries3.hi,entries3.hv); await tree2.insert(entries2.hi,entries2.hv); await tree3.insert(entries2.hi,entries2.hv); await tree3.insert(entries1.hi,entries1.hv); await tree3.insert(entries3.hi,entries3.hv); await tree4.insert(entries2.hi,entries2.hv); await tree4.insert(entries3.hi,entries3.hv); await tree4.insert(entries1.hi,entries1.hv); await tree5.insert(entries3.hi,entries3.hv); await tree5.insert(entries1.hi,entries1.hv); await tree5.insert(entries2.hi,entries2.hv); await tree6.insert(entries3.hi,entries3.hv); await tree6.insert(entries2.hi,entries2.hv); await tree6.insert(entries1.hi,entries1.hv); const root1 = bigIntToBuffer(tree1.root); const root2 = bigIntToBuffer(tree2.root); const root3 = bigIntToBuffer(tree3.root); const root4 = bigIntToBuffer(tree4.root); const root5 = bigIntToBuffer(tree5.root); const root6 = bigIntToBuffer(tree6.root); expect(bytesToHex(root1)).to.be.equal(bytesToHex(root2)); expect(bytesToHex(root2)).to.be.equal(bytesToHex(root3)); expect(bytesToHex(root3)).to.be.equal(bytesToHex(root4)); expect(bytesToHex(root4)).to.be.equal(bytesToHex(root5)); expect(bytesToHex(root5)).to.be.equal(bytesToHex(root6)); expect(bytesToHex(root1)).to.be.equal("0x27990ef22656f49f010b2b48b2418c46f2bc93e4afb2e3377a1eb09f129e9802"); }); <<<<<<< HEAD */ ======= >>>>>>> 5b7abbc4ec56447e5e2baa31e3b4ce3a0c0617a8 });