package arbo import ( "encoding/hex" "math" "math/big" "runtime" "testing" "time" qt "github.com/frankban/quicktest" "go.vocdoni.io/dvote/db" "go.vocdoni.io/dvote/db/badgerdb" ) func checkRootBIString(c *qt.C, tree *Tree, expected string) { root, err := tree.Root() c.Assert(err, qt.IsNil) rootBI := BytesToBigInt(root) c.Check(rootBI.String(), qt.Equals, expected) } func TestDBTx(t *testing.T) { c := qt.New(t) database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) wTx := database.WriteTx() _, err = wTx.Get([]byte("a")) c.Assert(err, qt.Equals, db.ErrKeyNotFound) err = wTx.Set([]byte("a"), []byte("b")) c.Assert(err, qt.IsNil) v, err := wTx.Get([]byte("a")) c.Assert(err, qt.IsNil) c.Assert(v, qt.DeepEquals, []byte("b")) } func TestAddTestVectors(t *testing.T) { c := qt.New(t) // Poseidon test vectors generated using https://github.com/iden3/circomlib smt.js testVectorsPoseidon := []string{ "0000000000000000000000000000000000000000000000000000000000000000", "13578938674299138072471463694055224830892726234048532520316387704878000008795", "5412393676474193513566895793055462193090331607895808993925969873307089394741", "14204494359367183802864593755198662203838502594566452929175967972147978322084", } testAdd(c, HashFunctionPoseidon, testVectorsPoseidon) testVectorsSha256 := []string{ "0000000000000000000000000000000000000000000000000000000000000000", "46910109172468462938850740851377282682950237270676610513794735904325820156367", "59481735341404520835410489183267411392292882901306595567679529387376287440550", "20573794434149960984975763118181266662429997821552560184909083010514790081771", } testAdd(c, HashFunctionSha256, testVectorsSha256) } func testAdd(c *qt.C, hashFunc HashFunction, testVectors []string) { database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree, err := NewTree(database, 256, hashFunc) c.Assert(err, qt.IsNil) defer tree.db.Close() //nolint:errcheck root, err := tree.Root() c.Assert(err, qt.IsNil) c.Check(hex.EncodeToString(root), qt.Equals, testVectors[0]) bLen := 32 err = tree.Add( BigIntToBytes(bLen, big.NewInt(1)), BigIntToBytes(bLen, big.NewInt(2))) c.Assert(err, qt.IsNil) checkRootBIString(c, tree, testVectors[1]) err = tree.Add( BigIntToBytes(bLen, big.NewInt(33)), BigIntToBytes(bLen, big.NewInt(44))) c.Assert(err, qt.IsNil) checkRootBIString(c, tree, testVectors[2]) err = tree.Add( BigIntToBytes(bLen, big.NewInt(1234)), BigIntToBytes(bLen, big.NewInt(9876))) c.Assert(err, qt.IsNil) checkRootBIString(c, tree, testVectors[3]) } func TestAddBatch(t *testing.T) { c := qt.New(t) database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree, err := NewTree(database, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) defer tree.db.Close() //nolint:errcheck bLen := 32 for i := 0; i < 1000; i++ { k := BigIntToBytes(bLen, big.NewInt(int64(i))) v := BigIntToBytes(bLen, big.NewInt(0)) if err := tree.Add(k, v); err != nil { t.Fatal(err) } } checkRootBIString(c, tree, "296519252211642170490407814696803112091039265640052570497930797516015811235") database, err = badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree2, err := NewTree(database, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) defer tree2.db.Close() //nolint:errcheck var keys, values [][]byte for i := 0; i < 1000; i++ { k := BigIntToBytes(bLen, big.NewInt(int64(i))) v := BigIntToBytes(bLen, big.NewInt(0)) keys = append(keys, k) values = append(values, v) } indexes, err := tree2.AddBatch(keys, values) c.Assert(err, qt.IsNil) c.Check(len(indexes), qt.Equals, 0) checkRootBIString(c, tree2, "296519252211642170490407814696803112091039265640052570497930797516015811235") } func TestAddDifferentOrder(t *testing.T) { c := qt.New(t) database1, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree1, err := NewTree(database1, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) defer tree1.db.Close() //nolint:errcheck bLen := 32 for i := 0; i < 16; i++ { k := BigIntToBytes(bLen, big.NewInt(int64(i))) v := BigIntToBytes(bLen, big.NewInt(0)) if err := tree1.Add(k, v); err != nil { t.Fatal(err) } } database2, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree2, err := NewTree(database2, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) defer tree2.db.Close() //nolint:errcheck for i := 16 - 1; i >= 0; i-- { k := BigIntToBytes(bLen, big.NewInt(int64(i))) v := BigIntToBytes(bLen, big.NewInt(0)) if err := tree2.Add(k, v); err != nil { t.Fatal(err) } } root1, err := tree1.Root() c.Assert(err, qt.IsNil) root2, err := tree2.Root() c.Assert(err, qt.IsNil) c.Check(hex.EncodeToString(root2), qt.Equals, hex.EncodeToString(root1)) c.Check(hex.EncodeToString(root1), qt.Equals, "3b89100bec24da9275c87bc188740389e1d5accfc7d88ba5688d7fa96a00d82f") } func TestAddRepeatedIndex(t *testing.T) { c := qt.New(t) database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree, err := NewTree(database, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) defer tree.db.Close() //nolint:errcheck bLen := 32 k := BigIntToBytes(bLen, big.NewInt(int64(3))) v := BigIntToBytes(bLen, big.NewInt(int64(12))) err = tree.Add(k, v) c.Assert(err, qt.IsNil) err = tree.Add(k, v) // repeating same key-value c.Check(err, qt.Equals, ErrKeyAlreadyExists) } func TestUpdate(t *testing.T) { c := qt.New(t) database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree, err := NewTree(database, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) defer tree.db.Close() //nolint:errcheck bLen := 32 k := BigIntToBytes(bLen, big.NewInt(int64(20))) v := BigIntToBytes(bLen, big.NewInt(int64(12))) if err := tree.Add(k, v); err != nil { t.Fatal(err) } v = BigIntToBytes(bLen, big.NewInt(int64(11))) err = tree.Update(k, v) c.Assert(err, qt.IsNil) gettedKey, gettedValue, err := tree.Get(k) c.Assert(err, qt.IsNil) c.Check(gettedKey, qt.DeepEquals, k) c.Check(gettedValue, qt.DeepEquals, v) // add more leafs to the tree to do another test for i := 0; i < 16; i++ { k := BigIntToBytes(bLen, big.NewInt(int64(i))) v := BigIntToBytes(bLen, big.NewInt(int64(i*2))) if err := tree.Add(k, v); err != nil { t.Fatal(err) } } k = BigIntToBytes(bLen, big.NewInt(int64(3))) v = BigIntToBytes(bLen, big.NewInt(int64(11))) // check that before the Update, value for 3 is !=11 gettedKey, gettedValue, err = tree.Get(k) c.Assert(err, qt.IsNil) c.Check(gettedKey, qt.DeepEquals, k) c.Check(gettedValue, qt.Not(qt.DeepEquals), v) c.Check(gettedValue, qt.DeepEquals, BigIntToBytes(bLen, big.NewInt(6))) err = tree.Update(k, v) c.Assert(err, qt.IsNil) // check that after Update, the value for 3 is ==11 gettedKey, gettedValue, err = tree.Get(k) c.Assert(err, qt.IsNil) c.Check(gettedKey, qt.DeepEquals, k) c.Check(gettedValue, qt.DeepEquals, v) c.Check(gettedValue, qt.DeepEquals, BigIntToBytes(bLen, big.NewInt(11))) } func TestAux(t *testing.T) { // TODO split in proper tests c := qt.New(t) database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree, err := NewTree(database, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) defer tree.db.Close() //nolint:errcheck bLen := 32 k := BigIntToBytes(bLen, big.NewInt(int64(1))) v := BigIntToBytes(bLen, big.NewInt(int64(0))) err = tree.Add(k, v) c.Assert(err, qt.IsNil) k = BigIntToBytes(bLen, big.NewInt(int64(256))) err = tree.Add(k, v) c.Assert(err, qt.IsNil) k = BigIntToBytes(bLen, big.NewInt(int64(257))) err = tree.Add(k, v) c.Assert(err, qt.IsNil) k = BigIntToBytes(bLen, big.NewInt(int64(515))) err = tree.Add(k, v) c.Assert(err, qt.IsNil) k = BigIntToBytes(bLen, big.NewInt(int64(770))) err = tree.Add(k, v) c.Assert(err, qt.IsNil) k = BigIntToBytes(bLen, big.NewInt(int64(388))) err = tree.Add(k, v) c.Assert(err, qt.IsNil) k = BigIntToBytes(bLen, big.NewInt(int64(900))) err = tree.Add(k, v) c.Assert(err, qt.IsNil) // // err = tree.PrintGraphviz(nil) // c.Assert(err, qt.IsNil) } func TestGet(t *testing.T) { c := qt.New(t) database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree, err := NewTree(database, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) defer tree.db.Close() //nolint:errcheck bLen := 32 for i := 0; i < 10; i++ { k := BigIntToBytes(bLen, big.NewInt(int64(i))) v := BigIntToBytes(bLen, big.NewInt(int64(i*2))) if err := tree.Add(k, v); err != nil { t.Fatal(err) } } k := BigIntToBytes(bLen, big.NewInt(int64(7))) gettedKey, gettedValue, err := tree.Get(k) c.Assert(err, qt.IsNil) c.Check(gettedKey, qt.DeepEquals, k) c.Check(gettedValue, qt.DeepEquals, BigIntToBytes(bLen, big.NewInt(int64(7*2)))) } func TestPackAndUnpackSiblings(t *testing.T) { c := qt.New(t) siblingsHex := []string{ "0000000000000000000000000000000000000000000000000000000000000000", "0100000000000000000000000000000000000000000000000000000000000000", "0200000000000000000000000000000000000000000000000000000000000000", "0000000000000000000000000000000000000000000000000000000000000000", "0000000000000000000000000000000000000000000000000000000000000000", "0000000000000000000000000000000000000000000000000000000000000000", "0300000000000000000000000000000000000000000000000000000000000000", "0400000000000000000000000000000000000000000000000000000000000000", "0000000000000000000000000000000000000000000000000000000000000000", "0000000000000000000000000000000000000000000000000000000000000000", "0500000000000000000000000000000000000000000000000000000000000000", } siblings := make([][]byte, len(siblingsHex)) var err error for i := 0; i < len(siblingsHex); i++ { siblings[i], err = hex.DecodeString(siblingsHex[i]) c.Assert(err, qt.IsNil) } packed, err := PackSiblings(HashFunctionPoseidon, siblings) c.Assert(err, qt.IsNil) c.Assert(hex.EncodeToString(packed), qt.Equals, "a6000200c604"+ "0100000000000000000000000000000000000000000000000000000000000000"+ "0200000000000000000000000000000000000000000000000000000000000000"+ "0300000000000000000000000000000000000000000000000000000000000000"+ "0400000000000000000000000000000000000000000000000000000000000000"+ "0500000000000000000000000000000000000000000000000000000000000000") unpacked, err := UnpackSiblings(HashFunctionPoseidon, packed) c.Assert(err, qt.IsNil) c.Assert(unpacked, qt.DeepEquals, siblings) // another test with other values siblingsHex = []string{ "1ce165cb1124ed3a0a94b4e212aaf7e8079f49b2fbef916bc290c593fda9092a", "0000000000000000000000000000000000000000000000000000000000000000", "0000000000000000000000000000000000000000000000000000000000000000", "0000000000000000000000000000000000000000000000000000000000000000", "33018202c57d898b84338b16d1a4960e133c6a4d656cfec1bd62a9ea00611729", "bdbee2bd246ba0259a37be9a8740b550eed01c566aff0dca9a07306bcf731d13", "0000000000000000000000000000000000000000000000000000000000000000", "0000000000000000000000000000000000000000000000000000000000000000", "d43b04d7c2d0bba83b4291fea9ba0fec7830d17af54cbe9967fe90b8244d4e0d", "0000000000000000000000000000000000000000000000000000000000000000", "7def274dbb3a72dca44f01a8d9f2f21a5be84c171eecef8e2e4112e7277e262a", } siblings = make([][]byte, len(siblingsHex)) for i := 0; i < len(siblingsHex); i++ { siblings[i], err = hex.DecodeString(siblingsHex[i]) c.Assert(err, qt.IsNil) } packed, err = PackSiblings(HashFunctionPoseidon, siblings) c.Assert(err, qt.IsNil) c.Assert(hex.EncodeToString(packed), qt.Equals, "a60002003105"+ "1ce165cb1124ed3a0a94b4e212aaf7e8079f49b2fbef916bc290c593fda9092a"+ "33018202c57d898b84338b16d1a4960e133c6a4d656cfec1bd62a9ea00611729"+ "bdbee2bd246ba0259a37be9a8740b550eed01c566aff0dca9a07306bcf731d13"+ "d43b04d7c2d0bba83b4291fea9ba0fec7830d17af54cbe9967fe90b8244d4e0d"+ "7def274dbb3a72dca44f01a8d9f2f21a5be84c171eecef8e2e4112e7277e262a") unpacked, err = UnpackSiblings(HashFunctionPoseidon, packed) c.Assert(err, qt.IsNil) c.Assert(unpacked, qt.DeepEquals, siblings) } func TestGenProofAndVerify(t *testing.T) { c := qt.New(t) database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree, err := NewTree(database, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) defer tree.db.Close() //nolint:errcheck bLen := 32 for i := 0; i < 10; i++ { k := BigIntToBytes(bLen, big.NewInt(int64(i))) v := BigIntToBytes(bLen, big.NewInt(int64(i*2))) if err := tree.Add(k, v); err != nil { t.Fatal(err) } } k := BigIntToBytes(bLen, big.NewInt(int64(7))) v := BigIntToBytes(bLen, big.NewInt(int64(14))) kAux, proofV, siblings, existence, err := tree.GenProof(k) c.Assert(err, qt.IsNil) c.Assert(proofV, qt.DeepEquals, v) c.Assert(k, qt.DeepEquals, kAux) c.Assert(existence, qt.IsTrue) root, err := tree.Root() c.Assert(err, qt.IsNil) verif, err := CheckProof(tree.hashFunction, k, v, root, siblings) c.Assert(err, qt.IsNil) c.Check(verif, qt.IsTrue) } func TestDumpAndImportDump(t *testing.T) { c := qt.New(t) database1, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree1, err := NewTree(database1, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) defer tree1.db.Close() //nolint:errcheck bLen := 32 for i := 0; i < 16; i++ { k := BigIntToBytes(bLen, big.NewInt(int64(i))) v := BigIntToBytes(bLen, big.NewInt(int64(i*2))) if err := tree1.Add(k, v); err != nil { t.Fatal(err) } } e, err := tree1.Dump(nil) c.Assert(err, qt.IsNil) database2, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree2, err := NewTree(database2, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) defer tree2.db.Close() //nolint:errcheck err = tree2.ImportDump(e) c.Assert(err, qt.IsNil) root1, err := tree1.Root() c.Assert(err, qt.IsNil) root2, err := tree2.Root() c.Assert(err, qt.IsNil) c.Check(root2, qt.DeepEquals, root1) c.Check(hex.EncodeToString(root2), qt.Equals, "0d93aaa3362b2f999f15e15728f123087c2eee716f01c01f56e23aae07f09f08") } func TestRWMutex(t *testing.T) { c := qt.New(t) database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree, err := NewTree(database, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) defer tree.db.Close() //nolint:errcheck bLen := 32 var keys, values [][]byte for i := 0; i < 1000; i++ { k := BigIntToBytes(bLen, big.NewInt(int64(i))) v := BigIntToBytes(bLen, big.NewInt(0)) keys = append(keys, k) values = append(values, v) } go func() { _, err = tree.AddBatch(keys, values) if err != nil { panic(err) } }() time.Sleep(500 * time.Millisecond) k := BigIntToBytes(bLen, big.NewInt(int64(99999))) v := BigIntToBytes(bLen, big.NewInt(int64(99999))) if err := tree.Add(k, v); err != nil { t.Fatal(err) } } // TODO UPDATE // func TestSetGetNLeafs(t *testing.T) { // c := qt.New(t) // database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) // c.Assert(err, qt.IsNil) // tree, err := NewTree(database, 100, HashFunctionPoseidon) // c.Assert(err, qt.IsNil) // // // 0 // tree.dbBatch = tree.db.NewBatch() // // err = tree.setNLeafs(0) // c.Assert(err, qt.IsNil) // // err = tree.dbBatch.Write() // c.Assert(err, qt.IsNil) // // n, err := tree.GetNLeafs() // c.Assert(err, qt.IsNil) // c.Assert(n, qt.Equals, 0) // // // 1024 // tree.dbBatch = tree.db.NewBatch() // // err = tree.setNLeafs(1024) // c.Assert(err, qt.IsNil) // // err = tree.dbBatch.Write() // c.Assert(err, qt.IsNil) // // n, err = tree.GetNLeafs() // c.Assert(err, qt.IsNil) // c.Assert(n, qt.Equals, 1024) // // // 2**64 -1 // tree.dbBatch = tree.db.NewBatch() // // maxUint := ^uint(0) // maxInt := int(maxUint >> 1) // // err = tree.setNLeafs(maxInt) // c.Assert(err, qt.IsNil) // // err = tree.dbBatch.Write() // c.Assert(err, qt.IsNil) // // n, err = tree.GetNLeafs() // c.Assert(err, qt.IsNil) // c.Assert(n, qt.Equals, maxInt) // } func TestAddBatchFullyUsed(t *testing.T) { c := qt.New(t) database1, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree1, err := NewTree(database1, 4, HashFunctionPoseidon) c.Assert(err, qt.IsNil) database2, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree2, err := NewTree(database2, 4, HashFunctionPoseidon) c.Assert(err, qt.IsNil) var keys, values [][]byte for i := 0; i < 16; i++ { k := BigIntToBytes(1, big.NewInt(int64(i))) v := k keys = append(keys, k) values = append(values, v) // add one by one expecting no error err := tree1.Add(k, v) c.Assert(err, qt.IsNil) } invalids, err := tree2.AddBatch(keys, values) c.Assert(err, qt.IsNil) c.Assert(0, qt.Equals, len(invalids)) root1, err := tree1.Root() c.Assert(err, qt.IsNil) root2, err := tree2.Root() c.Assert(err, qt.IsNil) c.Assert(root1, qt.DeepEquals, root2) // get all key-values and check that are equal between both trees for i := 0; i < 16; i++ { auxK1, auxV1, err := tree1.Get(BigIntToBytes(1, big.NewInt(int64(i)))) c.Assert(err, qt.IsNil) auxK2, auxV2, err := tree2.Get(BigIntToBytes(1, big.NewInt(int64(i)))) c.Assert(err, qt.IsNil) c.Assert(auxK1, qt.DeepEquals, auxK2) c.Assert(auxV1, qt.DeepEquals, auxV2) } // try adding one more key to both trees (through Add & AddBatch) and // expect not being added due the tree is already full k := BigIntToBytes(1, big.NewInt(int64(16))) v := k err = tree1.Add(k, v) c.Assert(err, qt.Equals, ErrMaxVirtualLevel) invalids, err = tree2.AddBatch([][]byte{k}, [][]byte{v}) c.Assert(err, qt.IsNil) c.Assert(1, qt.Equals, len(invalids)) } func TestSetRoot(t *testing.T) { c := qt.New(t) database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree, err := NewTree(database, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) expectedRoot := "13742386369878513332697380582061714160370929283209286127733983161245560237407" // fill the tree bLen := 32 var keys, values [][]byte for i := 0; i < 1000; i++ { k := BigIntToBytes(bLen, big.NewInt(int64(i))) v := BigIntToBytes(bLen, big.NewInt(int64(i))) keys = append(keys, k) values = append(values, v) } indexes, err := tree.AddBatch(keys, values) c.Assert(err, qt.IsNil) c.Check(len(indexes), qt.Equals, 0) checkRootBIString(c, tree, expectedRoot) // add one more k-v k := BigIntToBytes(bLen, big.NewInt(1000)) v := BigIntToBytes(bLen, big.NewInt(1000)) err = tree.Add(k, v) c.Assert(err, qt.IsNil) checkRootBIString(c, tree, "10747149055773881257049574592162159501044114324358186833013814735296193179713") // do a SetRoot, and expect the same root than the original tree pastRootBI, ok := new(big.Int).SetString(expectedRoot, 10) c.Assert(ok, qt.IsTrue) pastRoot := BigIntToBytes(32, pastRootBI) err = tree.SetRoot(pastRoot) c.Assert(err, qt.IsNil) checkRootBIString(c, tree, expectedRoot) // check that the tree can be updated err = tree.Add([]byte("test"), []byte("test")) c.Assert(err, qt.IsNil) err = tree.Update([]byte("test"), []byte("test")) c.Assert(err, qt.IsNil) // check that the k-v '1000' does not exist in the new tree _, _, err = tree.Get(k) c.Assert(err, qt.Equals, ErrKeyNotFound) // check that can be set an empty root err = tree.SetRoot(tree.emptyHash) c.Assert(err, qt.IsNil) } func TestSnapshot(t *testing.T) { c := qt.New(t) database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree, err := NewTree(database, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) // fill the tree bLen := 32 var keys, values [][]byte for i := 0; i < 1000; i++ { k := BigIntToBytes(bLen, big.NewInt(int64(i))) v := BigIntToBytes(bLen, big.NewInt(int64(i))) keys = append(keys, k) values = append(values, v) } indexes, err := tree.AddBatch(keys, values) c.Assert(err, qt.IsNil) c.Check(len(indexes), qt.Equals, 0) checkRootBIString(c, tree, "13742386369878513332697380582061714160370929283209286127733983161245560237407") // do a snapshot, and expect the same root than the original tree snapshotTree, err := tree.Snapshot(nil) c.Assert(err, qt.IsNil) checkRootBIString(c, snapshotTree, "13742386369878513332697380582061714160370929283209286127733983161245560237407") // check that the snapshotTree can not be updated _, err = snapshotTree.AddBatch(keys, values) c.Assert(err, qt.Equals, ErrSnapshotNotEditable) err = snapshotTree.Add([]byte("test"), []byte("test")) c.Assert(err, qt.Equals, ErrSnapshotNotEditable) err = snapshotTree.Update([]byte("test"), []byte("test")) c.Assert(err, qt.Equals, ErrSnapshotNotEditable) err = snapshotTree.ImportDump(nil) c.Assert(err, qt.Equals, ErrSnapshotNotEditable) // update the original tree by adding a new key-value, and check that // snapshotTree still has the old root, but the original tree has a new // root err = tree.Add([]byte("test"), []byte("test")) c.Assert(err, qt.IsNil) checkRootBIString(c, snapshotTree, "13742386369878513332697380582061714160370929283209286127733983161245560237407") checkRootBIString(c, tree, "1025190963769001718196479367844646783678188389989148142691917685159698888868") } func TestGetFromSnapshotExpectArboErrKeyNotFound(t *testing.T) { c := qt.New(t) database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree, err := NewTree(database, 256, HashFunctionPoseidon) c.Assert(err, qt.IsNil) defer tree.db.Close() //nolint:errcheck bLen := 32 k := BigIntToBytes(bLen, big.NewInt(int64(3))) root, err := tree.Root() c.Assert(err, qt.IsNil) tree, err = tree.Snapshot(root) c.Assert(err, qt.IsNil) _, _, err = tree.Get(k) c.Assert(err, qt.Equals, ErrKeyNotFound) // and not equal to db.ErrKeyNotFound } func TestKeyLen(t *testing.T) { c := qt.New(t) database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) // maxLevels is 100, keyPath length = ceil(maxLevels/8) = 13 maxLevels := 100 tree, err := NewTree(database, maxLevels, HashFunctionBlake2b) c.Assert(err, qt.IsNil) // expect no errors when adding a key of only 4 bytes (when the // required length of keyPath for 100 levels would be 13 bytes) bLen := 4 k := BigIntToBytes(bLen, big.NewInt(1)) v := BigIntToBytes(bLen, big.NewInt(1)) err = tree.Add(k, v) c.Assert(err, qt.IsNil) err = tree.Update(k, v) c.Assert(err, qt.IsNil) _, _, _, _, err = tree.GenProof(k) c.Assert(err, qt.IsNil) _, _, err = tree.Get(k) c.Assert(err, qt.IsNil) k = BigIntToBytes(bLen, big.NewInt(2)) v = BigIntToBytes(bLen, big.NewInt(2)) invalids, err := tree.AddBatch([][]byte{k}, [][]byte{v}) c.Assert(err, qt.IsNil) c.Assert(len(invalids), qt.Equals, 0) // expect errors when adding a key bigger than maximum capacity of the // tree: ceil(maxLevels/8) maxLevels = 32 database, err = badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree, err = NewTree(database, maxLevels, HashFunctionBlake2b) c.Assert(err, qt.IsNil) maxKeyLen := int(math.Ceil(float64(maxLevels) / float64(8))) //nolint:gomnd k = BigIntToBytes(maxKeyLen+1, big.NewInt(1)) v = BigIntToBytes(maxKeyLen+1, big.NewInt(1)) expectedErrMsg := "len(k) can not be bigger than ceil(maxLevels/8)," + " where len(k): 5, maxLevels: 32, max key len=ceil(maxLevels/8): 4." + " Might need a bigger tree depth (maxLevels>=40) in order to input" + " keys of length 5" err = tree.Add(k, v) c.Assert(err.Error(), qt.Equals, expectedErrMsg) err = tree.Update(k, v) c.Assert(err.Error(), qt.Equals, expectedErrMsg) _, _, _, _, err = tree.GenProof(k) c.Assert(err.Error(), qt.Equals, expectedErrMsg) _, _, err = tree.Get(k) c.Assert(err.Error(), qt.Equals, expectedErrMsg) // check AddBatch with few key-values invalids, err = tree.AddBatch([][]byte{k}, [][]byte{v}) c.Assert(err, qt.IsNil) c.Assert(len(invalids), qt.Equals, 1) // check AddBatch with many key-values nCPU := flp2(runtime.NumCPU()) nKVs := nCPU + 1 var ks, vs [][]byte for i := 0; i < nKVs; i++ { ks = append(ks, BigIntToBytes(maxKeyLen+1, big.NewInt(1))) vs = append(vs, BigIntToBytes(maxKeyLen+1, big.NewInt(1))) } invalids, err = tree.AddBatch(ks, vs) c.Assert(err, qt.IsNil) c.Assert(len(invalids), qt.Equals, nKVs) // check that with maxKeyLen it can be added k = BigIntToBytes(maxKeyLen, big.NewInt(1)) err = tree.Add(k, v) c.Assert(err, qt.IsNil) // check CheckProof check with key longer kAux, vAux, packedSiblings, existence, err := tree.GenProof(k) c.Assert(err, qt.IsNil) c.Assert(existence, qt.IsTrue) root, err := tree.Root() c.Assert(err, qt.IsNil) verif, err := CheckProof(tree.HashFunction(), kAux, vAux, root, packedSiblings) c.Assert(err, qt.IsNil) c.Assert(verif, qt.IsTrue) // use a similar key but with one zero, expect that CheckProof fails on // the verification kAux = append(kAux, 0) verif, err = CheckProof(tree.HashFunction(), kAux, vAux, root, packedSiblings) c.Assert(err, qt.IsNil) c.Assert(verif, qt.IsFalse) } func TestKeyLenBiggerThan32(t *testing.T) { c := qt.New(t) maxLevels := 264 database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree, err := NewTree(database, maxLevels, HashFunctionBlake2b) c.Assert(err, qt.IsNil) bLen := 33 err = tree.Add( randomBytes(bLen), randomBytes(bLen)) c.Assert(err, qt.IsNil) // 2nd key that we add, will find a node with len(key)==32 (due the // hash output size, expect that next Add does not give any error, as // internally it will use a keyPath of size corresponent to the // maxLevels size of the tree err = tree.Add( randomBytes(bLen), randomBytes(bLen)) c.Assert(err, qt.IsNil) } func BenchmarkAdd(b *testing.B) { bLen := 32 // for both Poseidon & Sha256 // prepare inputs var ks, vs [][]byte for i := 0; i < 1000; i++ { k := BigIntToBytes(bLen, big.NewInt(int64(i))) v := BigIntToBytes(bLen, big.NewInt(int64(i))) ks = append(ks, k) vs = append(vs, v) } b.Run("Poseidon", func(b *testing.B) { benchmarkAdd(b, HashFunctionPoseidon, ks, vs) }) b.Run("Sha256", func(b *testing.B) { benchmarkAdd(b, HashFunctionSha256, ks, vs) }) } func benchmarkAdd(b *testing.B, hashFunc HashFunction, ks, vs [][]byte) { c := qt.New(b) database, err := badgerdb.New(badgerdb.Options{Path: c.TempDir()}) c.Assert(err, qt.IsNil) tree, err := NewTree(database, 140, hashFunc) c.Assert(err, qt.IsNil) defer tree.db.Close() //nolint:errcheck for i := 0; i < len(ks); i++ { if err := tree.Add(ks[i], vs[i]); err != nil { b.Fatal(err) } } }