// build unittest package db import ( "blockbook/bchain" "blockbook/bchain/coins/btc" "blockbook/common" "encoding/hex" "fmt" "io/ioutil" "math/big" "os" "reflect" "sort" "strings" "testing" "github.com/juju/errors" ) // simplified explanation of signed varint packing, used in many index data structures // for number n, the packing is: 2*n if n>=0 else 2*(-n)-1 // takes only 1 byte if abs(n)<127 func bitcoinTestnetParser() *btc.BitcoinParser { return btc.NewBitcoinParser( btc.GetChainParams("test"), &btc.Configuration{BlockAddressesToKeep: 1}) } func setupRocksDB(t *testing.T, p bchain.BlockChainParser) *RocksDB { tmp, err := ioutil.TempDir("", "testdb") if err != nil { t.Fatal(err) } d, err := NewRocksDB(tmp, p, nil) if err != nil { t.Fatal(err) } is, err := d.LoadInternalState("btc-testnet") if err != nil { t.Fatal(err) } d.SetInternalState(is) return d } func closeAndDestroyRocksDB(t *testing.T, d *RocksDB) { if err := d.Close(); err != nil { t.Fatal(err) } os.RemoveAll(d.path) } func addressToPubKeyHex(addr string, t *testing.T, d *RocksDB) string { if addr == "" { return "" } b, err := d.chainParser.AddressToOutputScript(addr) if err != nil { t.Fatal(err) } return hex.EncodeToString(b) } func inputAddressToPubKeyHexWithLength(addr string, t *testing.T, d *RocksDB) string { h := addressToPubKeyHex(addr, t, d) return hex.EncodeToString([]byte{byte(len(h) / 2)}) + h } func addressToPubKeyHexWithLength(addr string, t *testing.T, d *RocksDB) string { h := addressToPubKeyHex(addr, t, d) return hex.EncodeToString([]byte{byte(len(h))}) + h } func spentAddressToPubKeyHexWithLength(addr string, t *testing.T, d *RocksDB) string { h := addressToPubKeyHex(addr, t, d) return hex.EncodeToString([]byte{byte(len(h) + 1)}) + h } func bigintToHex(i *big.Int) string { b := make([]byte, maxPackedBigintBytes) l := packBigint(i, b) return hex.EncodeToString(b[:l]) } // keyPair is used to compare given key value in DB with expected // for more complicated compares it is possible to specify CompareFunc type keyPair struct { Key, Value string CompareFunc func(string) bool } func compareFuncBlockAddresses(t *testing.T, v string, expected []string) bool { for _, e := range expected { lb := len(v) v = strings.Replace(v, e, "", 1) if lb == len(v) { t.Error(e, " not found in ", v) return false } } if len(v) != 0 { t.Error("not expected content ", v) } return len(v) == 0 } func checkColumn(d *RocksDB, col int, kp []keyPair) error { sort.Slice(kp, func(i, j int) bool { return kp[i].Key < kp[j].Key }) it := d.db.NewIteratorCF(d.ro, d.cfh[col]) defer it.Close() i := 0 for it.SeekToFirst(); it.Valid(); it.Next() { if i >= len(kp) { return errors.Errorf("Expected less rows in column %v", cfNames[col]) } key := hex.EncodeToString(it.Key().Data()) if key != kp[i].Key { return errors.Errorf("Incorrect key %v found in column %v row %v, expecting %v", key, cfNames[col], i, kp[i].Key) } val := hex.EncodeToString(it.Value().Data()) var valOK bool if kp[i].CompareFunc == nil { valOK = val == kp[i].Value } else { valOK = kp[i].CompareFunc(val) } if !valOK { return errors.Errorf("Incorrect value %v found in column %v row %v key %v, expecting %v", val, cfNames[col], i, key, kp[i].Value) } i++ } if i != len(kp) { return errors.Errorf("Expected more rows in column %v: got %v, expected %v", cfNames[col], i, len(kp)) } return nil } const ( txidB1T1 = "00b2c06055e5e90e9c82bd4181fde310104391a7fa4f289b1704e5d90caa3840" txidB1T2 = "effd9ef509383d536b1c8af5bf434c8efbf521a4f2befd4022bbd68694b4ac75" txidB2T1 = "7c3be24063f268aaa1ed81b64776798f56088757641a34fb156c4f51ed2e9d25" txidB2T2 = "3d90d15ed026dc45e19ffb52875ed18fa9e8012ad123d7f7212176e2b0ebdb71" txidB2T3 = "05e2e48aeabdd9b75def7b48d756ba304713c2aba7b522bf9dbc893fc4231b07" txidB2T4 = "fdd824a780cbb718eeb766eb05d83fdefc793a27082cd5e67f856d69798cf7db" addr1 = "mfcWp7DB6NuaZsExybTTXpVgWz559Np4Ti" // 76a914010d39800f86122416e28f485029acf77507169288ac addr2 = "mtGXQvBowMkBpnhLckhxhbwYK44Gs9eEtz" // 76a9148bdf0aa3c567aa5975c2e61321b8bebbe7293df688ac addr3 = "mv9uLThosiEnGRbVPS7Vhyw6VssbVRsiAw" // 76a914a08eae93007f22668ab5e4a9c83c8cd1c325e3e088ac addr4 = "2Mz1CYoppGGsLNUGF2YDhTif6J661JitALS" // a9144a21db08fb6882cb152e1ff06780a430740f770487 addr5 = "2NEVv9LJmAnY99W1pFoc5UJjVdypBqdnvu1" // a914e921fc4912a315078f370d959f2c4f7b6d2a683c87 addr6 = "mzB8cYrfRwFRFAGTDzV8LkUQy5BQicxGhX" // 76a914ccaaaf374e1b06cb83118453d102587b4273d09588ac addr7 = "mtR97eM2HPWVM6c8FGLGcukgaHHQv7THoL" // 76a9148d802c045445df49613f6a70ddd2e48526f3701f88ac addr8 = "mwwoKQE5Lb1G4picHSHDQKg8jw424PF9SC" // 76a914b434eb0c1a3b7a02e8a29cc616e791ef1e0bf51f88ac addr9 = "mmJx9Y8ayz9h14yd9fgCW1bUKoEpkBAquP" // 76a9143f8ba3fda3ba7b69f5818086e12223c6dd25e3c888ac addrA = "mzVznVsCHkVHX9UN8WPFASWUUHtxnNn4Jj" // 76a914d03c0d863d189b23b061a95ad32940b65837609f88ac ) var ( satZero = big.NewInt(0) satB1T1A1 = big.NewInt(100000000) satB1T1A2 = big.NewInt(12345) satB1T2A3 = big.NewInt(1234567890123) satB1T2A4 = big.NewInt(1) satB1T2A5 = big.NewInt(9876) satB2T1A6 = big.NewInt(317283951061) satB2T1A7 = big.NewInt(917283951061) satB2T2A8 = big.NewInt(118641975500) satB2T2A9 = big.NewInt(198641975500) satB2T3A5 = big.NewInt(9000) satB2T4AA = big.NewInt(1360030331) ) func getTestUTXOBlock1(t *testing.T, d *RocksDB) *bchain.Block { return &bchain.Block{ BlockHeader: bchain.BlockHeader{ Height: 225493, Hash: "0000000076fbbed90fd75b0e18856aa35baa984e9c9d444cf746ad85e94e2997", }, Txs: []bchain.Tx{ bchain.Tx{ Txid: txidB1T1, Vout: []bchain.Vout{ bchain.Vout{ N: 0, ScriptPubKey: bchain.ScriptPubKey{ Hex: addressToPubKeyHex(addr1, t, d), }, ValueSat: *satB1T1A1, }, bchain.Vout{ N: 1, ScriptPubKey: bchain.ScriptPubKey{ Hex: addressToPubKeyHex(addr2, t, d), }, ValueSat: *satB1T1A2, }, }, Blocktime: 22549300000, Time: 22549300000, }, bchain.Tx{ Txid: txidB1T2, Vout: []bchain.Vout{ bchain.Vout{ N: 0, ScriptPubKey: bchain.ScriptPubKey{ Hex: addressToPubKeyHex(addr3, t, d), }, ValueSat: *satB1T2A3, }, bchain.Vout{ N: 1, ScriptPubKey: bchain.ScriptPubKey{ Hex: addressToPubKeyHex(addr4, t, d), }, ValueSat: *satB1T2A4, }, bchain.Vout{ N: 2, ScriptPubKey: bchain.ScriptPubKey{ Hex: addressToPubKeyHex(addr5, t, d), }, ValueSat: *satB1T2A5, }, }, Blocktime: 22549300001, Time: 22549300001, }, }, } } func getTestUTXOBlock2(t *testing.T, d *RocksDB) *bchain.Block { return &bchain.Block{ BlockHeader: bchain.BlockHeader{ Height: 225494, Hash: "00000000eb0443fd7dc4a1ed5c686a8e995057805f9a161d9a5a77a95e72b7b6", }, Txs: []bchain.Tx{ bchain.Tx{ Txid: txidB2T1, Vin: []bchain.Vin{ // addr3 bchain.Vin{ Txid: txidB1T2, Vout: 0, }, // addr2 bchain.Vin{ Txid: txidB1T1, Vout: 1, }, }, Vout: []bchain.Vout{ bchain.Vout{ N: 0, ScriptPubKey: bchain.ScriptPubKey{ Hex: addressToPubKeyHex(addr6, t, d), }, ValueSat: *satB2T1A6, }, bchain.Vout{ N: 1, ScriptPubKey: bchain.ScriptPubKey{ Hex: addressToPubKeyHex(addr7, t, d), }, ValueSat: *satB2T1A7, }, }, Blocktime: 22549400000, Time: 22549400000, }, bchain.Tx{ Txid: txidB2T2, Vin: []bchain.Vin{ // spending an output in the same block - addr6 bchain.Vin{ Txid: txidB2T1, Vout: 0, }, // spending an output in the previous block - addr4 bchain.Vin{ Txid: txidB1T2, Vout: 1, }, }, Vout: []bchain.Vout{ bchain.Vout{ N: 0, ScriptPubKey: bchain.ScriptPubKey{ Hex: addressToPubKeyHex(addr8, t, d), }, ValueSat: *satB2T2A8, }, bchain.Vout{ N: 1, ScriptPubKey: bchain.ScriptPubKey{ Hex: addressToPubKeyHex(addr9, t, d), }, ValueSat: *satB2T2A9, }, }, Blocktime: 22549400001, Time: 22549400001, }, // transaction from the same address in the previous block bchain.Tx{ Txid: txidB2T3, Vin: []bchain.Vin{ // addr5 bchain.Vin{ Txid: txidB1T2, Vout: 2, }, }, Vout: []bchain.Vout{ bchain.Vout{ N: 0, ScriptPubKey: bchain.ScriptPubKey{ Hex: addressToPubKeyHex(addr5, t, d), }, ValueSat: *satB2T3A5, }, }, Blocktime: 22549400002, Time: 22549400002, }, // mining transaction bchain.Tx{ Txid: txidB2T4, Vin: []bchain.Vin{ bchain.Vin{ Coinbase: "03bf1e1504aede765b726567696f6e312f50726f6a65637420425443506f6f6c2f01000001bf7e000000000000", }, }, Vout: []bchain.Vout{ bchain.Vout{ N: 0, ScriptPubKey: bchain.ScriptPubKey{ Hex: addressToPubKeyHex(addrA, t, d), }, ValueSat: *satB2T4AA, }, bchain.Vout{ N: 1, ScriptPubKey: bchain.ScriptPubKey{}, ValueSat: *satZero, }, }, Blocktime: 22549400003, Time: 22549400003, }, }, } } func verifyAfterUTXOBlock1(t *testing.T, d *RocksDB, afterDisconnect bool) { if err := checkColumn(d, cfHeight, []keyPair{ keyPair{"000370d5", "0000000076fbbed90fd75b0e18856aa35baa984e9c9d444cf746ad85e94e2997", nil}, }); err != nil { { t.Fatal(err) } } // the vout is encoded as signed varint, i.e. value * 2 for non negative values if err := checkColumn(d, cfAddresses, []keyPair{ keyPair{addressToPubKeyHex(addr1, t, d) + "000370d5", txidB1T1 + "00", nil}, keyPair{addressToPubKeyHex(addr2, t, d) + "000370d5", txidB1T1 + "02", nil}, keyPair{addressToPubKeyHex(addr3, t, d) + "000370d5", txidB1T2 + "00", nil}, keyPair{addressToPubKeyHex(addr4, t, d) + "000370d5", txidB1T2 + "02", nil}, keyPair{addressToPubKeyHex(addr5, t, d) + "000370d5", txidB1T2 + "04", nil}, }); err != nil { { t.Fatal(err) } } if err := checkColumn(d, cfTxAddresses, []keyPair{ keyPair{ txidB1T1, "00" + "02" + addressToPubKeyHexWithLength(addr1, t, d) + bigintToHex(satB1T1A1) + addressToPubKeyHexWithLength(addr2, t, d) + bigintToHex(satB1T1A2), nil, }, keyPair{ txidB1T2, "00" + "03" + addressToPubKeyHexWithLength(addr3, t, d) + bigintToHex(satB1T2A3) + addressToPubKeyHexWithLength(addr4, t, d) + bigintToHex(satB1T2A4) + addressToPubKeyHexWithLength(addr5, t, d) + bigintToHex(satB1T2A5), nil, }, }); err != nil { { t.Fatal(err) } } if err := checkColumn(d, cfAddressBalance, []keyPair{ keyPair{addressToPubKeyHex(addr1, t, d), "01" + bigintToHex(satZero) + bigintToHex(satB1T1A1), nil}, keyPair{addressToPubKeyHex(addr2, t, d), "01" + bigintToHex(satZero) + bigintToHex(satB1T1A2), nil}, keyPair{addressToPubKeyHex(addr3, t, d), "01" + bigintToHex(satZero) + bigintToHex(satB1T2A3), nil}, keyPair{addressToPubKeyHex(addr4, t, d), "01" + bigintToHex(satZero) + bigintToHex(satB1T2A4), nil}, keyPair{addressToPubKeyHex(addr5, t, d), "01" + bigintToHex(satZero) + bigintToHex(satB1T2A5), nil}, }); err != nil { { t.Fatal(err) } } var blockTxsKp []keyPair if afterDisconnect { blockTxsKp = []keyPair{} } else { blockTxsKp = []keyPair{ keyPair{ "000370d5", txidB1T1 + "00" + txidB1T2 + "00", nil, }, } } if err := checkColumn(d, cfBlockTxs, blockTxsKp); err != nil { { t.Fatal(err) } } } func verifyAfterUTXOBlock2(t *testing.T, d *RocksDB) { if err := checkColumn(d, cfHeight, []keyPair{ keyPair{"000370d5", "0000000076fbbed90fd75b0e18856aa35baa984e9c9d444cf746ad85e94e2997", nil}, keyPair{"000370d6", "00000000eb0443fd7dc4a1ed5c686a8e995057805f9a161d9a5a77a95e72b7b6", nil}, }); err != nil { { t.Fatal(err) } } if err := checkColumn(d, cfAddresses, []keyPair{ keyPair{addressToPubKeyHex(addr1, t, d) + "000370d5", txidB1T1 + "00", nil}, keyPair{addressToPubKeyHex(addr2, t, d) + "000370d5", txidB1T1 + "02", nil}, keyPair{addressToPubKeyHex(addr3, t, d) + "000370d5", txidB1T2 + "00", nil}, keyPair{addressToPubKeyHex(addr4, t, d) + "000370d5", txidB1T2 + "02", nil}, keyPair{addressToPubKeyHex(addr5, t, d) + "000370d5", txidB1T2 + "04", nil}, keyPair{addressToPubKeyHex(addr6, t, d) + "000370d6", txidB2T1 + "00" + txidB2T2 + "01", nil}, keyPair{addressToPubKeyHex(addr7, t, d) + "000370d6", txidB2T1 + "02", nil}, keyPair{addressToPubKeyHex(addr8, t, d) + "000370d6", txidB2T2 + "00", nil}, keyPair{addressToPubKeyHex(addr9, t, d) + "000370d6", txidB2T2 + "02", nil}, keyPair{addressToPubKeyHex(addr3, t, d) + "000370d6", txidB2T1 + "01", nil}, keyPair{addressToPubKeyHex(addr2, t, d) + "000370d6", txidB2T1 + "03", nil}, keyPair{addressToPubKeyHex(addr5, t, d) + "000370d6", txidB2T3 + "00" + txidB2T3 + "01", nil}, keyPair{addressToPubKeyHex(addrA, t, d) + "000370d6", txidB2T4 + "00", nil}, keyPair{addressToPubKeyHex(addr4, t, d) + "000370d6", txidB2T2 + "03", nil}, }); err != nil { { t.Fatal(err) } } if err := checkColumn(d, cfTxAddresses, []keyPair{ keyPair{ txidB1T1, "00" + "02" + addressToPubKeyHexWithLength(addr1, t, d) + bigintToHex(satB1T1A1) + spentAddressToPubKeyHexWithLength(addr2, t, d) + bigintToHex(satB1T1A2), nil, }, keyPair{ txidB1T2, "00" + "03" + spentAddressToPubKeyHexWithLength(addr3, t, d) + bigintToHex(satB1T2A3) + spentAddressToPubKeyHexWithLength(addr4, t, d) + bigintToHex(satB1T2A4) + spentAddressToPubKeyHexWithLength(addr5, t, d) + bigintToHex(satB1T2A5), nil, }, keyPair{ txidB2T1, "02" + inputAddressToPubKeyHexWithLength(addr3, t, d) + bigintToHex(satB1T2A3) + inputAddressToPubKeyHexWithLength(addr2, t, d) + bigintToHex(satB1T1A2) + "02" + spentAddressToPubKeyHexWithLength(addr6, t, d) + bigintToHex(satB2T1A6) + addressToPubKeyHexWithLength(addr7, t, d) + bigintToHex(satB2T1A7), nil, }, keyPair{ txidB2T2, "02" + inputAddressToPubKeyHexWithLength(addr6, t, d) + bigintToHex(satB2T1A6) + inputAddressToPubKeyHexWithLength(addr4, t, d) + bigintToHex(satB1T2A4) + "02" + addressToPubKeyHexWithLength(addr8, t, d) + bigintToHex(satB2T2A8) + addressToPubKeyHexWithLength(addr9, t, d) + bigintToHex(satB2T2A9), nil, }, keyPair{ txidB2T3, "01" + inputAddressToPubKeyHexWithLength(addr5, t, d) + bigintToHex(satB1T2A5) + "01" + addressToPubKeyHexWithLength(addr5, t, d) + bigintToHex(satB2T3A5), nil, }, keyPair{ txidB2T4, "01" + inputAddressToPubKeyHexWithLength("", t, d) + bigintToHex(satZero) + "02" + addressToPubKeyHexWithLength(addrA, t, d) + bigintToHex(satB2T4AA) + addressToPubKeyHexWithLength("", t, d) + bigintToHex(satZero), nil, }, }); err != nil { { t.Fatal(err) } } if err := checkColumn(d, cfAddressBalance, []keyPair{ keyPair{addressToPubKeyHex(addr1, t, d), "01" + bigintToHex(satZero) + bigintToHex(satB1T1A1), nil}, keyPair{addressToPubKeyHex(addr2, t, d), "02" + bigintToHex(satB1T1A2) + bigintToHex(satZero), nil}, keyPair{addressToPubKeyHex(addr3, t, d), "02" + bigintToHex(satB1T2A3) + bigintToHex(satZero), nil}, keyPair{addressToPubKeyHex(addr4, t, d), "02" + bigintToHex(satB1T2A4) + bigintToHex(satZero), nil}, keyPair{addressToPubKeyHex(addr5, t, d), "02" + bigintToHex(satB1T2A5) + bigintToHex(satB2T3A5), nil}, keyPair{addressToPubKeyHex(addr6, t, d), "02" + bigintToHex(satB2T1A6) + bigintToHex(satZero), nil}, keyPair{addressToPubKeyHex(addr7, t, d), "01" + bigintToHex(satZero) + bigintToHex(satB2T1A7), nil}, keyPair{addressToPubKeyHex(addr8, t, d), "01" + bigintToHex(satZero) + bigintToHex(satB2T2A8), nil}, keyPair{addressToPubKeyHex(addr9, t, d), "01" + bigintToHex(satZero) + bigintToHex(satB2T2A9), nil}, keyPair{addressToPubKeyHex(addrA, t, d), "01" + bigintToHex(satZero) + bigintToHex(satB2T4AA), nil}, }); err != nil { { t.Fatal(err) } } if err := checkColumn(d, cfBlockTxs, []keyPair{ keyPair{ "000370d6", txidB2T1 + "02" + txidB1T2 + "00" + txidB1T1 + "02" + txidB2T2 + "02" + txidB2T1 + "00" + txidB1T2 + "02" + txidB2T3 + "01" + txidB1T2 + "04" + txidB2T4 + "01" + "0000000000000000000000000000000000000000000000000000000000000000" + "00", nil, }, }); err != nil { { t.Fatal(err) } } } type txidVoutOutput struct { txid string vout uint32 isOutput bool } func verifyGetTransactions(t *testing.T, d *RocksDB, addr string, low, high uint32, wantTxids []txidVoutOutput, wantErr error) { gotTxids := make([]txidVoutOutput, 0) addToTxids := func(txid string, vout uint32, isOutput bool) error { gotTxids = append(gotTxids, txidVoutOutput{txid, vout, isOutput}) return nil } if err := d.GetTransactions(addr, low, high, addToTxids); err != nil { if wantErr == nil || wantErr.Error() != err.Error() { t.Fatal(err) } } if !reflect.DeepEqual(gotTxids, wantTxids) { t.Errorf("GetTransactions() = %v, want %v", gotTxids, wantTxids) } } type testBitcoinParser struct { *btc.BitcoinParser } // override PackTx and UnpackTx to default BaseParser functionality // BitcoinParser uses tx hex which is not available for the test transactions func (p *testBitcoinParser) PackTx(tx *bchain.Tx, height uint32, blockTime int64) ([]byte, error) { return p.BaseParser.PackTx(tx, height, blockTime) } func (p *testBitcoinParser) UnpackTx(buf []byte) (*bchain.Tx, uint32, error) { return p.BaseParser.UnpackTx(buf) } func testTxCache(t *testing.T, d *RocksDB, b *bchain.Block, tx *bchain.Tx) { if err := d.PutTx(tx, b.Height, tx.Blocktime); err != nil { t.Fatal(err) } gtx, height, err := d.GetTx(tx.Txid) if err != nil { t.Fatal(err) } if b.Height != height { t.Fatalf("GetTx: got height %v, expected %v", height, b.Height) } if fmt.Sprint(gtx) != fmt.Sprint(tx) { t.Errorf("GetTx: %v, want %v", gtx, tx) } if err := d.DeleteTx(tx.Txid); err != nil { t.Fatal(err) } } // TestRocksDB_Index_UTXO is an integration test probing the whole indexing functionality for UTXO chains // It does the following: // 1) Connect two blocks (inputs from 2nd block are spending some outputs from the 1st block) // 2) GetTransactions for various addresses / low-high ranges // 3) GetBestBlock, GetBlockHash // 4) Test tx caching functionality // 5) Disconnect block 2 - expect error // 6) Disconnect the block 2 using BlockTxs column // 7) Reconnect block 2 and check // After each step, the content of DB is examined and any difference against expected state is regarded as failure func TestRocksDB_Index_UTXO(t *testing.T) { d := setupRocksDB(t, &testBitcoinParser{ BitcoinParser: bitcoinTestnetParser(), }) defer closeAndDestroyRocksDB(t, d) // connect 1st block - will log warnings about missing UTXO transactions in txAddresses column block1 := getTestUTXOBlock1(t, d) if err := d.ConnectBlock(block1); err != nil { t.Fatal(err) } verifyAfterUTXOBlock1(t, d, false) // connect 2nd block - use some outputs from the 1st block as the inputs and 1 input uses tx from the same block block2 := getTestUTXOBlock2(t, d) if err := d.ConnectBlock(block2); err != nil { t.Fatal(err) } verifyAfterUTXOBlock2(t, d) // get transactions for various addresses / low-high ranges verifyGetTransactions(t, d, addr2, 0, 1000000, []txidVoutOutput{ txidVoutOutput{txidB1T1, 1, true}, txidVoutOutput{txidB2T1, 1, false}, }, nil) verifyGetTransactions(t, d, addr2, 225493, 225493, []txidVoutOutput{ txidVoutOutput{txidB1T1, 1, true}, }, nil) verifyGetTransactions(t, d, addr2, 225494, 1000000, []txidVoutOutput{ txidVoutOutput{txidB2T1, 1, false}, }, nil) verifyGetTransactions(t, d, addr2, 500000, 1000000, []txidVoutOutput{}, nil) verifyGetTransactions(t, d, addr8, 0, 1000000, []txidVoutOutput{ txidVoutOutput{txidB2T2, 0, true}, }, nil) verifyGetTransactions(t, d, "mtGXQvBowMkBpnhLckhxhbwYK44Gs9eBad", 500000, 1000000, []txidVoutOutput{}, errors.New("checksum mismatch")) // GetBestBlock height, hash, err := d.GetBestBlock() if err != nil { t.Fatal(err) } if height != 225494 { t.Fatalf("GetBestBlock: got height %v, expected %v", height, 225494) } if hash != "00000000eb0443fd7dc4a1ed5c686a8e995057805f9a161d9a5a77a95e72b7b6" { t.Fatalf("GetBestBlock: got hash %v, expected %v", hash, "00000000eb0443fd7dc4a1ed5c686a8e995057805f9a161d9a5a77a95e72b7b6") } // GetBlockHash hash, err = d.GetBlockHash(225493) if err != nil { t.Fatal(err) } if hash != "0000000076fbbed90fd75b0e18856aa35baa984e9c9d444cf746ad85e94e2997" { t.Fatalf("GetBlockHash: got hash %v, expected %v", hash, "0000000076fbbed90fd75b0e18856aa35baa984e9c9d444cf746ad85e94e2997") } // Test tx caching functionality, leave one tx in db to test cleanup in DisconnectBlock testTxCache(t, d, block1, &block1.Txs[0]) testTxCache(t, d, block2, &block2.Txs[0]) if err = d.PutTx(&block2.Txs[1], block2.Height, block2.Txs[1].Blocktime); err != nil { t.Fatal(err) } // check that there is only the last tx in the cache packedTx, err := d.chainParser.PackTx(&block2.Txs[1], block2.Height, block2.Txs[1].Blocktime) if err := checkColumn(d, cfTransactions, []keyPair{ keyPair{block2.Txs[1].Txid, hex.EncodeToString(packedTx), nil}, }); err != nil { { t.Fatal(err) } } // DisconnectBlock for UTXO chains is not possible err = d.DisconnectBlock(block2) if err == nil || err.Error() != "DisconnectBlock is not supported for UTXO chains" { t.Fatal(err) } verifyAfterUTXOBlock2(t, d) // try to disconnect both blocks, however only the last one is kept, it is not possible err = d.DisconnectBlockRangeUTXO(225493, 225494) if err == nil || err.Error() != "Cannot disconnect blocks with height 225493 and lower. It is necessary to rebuild index." { t.Fatal(err) } verifyAfterUTXOBlock2(t, d) // disconnect the 2nd block, verify that the db contains only data from the 1st block with restored unspentTxs // and that the cached tx is removed err = d.DisconnectBlockRangeUTXO(225494, 225494) if err != nil { t.Fatal(err) } verifyAfterUTXOBlock1(t, d, true) if err := checkColumn(d, cfTransactions, []keyPair{}); err != nil { { t.Fatal(err) } } // connect block again and verify the state of db if err := d.ConnectBlock(block2); err != nil { t.Fatal(err) } verifyAfterUTXOBlock2(t, d) // test public methods for address balance and tx addresses ab, err := d.GetAddressBalance(addr5) if err != nil { t.Fatal(err) } abw := &AddrBalance{ Txs: 2, SentSat: *satB1T2A5, BalanceSat: *satB2T3A5, } if !reflect.DeepEqual(ab, abw) { t.Errorf("GetAddressBalance() = %+v, want %+v", ab, abw) } rs := ab.ReceivedSat() rsw := satB1T2A5.Add(satB1T2A5, satB2T3A5) if rs.Cmp(rsw) != 0 { t.Errorf("GetAddressBalance().ReceivedSat() = %v, want %v", rs, rsw) } ta, err := d.GetTxAddresses(txidB2T1) if err != nil { t.Fatal(err) } taw := &TxAddresses{ Inputs: []TxInput{ { addrID: addressToOutput(addr3, d.chainParser), ValueSat: *satB1T2A3, }, { addrID: addressToOutput(addr2, d.chainParser), ValueSat: *satB1T1A2, }, }, Outputs: []TxOutput{ { addrID: addressToOutput(addr6, d.chainParser), Spent: true, ValueSat: *satB2T1A6, }, { addrID: addressToOutput(addr7, d.chainParser), Spent: false, ValueSat: *satB2T1A7, }, }, } if !reflect.DeepEqual(ta, taw) { t.Errorf("GetTxAddresses() = %+v, want %+v", ta, taw) } ia, err := ta.Inputs[0].Addresses(d.chainParser) if err != nil { t.Fatal(err) } if !reflect.DeepEqual(ia, []string{addr3}) { t.Errorf("GetTxAddresses().Inputs[0].Addresses() = %v, want %v", ia, []string{addr3}) } } func Test_BulkConnect_UTXO(t *testing.T) { d := setupRocksDB(t, &testBitcoinParser{ BitcoinParser: bitcoinTestnetParser(), }) defer closeAndDestroyRocksDB(t, d) bc, err := d.InitBulkConnect() if err != nil { t.Fatal(err) } if d.is.DbState != common.DbStateInconsistent { t.Fatal("DB not in DbStateInconsistent") } if err := bc.ConnectBlock(getTestUTXOBlock1(t, d), false); err != nil { t.Fatal(err) } if err := checkColumn(d, cfBlockTxs, []keyPair{}); err != nil { { t.Fatal(err) } } if err := bc.ConnectBlock(getTestUTXOBlock2(t, d), true); err != nil { t.Fatal(err) } if err := bc.Close(); err != nil { t.Fatal(err) } if d.is.DbState != common.DbStateOpen { t.Fatal("DB not in DbStateOpen") } verifyAfterUTXOBlock2(t, d) } func Test_packBigint_unpackBigint(t *testing.T) { bigbig1, _ := big.NewInt(0).SetString("123456789123456789012345", 10) bigbig2, _ := big.NewInt(0).SetString("12345678912345678901234512389012345123456789123456789012345123456789123456789012345", 10) bigbigbig := big.NewInt(0) bigbigbig.Mul(bigbig2, bigbig2) bigbigbig.Mul(bigbigbig, bigbigbig) bigbigbig.Mul(bigbigbig, bigbigbig) tests := []struct { name string bi *big.Int buf []byte toobiglen int }{ { name: "0", bi: big.NewInt(0), buf: make([]byte, maxPackedBigintBytes), }, { name: "1", bi: big.NewInt(1), buf: make([]byte, maxPackedBigintBytes), }, { name: "54321", bi: big.NewInt(54321), buf: make([]byte, 249), }, { name: "12345678", bi: big.NewInt(12345678), buf: make([]byte, maxPackedBigintBytes), }, { name: "123456789123456789", bi: big.NewInt(123456789123456789), buf: make([]byte, maxPackedBigintBytes), }, { name: "bigbig1", bi: bigbig1, buf: make([]byte, maxPackedBigintBytes), }, { name: "bigbig2", bi: bigbig2, buf: make([]byte, maxPackedBigintBytes), }, { name: "bigbigbig", bi: bigbigbig, buf: make([]byte, maxPackedBigintBytes), toobiglen: 242, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { // packBigint got := packBigint(tt.bi, tt.buf) if tt.toobiglen == 0 { // create buffer that we expect bb := tt.bi.Bytes() want := append([]byte(nil), byte(len(bb))) want = append(want, bb...) if got != len(want) { t.Errorf("packBigint() = %v, want %v", got, len(want)) } for i := 0; i < got; i++ { if tt.buf[i] != want[i] { t.Errorf("packBigint() buf = %v, want %v", tt.buf[:got], want) break } } // unpackBigint got1, got2 := unpackBigint(tt.buf) if got2 != len(want) { t.Errorf("unpackBigint() = %v, want %v", got2, len(want)) } if tt.bi.Cmp(&got1) != 0 { t.Errorf("unpackBigint() = %v, want %v", got1, tt.bi) } } else { if got != tt.toobiglen { t.Errorf("packBigint() = %v, want toobiglen %v", got, tt.toobiglen) } } }) } } func addressToOutput(addr string, parser bchain.BlockChainParser) []byte { b, err := parser.AddressToOutputScript(addr) if err != nil { panic(err) } return b } func Test_packTxAddresses_unpackTxAddresses(t *testing.T) { parser := bitcoinTestnetParser() tests := []struct { name string hex string data *TxAddresses }{ { name: "1", hex: "0216001443aac20a116e09ea4f7914be1c55e4c17aa600b70016001454633aa8bd2e552bd4e89c01e73c1b7905eb58460811207cb68a199872012d001443aac20a116e09ea4f7914be1c55e4c17aa600b70101", data: &TxAddresses{ Inputs: []TxInput{ { addrID: addressToOutput("tb1qgw4vyzs3dcy75nmezjlpc40yc9a2vq9hghdyt2", parser), ValueSat: *big.NewInt(0), }, { addrID: addressToOutput("tb1q233n429a9e2jh48gnsq7w0qm0yz7kkzx0qczw8", parser), ValueSat: *big.NewInt(1234123421342341234), }, }, Outputs: []TxOutput{ { addrID: addressToOutput("tb1qgw4vyzs3dcy75nmezjlpc40yc9a2vq9hghdyt2", parser), ValueSat: *big.NewInt(1), Spent: true, }, }, }, }, { name: "2", hex: "0317a9149eb21980dc9d413d8eac27314938b9da920ee53e8705021918f2c017a91409f70b896169c37981d2b54b371df0d81a136a2c870501dd7e28c017a914e371782582a4addb541362c55565d2cdf56f6498870501a1e35ec0052fa9141d9ca71efa36d814424ea6ca1437e67287aebe348705012aadcac02ea91424fbc77cdc62702ade74dcf989c15e5d3f9240bc870501664894c02fa914afbfb74ee994c7d45f6698738bc4226d065266f7870501a1e35ec03276a914d2a37ce20ac9ec4f15dd05a7c6e8e9fbdb99850e88ac043b9943603376a9146b2044146a4438e6e5bfbc65f147afeb64d14fbb88ac05012a05f200", data: &TxAddresses{ Inputs: []TxInput{ { addrID: addressToOutput("2N7iL7AvS4LViugwsdjTB13uN4T7XhV1bCP", parser), ValueSat: *big.NewInt(9011000000), }, { addrID: addressToOutput("2Mt9v216YiNBAzobeNEzd4FQweHrGyuRHze", parser), ValueSat: *big.NewInt(8011000000), }, { addrID: addressToOutput("2NDyqJpHvHnqNtL1F9xAeCWMAW8WLJmEMyD", parser), ValueSat: *big.NewInt(7011000000), }, }, Outputs: []TxOutput{ { addrID: addressToOutput("2MuwoFGwABMakU7DCpdGDAKzyj2nTyRagDP", parser), ValueSat: *big.NewInt(5011000000), Spent: true, }, { addrID: addressToOutput("2Mvcmw7qkGXNWzkfH1EjvxDcNRGL1Kf2tEM", parser), ValueSat: *big.NewInt(6011000000), }, { addrID: addressToOutput("2N9GVuX3XJGHS5MCdgn97gVezc6EgvzikTB", parser), ValueSat: *big.NewInt(7011000000), Spent: true, }, { addrID: addressToOutput("mzii3fuRSpExMLJEHdHveW8NmiX8MPgavk", parser), ValueSat: *big.NewInt(999900000), }, { addrID: addressToOutput("mqHPFTRk23JZm9W1ANuEFtwTYwxjESSgKs", parser), ValueSat: *big.NewInt(5000000000), Spent: true, }, }, }, }, { name: "empty address", hex: "01000204d2020002162e010162", data: &TxAddresses{ Inputs: []TxInput{ { addrID: []byte{}, ValueSat: *big.NewInt(1234), }, }, Outputs: []TxOutput{ { addrID: []byte{}, ValueSat: *big.NewInt(5678), }, { addrID: []byte{}, ValueSat: *big.NewInt(98), Spent: true, }, }, }, }, { name: "empty", hex: "0000", data: &TxAddresses{ Inputs: []TxInput{}, Outputs: []TxOutput{}, }, }, } varBuf := make([]byte, maxPackedBigintBytes) buf := make([]byte, 1024) for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { b := packTxAddresses(tt.data, buf, varBuf) hex := hex.EncodeToString(b) if !reflect.DeepEqual(hex, tt.hex) { t.Errorf("packTxAddresses() = %v, want %v", hex, tt.hex) } got1, err := unpackTxAddresses(b) if err != nil { t.Errorf("unpackTxAddresses() error = %v", err) return } if !reflect.DeepEqual(got1, tt.data) { t.Errorf("unpackTxAddresses() = %+v, want %+v", got1, tt.data) } }) } }