package core import ( "encoding/hex" "encoding/json" "fmt" "io/ioutil" "os" "testing" "time" "github.com/nspcc-dev/neo-go/pkg/config" "github.com/nspcc-dev/neo-go/pkg/core/block" "github.com/nspcc-dev/neo-go/pkg/core/storage" "github.com/nspcc-dev/neo-go/pkg/core/transaction" "github.com/nspcc-dev/neo-go/pkg/crypto/hash" "github.com/nspcc-dev/neo-go/pkg/internal/testchain" "github.com/nspcc-dev/neo-go/pkg/internal/testserdes" "github.com/nspcc-dev/neo-go/pkg/io" "github.com/nspcc-dev/neo-go/pkg/smartcontract" "github.com/nspcc-dev/neo-go/pkg/util" "github.com/nspcc-dev/neo-go/pkg/vm/emit" "github.com/nspcc-dev/neo-go/pkg/vm/opcode" "github.com/nspcc-dev/neo-go/pkg/wallet" "github.com/pkg/errors" "github.com/stretchr/testify/require" "go.uber.org/zap/zaptest" ) // multisig address which possess all NEO var neoOwner = testchain.MultisigScriptHash() // newTestChain should be called before newBlock invocation to properly setup // global state. func newTestChain(t *testing.T) *Blockchain { unitTestNetCfg, err := config.Load("../../config", config.ModeUnitTestNet) require.NoError(t, err) chain, err := NewBlockchain(storage.NewMemoryStore(), unitTestNetCfg.ProtocolConfiguration, zaptest.NewLogger(t)) require.NoError(t, err) go chain.Run() return chain } func (bc *Blockchain) newBlock(txs ...*transaction.Transaction) *block.Block { lastBlock := bc.topBlock.Load().(*block.Block) return newBlock(bc.config, lastBlock.Index+1, lastBlock.Hash(), txs...) } func newBlock(cfg config.ProtocolConfiguration, index uint32, prev util.Uint256, txs ...*transaction.Transaction) *block.Block { validators, _ := getValidators(cfg) vlen := len(validators) valScript, _ := smartcontract.CreateMultiSigRedeemScript( vlen-(vlen-1)/3, validators, ) witness := transaction.Witness{ VerificationScript: valScript, } b := &block.Block{ Base: block.Base{ Version: 0, PrevHash: prev, Timestamp: uint64(time.Now().UTC().Unix()) + uint64(index), Index: index, NextConsensus: witness.ScriptHash(), Script: witness, }, ConsensusData: block.ConsensusData{ PrimaryIndex: 0, Nonce: 1111, }, Transactions: txs, } err := b.RebuildMerkleRoot() if err != nil { panic(err) } b.Script.InvocationScript = testchain.Sign(b.GetSignedPart()) return b } func (bc *Blockchain) genBlocks(n int) ([]*block.Block, error) { blocks := make([]*block.Block, n) lastHash := bc.topBlock.Load().(*block.Block).Hash() lastIndex := bc.topBlock.Load().(*block.Block).Index for i := 0; i < n; i++ { blocks[i] = newBlock(bc.config, uint32(i)+lastIndex+1, lastHash) if err := bc.AddBlock(blocks[i]); err != nil { return blocks, err } lastHash = blocks[i].Hash() } return blocks, nil } func getDecodedBlock(t *testing.T, i int) *block.Block { data, err := getBlockData(i) require.NoError(t, err) b, err := hex.DecodeString(data["raw"].(string)) require.NoError(t, err) block := &block.Block{} require.NoError(t, testserdes.DecodeBinary(b, block)) return block } func getBlockData(i int) (map[string]interface{}, error) { b, err := ioutil.ReadFile(fmt.Sprintf("test_data/block_%d.json", i)) if err != nil { return nil, err } var data map[string]interface{} if err := json.Unmarshal(b, &data); err != nil { return nil, err } return data, err } func newDumbBlock() *block.Block { return &block.Block{ Base: block.Base{ Version: 0, PrevHash: hash.Sha256([]byte("a")), MerkleRoot: hash.Sha256([]byte("b")), Timestamp: 100500, Index: 1, NextConsensus: hash.Hash160([]byte("a")), Script: transaction.Witness{ VerificationScript: []byte{0x51}, // PUSH1 InvocationScript: []byte{0x61}, // NOP }, }, ConsensusData: block.ConsensusData{ PrimaryIndex: 0, Nonce: 1111, }, Transactions: []*transaction.Transaction{ {Type: transaction.IssueType}, }, } } // This function generates "../rpc/testdata/testblocks.acc" file which contains data // for RPC unit tests. It also is a nice integration test. // To generate new "../rpc/testdata/testblocks.acc", follow the steps: // 1. Set saveChain down below to true // 2. Run tests with `$ make test` func TestCreateBasicChain(t *testing.T) { const saveChain = false const prefix = "../rpc/server/testdata/" // To make enough GAS. const numOfEmptyBlocks = 200 // Increase in case if you need more blocks const validUntilBlock = numOfEmptyBlocks + 1000 // To be incremented after each created transaction to keep chain constant. var testNonce uint32 = 1 // Use as nonce when new transaction is created to avoid random data in tests. getNextNonce := func() uint32 { testNonce++ return testNonce } var neoAmount = util.Fixed8FromInt64(99999000) var neoRemainder = util.Fixed8FromInt64(100000000) - neoAmount bc := newTestChain(t) defer bc.Close() gasHash := bc.contracts.GAS.Hash t.Logf("native GAS hash: %v", gasHash) priv0 := testchain.PrivateKeyByID(0) priv0ScriptHash := priv0.GetScriptHash() require.Equal(t, util.Fixed8FromInt64(0), bc.GetUtilityTokenBalance(priv0ScriptHash)) // Move almost all NEO and some nep5 GAS to one simple account. txMoveNeo := newNEP5Transfer(gasHash, neoOwner, priv0ScriptHash, int64(util.Fixed8FromInt64(1000))) txMoveNeo.ValidUntilBlock = validUntilBlock txMoveNeo.Nonce = getNextNonce() txMoveNeo.Sender = neoOwner txMoveNeo.Cosigners = []transaction.Cosigner{{ Account: neoOwner, Scopes: transaction.CalledByEntry, AllowedContracts: nil, AllowedGroups: nil, }} // use output of issue tx from genesis block as an input genesisBlock, err := bc.GetBlock(bc.GetHeaderHash(0)) require.NoError(t, err) require.Equal(t, 4, len(genesisBlock.Transactions)) h := genesisBlock.Transactions[2].Hash() txMoveNeo.AddInput(&transaction.Input{ PrevHash: h, PrevIndex: 0, }) txMoveNeo.AddOutput(&transaction.Output{ AssetID: GoverningTokenID(), Amount: neoAmount, ScriptHash: priv0ScriptHash, Position: 0, }) txMoveNeo.AddOutput(&transaction.Output{ AssetID: GoverningTokenID(), Amount: neoRemainder, ScriptHash: neoOwner, Position: 1, }) require.NoError(t, signTx(bc, txMoveNeo)) b := bc.newBlock(txMoveNeo) require.NoError(t, bc.AddBlock(b)) t.Logf("txMoveNeo: %s", txMoveNeo.Hash().StringLE()) require.Equal(t, util.Fixed8FromInt64(1000), bc.GetUtilityTokenBalance(priv0ScriptHash)) // info for getblockheader rpc tests t.Logf("header hash: %s", b.Hash().StringLE()) buf := io.NewBufBinWriter() b.Header().EncodeBinary(buf.BinWriter) t.Logf("header: %s", hex.EncodeToString(buf.Bytes())) // Generate some blocks to be able to claim GAS for them. _, err = bc.genBlocks(numOfEmptyBlocks) require.NoError(t, err) acc0, err := wallet.NewAccountFromWIF(priv0.WIF()) require.NoError(t, err) // Make a NEO roundtrip (send to myself) and claim GAS. txNeoRound := transaction.NewContractTX() txNeoRound.Nonce = getNextNonce() txNeoRound.Sender = priv0ScriptHash txNeoRound.ValidUntilBlock = validUntilBlock txNeoRound.AddInput(&transaction.Input{ PrevHash: txMoveNeo.Hash(), PrevIndex: 0, }) txNeoRound.AddOutput(&transaction.Output{ AssetID: GoverningTokenID(), Amount: neoAmount, ScriptHash: priv0.GetScriptHash(), Position: 0, }) txNeoRound.Data = new(transaction.ContractTX) require.NoError(t, addNetworkFee(bc, txNeoRound, acc0)) require.NoError(t, acc0.SignTx(txNeoRound)) b = bc.newBlock(txNeoRound) require.NoError(t, bc.AddBlock(b)) t.Logf("txNeoRound: %s", txNeoRound.Hash().StringLE()) claim := new(transaction.ClaimTX) claim.Claims = append(claim.Claims, transaction.Input{ PrevHash: txMoveNeo.Hash(), PrevIndex: 0, }) txClaim := transaction.NewClaimTX(claim) txClaim.Nonce = getNextNonce() txClaim.ValidUntilBlock = validUntilBlock txClaim.Sender = priv0ScriptHash txClaim.Data = claim neoGas, sysGas, err := bc.CalculateClaimable(neoAmount, 1, bc.BlockHeight()) require.NoError(t, err) gasOwned := neoGas + sysGas txClaim.AddOutput(&transaction.Output{ AssetID: UtilityTokenID(), Amount: gasOwned, ScriptHash: priv0.GetScriptHash(), Position: 0, }) require.NoError(t, addNetworkFee(bc, txClaim, acc0)) require.NoError(t, acc0.SignTx(txClaim)) b = bc.newBlock(txClaim) require.NoError(t, bc.AddBlock(b)) t.Logf("txClaim: %s", txClaim.Hash().StringLE()) // Push some contract into the chain. avm, err := ioutil.ReadFile(prefix + "test_contract.avm") require.NoError(t, err) t.Logf("contractHash: %s", hash.Hash160(avm).StringLE()) var props smartcontract.PropertyState script := io.NewBufBinWriter() emit.Bytes(script.BinWriter, []byte("Da contract dat hallos u")) emit.Bytes(script.BinWriter, []byte("joe@example.com")) emit.Bytes(script.BinWriter, []byte("Random Guy")) emit.Bytes(script.BinWriter, []byte("0.99")) emit.Bytes(script.BinWriter, []byte("Helloer")) props |= smartcontract.HasStorage emit.Int(script.BinWriter, int64(props)) emit.Int(script.BinWriter, int64(5)) params := make([]byte, 1) params[0] = byte(7) emit.Bytes(script.BinWriter, params) emit.Bytes(script.BinWriter, avm) emit.Syscall(script.BinWriter, "Neo.Contract.Create") txScript := script.Bytes() invFee := util.Fixed8FromFloat(100) txDeploy := transaction.NewInvocationTX(txScript, invFee) txDeploy.Nonce = getNextNonce() txDeploy.ValidUntilBlock = validUntilBlock txDeploy.Sender = priv0ScriptHash txDeploy.AddInput(&transaction.Input{ PrevHash: txClaim.Hash(), PrevIndex: 0, }) txDeploy.AddOutput(&transaction.Output{ AssetID: UtilityTokenID(), Amount: gasOwned - invFee, ScriptHash: priv0.GetScriptHash(), Position: 0, }) gasOwned -= invFee require.NoError(t, addNetworkFee(bc, txDeploy, acc0)) require.NoError(t, acc0.SignTx(txDeploy)) b = bc.newBlock(txDeploy) require.NoError(t, bc.AddBlock(b)) t.Logf("txDeploy: %s", txDeploy.Hash().StringLE()) // Now invoke this contract. script = io.NewBufBinWriter() emit.AppCallWithOperationAndArgs(script.BinWriter, hash.Hash160(avm), "Put", "testkey", "testvalue") txInv := transaction.NewInvocationTX(script.Bytes(), 0) txInv.Nonce = getNextNonce() txInv.ValidUntilBlock = validUntilBlock txInv.Sender = priv0ScriptHash require.NoError(t, addNetworkFee(bc, txInv, acc0)) require.NoError(t, acc0.SignTx(txInv)) b = bc.newBlock(txInv) require.NoError(t, bc.AddBlock(b)) t.Logf("txInv: %s", txInv.Hash().StringLE()) priv1 := testchain.PrivateKeyByID(1) txNeo0to1 := transaction.NewContractTX() txNeo0to1.Nonce = getNextNonce() txNeo0to1.ValidUntilBlock = validUntilBlock txNeo0to1.Sender = priv0ScriptHash txNeo0to1.Data = new(transaction.ContractTX) txNeo0to1.AddInput(&transaction.Input{ PrevHash: txNeoRound.Hash(), PrevIndex: 0, }) txNeo0to1.AddOutput(&transaction.Output{ AssetID: GoverningTokenID(), Amount: util.Fixed8FromInt64(1000), ScriptHash: priv1.GetScriptHash(), }) txNeo0to1.AddOutput(&transaction.Output{ AssetID: GoverningTokenID(), Amount: neoAmount - util.Fixed8FromInt64(1000), ScriptHash: priv0.GetScriptHash(), }) require.NoError(t, addNetworkFee(bc, txNeo0to1, acc0)) require.NoError(t, acc0.SignTx(txNeo0to1)) b = bc.newBlock(txNeo0to1) require.NoError(t, bc.AddBlock(b)) sh := hash.Hash160(avm) w := io.NewBufBinWriter() emit.AppCallWithOperationAndArgs(w.BinWriter, sh, "init") initTx := transaction.NewInvocationTX(w.Bytes(), 0) initTx.Nonce = getNextNonce() initTx.ValidUntilBlock = validUntilBlock initTx.Sender = priv0ScriptHash require.NoError(t, addNetworkFee(bc, initTx, acc0)) require.NoError(t, acc0.SignTx(initTx)) transferTx := newNEP5Transfer(sh, sh, priv0.GetScriptHash(), 1000) transferTx.Nonce = getNextNonce() transferTx.ValidUntilBlock = validUntilBlock transferTx.Sender = priv0ScriptHash transferTx.Cosigners = []transaction.Cosigner{ { Account: priv0ScriptHash, Scopes: transaction.CalledByEntry, AllowedContracts: nil, AllowedGroups: nil, }, } require.NoError(t, addNetworkFee(bc, transferTx, acc0)) require.NoError(t, acc0.SignTx(transferTx)) b = bc.newBlock(initTx, transferTx) require.NoError(t, bc.AddBlock(b)) t.Logf("recieveRublesTx: %v", transferTx.Hash().StringLE()) transferTx = newNEP5Transfer(sh, priv0.GetScriptHash(), priv1.GetScriptHash(), 123) transferTx.Nonce = getNextNonce() transferTx.ValidUntilBlock = validUntilBlock transferTx.Sender = priv0ScriptHash transferTx.Cosigners = []transaction.Cosigner{ { Account: priv0ScriptHash, Scopes: transaction.CalledByEntry, AllowedContracts: nil, AllowedGroups: nil, }, } require.NoError(t, addNetworkFee(bc, transferTx, acc0)) require.NoError(t, acc0.SignTx(transferTx)) b = bc.newBlock(transferTx) require.NoError(t, bc.AddBlock(b)) t.Logf("sendRublesTx: %v", transferTx.Hash().StringLE()) if saveChain { outStream, err := os.Create(prefix + "testblocks.acc") require.NoError(t, err) defer outStream.Close() writer := io.NewBinWriterFromIO(outStream) count := bc.BlockHeight() + 1 writer.WriteU32LE(count - 1) for i := 1; i < int(count); i++ { bh := bc.GetHeaderHash(i) b, err := bc.GetBlock(bh) require.NoError(t, err) bytes, err := testserdes.EncodeBinary(b) require.NoError(t, err) writer.WriteU32LE(uint32(len(bytes))) writer.WriteBytes(bytes) require.NoError(t, writer.Err) } } // Make a NEO roundtrip (send to myself) and claim GAS. txNeoRound = transaction.NewContractTX() txNeoRound.Nonce = getNextNonce() txNeoRound.ValidUntilBlock = validUntilBlock txNeoRound.Sender = priv0ScriptHash txNeoRound.AddInput(&transaction.Input{ PrevHash: txNeo0to1.Hash(), PrevIndex: 1, }) txNeoRound.AddOutput(&transaction.Output{ AssetID: GoverningTokenID(), Amount: neoAmount - util.Fixed8FromInt64(1000), ScriptHash: priv0.GetScriptHash(), Position: 0, }) txNeoRound.Data = new(transaction.ContractTX) require.NoError(t, addNetworkFee(bc, txNeoRound, acc0)) require.NoError(t, acc0.SignTx(txNeoRound)) bw := io.NewBufBinWriter() txNeoRound.EncodeBinary(bw.BinWriter) t.Logf("sendrawtransaction: %s", hex.EncodeToString(bw.Bytes())) } func newNEP5Transfer(sc, from, to util.Uint160, amount int64) *transaction.Transaction { w := io.NewBufBinWriter() emit.AppCallWithOperationAndArgs(w.BinWriter, sc, "transfer", from, to, amount) emit.Opcode(w.BinWriter, opcode.ASSERT) script := w.Bytes() return transaction.NewInvocationTX(script, 0) } func addSender(txs ...*transaction.Transaction) error { for _, tx := range txs { tx.Sender = neoOwner } return nil } func signTx(bc *Blockchain, txs ...*transaction.Transaction) error { validators, err := getValidators(bc.config) if err != nil { return errors.Wrap(err, "fail to sign tx") } rawScript, err := smartcontract.CreateMultiSigRedeemScript(len(bc.config.StandbyValidators)/2+1, validators) if err != nil { return errors.Wrap(err, "fail to sign tx") } for _, tx := range txs { size := io.GetVarSize(tx) netFee, sizeDelta := CalculateNetworkFee(rawScript) tx.NetworkFee = tx.NetworkFee.Add(netFee) size += sizeDelta tx.NetworkFee = tx.NetworkFee.Add(util.Fixed8(int64(size) * int64(bc.FeePerByte()))) data := tx.GetSignedPart() tx.Scripts = []transaction.Witness{{ InvocationScript: testchain.Sign(data), VerificationScript: rawScript, }} } return nil } func addNetworkFee(bc *Blockchain, tx *transaction.Transaction, sender *wallet.Account) error { size := io.GetVarSize(tx) netFee, sizeDelta := CalculateNetworkFee(sender.Contract.Script) tx.NetworkFee += netFee size += sizeDelta for _, cosigner := range tx.Cosigners { contract := bc.GetContractState(cosigner.Account) if contract != nil { netFee, sizeDelta = CalculateNetworkFee(contract.Script) tx.NetworkFee += netFee size += sizeDelta } } tx.NetworkFee += util.Fixed8(int64(size) * int64(bc.FeePerByte())) return nil }