package morph import ( "archive/tar" "compress/gzip" "encoding/hex" "encoding/json" "errors" "fmt" "io" "os" "path/filepath" "strings" "github.com/nspcc-dev/neo-go/pkg/core/native" "github.com/nspcc-dev/neo-go/pkg/core/native/nativenames" "github.com/nspcc-dev/neo-go/pkg/core/state" "github.com/nspcc-dev/neo-go/pkg/core/transaction" io2 "github.com/nspcc-dev/neo-go/pkg/io" "github.com/nspcc-dev/neo-go/pkg/rpc/client" "github.com/nspcc-dev/neo-go/pkg/smartcontract" "github.com/nspcc-dev/neo-go/pkg/smartcontract/callflag" "github.com/nspcc-dev/neo-go/pkg/smartcontract/manifest" "github.com/nspcc-dev/neo-go/pkg/smartcontract/nef" "github.com/nspcc-dev/neo-go/pkg/util" "github.com/nspcc-dev/neo-go/pkg/vm" "github.com/nspcc-dev/neo-go/pkg/vm/emit" "github.com/nspcc-dev/neo-go/pkg/vm/opcode" "github.com/nspcc-dev/neofs-node/pkg/innerring" morphClient "github.com/nspcc-dev/neofs-node/pkg/morph/client" "github.com/spf13/viper" ) const ( nnsContract = "nns" neofsContract = "neofs" // not deployed in side-chain. processingContract = "processing" // not deployed in side-chain. alphabetContract = "alphabet" auditContract = "audit" balanceContract = "balance" containerContract = "container" neofsIDContract = "neofsid" netmapContract = "netmap" proxyContract = "proxy" reputationContract = "reputation" subnetContract = "subnet" ) const ( netmapEpochKey = "EpochDuration" netmapMaxObjectSizeKey = "MaxObjectSize" netmapAuditFeeKey = "AuditFee" netmapContainerFeeKey = "ContainerFee" netmapContainerAliasFeeKey = "ContainerAliasFee" netmapEigenTrustIterationsKey = "EigenTrustIterations" netmapEigenTrustAlphaKey = "EigenTrustAlpha" netmapBasicIncomeRateKey = "BasicIncomeRate" netmapInnerRingCandidateFeeKey = "InnerRingCandidateFee" netmapWithdrawFeeKey = "WithdrawFee" defaultEigenTrustIterations = 4 defaultEigenTrustAlpha = "0.1" ) var ( contractList = []string{ auditContract, balanceContract, containerContract, neofsIDContract, netmapContract, proxyContract, reputationContract, subnetContract, } fullContractList = append([]string{ neofsContract, processingContract, nnsContract, alphabetContract, }, contractList...) ) type contractState struct { NEF *nef.File RawNEF []byte Manifest *manifest.Manifest RawManifest []byte Hash util.Uint160 } const ( updateMethodName = "update" deployMethodName = "deploy" ) func (c *initializeContext) deployNNS(method string) error { cs := c.getContract(nnsContract) h := cs.Hash nnsCs, err := c.nnsContractState() if err == nil { if nnsCs.NEF.Checksum == cs.NEF.Checksum { c.Command.Println("NNS contract is already deployed.") return nil } h = nnsCs.Hash } err = c.addManifestGroup(h, cs) if err != nil { return fmt.Errorf("can't sign manifest group: %v", err) } params := getContractDeployParameters(cs.RawNEF, cs.RawManifest, nil) signer := transaction.Signer{ Account: c.CommitteeAcc.Contract.ScriptHash(), Scopes: transaction.CalledByEntry, } mgmtHash := c.nativeHash(nativenames.Management) if method == updateMethodName { mgmtHash = nnsCs.Hash } res, err := c.Client.InvokeFunction(mgmtHash, method, params, []transaction.Signer{signer}) if err != nil { return fmt.Errorf("can't deploy NNS contract: %w", err) } if res.State != vm.HaltState.String() { return fmt.Errorf("can't deploy NNS contract: %s", res.FaultException) } tx, err := c.Client.CreateTxFromScript(res.Script, c.CommitteeAcc, res.GasConsumed, 0, []client.SignerAccount{{ Signer: signer, Account: c.CommitteeAcc, }}) if err != nil { return fmt.Errorf("failed to create deploy tx for %s: %w", nnsContract, err) } if err := c.multiSignAndSend(tx, committeeAccountName); err != nil { return fmt.Errorf("can't send deploy transaction: %w", err) } return c.awaitTx() } func (c *initializeContext) updateContracts() error { mgmtHash := c.nativeHash(nativenames.Management) alphaCs := c.getContract(alphabetContract) nnsCs, err := c.nnsContractState() if err != nil { return err } nnsHash := nnsCs.Hash totalGasCost := int64(0) w := io2.NewBufBinWriter() var keysParam []smartcontract.Parameter // Update script size for a single-node committee is close to the maximum allowed size of 65535. // Because of this we want to reuse alphabet contract NEF and manifest for different updates. // The generated script is as following. // 1. Initialize static slots for alphabet NEF and manifest. // 2. Store NEF and manifest into static slots. // 3. Push parameters for each alphabet contract on stack. // 4. For each alphabet contract, invoke `update` using parameters on stack and // NEF and manifest from step 2. // 5. Update other contracts as usual. emit.Instruction(w.BinWriter, opcode.INITSSLOT, []byte{2}) emit.Bytes(w.BinWriter, alphaCs.RawManifest) emit.Bytes(w.BinWriter, alphaCs.RawNEF) emit.Opcodes(w.BinWriter, opcode.STSFLD0, opcode.STSFLD1) // alphabet contracts should be deployed by individual nodes to get different hashes. for i, acc := range c.Accounts { ctrHash, err := nnsResolveHash(c.Client, nnsHash, getAlphabetNNSDomain(i)) if err != nil { return fmt.Errorf("can't resolve hash for contract update: %w", err) } keysParam = append(keysParam, smartcontract.Parameter{ Type: smartcontract.PublicKeyType, Value: acc.PrivateKey().PublicKey().Bytes(), }) params := c.getAlphabetDeployItems(i, len(c.Wallets)) emit.Array(w.BinWriter, params...) emit.Opcodes(w.BinWriter, opcode.LDSFLD1, opcode.LDSFLD0) emit.Int(w.BinWriter, 3) emit.Opcodes(w.BinWriter, opcode.PACK) emit.AppCallNoArgs(w.BinWriter, ctrHash, updateMethodName, callflag.All) } res, err := c.Client.InvokeScript(w.Bytes(), []transaction.Signer{{ Account: c.CommitteeAcc.Contract.ScriptHash(), Scopes: transaction.Global, }}) if err != nil { return fmt.Errorf("can't update alphabet contracts: %w", err) } if res.State != vm.HaltState.String() { return fmt.Errorf("can't update alphabet contracts: %s", res.FaultException) } w.Reset() totalGasCost += res.GasConsumed w.WriteBytes(res.Script) for _, ctrName := range contractList { cs := c.getContract(ctrName) method := updateMethodName ctrHash, err := nnsResolveHash(c.Client, nnsHash, ctrName+".neofs") if err != nil { if errors.Is(err, errMissingNNSRecord) { // if contract not found we deploy it instead of update method = deployMethodName } else { return fmt.Errorf("can't resolve hash for contract update: %w", err) } } err = c.addManifestGroup(ctrHash, alphaCs) if err != nil { return fmt.Errorf("can't sign manifest group: %v", err) } invokeHash := mgmtHash if method == updateMethodName { invokeHash = ctrHash } params := getContractDeployParameters(cs.RawNEF, cs.RawManifest, c.getContractDeployData(ctrName, keysParam)) signer := transaction.Signer{ Account: c.CommitteeAcc.Contract.ScriptHash(), Scopes: transaction.Global, } res, err := c.Client.InvokeFunction(invokeHash, method, params, []transaction.Signer{signer}) if err != nil { return fmt.Errorf("can't deploy %s contract: %w", ctrName, err) } if res.State != vm.HaltState.String() { return fmt.Errorf("can't deploy %s contract: %s", ctrName, res.FaultException) } totalGasCost += res.GasConsumed w.WriteBytes(res.Script) if method == deployMethodName { // same actions are done in initializeContext.setNNS, can be unified domain := ctrName + ".neofs" script, err := c.nnsRegisterDomainScript(nnsHash, cs.Hash, domain) if err != nil { return err } if script != nil { totalGasCost += defaultRegisterSysfee + native.GASFactor w.WriteBytes(script) } c.Command.Printf("NNS: Set %s -> %s\n", domain, cs.Hash.StringLE()) } } groupKey := c.ContractWallet.Accounts[0].PrivateKey().PublicKey() sysFee, err := c.emitUpdateNNSGroupScript(w, nnsHash, groupKey) if err != nil { return err } c.Command.Printf("NNS: Set %s -> %s\n", morphClient.NNSGroupKeyName, hex.EncodeToString(groupKey.Bytes())) totalGasCost += sysFee if err := c.sendCommitteeTx(w.Bytes(), totalGasCost, false); err != nil { return err } return c.awaitTx() } func (c *initializeContext) deployContracts() error { mgmtHash := c.nativeHash(nativenames.Management) alphaCs := c.getContract(alphabetContract) var keysParam []smartcontract.Parameter // alphabet contracts should be deployed by individual nodes to get different hashes. for i, acc := range c.Accounts { ctrHash := state.CreateContractHash(acc.Contract.ScriptHash(), alphaCs.NEF.Checksum, alphaCs.Manifest.Name) if c.isUpdated(ctrHash, alphaCs) { c.Command.Printf("Alphabet contract #%d is already deployed.\n", i) continue } invokeHash := mgmtHash keysParam = append(keysParam, smartcontract.Parameter{ Type: smartcontract.PublicKeyType, Value: acc.PrivateKey().PublicKey().Bytes(), }) params := getContractDeployParameters(alphaCs.RawNEF, alphaCs.RawManifest, c.getAlphabetDeployParameters(i, len(c.Wallets))) signer := transaction.Signer{ Account: acc.Contract.ScriptHash(), Scopes: transaction.CalledByEntry, } res, err := c.Client.InvokeFunction(invokeHash, deployMethodName, params, []transaction.Signer{signer}) if err != nil { return fmt.Errorf("can't deploy alphabet #%d contract: %w", i, err) } if res.State != vm.HaltState.String() { return fmt.Errorf("can't deploy alpabet #%d contract: %s", i, res.FaultException) } h, err := c.Client.SignAndPushInvocationTx(res.Script, acc, -1, 0, []client.SignerAccount{{ Signer: signer, Account: acc, }}) if err != nil { return fmt.Errorf("can't push deploy transaction: %w", err) } c.Hashes = append(c.Hashes, h) } for _, ctrName := range contractList { cs := c.getContract(ctrName) ctrHash := cs.Hash if c.isUpdated(ctrHash, cs) { c.Command.Printf("%s contract is already deployed.\n", ctrName) continue } err := c.addManifestGroup(ctrHash, cs) if err != nil { return fmt.Errorf("can't sign manifest group: %v", err) } invokeHash := mgmtHash params := getContractDeployParameters(cs.RawNEF, cs.RawManifest, c.getContractDeployData(ctrName, keysParam)) signer := transaction.Signer{ Account: c.CommitteeAcc.Contract.ScriptHash(), Scopes: transaction.Global, } res, err := c.Client.InvokeFunction(invokeHash, deployMethodName, params, []transaction.Signer{signer}) if err != nil { return fmt.Errorf("can't deploy %s contract: %w", ctrName, err) } if res.State != vm.HaltState.String() { return fmt.Errorf("can't deploy %s contract: %s", ctrName, res.FaultException) } if err := c.sendCommitteeTx(res.Script, res.GasConsumed, false); err != nil { return err } } return c.awaitTx() } func (c *initializeContext) isUpdated(ctrHash util.Uint160, cs *contractState) bool { realCs, err := c.Client.GetContractStateByHash(ctrHash) return err == nil && realCs.NEF.Checksum == cs.NEF.Checksum } func (c *initializeContext) getContract(ctrName string) *contractState { return c.Contracts[ctrName] } func (c *initializeContext) readContracts(names []string) error { var ( fi os.FileInfo err error ) if c.ContractPath != "" { fi, err = os.Stat(c.ContractPath) if err != nil { return fmt.Errorf("invalid contracts path: %w", err) } } if c.ContractPath != "" && fi.IsDir() { for _, ctrName := range names { cs := new(contractState) cs.RawNEF, err = os.ReadFile(filepath.Join(c.ContractPath, ctrName, ctrName+"_contract.nef")) if err != nil { return fmt.Errorf("can't read NEF file for %s contract: %w", ctrName, err) } cs.RawManifest, err = os.ReadFile(filepath.Join(c.ContractPath, ctrName, "config.json")) if err != nil { return fmt.Errorf("can't read manifest file for %s contract: %w", ctrName, err) } c.Contracts[ctrName] = cs } } else { var r io.ReadCloser if c.ContractPath == "" { c.Command.Println("Contracts flag is missing, latest release will be fetched from Github.") r, err = downloadContractsFromGithub(c.Command) } else { r, err = os.Open(c.ContractPath) } if err != nil { return fmt.Errorf("can't open contracts archive: %w", err) } defer r.Close() m, err := readContractsFromArchive(r, names) if err != nil { return err } for _, name := range names { c.Contracts[name] = m[name] } } for _, ctrName := range names { cs := c.Contracts[ctrName] if err := cs.parse(); err != nil { return err } if ctrName != alphabetContract { cs.Hash = state.CreateContractHash(c.CommitteeAcc.Contract.ScriptHash(), cs.NEF.Checksum, cs.Manifest.Name) } } return nil } func (cs *contractState) parse() error { nf, err := nef.FileFromBytes(cs.RawNEF) if err != nil { return fmt.Errorf("can't parse NEF file: %w", err) } m := new(manifest.Manifest) if err := json.Unmarshal(cs.RawManifest, m); err != nil { return fmt.Errorf("can't parse manifest file: %w", err) } cs.NEF = &nf cs.Manifest = m return nil } func readContractsFromArchive(file io.Reader, names []string) (map[string]*contractState, error) { m := make(map[string]*contractState, len(names)) for i := range names { m[names[i]] = new(contractState) } gr, err := gzip.NewReader(file) if err != nil { return nil, fmt.Errorf("contracts file must be tar.gz archive: %w", err) } r := tar.NewReader(gr) for h, err := r.Next(); ; h, err = r.Next() { if err != nil { break } dir, _ := filepath.Split(h.Name) ctrName := filepath.Base(dir) cs, ok := m[ctrName] if !ok { continue } switch { case strings.HasSuffix(h.Name, filepath.Join(ctrName, ctrName+"_contract.nef")): cs.RawNEF, err = io.ReadAll(r) if err != nil { return nil, fmt.Errorf("can't read NEF file for %s contract: %w", ctrName, err) } case strings.HasSuffix(h.Name, "config.json"): cs.RawManifest, err = io.ReadAll(r) if err != nil { return nil, fmt.Errorf("can't read manifest file for %s contract: %w", ctrName, err) } } m[ctrName] = cs } for ctrName, cs := range m { if cs.RawNEF == nil { return nil, fmt.Errorf("NEF for %s contract wasn't found", ctrName) } if cs.RawManifest == nil { return nil, fmt.Errorf("manifest for %s contract wasn't found", ctrName) } } return m, nil } func getContractDeployParameters(rawNef, rawManif []byte, deployData []smartcontract.Parameter) []smartcontract.Parameter { return []smartcontract.Parameter{ { Type: smartcontract.ByteArrayType, Value: rawNef, }, { Type: smartcontract.ByteArrayType, Value: rawManif, }, { Type: smartcontract.ArrayType, Value: deployData, }, } } func (c *initializeContext) getContractDeployData(ctrName string, keysParam []smartcontract.Parameter) []smartcontract.Parameter { items := make([]smartcontract.Parameter, 1, 6) items[0] = newContractParameter(smartcontract.BoolType, false) // notaryDisabled is false switch ctrName { case neofsContract: items = append(items, newContractParameter(smartcontract.Hash160Type, c.Contracts[processingContract].Hash), newContractParameter(smartcontract.ArrayType, keysParam), newContractParameter(smartcontract.ArrayType, smartcontract.Parameter{})) case processingContract: items = append(items, newContractParameter(smartcontract.Hash160Type, c.Contracts[neofsContract].Hash)) return items[1:] // no notary info case auditContract: items = append(items, newContractParameter(smartcontract.Hash160Type, c.Contracts[netmapContract].Hash)) case balanceContract: items = append(items, newContractParameter(smartcontract.Hash160Type, c.Contracts[netmapContract].Hash), newContractParameter(smartcontract.Hash160Type, c.Contracts[containerContract].Hash)) case containerContract: // In case if NNS is updated multiple times, we can't calculate // it's actual hash based on local data, thus query chain. nnsCs, err := c.Client.GetContractStateByID(1) if err != nil { panic("NNS is not yet deployed") } items = append(items, newContractParameter(smartcontract.Hash160Type, c.Contracts[netmapContract].Hash), newContractParameter(smartcontract.Hash160Type, c.Contracts[balanceContract].Hash), newContractParameter(smartcontract.Hash160Type, c.Contracts[neofsIDContract].Hash), newContractParameter(smartcontract.Hash160Type, nnsCs.Hash), newContractParameter(smartcontract.StringType, "container")) case neofsIDContract: items = append(items, newContractParameter(smartcontract.Hash160Type, c.Contracts[netmapContract].Hash), newContractParameter(smartcontract.Hash160Type, c.Contracts[containerContract].Hash)) case netmapContract: configParam := []smartcontract.Parameter{ {Type: smartcontract.StringType, Value: netmapEpochKey}, {Type: smartcontract.IntegerType, Value: viper.GetInt64(epochDurationInitFlag)}, {Type: smartcontract.StringType, Value: netmapMaxObjectSizeKey}, {Type: smartcontract.IntegerType, Value: viper.GetInt64(maxObjectSizeInitFlag)}, {Type: smartcontract.StringType, Value: netmapAuditFeeKey}, {Type: smartcontract.IntegerType, Value: viper.GetInt64(auditFeeInitFlag)}, {Type: smartcontract.StringType, Value: netmapContainerFeeKey}, {Type: smartcontract.IntegerType, Value: viper.GetInt64(containerFeeInitFlag)}, {Type: smartcontract.StringType, Value: netmapContainerAliasFeeKey}, {Type: smartcontract.IntegerType, Value: viper.GetInt64(containerAliasFeeInitFlag)}, {Type: smartcontract.StringType, Value: netmapEigenTrustIterationsKey}, {Type: smartcontract.IntegerType, Value: int64(defaultEigenTrustIterations)}, {Type: smartcontract.StringType, Value: netmapEigenTrustAlphaKey}, {Type: smartcontract.StringType, Value: defaultEigenTrustAlpha}, {Type: smartcontract.StringType, Value: netmapBasicIncomeRateKey}, {Type: smartcontract.IntegerType, Value: viper.GetInt64(incomeRateInitFlag)}, {Type: smartcontract.StringType, Value: netmapInnerRingCandidateFeeKey}, {Type: smartcontract.IntegerType, Value: viper.GetInt64(candidateFeeInitFlag)}, {Type: smartcontract.StringType, Value: netmapWithdrawFeeKey}, {Type: smartcontract.IntegerType, Value: viper.GetInt64(withdrawFeeInitFlag)}, } items = append(items, newContractParameter(smartcontract.Hash160Type, c.Contracts[balanceContract].Hash), newContractParameter(smartcontract.Hash160Type, c.Contracts[containerContract].Hash), newContractParameter(smartcontract.ArrayType, keysParam), newContractParameter(smartcontract.ArrayType, configParam)) case proxyContract: items = nil case reputationContract: case subnetContract: default: panic(fmt.Sprintf("invalid contract name: %s", ctrName)) } return items } func (c *initializeContext) getAlphabetDeployParameters(i, n int) []smartcontract.Parameter { items := c.getAlphabetDeployItems(i, n) return []smartcontract.Parameter{ newContractParameter(smartcontract.BoolType, items[0]), newContractParameter(smartcontract.Hash160Type, items[1]), newContractParameter(smartcontract.Hash160Type, items[2]), newContractParameter(smartcontract.StringType, items[3]), newContractParameter(smartcontract.IntegerType, items[4]), newContractParameter(smartcontract.IntegerType, items[5]), } } func (c *initializeContext) getAlphabetDeployItems(i, n int) []interface{} { items := make([]interface{}, 6) items[0] = false items[1] = c.Contracts[netmapContract].Hash items[2] = c.Contracts[proxyContract].Hash items[3] = innerring.GlagoliticLetter(i).String() items[4] = int64(i) items[5] = int64(n) return items } func newContractParameter(typ smartcontract.ParamType, value interface{}) smartcontract.Parameter { return smartcontract.Parameter{ Type: typ, Value: value, } }