neo-go/pkg/core/interop_neo.go
Roman Khimov a9abd3d841 core: fix wrong endian used in interop functions
C# uses ToArray() or UintXXX(bytes) here which interprets hashes as they
should be interpreted (BE, although they always convert to LE when converting
to String just for the fun of it). It leads to state difference for us at
block 2025204 where even though we have the same value for the key, the key
itself differs, ours:

dd2b538e2a0c1db1ae5061c15be14f916bd1e678e512ffcda6d9499d8e7fe97ee71fd6b8004583d9afe09cc4dadbd5deb63d01e061009b7cffdaa674beae0f930ebe6085af900093e5fe56b34a5c220ccdcf6efc336fc5000000000000000000000000000000000010

theirs:

dd2b538e2a0c1db1ae5061c15be14f916bd1e67861e0013db6ded5dbdac49ce0afd9834500b8d61fe77ee97f8e9d49d9a6cdff12e5009b7cffdaa674beae0f930ebe6085af900093e5fe56b34a5c220ccdcf6efc336fc5000000000000000000000000000000000010

In this key there is a tx hash encoded
(e512ffcda6d9499d8e7fe97ee71fd6b84583d9afe09cc4dadbd5deb63d01e061 in LE used
by all the tools like neoscan).

I love Neo.
2020-03-05 19:44:09 +03:00

835 lines
24 KiB
Go

package core
import (
"errors"
"fmt"
"math"
"strings"
"github.com/nspcc-dev/neo-go/pkg/core/state"
"github.com/nspcc-dev/neo-go/pkg/core/transaction"
"github.com/nspcc-dev/neo-go/pkg/crypto/keys"
"github.com/nspcc-dev/neo-go/pkg/smartcontract"
"github.com/nspcc-dev/neo-go/pkg/smartcontract/trigger"
"github.com/nspcc-dev/neo-go/pkg/util"
"github.com/nspcc-dev/neo-go/pkg/vm"
gherr "github.com/pkg/errors"
)
const (
// MaxContractScriptSize is the maximum script size for a contract.
MaxContractScriptSize = 1024 * 1024
// MaxContractParametersNum is the maximum number of parameters for a contract.
MaxContractParametersNum = 252
// MaxContractStringLen is the maximum length for contract metadata strings.
MaxContractStringLen = 252
// MaxAssetNameLen is the maximum length of asset name.
MaxAssetNameLen = 1024
// MaxAssetPrecision is the maximum precision of asset.
MaxAssetPrecision = 8
// BlocksPerYear is a multiplier for asset renewal.
BlocksPerYear = 2000000
// DefaultAssetLifetime is the default lifetime of an asset (which differs
// from assets created by register tx).
DefaultAssetLifetime = 1 + BlocksPerYear
)
// headerGetVersion returns version from the header.
func (ic *interopContext) headerGetVersion(v *vm.VM) error {
header, err := popHeaderFromVM(v)
if err != nil {
return err
}
v.Estack().PushVal(header.Version)
return nil
}
// headerGetConsensusData returns consensus data from the header.
func (ic *interopContext) headerGetConsensusData(v *vm.VM) error {
header, err := popHeaderFromVM(v)
if err != nil {
return err
}
v.Estack().PushVal(header.ConsensusData)
return nil
}
// headerGetMerkleRoot returns version from the header.
func (ic *interopContext) headerGetMerkleRoot(v *vm.VM) error {
header, err := popHeaderFromVM(v)
if err != nil {
return err
}
v.Estack().PushVal(header.MerkleRoot.BytesBE())
return nil
}
// headerGetNextConsensus returns version from the header.
func (ic *interopContext) headerGetNextConsensus(v *vm.VM) error {
header, err := popHeaderFromVM(v)
if err != nil {
return err
}
v.Estack().PushVal(header.NextConsensus.BytesBE())
return nil
}
// txGetAttributes returns current transaction attributes.
func (ic *interopContext) txGetAttributes(v *vm.VM) error {
txInterface := v.Estack().Pop().Value()
tx, ok := txInterface.(*transaction.Transaction)
if !ok {
return errors.New("value is not a transaction")
}
if len(tx.Attributes) > vm.MaxArraySize {
return errors.New("too many attributes")
}
attrs := make([]vm.StackItem, 0, len(tx.Attributes))
for i := range tx.Attributes {
attrs = append(attrs, vm.NewInteropItem(&tx.Attributes[i]))
}
v.Estack().PushVal(attrs)
return nil
}
// txGetInputs returns current transaction inputs.
func (ic *interopContext) txGetInputs(v *vm.VM) error {
txInterface := v.Estack().Pop().Value()
tx, ok := txInterface.(*transaction.Transaction)
if !ok {
return errors.New("value is not a transaction")
}
if len(tx.Inputs) > vm.MaxArraySize {
return errors.New("too many inputs")
}
inputs := make([]vm.StackItem, 0, len(tx.Inputs))
for i := range tx.Inputs {
inputs = append(inputs, vm.NewInteropItem(&tx.Inputs[i]))
}
v.Estack().PushVal(inputs)
return nil
}
// txGetOutputs returns current transaction outputs.
func (ic *interopContext) txGetOutputs(v *vm.VM) error {
txInterface := v.Estack().Pop().Value()
tx, ok := txInterface.(*transaction.Transaction)
if !ok {
return errors.New("value is not a transaction")
}
if len(tx.Outputs) > vm.MaxArraySize {
return errors.New("too many outputs")
}
outputs := make([]vm.StackItem, 0, len(tx.Outputs))
for i := range tx.Outputs {
outputs = append(outputs, vm.NewInteropItem(&tx.Outputs[i]))
}
v.Estack().PushVal(outputs)
return nil
}
// txGetReferences returns current transaction references.
func (ic *interopContext) txGetReferences(v *vm.VM) error {
txInterface := v.Estack().Pop().Value()
tx, ok := txInterface.(*transaction.Transaction)
if !ok {
return fmt.Errorf("type mismatch: %T is not a Transaction", txInterface)
}
refs, err := ic.bc.References(tx)
if err != nil {
return err
}
if len(refs) > vm.MaxArraySize {
return errors.New("too many references")
}
stackrefs := make([]vm.StackItem, 0, len(refs))
for _, tio := range refs {
stackrefs = append(stackrefs, vm.NewInteropItem(tio))
}
v.Estack().PushVal(stackrefs)
return nil
}
// txGetType returns current transaction type.
func (ic *interopContext) txGetType(v *vm.VM) error {
txInterface := v.Estack().Pop().Value()
tx, ok := txInterface.(*transaction.Transaction)
if !ok {
return errors.New("value is not a transaction")
}
v.Estack().PushVal(int(tx.Type))
return nil
}
// txGetUnspentCoins returns current transaction unspent coins.
func (ic *interopContext) txGetUnspentCoins(v *vm.VM) error {
txInterface := v.Estack().Pop().Value()
tx, ok := txInterface.(*transaction.Transaction)
if !ok {
return errors.New("value is not a transaction")
}
ucs, err := ic.dao.GetUnspentCoinState(tx.Hash())
if err != nil {
return errors.New("no unspent coin state found")
}
v.Estack().PushVal(vm.NewInteropItem(ucs))
return nil
}
// txGetWitnesses returns current transaction witnesses.
func (ic *interopContext) txGetWitnesses(v *vm.VM) error {
txInterface := v.Estack().Pop().Value()
tx, ok := txInterface.(*transaction.Transaction)
if !ok {
return errors.New("value is not a transaction")
}
if len(tx.Scripts) > vm.MaxArraySize {
return errors.New("too many outputs")
}
scripts := make([]vm.StackItem, 0, len(tx.Scripts))
for i := range tx.Scripts {
scripts = append(scripts, vm.NewInteropItem(&tx.Scripts[i]))
}
v.Estack().PushVal(scripts)
return nil
}
// invocationTx_GetScript returns invocation script from the current transaction.
func (ic *interopContext) invocationTxGetScript(v *vm.VM) error {
txInterface := v.Estack().Pop().Value()
tx, ok := txInterface.(*transaction.Transaction)
if !ok {
return errors.New("value is not a transaction")
}
inv, ok := tx.Data.(*transaction.InvocationTX)
if tx.Type != transaction.InvocationType || !ok {
return errors.New("value is not an invocation transaction")
}
// It's important not to share inv.Script slice with the code running in VM.
script := make([]byte, len(inv.Script))
copy(script, inv.Script)
v.Estack().PushVal(script)
return nil
}
// witnessGetVerificationScript returns current witness' script.
func (ic *interopContext) witnessGetVerificationScript(v *vm.VM) error {
witInterface := v.Estack().Pop().Value()
wit, ok := witInterface.(*transaction.Witness)
if !ok {
return errors.New("value is not a witness")
}
// It's important not to share wit.VerificationScript slice with the code running in VM.
script := make([]byte, len(wit.VerificationScript))
copy(script, wit.VerificationScript)
v.Estack().PushVal(script)
return nil
}
// bcGetValidators returns validators.
func (ic *interopContext) bcGetValidators(v *vm.VM) error {
validators := ic.dao.GetValidators()
v.Estack().PushVal(validators)
return nil
}
// popInputFromVM returns transaction.Input from the first estack element.
func popInputFromVM(v *vm.VM) (*transaction.Input, error) {
inInterface := v.Estack().Pop().Value()
input, ok := inInterface.(*transaction.Input)
if !ok {
txio, ok := inInterface.(transaction.InOut)
if !ok {
return nil, fmt.Errorf("type mismatch: %T is not an Input or InOut", inInterface)
}
input = &txio.In
}
return input, nil
}
// inputGetHash returns hash from the given input.
func (ic *interopContext) inputGetHash(v *vm.VM) error {
input, err := popInputFromVM(v)
if err != nil {
return err
}
v.Estack().PushVal(input.PrevHash.BytesBE())
return nil
}
// inputGetIndex returns index from the given input.
func (ic *interopContext) inputGetIndex(v *vm.VM) error {
input, err := popInputFromVM(v)
if err != nil {
return err
}
v.Estack().PushVal(input.PrevIndex)
return nil
}
// popOutputFromVM returns transaction.Input from the first estack element.
func popOutputFromVM(v *vm.VM) (*transaction.Output, error) {
outInterface := v.Estack().Pop().Value()
output, ok := outInterface.(*transaction.Output)
if !ok {
txio, ok := outInterface.(transaction.InOut)
if !ok {
return nil, fmt.Errorf("type mismatch: %T is not an Output or InOut", outInterface)
}
output = &txio.Out
}
return output, nil
}
// outputGetAssetId returns asset ID from the given output.
func (ic *interopContext) outputGetAssetID(v *vm.VM) error {
output, err := popOutputFromVM(v)
if err != nil {
return err
}
v.Estack().PushVal(output.AssetID.BytesBE())
return nil
}
// outputGetScriptHash returns scripthash from the given output.
func (ic *interopContext) outputGetScriptHash(v *vm.VM) error {
output, err := popOutputFromVM(v)
if err != nil {
return err
}
v.Estack().PushVal(output.ScriptHash.BytesBE())
return nil
}
// outputGetValue returns value (amount) from the given output.
func (ic *interopContext) outputGetValue(v *vm.VM) error {
output, err := popOutputFromVM(v)
if err != nil {
return err
}
v.Estack().PushVal(int64(output.Amount))
return nil
}
// attrGetData returns tx attribute data.
func (ic *interopContext) attrGetData(v *vm.VM) error {
attrInterface := v.Estack().Pop().Value()
attr, ok := attrInterface.(*transaction.Attribute)
if !ok {
return fmt.Errorf("%T is not an attribute", attr)
}
v.Estack().PushVal(attr.Data)
return nil
}
// attrGetData returns tx attribute usage field.
func (ic *interopContext) attrGetUsage(v *vm.VM) error {
attrInterface := v.Estack().Pop().Value()
attr, ok := attrInterface.(*transaction.Attribute)
if !ok {
return fmt.Errorf("%T is not an attribute", attr)
}
v.Estack().PushVal(int(attr.Usage))
return nil
}
// bcGetAccount returns or creates an account.
func (ic *interopContext) bcGetAccount(v *vm.VM) error {
accbytes := v.Estack().Pop().Bytes()
acchash, err := util.Uint160DecodeBytesBE(accbytes)
if err != nil {
return err
}
acc, err := ic.dao.GetAccountStateOrNew(acchash)
if err != nil {
return err
}
v.Estack().PushVal(vm.NewInteropItem(acc))
return nil
}
// bcGetAsset returns an asset.
func (ic *interopContext) bcGetAsset(v *vm.VM) error {
asbytes := v.Estack().Pop().Bytes()
ashash, err := util.Uint256DecodeBytesBE(asbytes)
if err != nil {
return err
}
as, err := ic.dao.GetAssetState(ashash)
if err != nil {
return errors.New("asset not found")
}
v.Estack().PushVal(vm.NewInteropItem(as))
return nil
}
// accountGetBalance returns balance for a given account.
func (ic *interopContext) accountGetBalance(v *vm.VM) error {
accInterface := v.Estack().Pop().Value()
acc, ok := accInterface.(*state.Account)
if !ok {
return fmt.Errorf("%T is not an account state", acc)
}
asbytes := v.Estack().Pop().Bytes()
ashash, err := util.Uint256DecodeBytesBE(asbytes)
if err != nil {
return err
}
balance, ok := acc.GetBalanceValues()[ashash]
if !ok {
balance = util.Fixed8(0)
}
v.Estack().PushVal(int64(balance))
return nil
}
// accountGetScriptHash returns script hash of a given account.
func (ic *interopContext) accountGetScriptHash(v *vm.VM) error {
accInterface := v.Estack().Pop().Value()
acc, ok := accInterface.(*state.Account)
if !ok {
return fmt.Errorf("%T is not an account state", acc)
}
v.Estack().PushVal(acc.ScriptHash.BytesBE())
return nil
}
// accountGetVotes returns votes of a given account.
func (ic *interopContext) accountGetVotes(v *vm.VM) error {
accInterface := v.Estack().Pop().Value()
acc, ok := accInterface.(*state.Account)
if !ok {
return fmt.Errorf("%T is not an account state", acc)
}
if len(acc.Votes) > vm.MaxArraySize {
return errors.New("too many votes")
}
votes := make([]vm.StackItem, 0, len(acc.Votes))
for _, key := range acc.Votes {
votes = append(votes, vm.NewByteArrayItem(key.Bytes()))
}
v.Estack().PushVal(votes)
return nil
}
// accountIsStandard checks whether given account is standard.
func (ic *interopContext) accountIsStandard(v *vm.VM) error {
accbytes := v.Estack().Pop().Bytes()
acchash, err := util.Uint160DecodeBytesBE(accbytes)
if err != nil {
return err
}
contract, err := ic.dao.GetContractState(acchash)
res := err != nil || vm.IsStandardContract(contract.Script)
v.Estack().PushVal(res)
return nil
}
// storageFind finds stored key-value pair.
func (ic *interopContext) storageFind(v *vm.VM) error {
stcInterface := v.Estack().Pop().Value()
stc, ok := stcInterface.(*StorageContext)
if !ok {
return fmt.Errorf("%T is not a StorageContext", stcInterface)
}
err := ic.checkStorageContext(stc)
if err != nil {
return err
}
prefix := string(v.Estack().Pop().Bytes())
siMap, err := ic.dao.GetStorageItems(stc.ScriptHash)
if err != nil {
return err
}
filteredMap := make(map[interface{}]vm.StackItem)
for k, v := range siMap {
if strings.HasPrefix(k, prefix) {
filteredMap[k] = vm.NewByteArrayItem(v.Value)
}
}
item := vm.NewMapIterator(filteredMap)
v.Estack().PushVal(item)
return nil
}
// createContractStateFromVM pops all contract state elements from the VM
// evaluation stack, does a lot of checks and returns Contract if it
// succeeds.
func (ic *interopContext) createContractStateFromVM(v *vm.VM) (*state.Contract, error) {
if ic.trigger != trigger.Application {
return nil, errors.New("can't create contract when not triggered by an application")
}
script := v.Estack().Pop().Bytes()
if len(script) > MaxContractScriptSize {
return nil, errors.New("the script is too big")
}
paramBytes := v.Estack().Pop().Bytes()
if len(paramBytes) > MaxContractParametersNum {
return nil, errors.New("too many parameters for a script")
}
paramList := make([]smartcontract.ParamType, len(paramBytes))
for k, v := range paramBytes {
paramList[k] = smartcontract.ParamType(v)
}
retType := smartcontract.ParamType(v.Estack().Pop().BigInt().Int64())
properties := smartcontract.PropertyState(v.Estack().Pop().BigInt().Int64())
name := v.Estack().Pop().Bytes()
if len(name) > MaxContractStringLen {
return nil, errors.New("too big name")
}
version := v.Estack().Pop().Bytes()
if len(version) > MaxContractStringLen {
return nil, errors.New("too big version")
}
author := v.Estack().Pop().Bytes()
if len(author) > MaxContractStringLen {
return nil, errors.New("too big author")
}
email := v.Estack().Pop().Bytes()
if len(email) > MaxContractStringLen {
return nil, errors.New("too big email")
}
desc := v.Estack().Pop().Bytes()
if len(desc) > MaxContractStringLen {
return nil, errors.New("too big description")
}
contract := &state.Contract{
Script: script,
ParamList: paramList,
ReturnType: retType,
Properties: properties,
Name: string(name),
CodeVersion: string(version),
Author: string(author),
Email: string(email),
Description: string(desc),
}
return contract, nil
}
// contractCreate creates a contract.
func (ic *interopContext) contractCreate(v *vm.VM) error {
newcontract, err := ic.createContractStateFromVM(v)
if err != nil {
return nil
}
contract, err := ic.dao.GetContractState(newcontract.ScriptHash())
if err != nil {
contract = newcontract
err := ic.dao.PutContractState(contract)
if err != nil {
return err
}
}
v.Estack().PushVal(vm.NewInteropItem(contract))
return nil
}
// contractGetScript returns a script associated with a contract.
func (ic *interopContext) contractGetScript(v *vm.VM) error {
csInterface := v.Estack().Pop().Value()
cs, ok := csInterface.(*state.Contract)
if !ok {
return fmt.Errorf("%T is not a contract state", cs)
}
v.Estack().PushVal(cs.Script)
return nil
}
// contractIsPayable returns whether contract is payable.
func (ic *interopContext) contractIsPayable(v *vm.VM) error {
csInterface := v.Estack().Pop().Value()
cs, ok := csInterface.(*state.Contract)
if !ok {
return fmt.Errorf("%T is not a contract state", cs)
}
v.Estack().PushVal(cs.IsPayable())
return nil
}
// contractMigrate migrates a contract.
func (ic *interopContext) contractMigrate(v *vm.VM) error {
newcontract, err := ic.createContractStateFromVM(v)
if err != nil {
return nil
}
contract, err := ic.dao.GetContractState(newcontract.ScriptHash())
if err != nil {
contract = newcontract
err := ic.dao.PutContractState(contract)
if err != nil {
return err
}
if contract.HasStorage() {
hash := getContextScriptHash(v, 0)
siMap, err := ic.dao.GetStorageItems(hash)
if err != nil {
return err
}
for k, v := range siMap {
v.IsConst = false
_ = ic.dao.PutStorageItem(hash, []byte(k), v)
}
}
}
v.Estack().PushVal(vm.NewInteropItem(contract))
return ic.contractDestroy(v)
}
// assetCreate creates an asset.
func (ic *interopContext) assetCreate(v *vm.VM) error {
if ic.trigger != trigger.Application {
return errors.New("can't create asset when not triggered by an application")
}
atype := transaction.AssetType(v.Estack().Pop().BigInt().Int64())
switch atype {
case transaction.Currency, transaction.Share, transaction.Invoice, transaction.Token:
// ok
default:
return fmt.Errorf("wrong asset type: %x", atype)
}
name := string(v.Estack().Pop().Bytes())
if len(name) > MaxAssetNameLen {
return errors.New("too big name")
}
amount := util.Fixed8(v.Estack().Pop().BigInt().Int64())
if amount == util.Fixed8(0) {
return errors.New("asset amount can't be zero")
}
if amount < -util.Satoshi() {
return errors.New("asset amount can't be negative (except special -Satoshi value")
}
if atype == transaction.Invoice && amount != -util.Satoshi() {
return errors.New("invoice assets can only have -Satoshi amount")
}
precision := byte(v.Estack().Pop().BigInt().Int64())
if precision > MaxAssetPrecision {
return fmt.Errorf("can't have asset precision of more than %d", MaxAssetPrecision)
}
if atype == transaction.Share && precision != 0 {
return errors.New("share assets can only have zero precision")
}
if amount != -util.Satoshi() && (int64(amount)%int64(math.Pow10(int(MaxAssetPrecision-precision))) != 0) {
return errors.New("given asset amount has fractional component")
}
owner := &keys.PublicKey{}
err := owner.DecodeBytes(v.Estack().Pop().Bytes())
if err != nil {
return gherr.Wrap(err, "failed to get owner key")
}
if owner.IsInfinity() {
return errors.New("can't have infinity as an owner key")
}
witnessOk, err := ic.checkKeyedWitness(owner)
if err != nil {
return err
}
if !witnessOk {
return errors.New("witness check didn't succeed")
}
admin, err := util.Uint160DecodeBytesBE(v.Estack().Pop().Bytes())
if err != nil {
return gherr.Wrap(err, "failed to get admin")
}
issuer, err := util.Uint160DecodeBytesBE(v.Estack().Pop().Bytes())
if err != nil {
return gherr.Wrap(err, "failed to get issuer")
}
asset := &state.Asset{
ID: ic.tx.Hash(),
AssetType: atype,
Name: name,
Amount: amount,
Precision: precision,
Owner: *owner,
Admin: admin,
Issuer: issuer,
Expiration: ic.bc.BlockHeight() + DefaultAssetLifetime,
}
err = ic.dao.PutAssetState(asset)
if err != nil {
return gherr.Wrap(err, "failed to store asset")
}
v.Estack().PushVal(vm.NewInteropItem(asset))
return nil
}
// assetGetAdmin returns asset admin.
func (ic *interopContext) assetGetAdmin(v *vm.VM) error {
asInterface := v.Estack().Pop().Value()
as, ok := asInterface.(*state.Asset)
if !ok {
return fmt.Errorf("%T is not an asset state", as)
}
v.Estack().PushVal(as.Admin.BytesBE())
return nil
}
// assetGetAmount returns the overall amount of asset available.
func (ic *interopContext) assetGetAmount(v *vm.VM) error {
asInterface := v.Estack().Pop().Value()
as, ok := asInterface.(*state.Asset)
if !ok {
return fmt.Errorf("%T is not an asset state", as)
}
v.Estack().PushVal(int64(as.Amount))
return nil
}
// assetGetAssetId returns the id of an asset.
func (ic *interopContext) assetGetAssetID(v *vm.VM) error {
asInterface := v.Estack().Pop().Value()
as, ok := asInterface.(*state.Asset)
if !ok {
return fmt.Errorf("%T is not an asset state", as)
}
v.Estack().PushVal(as.ID.BytesBE())
return nil
}
// assetGetAssetType returns type of an asset.
func (ic *interopContext) assetGetAssetType(v *vm.VM) error {
asInterface := v.Estack().Pop().Value()
as, ok := asInterface.(*state.Asset)
if !ok {
return fmt.Errorf("%T is not an asset state", as)
}
v.Estack().PushVal(int(as.AssetType))
return nil
}
// assetGetAvailable returns available (not yet issued) amount of asset.
func (ic *interopContext) assetGetAvailable(v *vm.VM) error {
asInterface := v.Estack().Pop().Value()
as, ok := asInterface.(*state.Asset)
if !ok {
return fmt.Errorf("%T is not an asset state", as)
}
v.Estack().PushVal(int(as.Available))
return nil
}
// assetGetIssuer returns issuer of an asset.
func (ic *interopContext) assetGetIssuer(v *vm.VM) error {
asInterface := v.Estack().Pop().Value()
as, ok := asInterface.(*state.Asset)
if !ok {
return fmt.Errorf("%T is not an asset state", as)
}
v.Estack().PushVal(as.Issuer.BytesBE())
return nil
}
// assetGetOwner returns owner of an asset.
func (ic *interopContext) assetGetOwner(v *vm.VM) error {
asInterface := v.Estack().Pop().Value()
as, ok := asInterface.(*state.Asset)
if !ok {
return fmt.Errorf("%T is not an asset state", as)
}
v.Estack().PushVal(as.Owner.Bytes())
return nil
}
// assetGetPrecision returns precision used to measure this asset.
func (ic *interopContext) assetGetPrecision(v *vm.VM) error {
asInterface := v.Estack().Pop().Value()
as, ok := asInterface.(*state.Asset)
if !ok {
return fmt.Errorf("%T is not an asset state", as)
}
v.Estack().PushVal(int(as.Precision))
return nil
}
// assetRenew updates asset expiration date.
func (ic *interopContext) assetRenew(v *vm.VM) error {
if ic.trigger != trigger.Application {
return errors.New("can't create asset when not triggered by an application")
}
asInterface := v.Estack().Pop().Value()
as, ok := asInterface.(*state.Asset)
if !ok {
return fmt.Errorf("%T is not an asset state", as)
}
years := byte(v.Estack().Pop().BigInt().Int64())
// Not sure why C# code regets an asset from the Store, but we also do it.
asset, err := ic.dao.GetAssetState(as.ID)
if err != nil {
return errors.New("can't renew non-existent asset")
}
if asset.Expiration < ic.bc.BlockHeight()+1 {
asset.Expiration = ic.bc.BlockHeight() + 1
}
expiration := uint64(asset.Expiration) + uint64(years)*BlocksPerYear
if expiration > math.MaxUint32 {
expiration = math.MaxUint32
}
asset.Expiration = uint32(expiration)
err = ic.dao.PutAssetState(asset)
if err != nil {
return gherr.Wrap(err, "failed to store asset")
}
v.Estack().PushVal(expiration)
return nil
}
// runtimeSerialize serializes top stack item into a ByteArray.
func (ic *interopContext) runtimeSerialize(v *vm.VM) error {
return vm.RuntimeSerialize(v)
}
// runtimeDeserialize deserializes ByteArray from a stack into an item.
func (ic *interopContext) runtimeDeserialize(v *vm.VM) error {
return vm.RuntimeDeserialize(v)
}
// enumeratorConcat concatenates 2 enumerators into a single one.
func (ic *interopContext) enumeratorConcat(v *vm.VM) error {
return vm.EnumeratorConcat(v)
}
// enumeratorCreate creates an enumerator from an array-like stack item.
func (ic *interopContext) enumeratorCreate(v *vm.VM) error {
return vm.EnumeratorCreate(v)
}
// enumeratorNext advances the enumerator, pushes true if is it was successful
// and false otherwise.
func (ic *interopContext) enumeratorNext(v *vm.VM) error {
return vm.EnumeratorNext(v)
}
// enumeratorValue returns the current value of the enumerator.
func (ic *interopContext) enumeratorValue(v *vm.VM) error {
return vm.EnumeratorValue(v)
}
// iteratorConcat concatenates 2 iterators into a single one.
func (ic *interopContext) iteratorConcat(v *vm.VM) error {
return vm.IteratorConcat(v)
}
// iteratorCreate creates an iterator from array-like or map stack item.
func (ic *interopContext) iteratorCreate(v *vm.VM) error {
return vm.IteratorCreate(v)
}
// iteratorKey returns current iterator key.
func (ic *interopContext) iteratorKey(v *vm.VM) error {
return vm.IteratorKey(v)
}
// iteratorKeys returns keys of the iterator.
func (ic *interopContext) iteratorKeys(v *vm.VM) error {
return vm.IteratorKeys(v)
}
// iteratorValues returns values of the iterator.
func (ic *interopContext) iteratorValues(v *vm.VM) error {
return vm.IteratorValues(v)
}