neo-go/pkg/core/state/nep5.go

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package state
import (
"errors"
"math/big"
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"github.com/nspcc-dev/neo-go/pkg/io"
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"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"
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)
// NEP5Tracker contains info about a single account in a NEP5 contract.
type NEP5Tracker struct {
// Balance is the current balance of the account.
Balance int64
// LastUpdatedBlock is a number of block when last `transfer` to or from the
// account occured.
LastUpdatedBlock uint32
}
// TransferLog is a log of NEP5 token transfers for the specific command.
type TransferLog struct {
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Raw []byte
}
// NEP5TransferSize is a size of a marshaled NEP5Transfer struct in bytes.
const NEP5TransferSize = util.Uint160Size*3 + 8 + 4 + 4 + util.Uint256Size + 4
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// NEP5Transfer represents a single NEP5 Transfer event.
type NEP5Transfer struct {
// Asset is a NEP5 contract hash.
Asset util.Uint160
// Address is the address of the sender.
From util.Uint160
// To is the address of the receiver.
To util.Uint160
// Amount is the amount of tokens transferred.
// It is negative when tokens are sent and positive if they are received.
Amount int64
// Block is a number of block when the event occured.
Block uint32
// Timestamp is the timestamp of the block where transfer occured.
Timestamp uint32
// Tx is a hash the transaction.
Tx util.Uint256
// Index is the index of this transfer in the corresponding tx.
Index uint32
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}
// NEP5Balances is a map of the NEP5 contract hashes
// to the corresponding structures.
type NEP5Balances struct {
Trackers map[util.Uint160]NEP5Tracker
// NextTransferBatch stores an index of the next transfer batch.
NextTransferBatch uint32
}
// NEP5Metadata is a metadata for NEP5 contracts.
type NEP5Metadata struct {
Decimals int64
}
// NewNEP5Balances returns new NEP5Balances.
func NewNEP5Balances() *NEP5Balances {
return &NEP5Balances{
Trackers: make(map[util.Uint160]NEP5Tracker),
}
}
// DecodeBinary implements io.Serializable interface.
func (bs *NEP5Balances) DecodeBinary(r *io.BinReader) {
bs.NextTransferBatch = r.ReadU32LE()
lenBalances := r.ReadVarUint()
m := make(map[util.Uint160]NEP5Tracker, lenBalances)
for i := 0; i < int(lenBalances); i++ {
var key util.Uint160
var tr NEP5Tracker
r.ReadBytes(key[:])
tr.DecodeBinary(r)
m[key] = tr
}
bs.Trackers = m
}
// EncodeBinary implements io.Serializable interface.
func (bs *NEP5Balances) EncodeBinary(w *io.BinWriter) {
w.WriteU32LE(bs.NextTransferBatch)
w.WriteVarUint(uint64(len(bs.Trackers)))
for k, v := range bs.Trackers {
w.WriteBytes(k[:])
v.EncodeBinary(w)
}
}
// DecodeBinary implements io.Serializable interface.
func (bs *NEP5Metadata) DecodeBinary(r *io.BinReader) {
bs.Decimals = int64(r.ReadU64LE())
}
// EncodeBinary implements io.Serializable interface.
func (bs *NEP5Metadata) EncodeBinary(w *io.BinWriter) {
w.WriteU64LE(uint64(bs.Decimals))
}
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// Append appends single transfer to a log.
func (lg *TransferLog) Append(tr io.Serializable) error {
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w := io.NewBufBinWriter()
tr.EncodeBinary(w.BinWriter)
if w.Err != nil {
return w.Err
}
lg.Raw = append(lg.Raw, w.Bytes()...)
return nil
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}
// ForEach iterates over transfer log returning on first error.
func (lg *TransferLog) ForEach(size int, tr io.Serializable, f func() (bool, error)) (bool, error) {
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if lg == nil {
return true, nil
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}
for i := len(lg.Raw); i > 0; i -= size {
r := io.NewBinReaderFromBuf(lg.Raw[i-size : i])
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tr.DecodeBinary(r)
if r.Err != nil {
return false, r.Err
}
cont, err := f()
if err != nil {
return false, err
}
if !cont {
return false, nil
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}
}
return true, nil
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}
// Size returns an amount of transfer written in log provided size of a single transfer.
func (lg *TransferLog) Size() int {
return len(lg.Raw)
}
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// EncodeBinary implements io.Serializable interface.
func (t *NEP5Tracker) EncodeBinary(w *io.BinWriter) {
w.WriteU64LE(uint64(t.Balance))
w.WriteU32LE(t.LastUpdatedBlock)
}
// DecodeBinary implements io.Serializable interface.
func (t *NEP5Tracker) DecodeBinary(r *io.BinReader) {
t.Balance = int64(r.ReadU64LE())
t.LastUpdatedBlock = r.ReadU32LE()
}
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func parseUint160(addr []byte) util.Uint160 {
if u, err := util.Uint160DecodeBytesBE(addr); err == nil {
return u
}
return util.Uint160{}
}
// NEP5TransferFromNotification creates NEP5Transfer structure from the given
// notification (and using given context) if it's possible to parse it as
// NEP5 transfer.
func NEP5TransferFromNotification(ne NotificationEvent, txHash util.Uint256, height uint32, time uint32, index uint32) (*NEP5Transfer, error) {
arr, ok := ne.Item.Value().([]vm.StackItem)
if !ok || len(arr) != 4 {
return nil, errors.New("no array or wrong element count")
}
op, ok := arr[0].Value().([]byte)
if !ok || string(op) != "transfer" {
return nil, errors.New("not a 'transfer' event")
}
from, ok := arr[1].Value().([]byte)
if !ok {
return nil, errors.New("wrong 'from' type")
}
to, ok := arr[2].Value().([]byte)
if !ok {
return nil, errors.New("wrong 'to' type")
}
amount, ok := arr[3].Value().(*big.Int)
if !ok {
bs, ok := arr[3].Value().([]byte)
if !ok {
return nil, errors.New("wrong amount type")
}
amount = emit.BytesToInt(bs)
}
toAddr := parseUint160(to)
fromAddr := parseUint160(from)
transfer := &NEP5Transfer{
Asset: ne.ScriptHash,
From: fromAddr,
To: toAddr,
Amount: amount.Int64(),
Block: height,
Timestamp: time,
Tx: txHash,
Index: index,
}
return transfer, nil
}
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// EncodeBinary implements io.Serializable interface.
// Note: change NEP5TransferSize constant when changing this function.
func (t *NEP5Transfer) EncodeBinary(w *io.BinWriter) {
w.WriteBytes(t.Asset[:])
w.WriteBytes(t.Tx[:])
w.WriteBytes(t.From[:])
w.WriteBytes(t.To[:])
w.WriteU32LE(t.Block)
w.WriteU32LE(t.Timestamp)
w.WriteU64LE(uint64(t.Amount))
w.WriteU32LE(t.Index)
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}
// DecodeBinary implements io.Serializable interface.
func (t *NEP5Transfer) DecodeBinary(r *io.BinReader) {
r.ReadBytes(t.Asset[:])
r.ReadBytes(t.Tx[:])
r.ReadBytes(t.From[:])
r.ReadBytes(t.To[:])
t.Block = r.ReadU32LE()
t.Timestamp = r.ReadU32LE()
t.Amount = int64(r.ReadU64LE())
t.Index = r.ReadU32LE()
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}