c3efe152d6
Replace vote/remoteVotes functions from all contracts (except alphabet) to common package. Additionally replace setSerialized and bytesEqual. Create InitVote function and use it in NeoFS and Netmap contracts. Signed-off-by: Leonard Lyubich <leonard@nspcc.ru>
438 lines
11 KiB
Go
438 lines
11 KiB
Go
package balancecontract
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import (
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"github.com/nspcc-dev/neo-go/pkg/interop"
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"github.com/nspcc-dev/neo-go/pkg/interop/binary"
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"github.com/nspcc-dev/neo-go/pkg/interop/contract"
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"github.com/nspcc-dev/neo-go/pkg/interop/crypto"
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"github.com/nspcc-dev/neo-go/pkg/interop/iterator"
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"github.com/nspcc-dev/neo-go/pkg/interop/runtime"
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"github.com/nspcc-dev/neo-go/pkg/interop/storage"
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"github.com/nspcc-dev/neofs-contract/common"
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)
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type (
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irNode struct {
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key []byte
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}
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// Token holds all token info.
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Token struct {
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// Ticker symbol
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Symbol string
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// Amount of decimals
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Decimals int
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// Storage key for circulation value
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CirculationKey string
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}
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Account struct {
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// Active balance
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Balance int
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// Until valid for lock accounts
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Until int
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// Parent field used in lock accounts, used to return assets back if
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// account wasn't burnt.
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Parent []byte
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}
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)
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const (
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symbol = "NEOFS"
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decimals = 12
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circulation = "MainnetGAS"
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version = 1
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netmapContractKey = "netmapScriptHash"
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containerContractKey = "containerScriptHash"
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)
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var (
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lockTransferMsg = []byte("lock assets to withdraw")
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unlockTransferMsg = []byte("asset lock expired")
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ctx storage.Context
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token Token
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)
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// CreateToken initializes the Token Interface for the Smart Contract to operate with.
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func CreateToken() Token {
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return Token{
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Symbol: symbol,
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Decimals: decimals,
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CirculationKey: circulation,
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}
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}
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func init() {
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if runtime.GetTrigger() != runtime.Application {
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panic("contract has not been called in application node")
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}
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ctx = storage.GetContext()
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token = CreateToken()
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}
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func Init(addrNetmap, addrContainer []byte) {
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if storage.Get(ctx, netmapContractKey) != nil {
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panic("init: contract already deployed")
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}
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if len(addrNetmap) != 20 || len(addrContainer) != 20 {
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panic("init: incorrect length of contract script hash")
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}
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storage.Put(ctx, netmapContractKey, addrNetmap)
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storage.Put(ctx, containerContractKey, addrContainer)
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runtime.Log("balance contract initialized")
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}
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func Symbol() string {
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return token.Symbol
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}
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func Decimals() int {
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return token.Decimals
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}
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func TotalSupply() int {
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return token.getSupply(ctx)
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}
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func BalanceOf(account interop.Hash160) int {
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return token.balanceOf(ctx, account)
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}
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func Transfer(from, to interop.Hash160, amount int, data interface{}) bool {
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return token.transfer(ctx, from, to, amount, false, nil)
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}
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func TransferX(from, to interop.Hash160, amount int, details []byte) bool {
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var (
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n int // number of votes for inner ring invoke
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hashTxID []byte // ballot key of the inner ring invocation
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)
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netmapContractAddr := storage.Get(ctx, netmapContractKey).([]byte)
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innerRing := contract.Call(netmapContractAddr, "innerRingList").([]irNode)
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threshold := len(innerRing)/3*2 + 1
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irKey := innerRingInvoker(innerRing)
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if len(irKey) == 0 {
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panic("transferX: this method must be invoked from inner ring")
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}
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fromKnownContract := fromKnownContract(runtime.GetCallingScriptHash())
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if fromKnownContract {
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n = threshold
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runtime.Log("transferX: processed indirect invoke")
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} else {
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hashTxID = invokeID([]interface{}{from, to, amount}, []byte("transfer"))
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n = common.Vote(ctx, hashTxID, irKey)
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}
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if n >= threshold {
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common.RemoveVotes(ctx, hashTxID)
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result := token.transfer(ctx, from, to, amount, true, details)
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if result {
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runtime.Log("transferX: success")
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} else {
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// consider panic there
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runtime.Log("transferX: fail")
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}
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return result
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}
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return false
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}
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func Lock(txID []byte, from, to interop.Hash160, amount, until int) bool {
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netmapContractAddr := storage.Get(ctx, netmapContractKey).([]byte)
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innerRing := contract.Call(netmapContractAddr, "innerRingList").([]irNode)
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threshold := len(innerRing)/3*2 + 1
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irKey := innerRingInvoker(innerRing)
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if len(irKey) == 0 {
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panic("lock: this method must be invoked from inner ring")
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}
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hashTxID := invokeID([]interface{}{txID, from, to, amount, until}, []byte("lock"))
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n := common.Vote(ctx, hashTxID, irKey)
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if n >= threshold {
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common.RemoveVotes(ctx, hashTxID)
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lockAccount := Account{
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Balance: 0,
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Until: until,
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Parent: from,
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}
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common.SetSerialized(ctx, to, lockAccount)
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result := token.transfer(ctx, from, to, amount, true, lockTransferMsg)
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if !result {
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// consider using `return false` to remove votes
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panic("lock: can't lock funds")
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}
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runtime.Log("lock: created lock account")
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runtime.Notify("Lock", txID, from, to, amount, until)
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}
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runtime.Log("lock: processed invoke from inner ring")
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return true
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}
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func NewEpoch(epochNum int) bool {
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netmapContractAddr := storage.Get(ctx, netmapContractKey).([]byte)
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innerRing := contract.Call(netmapContractAddr, "innerRingList").([]irNode)
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threshold := len(innerRing)/3*2 + 1
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irKey := innerRingInvoker(innerRing)
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if len(irKey) == 0 {
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panic("epochNum: this method must be invoked from inner ring")
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}
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epochID := invokeID([]interface{}{epochNum}, []byte("epoch"))
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n := common.Vote(ctx, epochID, irKey)
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if n >= threshold {
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common.RemoveVotes(ctx, epochID)
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it := storage.Find(ctx, []byte{})
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for iterator.Next(it) {
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addr := iterator.Key(it).([]byte)
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if len(addr) != 20 {
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continue
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}
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acc := getAccount(ctx, addr)
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if acc.Until == 0 {
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continue
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}
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if epochNum >= acc.Until {
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// return assets back to the parent
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token.transfer(ctx, addr, acc.Parent, acc.Balance, true, unlockTransferMsg)
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}
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}
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}
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runtime.Log("newEpoch: processed invoke from inner ring")
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return true
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}
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func Mint(to interop.Hash160, amount int, details []byte) bool {
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netmapContractAddr := storage.Get(ctx, netmapContractKey).([]byte)
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innerRing := contract.Call(netmapContractAddr, "innerRingList").([]irNode)
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threshold := len(innerRing)/3*2 + 1
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irKey := innerRingInvoker(innerRing)
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if len(irKey) == 0 {
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panic("burn: this method must be invoked from inner ring")
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}
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mintID := invokeID([]interface{}{to, amount, details}, []byte("mint"))
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n := common.Vote(ctx, mintID, irKey)
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if n >= threshold {
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common.RemoveVotes(ctx, mintID)
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ok := token.transfer(ctx, nil, to, amount, true, details)
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if !ok {
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panic("mint: can't transfer assets")
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}
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supply := token.getSupply(ctx)
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supply = supply + amount
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storage.Put(ctx, token.CirculationKey, supply)
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runtime.Log("mint: assets were minted")
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runtime.Notify("Mint", to, amount)
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}
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return true
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}
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func Burn(from interop.Hash160, amount int, details []byte) bool {
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netmapContractAddr := storage.Get(ctx, netmapContractKey).([]byte)
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innerRing := contract.Call(netmapContractAddr, "innerRingList").([]irNode)
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threshold := len(innerRing)/3*2 + 1
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irKey := innerRingInvoker(innerRing)
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if len(irKey) == 0 {
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panic("burn: this method must be invoked from inner ring")
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}
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burnID := invokeID([]interface{}{from, amount, details}, []byte("burn"))
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n := common.Vote(ctx, burnID, irKey)
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if n >= threshold {
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common.RemoveVotes(ctx, burnID)
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ok := token.transfer(ctx, from, nil, amount, true, details)
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if !ok {
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panic("burn: can't transfer assets")
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}
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supply := token.getSupply(ctx)
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if supply < amount {
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panic("panic, negative supply after burn")
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}
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supply = supply - amount
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storage.Put(ctx, token.CirculationKey, supply)
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runtime.Log("burn: assets were burned")
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runtime.Notify("Burn", from, amount)
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}
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return true
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}
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func Version() int {
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return version
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}
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// getSupply gets the token totalSupply value from VM storage.
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func (t Token) getSupply(ctx storage.Context) int {
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supply := storage.Get(ctx, t.CirculationKey)
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if supply != nil {
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return supply.(int)
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}
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return 0
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}
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// BalanceOf gets the token balance of a specific address.
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func (t Token) balanceOf(ctx storage.Context, holder interop.Hash160) int {
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acc := getAccount(ctx, holder)
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return acc.Balance
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}
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func (t Token) transfer(ctx storage.Context, from, to interop.Hash160, amount int, innerRing bool, details []byte) bool {
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amountFrom, ok := t.canTransfer(ctx, from, to, amount, innerRing)
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if !ok {
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return false
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}
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if len(from) == 20 {
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if amountFrom.Balance == amount {
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storage.Delete(ctx, from)
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} else {
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amountFrom.Balance = amountFrom.Balance - amount // neo-go#953
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common.SetSerialized(ctx, from, amountFrom)
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}
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}
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if len(to) == 20 {
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amountTo := getAccount(ctx, to)
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amountTo.Balance = amountTo.Balance + amount // neo-go#953
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common.SetSerialized(ctx, to, amountTo)
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}
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runtime.Notify("Transfer", from, to, amount)
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runtime.Notify("TransferX", from, to, amount, details)
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return true
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}
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// canTransfer returns the amount it can transfer.
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func (t Token) canTransfer(ctx storage.Context, from, to interop.Hash160, amount int, innerRing bool) (Account, bool) {
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var (
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emptyAcc = Account{}
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)
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if !innerRing {
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if len(to) != 20 || !isUsableAddress(from) {
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runtime.Log("transfer: bad script hashes")
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return emptyAcc, false
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}
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} else if len(from) == 0 {
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return emptyAcc, true
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}
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amountFrom := getAccount(ctx, from)
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if amountFrom.Balance < amount {
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runtime.Log("transfer: not enough assets")
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return emptyAcc, false
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}
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// return amountFrom value back to transfer, reduces extra Get
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return amountFrom, true
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}
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// isUsableAddress checks if the sender is either the correct NEO address or SC address.
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func isUsableAddress(addr interop.Hash160) bool {
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if len(addr) == 20 {
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if runtime.CheckWitness(addr) {
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return true
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}
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// Check if a smart contract is calling script hash
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callingScriptHash := runtime.GetCallingScriptHash()
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if common.BytesEqual(callingScriptHash, addr) {
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return true
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}
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}
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return false
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}
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func innerRingInvoker(ir []irNode) []byte {
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for i := 0; i < len(ir); i++ {
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node := ir[i]
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if runtime.CheckWitness(node.key) {
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return node.key
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}
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}
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return nil
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}
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func getAccount(ctx storage.Context, key interface{}) Account {
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data := storage.Get(ctx, key)
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if data != nil {
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return binary.Deserialize(data.([]byte)).(Account)
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}
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return Account{}
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}
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func invokeID(args []interface{}, prefix []byte) []byte {
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for i := range args {
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arg := args[i].([]byte)
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prefix = append(prefix, arg...)
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}
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return crypto.SHA256(prefix)
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}
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/*
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Check if invocation made from known container or audit contracts.
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This is necessary because calls from these contracts require to do transfer
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without signature collection (1 invoke transfer).
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IR1, IR2, IR3, IR4 -(4 invokes)-> [ Container Contract ] -(1 invoke)-> [ Balance Contract ]
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We can do 1 invoke transfer if:
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- invoke happened from inner ring node,
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- it is indirect invocation from other smart-contract.
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However there is a possible attack, when malicious inner ring node creates
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malicious smart-contract in morph chain to do inderect call.
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MaliciousIR -(1 invoke)-> [ Malicious Contract ] -(1 invoke) -> [ Balance Contract ]
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To prevent that, we have to allow 1 invoke transfer from authorised well known
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smart-contracts, that will be set up at `Init` method.
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*/
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func fromKnownContract(caller interop.Hash160) bool {
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containerContractAddr := storage.Get(ctx, containerContractKey).([]byte)
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return common.BytesEqual(caller, containerContractAddr)
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}
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