mirror of
https://github.com/nspcc-dev/neo-go.git
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a1e3655560
neo-storm has developed more wrappers for syscall APIs, so they can and should be used as a drop-in replacement for pkg/vm/api. Moving it out of vm, as it's not exactly related to the VM itself.
250 lines
6.7 KiB
Go
250 lines
6.7 KiB
Go
package tokensale
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import (
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"github.com/CityOfZion/neo-go/pkg/interop/runtime"
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"github.com/CityOfZion/neo-go/pkg/interop/storage"
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"github.com/CityOfZion/neo-go/pkg/interop/util"
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)
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const (
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decimals = 8
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multiplier = decimals * 10
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)
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var owner = util.FromAddress("AJX1jGfj3qPBbpAKjY527nPbnrnvSx9nCg")
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// TokenConfig holds information about the token we want to use for the sale.
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type TokenConfig struct {
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// Name of the token.
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Name string
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// 3 letter abbreviation of the token.
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Symbol string
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// How decimals this token will have.
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Decimals int
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// Address of the token owner. This is the Uint160 hash.
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Owner []byte
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// The total amount of tokens created. Notice that we need to multiply the
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// amount by 100000000. (10^8)
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TotalSupply int
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// Initial amount is number of tokens that are available for the token sale.
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InitialAmount int
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// How many NEO will be worth 1 token. For example:
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// Lets say 1 euro per token, where 1 NEO is 60 euro. This means buyers
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// will get (60 * 10^8) tokens for 1 NEO.
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AmountPerNEO int
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// How many Gas will be worth 1 token. This is the same calculation as
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// for the AmountPerNEO, except Gas price will have a different value.
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AmountPerGas int
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// The maximum amount you can mint in the limited round. For example:
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// 500 NEO/buyer * 60 tokens/NEO * 10^8
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MaxExchangeLimitRound int
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// When to start the token sale.
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SaleStart int
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// When to end the initial limited round if there is one. For example:
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// SaleStart + 10000
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LimitRoundEnd int
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// The prefix used to store how many tokens there are in circulation.
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CirculationKey []byte
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// The prefix used to store how many tokens there are in the limited round.
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LimitRoundKey []byte
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// The prefix used to store the addresses that are registered with KYC.
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KYCKey []byte
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}
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// NewTokenConfig returns the initialized TokenConfig.
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func NewTokenConfig() TokenConfig {
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return TokenConfig{
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Name: "My awesome token",
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Symbol: "MAT",
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Decimals: decimals,
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Owner: owner,
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TotalSupply: 10000000 * multiplier,
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InitialAmount: 5000000 * multiplier,
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AmountPerNEO: 60 * multiplier,
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AmountPerGas: 40 * multiplier,
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MaxExchangeLimitRound: 500 * 60 * multiplier,
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SaleStart: 75500,
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LimitRoundEnd: 75500 + 10000,
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CirculationKey: []byte("in_circulation"),
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LimitRoundKey: []byte("r1"),
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KYCKey: []byte("kyc_ok"),
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}
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}
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// InCirculation return the amount of total tokens that are in circulation.
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func (t TokenConfig) InCirculation(ctx storage.Context) int {
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amount := storage.Get(ctx, t.CirculationKey)
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return amount.(int)
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}
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// AddToCirculation sets the given amount as "in circulation" in the storage.
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func (t TokenConfig) AddToCirculation(ctx storage.Context, amount int) bool {
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supply := storage.Get(ctx, t.CirculationKey).(int)
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supply += amount
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storage.Put(ctx, t.CirculationKey, supply)
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return true
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}
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// TokenSaleAvailableAmount returns the total amount of available tokens left
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// to be distributed.
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func (t TokenConfig) TokenSaleAvailableAmount(ctx storage.Context) int {
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inCirc := storage.Get(ctx, t.CirculationKey)
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return t.TotalSupply - inCirc.(int)
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}
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// Main smart contract entry point.
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func Main(operation string, args []interface{}) interface{} {
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var (
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trigger = runtime.GetTrigger()
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cfg = NewTokenConfig()
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ctx = storage.GetContext()
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)
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// This is used to verify if a transfer of system assets (NEO and Gas)
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// involving this contract's address can proceed.
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if trigger == runtime.Verification() {
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// Check if the invoker is the owner of the contract.
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if runtime.CheckWitness(cfg.Owner) {
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return true
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}
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// Otherwise TODO
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return false
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}
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if trigger == runtime.Application() {
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return handleOperation(operation, args, ctx, cfg)
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}
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return true
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}
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func handleOperation(op string, args []interface{}, ctx storage.Context, cfg TokenConfig) interface{} {
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// NEP-5 handlers
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if op == "name" {
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return cfg.Name
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}
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if op == "decimals" {
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return cfg.Decimals
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}
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if op == "symbol" {
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return cfg.Symbol
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}
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if op == "totalSupply" {
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return storage.Get(ctx, cfg.CirculationKey)
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}
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if op == "balanceOf" {
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if len(args) == 1 {
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return storage.Get(ctx, args[0].([]byte))
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}
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}
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if op == "transfer" {
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if len(args) != 3 {
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return false
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}
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from := args[0].([]byte)
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to := args[1].([]byte)
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amount := args[2].(int)
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return transfer(cfg, ctx, from, to, amount)
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}
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if op == "transferFrom" {
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if len(args) != 3 {
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return false
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}
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from := args[0].([]byte)
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to := args[1].([]byte)
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amount := args[2].(int)
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return transferFrom(cfg, ctx, from, to, amount)
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}
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if op == "approve" {
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if len(args) != 3 {
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return false
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}
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from := args[0].([]byte)
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to := args[1].([]byte)
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amount := args[2].(int)
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return approve(ctx, from, to, amount)
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}
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if op == "allowance" {
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if len(args) != 2 {
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return false
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}
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from := args[0].([]byte)
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to := args[1].([]byte)
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return allowance(ctx, from, to)
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}
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return false
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}
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func transfer(cfg TokenConfig, ctx storage.Context, from, to []byte, amount int) bool {
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if amount <= 0 || len(to) != 20 || !runtime.CheckWitness(from) {
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return false
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}
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amountFrom := storage.Get(ctx, from).(int)
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if amountFrom < amount {
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return false
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}
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if amountFrom == amount {
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storage.Delete(ctx, from)
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} else {
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diff := amountFrom - amount
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storage.Put(ctx, from, diff)
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}
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amountTo := storage.Get(ctx, to).(int)
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totalAmountTo := amountTo + amount
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storage.Put(ctx, to, totalAmountTo)
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return true
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}
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func transferFrom(cfg TokenConfig, ctx storage.Context, from, to []byte, amount int) bool {
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if amount <= 0 {
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return false
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}
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availableKey := append(from, to...)
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if len(availableKey) != 40 {
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return false
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}
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availableTo := storage.Get(ctx, availableKey).(int)
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if availableTo < amount {
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return false
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}
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fromBalance := storage.Get(ctx, from).(int)
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if fromBalance < amount {
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return false
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}
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toBalance := storage.Get(ctx, to).(int)
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newFromBalance := fromBalance - amount
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newToBalance := toBalance + amount
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storage.Put(ctx, to, newToBalance)
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storage.Put(ctx, from, newFromBalance)
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newAllowance := availableTo - amount
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if newAllowance == 0 {
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storage.Delete(ctx, availableKey)
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} else {
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storage.Put(ctx, availableKey, newAllowance)
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}
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return true
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}
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func approve(ctx storage.Context, owner, spender []byte, amount int) bool {
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if !runtime.CheckWitness(owner) || amount < 0 {
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return false
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}
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if len(spender) != 20 {
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return false
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}
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toSpend := storage.Get(ctx, owner).(int)
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if toSpend < amount {
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return false
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}
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approvalKey := append(owner, spender...)
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if amount == 0 {
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storage.Delete(ctx, approvalKey)
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} else {
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storage.Put(ctx, approvalKey, amount)
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}
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return true
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}
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func allowance(ctx storage.Context, from, to []byte) int {
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key := append(from, to...)
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return storage.Get(ctx, key).(int)
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}
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