forked from TrueCloudLab/frostfs-contract
209740f060
With NEO3.0 there is a null pointers in VM, so we can use it to check if value was stored in cotnract storage or not.
534 lines
13 KiB
Go
534 lines
13 KiB
Go
package smart_contract
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import (
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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/blockchain"
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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/engine"
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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/neo-go/pkg/interop/util"
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)
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type (
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ballot struct {
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id []byte // id of the voting decision
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n [][]byte // already voted inner ring nodes
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block int // block with the last vote
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}
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node struct {
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pub []byte
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}
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cheque struct {
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id []byte
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}
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)
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const (
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tokenHash = "\x3b\x7d\x37\x11\xc6\xf0\xcc\xf9\xb1\xdc\xa9\x03\xd1\xbf\xa1\xd8\x96\xf1\x23\x8c"
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innerRingCandidateFee = 100 * 1000 * 1000 // 10^8
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version = 2
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voteKey = "ballots"
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blockDiff = 20 // change base on performance evaluation
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)
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func Main(op string, args []interface{}) interface{} {
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// The trigger determines whether this smart-contract is being
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// run in 'verification' or 'application' mode.
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if runtime.GetTrigger() != runtime.Application() {
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return false
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}
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/*
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Utility operations - they will be changed in production:
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- Deploy(params: address, pubKey, ... ) - setup initial inner ring state
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User operations:
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- InnerRingList() - get list of inner ring nodes addresses and public keys
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- InnerRingCandidateRemove(params: pubKey) - remove node with given public key from the inner ring candidate queue
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- InnerRingCandidateAdd(params: pubKey) - add node to the inner ring candidate queue
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- Deposit(params: pubKey, amount) - deposit GAS to the NeoFS account
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- Withdraw(params: withdrawCheque) - withdraw GAS from the NeoFS account
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- InnerRingUpdate(params: irCheque) - change list of inner ring nodes
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- IsInnerRing(params: pubKey) - returns true if pubKey presented in inner ring list
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- Version() - get version of the NeoFS smart-contract
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Params:
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- address - string of the valid multiaddress (github.com/multiformats/multiaddr)
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- pubKey - 33 byte public key
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- withdrawCheque - serialized structure, that confirms GAS transfer;
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contains inner ring signatures
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- irCheque - serialized structure, that confirms new inner ring node list;
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contains inner ring signatures
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*/
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ctx := storage.GetContext()
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switch op {
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case "Deploy":
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irList := getSerialized(ctx, "InnerRingList").([]node)
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if len(irList) >= 3 {
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panic("contract already deployed")
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}
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irList = []node{}
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for i := 0; i < len(args); i++ {
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pub := args[i].([]byte)
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irList = append(irList, node{pub: pub})
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}
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data := binary.Serialize(irList)
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storage.Put(ctx, "InnerRingList", data)
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data = binary.Serialize([]interface{}{})
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storage.Put(ctx, "UsedVerifCheckList", data)
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storage.Put(ctx, "InnerRingCandidates", data)
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data = binary.Serialize([]ballot{})
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storage.Put(ctx, voteKey, data)
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return true
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case "InnerRingList":
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irList := getSerialized(ctx, "InnerRingList").([]node)
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return irList
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case "InnerRingCandidateRemove":
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data := args[0].([]byte) // public key
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if !runtime.CheckWitness(data) {
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panic("you should be the owner of the public key")
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}
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delSerializedIR(ctx, "InnerRingCandidates", data)
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return true
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case "InnerRingCandidateAdd":
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key := args[0].([]byte) // public key
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if !runtime.CheckWitness(key) {
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panic("you should be the owner of the public key")
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}
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candidates := getSerialized(ctx, "InnerRingCandidates").([]node)
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if containsPub(candidates, key) {
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panic("is already in list")
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}
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from := pubToScriptHash(key)
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to := runtime.GetExecutingScriptHash()
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params := []interface{}{from, to, innerRingCandidateFee}
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transferred := engine.AppCall([]byte(tokenHash), "transfer", params).(bool)
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if !transferred {
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panic("failed to transfer funds, aborting")
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}
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candidate := node{pub: key}
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if !putSerialized(ctx, "InnerRingCandidates", candidate) {
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panic("failed to put candidate into the queue")
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}
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return true
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case "Deposit":
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if len(args) < 2 || len(args) > 3 {
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panic("deposit: bad arguments")
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}
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from := args[0].([]byte)
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if !runtime.CheckWitness(from) {
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panic("deposit: you should be the owner of the wallet")
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}
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amount := args[1].(int)
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if amount > 0 {
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amount = amount * 100000000
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}
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to := runtime.GetExecutingScriptHash()
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params := []interface{}{from, to, amount}
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transferred := engine.AppCall([]byte(tokenHash), "transfer", params).(bool)
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if !transferred {
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panic("deposit: failed to transfer funds, aborting")
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}
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runtime.Log("deposit: funds have been transferred")
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var rcv = from
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if len(args) == 3 {
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rcv = args[2].([]byte) // todo: check if rcv value is valid
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}
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tx := runtime.GetScriptContainer()
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runtime.Notify("Deposit", from, amount, rcv, tx.Hash)
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return true
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case "Withdraw":
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if len(args) != 2 {
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panic("withdraw: bad arguments")
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}
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user := args[0].([]byte)
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if !runtime.CheckWitness(user) {
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panic("withdraw: you should be the owner of the wallet")
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}
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amount := args[1].(int)
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if amount > 0 {
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amount = amount * 100000000
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}
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tx := runtime.GetScriptContainer()
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runtime.Notify("Withdraw", user, amount, tx.Hash)
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return true
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case "Cheque":
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if len(args) != 4 {
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panic("cheque: bad arguments")
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}
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id := args[0].([]byte) // unique cheque id
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user := args[1].([]byte) // GAS receiver
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amount := args[2].(int) // amount of GAS
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lockAcc := args[3].([]byte) // lock account from internal banking that must be cashed out
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ctx := storage.GetContext()
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hashID := crypto.SHA256(id)
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irList := getSerialized(ctx, "InnerRingList").([]node)
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usedList := getSerialized(ctx, "UsedVerifCheckList").([]cheque)
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threshold := len(irList)/3*2 + 1
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irKey := innerRingInvoker(irList)
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if len(irKey) == 0 {
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panic("cheque: invoked by non inner ring node")
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}
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c := cheque{id: id} // todo: use different cheque id for inner ring update and withdraw
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if containsCheck(usedList, c) {
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panic("cheque: non unique id")
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}
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n := vote(ctx, hashID, irKey)
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if n >= threshold {
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removeVotes(ctx, hashID)
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from := runtime.GetExecutingScriptHash()
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params := []interface{}{from, user, amount}
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transferred := engine.AppCall([]byte(tokenHash), "transfer", params).(bool)
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if !transferred {
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panic("cheque: failed to transfer funds, aborting")
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}
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putSerialized(ctx, "UsedVerifCheckList", c)
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runtime.Notify("Cheque", id, user, amount, lockAcc)
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}
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return true
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case "InnerRingUpdate":
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data := args[0].([]byte)
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id := data[:8]
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var ln interface{} = data[8:10]
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listItemCount := ln.(int)
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listSize := listItemCount * 33
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offset := 8 + 2 + listSize
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irList := getSerialized(ctx, "InnerRingList").([]node)
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usedList := getSerialized(ctx, "UsedVerifCheckList").([]cheque)
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threshold := len(irList)/3*2 + 1
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irKey := innerRingInvoker(irList)
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if len(irKey) == 0 {
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panic("innerRingUpdate: invoked by non inner ring node")
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}
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c := cheque{id: id}
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if containsCheck(usedList, c) {
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panic("innerRingUpdate: cheque has non unique id")
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}
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chequeHash := crypto.SHA256(data)
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n := vote(ctx, chequeHash, irKey)
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if n >= threshold {
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removeVotes(ctx, chequeHash)
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candidates := getSerialized(ctx, "InnerRingCandidates").([]node)
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offset = 10
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newIR := []node{}
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loop:
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for i := 0; i < listItemCount; i, offset = i+1, offset+33 {
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pub := data[offset : offset+33]
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for j := 0; j < len(irList); j++ {
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n := irList[j]
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if util.Equals(n.pub, pub) {
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newIR = append(newIR, n)
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continue loop
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}
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}
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for j := 0; j < len(candidates); j++ {
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n := candidates[j]
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if util.Equals(n.pub, pub) {
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newIR = append(newIR, n)
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continue loop
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}
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}
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}
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if len(newIR) != listItemCount {
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panic("new inner ring wasn't processed correctly")
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}
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for i := 0; i < len(newIR); i++ {
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n := newIR[i]
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delSerializedIR(ctx, "InnerRingCandidates", n.pub)
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}
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newIRData := binary.Serialize(newIR)
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storage.Put(ctx, "InnerRingList", newIRData)
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putSerialized(ctx, "UsedVerifCheckList", c)
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runtime.Notify("InnerRingUpdate", c.id, newIRData)
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}
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return true
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case "IsInnerRing":
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if len(args) != 1 {
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panic("isInnerRing: wrong arguments")
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}
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key := args[0].([]byte)
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if len(key) != 33 {
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panic("isInnerRing: incorrect public key")
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}
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irList := getSerialized(ctx, "InnerRingList").([]node)
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for i := range irList {
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node := irList[i]
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if util.Equals(node.pub, key) {
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return true
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}
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}
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return false
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case "Version":
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return version
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}
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panic("unknown operation")
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}
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// fixme: use strict type deserialization wrappers
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func getSerialized(ctx storage.Context, key string) interface{} {
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data := storage.Get(ctx, key).([]byte)
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if len(data) != 0 {
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return binary.Deserialize(data)
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}
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return nil
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}
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func delSerialized(ctx storage.Context, key string, value []byte) bool {
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data := storage.Get(ctx, key).([]byte)
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deleted := false
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var newList [][]byte
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if len(data) != 0 {
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lst := binary.Deserialize(data).([][]byte)
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for i := 0; i < len(lst); i++ {
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if util.Equals(value, lst[i]) {
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deleted = true
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} else {
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newList = append(newList, lst[i])
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}
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}
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if deleted {
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if len(newList) != 0 {
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data := binary.Serialize(newList)
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storage.Put(ctx, key, data)
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} else {
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storage.Delete(ctx, key)
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}
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runtime.Log("target element has been removed")
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return true
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}
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}
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runtime.Log("target element has not been removed")
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return false
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}
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func putSerialized(ctx storage.Context, key string, value interface{}) bool {
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data := storage.Get(ctx, key).([]byte)
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var lst []interface{}
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if len(data) != 0 {
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lst = binary.Deserialize(data).([]interface{})
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}
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lst = append(lst, value)
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data = binary.Serialize(lst)
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storage.Put(ctx, key, data)
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return true
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}
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func pubToScriptHash(pkey []byte) []byte {
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// pre := []byte{0x21}
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// buf := append(pre, pkey...)
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// buf = append(buf, 0xac)
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// h := crypto.Hash160(buf)
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//
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// return h
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// fixme: someday ripemd syscall will appear
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// or simply store script-hashes along with public key
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return []byte{0x0F, 0xED}
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}
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func containsCheck(lst []cheque, c cheque) bool {
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for i := 0; i < len(lst); i++ {
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if util.Equals(c, lst[i]) {
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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 containsPub(lst []node, elem []byte) bool {
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for i := 0; i < len(lst); i++ {
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e := lst[i]
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if util.Equals(elem, e.pub) {
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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 delSerializedIR(ctx storage.Context, key string, value []byte) bool {
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data := storage.Get(ctx, key).([]byte)
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deleted := false
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newList := []node{}
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if len(data) != 0 {
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lst := binary.Deserialize(data).([]node)
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for i := 0; i < len(lst); i++ {
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n := lst[i]
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if util.Equals(value, n.pub) {
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deleted = true
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} else {
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newList = append(newList, n)
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}
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}
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if deleted {
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data := binary.Serialize(newList)
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storage.Put(ctx, key, data)
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runtime.Log("target element has been removed")
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return true
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}
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}
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runtime.Log("target element has not been removed")
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return false
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}
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// innerRingInvoker returns public key of inner ring node that invoked contract.
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func innerRingInvoker(ir []node) []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.pub) {
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return node.pub
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}
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}
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return nil
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}
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func vote(ctx storage.Context, id, from []byte) int {
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var (
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newCandidates []ballot
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candidates = getBallots(ctx)
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found = -1
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blockHeight = blockchain.GetHeight()
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)
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for i := 0; i < len(candidates); i++ {
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cnd := candidates[i]
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if bytesEqual(cnd.id, id) {
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voters := cnd.n
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for j := range voters {
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if bytesEqual(voters[j], from) {
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return len(voters)
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}
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}
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voters = append(voters, from)
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cnd = ballot{id: id, n: voters, block: blockHeight}
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found = len(voters)
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}
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// do not add old ballots, they are invalid
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if blockHeight-cnd.block <= blockDiff {
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newCandidates = append(newCandidates, cnd)
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}
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}
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if found < 0 {
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found = 1
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voters := [][]byte{from}
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newCandidates = append(newCandidates, ballot{
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id: id,
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n: voters,
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block: blockHeight})
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}
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setSerialized(ctx, voteKey, newCandidates)
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return found
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}
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func removeVotes(ctx storage.Context, id []byte) {
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var (
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newCandidates []ballot
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candidates = getBallots(ctx)
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)
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for i := 0; i < len(candidates); i++ {
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cnd := candidates[i]
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if !bytesEqual(cnd.id, id) {
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newCandidates = append(newCandidates, cnd)
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}
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}
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setSerialized(ctx, voteKey, newCandidates)
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}
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// setSerialized serializes data and puts it into contract storage.
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func setSerialized(ctx storage.Context, key interface{}, value interface{}) {
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data := binary.Serialize(value)
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storage.Put(ctx, key, data)
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}
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// getInnerRingNodes returns deserialized slice of vote ballots.
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func getBallots(ctx storage.Context) []ballot {
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data := storage.Get(ctx, voteKey)
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if data != nil {
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return binary.Deserialize(data.([]byte)).([]ballot)
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}
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return []ballot{}
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}
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// bytesEqual compares two slice of bytes by wrapping them into strings,
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// which is necessary with new util.Equal interop behaviour, see neo-go#1176.
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func bytesEqual(a []byte, b []byte) bool {
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return util.Equals(string(a), string(b))
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}
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