frostfs-contract/neofs_contract.go

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package smart_contract
/*
NeoFS Smart Contract for NEO3.0.
Utility operations, executed once in deploy stage:
- Init(pubKey, ... ) - setup initial inner ring nodes
- InitConfig(key, value, key, value...) - setup initial NeoFS configuration
User operations:
- Deposit(script-hash, amount, script-hash(?)) - deposit gas assets to this script-hash address to NeoFS balance
- Withdraw(script-hash, amount) - initialize gas asset withdraw from NeoFS balance
- Bind(script-hash, pubKeys...) - bind public key with user's account to use it in NeoFS requests
- Unbind(script-hash, pubKeys...) - unbind public key from user's account
Inner ring list operations:
- InnerRingList() - returns array of inner ring node keys
- InnerRingCandidates() - returns array of inner ring candidate node keys
- IsInnerRing(pubKey) - returns 'true' if key is inside of inner ring list
- InnerRingCandidateAdd(pubKey) - adds key to the list of inner ring candidates
- InnerRingCandidateRemove(pubKey) - removes key from the list of inner ring candidates
- InnerRingUpdate(id, pubKeys...) - updates list of inner ring nodes with provided list of public keys
Config operations:
- Config(key) - returns value of NeoFS configuration with key 'key'
- ListConfig() - returns array of all key-value pairs of NeoFS configuration
- SetConfig(id, key, value) - set key-value pair as a NeoFS runtime configuration value
Other utility operations:
- Version - returns contract version
- Cheque(id, script- hash, amount, script-hash) - sends gas assets back to the user if they were successfully
locked in NeoFS balance contract
Parameters:
- (?) - parameter can be omitted
- pubKey - 33 bytes of public key
- id - unique byte sequence
*/
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import (
"github.com/nspcc-dev/neo-go/pkg/interop/binary"
"github.com/nspcc-dev/neo-go/pkg/interop/blockchain"
"github.com/nspcc-dev/neo-go/pkg/interop/contract"
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"github.com/nspcc-dev/neo-go/pkg/interop/crypto"
"github.com/nspcc-dev/neo-go/pkg/interop/engine"
"github.com/nspcc-dev/neo-go/pkg/interop/iterator"
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"github.com/nspcc-dev/neo-go/pkg/interop/runtime"
"github.com/nspcc-dev/neo-go/pkg/interop/storage"
"github.com/nspcc-dev/neo-go/pkg/interop/util"
)
type (
ballot struct {
id []byte // id of the voting decision
n [][]byte // already voted inner ring nodes
block int // block with the last vote
}
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node struct {
pub []byte
}
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cheque struct {
id []byte
}
record struct {
key []byte
val []byte
}
)
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const (
// native gas token script hash
tokenHash = "\x3b\x7d\x37\x11\xc6\xf0\xcc\xf9\xb1\xdc\xa9\x03\xd1\xbf\xa1\xd8\x96\xf1\x23\x8c"
defaultCandidateFee = 100 * 1_0000_0000 // 100 Fixed8 Gas
candidateFeeConfigKey = "InnerRingCandidateFee"
version = 3
innerRingKey = "innerring"
voteKey = "ballots"
candidatesKey = "candidates"
cashedChequesKey = "cheques"
blockDiff = 20 // change base on performance evaluation
publicKeySize = 33
minInnerRingSize = 3
)
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var (
configPrefix = []byte("config")
ctx storage.Context
)
func init() {
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// The trigger determines whether this smart-contract is being
// run in 'verification' or 'application' mode.
if runtime.GetTrigger() != runtime.Application {
panic("contract has not been called in application node")
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}
ctx = storage.GetContext()
}
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func Init(args []interface{}) bool {
if storage.Get(ctx, innerRingKey) != nil {
panic("neofs: contract already deployed")
}
var irList []node
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for i := 0; i < len(args); i++ {
pub := args[i].([]byte)
irList = append(irList, node{pub: pub})
}
// initialize all storage slices
setSerialized(ctx, innerRingKey, irList)
setSerialized(ctx, voteKey, []ballot{})
setSerialized(ctx, candidatesKey, []node{})
setSerialized(ctx, cashedChequesKey, []cheque{})
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runtime.Log("neofs: contract initialized")
return true
}
func InnerRingList() []node {
return getInnerRingNodes(ctx, innerRingKey)
}
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func InnerRingCandidates() []node {
return getInnerRingNodes(ctx, candidatesKey)
}
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func InnerRingCandidateRemove(key []byte) bool {
if !runtime.CheckWitness(key) {
panic("irCandidateRemove: you should be the owner of the public key")
}
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nodes := []node{} // it is explicit declaration of empty slice, not nil
candidates := getInnerRingNodes(ctx, candidatesKey)
for i := range candidates {
c := candidates[i]
if !bytesEqual(c.pub, key) {
nodes = append(nodes, c)
} else {
runtime.Log("irCandidateRemove: candidate has been removed")
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}
}
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setSerialized(ctx, candidatesKey, nodes)
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return true
}
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func InnerRingCandidateAdd(key []byte) bool {
if !runtime.CheckWitness(key) {
panic("irCandidateAdd: you should be the owner of the public key")
}
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c := node{pub: key}
candidates := getInnerRingNodes(ctx, candidatesKey)
list, ok := addNode(candidates, c)
if !ok {
panic("irCandidateAdd: candidate already in the list")
}
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from := contract.CreateStandardAccount(key)
to := runtime.GetExecutingScriptHash()
fee := getConfig(ctx, candidateFeeConfigKey).(int)
params := []interface{}{from, to, fee}
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transferred := engine.AppCall([]byte(tokenHash), "transfer", params).(bool)
if !transferred {
panic("irCandidateAdd: failed to transfer funds, aborting")
}
runtime.Log("irCandidateAdd: candidate has been added")
setSerialized(ctx, candidatesKey, list)
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return true
}
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func Deposit(from []byte, args []interface{}) bool {
if len(args) < 1 || len(args) > 2 {
panic("deposit: bad arguments")
}
if !runtime.CheckWitness(from) {
panic("deposit: you should be the owner of the wallet")
}
amount := args[0].(int)
if amount > 0 {
amount = amount * 100000000
}
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to := runtime.GetExecutingScriptHash()
params := []interface{}{from, to, amount}
transferred := engine.AppCall([]byte(tokenHash), "transfer", params).(bool)
if !transferred {
panic("deposit: failed to transfer funds, aborting")
}
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runtime.Log("deposit: funds have been transferred")
var rcv = from
if len(args) == 2 {
rcv = args[1].([]byte) // todo: check if rcv value is valid
}
tx := runtime.GetScriptContainer()
runtime.Notify("Deposit", from, amount, rcv, tx.Hash)
return true
}
func Withdraw(user []byte, amount int) bool {
if !runtime.CheckWitness(user) {
panic("withdraw: you should be the owner of the wallet")
}
if amount > 0 {
amount = amount * 100000000
}
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tx := runtime.GetScriptContainer()
runtime.Notify("Withdraw", user, amount, tx.Hash)
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return true
}
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func Cheque(id, user []byte, amount int, lockAcc []byte) bool {
irList := getInnerRingNodes(ctx, innerRingKey)
threshold := len(irList)/3*2 + 1
cashedCheques := getCashedCheques(ctx)
hashID := crypto.SHA256(id)
irKey := innerRingInvoker(irList)
if len(irKey) == 0 {
panic("cheque: invoked by non inner ring node")
}
c := cheque{id: id}
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list, ok := addCheque(cashedCheques, c)
if !ok {
panic("cheque: non unique id")
}
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n := vote(ctx, hashID, irKey)
if n >= threshold {
removeVotes(ctx, hashID)
from := runtime.GetExecutingScriptHash()
params := []interface{}{from, user, amount}
transferred := engine.AppCall([]byte(tokenHash), "transfer", params).(bool)
if !transferred {
panic("cheque: failed to transfer funds, aborting")
}
runtime.Log("cheque: funds have been transferred")
setSerialized(ctx, cashedChequesKey, list)
runtime.Notify("Cheque", id, user, amount, lockAcc)
}
return true
}
func Bind(user []byte, keys []interface{}) bool {
if !runtime.CheckWitness(user) {
panic("binding: you should be the owner of the wallet")
}
for i := 0; i < len(keys); i++ {
pubKey := keys[i].([]byte)
if len(pubKey) != publicKeySize {
panic("binding: incorrect public key size")
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}
}
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runtime.Notify("Bind", user, keys)
return true
}
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func Unbind(user []byte, keys []interface{}) bool {
if !runtime.CheckWitness(user) {
panic("unbinding: you should be the owner of the wallet")
}
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for i := 0; i < len(keys); i++ {
pubKey := keys[i].([]byte)
if len(pubKey) != publicKeySize {
panic("unbinding: incorrect public key size")
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}
}
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runtime.Notify("Unbind", user, keys)
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return true
}
func InnerRingUpdate(chequeID []byte, args [][]byte) bool {
if len(args) < minInnerRingSize {
panic("irUpdate: bad arguments")
}
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irList := getInnerRingNodes(ctx, innerRingKey)
threshold := len(irList)/3*2 + 1
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irKey := innerRingInvoker(irList)
if len(irKey) == 0 {
panic("innerRingUpdate: invoked by non inner ring node")
}
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c := cheque{id: chequeID}
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cashedCheques := getCashedCheques(ctx)
chequesList, ok := addCheque(cashedCheques, c)
if !ok {
panic("irUpdate: non unique chequeID")
}
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oldNodes := 0
candidates := getInnerRingNodes(ctx, candidatesKey)
newIR := []node{}
loop:
for i := 1; i < len(args); i++ {
key := args[i]
if len(key) != publicKeySize {
panic("irUpdate: invalid public key in inner ring list")
}
// find key in actual inner ring list
for j := 0; j < len(irList); j++ {
n := irList[j]
if bytesEqual(n.pub, key) {
newIR = append(newIR, n)
oldNodes++
continue loop
}
}
// find key in candidates list
candidates, newIR, ok = rmNodeByKey(candidates, newIR, key)
if !ok {
panic("irUpdate: unknown public key in inner ring list")
}
}
if oldNodes < len(newIR)*2/3+1 {
panic("irUpdate: inner ring change rate must not be more than 1/3 ")
}
hashID := crypto.SHA256(chequeID)
n := vote(ctx, hashID, irKey)
if n >= threshold {
removeVotes(ctx, hashID)
setSerialized(ctx, candidatesKey, candidates)
setSerialized(ctx, innerRingKey, newIR)
setSerialized(ctx, cashedChequesKey, chequesList)
runtime.Notify("InnerRingUpdate", c.id, newIR)
runtime.Log("irUpdate: inner ring list has been updated")
}
return true
}
func IsInnerRing(key []byte) bool {
if len(key) != publicKeySize {
panic("isInnerRing: incorrect public key")
}
irList := getInnerRingNodes(ctx, innerRingKey)
for i := range irList {
node := irList[i]
if bytesEqual(node.pub, key) {
return true
}
}
return false
}
func Config(key []byte) interface{} {
return getConfig(ctx, key)
}
func SetConfig(id, key, val []byte) bool {
// check if it is inner ring invocation
irList := getInnerRingNodes(ctx, innerRingKey)
threshold := len(irList)/3*2 + 1
irKey := innerRingInvoker(irList)
if len(irKey) == 0 {
panic("setConfig: invoked by non inner ring node")
}
// check unique id of the operation
c := cheque{id: id}
cashedCheques := getCashedCheques(ctx)
chequesList, ok := addCheque(cashedCheques, c)
if !ok {
panic("setConfig: non unique id")
}
// vote for new configuration value
hashID := crypto.SHA256(id)
n := vote(ctx, hashID, irKey)
if n >= threshold {
removeVotes(ctx, hashID)
setConfig(ctx, key, val)
setSerialized(ctx, cashedChequesKey, chequesList)
runtime.Notify("SetConfig", id, key, val)
runtime.Log("setConfig: configuration has been updated")
}
return true
}
func ListConfig() []record {
var config []record
it := storage.Find(ctx, configPrefix)
for iterator.Next(it) {
key := iterator.Key(it).([]byte)
val := iterator.Value(it).([]byte)
r := record{key: key[len(configPrefix):], val: val}
config = append(config, r)
}
return config
}
func InitConfig(args []interface{}) bool {
if getConfig(ctx, candidateFeeConfigKey) != nil {
panic("neofs: configuration already installed")
}
ln := len(args)
if ln%2 != 0 {
panic("initConfig: bad arguments")
}
setConfig(ctx, candidateFeeConfigKey, defaultCandidateFee)
for i := 0; i < ln/2; i++ {
key := args[i*2]
val := args[i*2+1]
setConfig(ctx, key, val)
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}
runtime.Log("neofs: config has been installed")
return true
}
func Version() int {
return version
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}
// innerRingInvoker returns public key of inner ring node that invoked contract.
func innerRingInvoker(ir []node) []byte {
for i := 0; i < len(ir); i++ {
node := ir[i]
if runtime.CheckWitness(node.pub) {
return node.pub
}
}
return nil
}
// vote adds ballot for the decision with specific 'id' and returns amount
// on unique voters for that decision.
func vote(ctx storage.Context, id, from []byte) int {
var (
newCandidates = []ballot{} // it is explicit declaration of empty slice, not nil
candidates = getBallots(ctx)
found = -1
blockHeight = blockchain.GetHeight()
)
for i := 0; i < len(candidates); i++ {
cnd := candidates[i]
if bytesEqual(cnd.id, id) {
voters := cnd.n
for j := range voters {
if bytesEqual(voters[j], from) {
return len(voters)
}
}
voters = append(voters, from)
cnd = ballot{id: id, n: voters, block: blockHeight}
found = len(voters)
}
// do not add old ballots, they are invalid
if blockHeight-cnd.block <= blockDiff {
newCandidates = append(newCandidates, cnd)
}
}
if found < 0 {
found = 1
voters := [][]byte{from}
newCandidates = append(newCandidates, ballot{
id: id,
n: voters,
block: blockHeight})
}
setSerialized(ctx, voteKey, newCandidates)
return found
}
// removeVotes clears ballots of the decision that has been accepted by
// inner ring nodes.
func removeVotes(ctx storage.Context, id []byte) {
var (
newCandidates = []ballot{} // it is explicit declaration of empty slice, not nil
candidates = getBallots(ctx)
)
for i := 0; i < len(candidates); i++ {
cnd := candidates[i]
if !bytesEqual(cnd.id, id) {
newCandidates = append(newCandidates, cnd)
}
}
setSerialized(ctx, voteKey, newCandidates)
}
// setSerialized serializes data and puts it into contract storage.
func setSerialized(ctx storage.Context, key interface{}, value interface{}) {
data := binary.Serialize(value)
storage.Put(ctx, key, data)
}
// getInnerRingNodes returns deserialized slice of inner ring nodes from storage.
func getInnerRingNodes(ctx storage.Context, key string) []node {
data := storage.Get(ctx, key)
if data != nil {
return binary.Deserialize(data.([]byte)).([]node)
}
return []node{}
}
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// getInnerRingNodes returns deserialized slice of used cheques.
func getCashedCheques(ctx storage.Context) []cheque {
data := storage.Get(ctx, cashedChequesKey)
if data != nil {
return binary.Deserialize(data.([]byte)).([]cheque)
}
return []cheque{}
}
// getInnerRingNodes returns deserialized slice of vote ballots.
func getBallots(ctx storage.Context) []ballot {
data := storage.Get(ctx, voteKey)
if data != nil {
return binary.Deserialize(data.([]byte)).([]ballot)
}
return []ballot{}
}
// getConfig returns installed neofs configuration value or nil if it is not set.
func getConfig(ctx storage.Context, key interface{}) interface{} {
postfix := key.([]byte)
storageKey := append(configPrefix, postfix...)
return storage.Get(ctx, storageKey)
}
// setConfig sets neofs configuration value in the contract storage.
func setConfig(ctx storage.Context, key, val interface{}) {
postfix := key.([]byte)
storageKey := append(configPrefix, postfix...)
storage.Put(ctx, storageKey, val)
}
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// addCheque returns slice of cheques with appended cheque 'c' and bool flag
// that set to false if cheque 'c' is already presented in the slice 'lst'.
func addCheque(lst []cheque, c cheque) ([]cheque, bool) {
for i := 0; i < len(lst); i++ {
if bytesEqual(c.id, lst[i].id) {
return nil, false
}
}
lst = append(lst, c)
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return lst, true
}
// addNode returns slice of nodes with appended node 'n' and bool flag
// that set to false if node 'n' is already presented in the slice 'lst'.
func addNode(lst []node, n node) ([]node, bool) {
for i := 0; i < len(lst); i++ {
if bytesEqual(n.pub, lst[i].pub) {
return nil, false
}
}
lst = append(lst, n)
return lst, true
}
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// rmNodeByKey returns slice of nodes without node with key 'k',
// slices of nodes 'add' with node with key 'k' and bool flag,
// that set to false if node with a key 'k' does not exists in the slice 'lst'.
func rmNodeByKey(lst, add []node, k []byte) ([]node, []node, bool) {
var (
flag bool
newLst = []node{} // it is explicit declaration of empty slice, not nil
)
for i := 0; i < len(lst); i++ {
if bytesEqual(k, lst[i].pub) {
add = append(add, lst[i])
flag = true
} else {
newLst = append(newLst, lst[i])
}
}
return newLst, add, flag
}
// bytesEqual compares two slice of bytes by wrapping them into strings,
// which is necessary with new util.Equal interop behaviour, see neo-go#1176.
func bytesEqual(a []byte, b []byte) bool {
return util.Equals(string(a), string(b))
}