frostfs-contract/netmap/netmap_contract.go

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package netmapcontract
import (
"github.com/nspcc-dev/neo-go/pkg/interop"
"github.com/nspcc-dev/neo-go/pkg/interop/binary"
"github.com/nspcc-dev/neo-go/pkg/interop/crypto"
"github.com/nspcc-dev/neo-go/pkg/interop/iterator"
"github.com/nspcc-dev/neo-go/pkg/interop/native/management"
"github.com/nspcc-dev/neo-go/pkg/interop/runtime"
"github.com/nspcc-dev/neo-go/pkg/interop/storage"
"github.com/nspcc-dev/neofs-contract/common"
)
type (
storageNode struct {
info []byte
}
netmapNode struct {
node storageNode
state nodeState
}
nodeState int
record struct {
key []byte
val []byte
}
)
const (
version = 1
netmapKey = "netmap"
innerRingKey = "innerring"
configuredKey = "initconfig"
snapshot0Key = "snapshotCurrent"
snapshot1Key = "snapshotPrevious"
snapshotEpoch = "snapshotEpoch"
)
const (
_ nodeState = iota
onlineState
offlineState
)
var (
configPrefix = []byte("config")
ctx storage.Context
)
func init() {
ctx = storage.GetContext()
}
// Init function sets up initial list of inner ring public keys and should
// be invoked once at neofs infrastructure setup.
func Init(owner interop.Hash160, keys [][]byte) {
if !common.HasUpdateAccess(ctx) {
panic("only owner can reinitialize contract")
}
var irList []common.IRNode
for i := 0; i < len(keys); i++ {
key := keys[i]
irList = append(irList, common.IRNode{PublicKey: key})
}
storage.Put(ctx, common.OwnerKey, owner)
common.SetSerialized(ctx, innerRingKey, irList)
// epoch number is a little endian int, it doesn't need to be serialized
storage.Put(ctx, snapshotEpoch, 0)
// simplified: this used for const sysfee in AddPeer method
common.SetSerialized(ctx, netmapKey, []netmapNode{})
common.SetSerialized(ctx, snapshot0Key, []netmapNode{})
common.SetSerialized(ctx, snapshot1Key, []netmapNode{})
runtime.Log("netmap contract initialized")
}
func Migrate(script []byte, manifest []byte) bool {
if !common.HasUpdateAccess(ctx) {
runtime.Log("only owner can update contract")
return false
}
management.Update(script, manifest)
runtime.Log("netmap contract updated")
return true
}
func InnerRingList() []common.IRNode {
return getIRNodes(ctx)
}
func Multiaddress() []byte {
return multiaddress(getIRNodes(ctx))
}
func UpdateInnerRing(keys [][]byte) bool {
multiaddr := Multiaddress()
if !runtime.CheckWitness(multiaddr) {
panic("updateInnerRing: this method must be invoked by inner ring nodes")
}
var irList []common.IRNode
for i := 0; i < len(keys); i++ {
key := keys[i]
irList = append(irList, common.IRNode{PublicKey: key})
}
runtime.Log("updateInnerRing: inner ring list updated")
common.SetSerialized(ctx, innerRingKey, irList)
return true
}
func AddPeer(nodeInfo []byte) bool {
multiaddr := Multiaddress()
if !runtime.CheckWitness(multiaddr) {
publicKey := nodeInfo[2:35] // offset:2, len:33
if !runtime.CheckWitness(publicKey) {
panic("addPeer: witness check failed")
}
runtime.Notify("AddPeer", nodeInfo)
return true
}
candidate := storageNode{
info: nodeInfo,
}
nm := addToNetmap(ctx, candidate)
if nm == nil {
runtime.Log("addPeer: storage node already in the netmap")
} else {
common.SetSerialized(ctx, netmapKey, nm)
runtime.Log("addPeer: add storage node to the network map")
}
return true
}
func UpdateState(state int, publicKey []byte) bool {
if len(publicKey) != 33 {
panic("updateState: incorrect public key")
}
multiaddr := Multiaddress()
if !runtime.CheckWitness(multiaddr) {
if !runtime.CheckWitness(publicKey) {
panic("updateState: witness check failed")
}
runtime.Notify("UpdateState", state, publicKey)
return true
}
switch nodeState(state) {
case offlineState:
newNetmap := removeFromNetmap(ctx, publicKey)
runtime.Log("updateState: remove storage node from the network map")
common.SetSerialized(ctx, netmapKey, newNetmap)
default:
panic("updateState: unsupported state")
}
return true
}
func NewEpoch(epochNum int) bool {
multiaddr := Multiaddress()
if !runtime.CheckWitness(multiaddr) {
panic("newEpoch: this method must be invoked by inner ring nodes")
}
currentEpoch := storage.Get(ctx, snapshotEpoch).(int)
if epochNum <= currentEpoch {
return false // ignore invocations with invalid epoch
}
data0snapshot := getSnapshot(ctx, snapshot0Key)
dataOnlineState := filterNetmap(ctx, onlineState)
runtime.Log("newEpoch: process new epoch")
// todo: check if provided epoch number is bigger than current
storage.Put(ctx, snapshotEpoch, epochNum)
// put actual snapshot into previous snapshot
common.SetSerialized(ctx, snapshot1Key, data0snapshot)
// put netmap into actual snapshot
common.SetSerialized(ctx, snapshot0Key, dataOnlineState)
runtime.Notify("NewEpoch", epochNum)
return true
}
func Epoch() int {
return storage.Get(ctx, snapshotEpoch).(int)
}
func Netmap() []storageNode {
return getSnapshot(ctx, snapshot0Key)
}
func Snapshot(diff int) []storageNode {
var key string
switch diff {
case 0:
key = snapshot0Key
case 1:
key = snapshot1Key
default:
panic("snapshot: incorrect diff")
}
return getSnapshot(ctx, key)
}
func SnapshotByEpoch(epoch int) []storageNode {
currentEpoch := storage.Get(ctx, snapshotEpoch).(int)
return Snapshot(currentEpoch - epoch)
}
func Config(key []byte) interface{} {
return getConfig(ctx, key)
}
func SetConfig(id, key, val []byte) bool {
multiaddr := Multiaddress()
if !runtime.CheckWitness(multiaddr) {
panic("setConfig: invoked by non inner ring node")
}
setConfig(ctx, key, val)
runtime.Log("setConfig: configuration has been updated")
return true
}
func InitConfig(args [][]byte) bool {
if storage.Get(ctx, configuredKey) != nil {
panic("netmap: configuration already installed")
}
ln := len(args)
if ln%2 != 0 {
panic("initConfig: bad arguments")
}
for i := 0; i < ln/2; i++ {
key := args[i*2]
val := args[i*2+1]
setConfig(ctx, key, val)
}
storage.Put(ctx, configuredKey, true)
runtime.Log("netmap: config has been installed")
return true
}
func ListConfig() []record {
var config []record
it := storage.Find(ctx, configPrefix, storage.None)
for iterator.Next(it) {
pair := iterator.Value(it).([]interface{})
key := pair[0].([]byte)
val := pair[1].([]byte)
r := record{key: key[len(configPrefix):], val: val}
config = append(config, r)
}
return config
}
func Version() int {
return version
}
func addToNetmap(ctx storage.Context, n storageNode) []netmapNode {
var (
newNode = n.info
newNodeKey = newNode[2:35]
netmap = getNetmapNodes(ctx)
node = netmapNode{
node: n,
state: onlineState,
}
)
for i := range netmap {
netmapNode := netmap[i].node.info
netmapNodeKey := netmapNode[2:35]
if common.BytesEqual(newNodeKey, netmapNodeKey) {
return nil
}
}
netmap = append(netmap, node)
return netmap
}
func removeFromNetmap(ctx storage.Context, key []byte) []netmapNode {
var (
netmap = getNetmapNodes(ctx)
newNetmap = []netmapNode{}
)
for i := 0; i < len(netmap); i++ {
item := netmap[i]
node := item.node.info
publicKey := node[2:35] // offset:2, len:33
if !common.BytesEqual(publicKey, key) {
newNetmap = append(newNetmap, item)
}
}
return newNetmap
}
func filterNetmap(ctx storage.Context, st nodeState) []storageNode {
var (
netmap = getNetmapNodes(ctx)
result = []storageNode{}
)
for i := 0; i < len(netmap); i++ {
item := netmap[i]
if item.state == st {
result = append(result, item.node)
}
}
return result
}
func getIRNodes(ctx storage.Context) []common.IRNode {
data := storage.Get(ctx, innerRingKey)
if data != nil {
return binary.Deserialize(data.([]byte)).([]common.IRNode)
}
return []common.IRNode{}
}
func getNetmapNodes(ctx storage.Context) []netmapNode {
data := storage.Get(ctx, netmapKey)
if data != nil {
return binary.Deserialize(data.([]byte)).([]netmapNode)
}
return []netmapNode{}
}
func getSnapshot(ctx storage.Context, key string) []storageNode {
data := storage.Get(ctx, key)
if data != nil {
return binary.Deserialize(data.([]byte)).([]storageNode)
}
return []storageNode{}
}
func getConfig(ctx storage.Context, key interface{}) interface{} {
postfix := key.([]byte)
storageKey := append(configPrefix, postfix...)
return storage.Get(ctx, storageKey)
}
func setConfig(ctx storage.Context, key, val interface{}) {
postfix := key.([]byte)
storageKey := append(configPrefix, postfix...)
storage.Put(ctx, storageKey, val)
}
func multiaddress(n []common.IRNode) []byte {
threshold := len(n)/3*2 + 1
var result = []byte{0x10 + uint8(threshold)} // m value = 5
sortedNodes := insertSort(n)
for _, node := range sortedNodes {
key := node.PublicKey
result = append(result, []byte{0x0C, 0x21}...) // 33 byte array
result = append(result, key...) // public key
}
ln := 0x10 + uint8(len(sortedNodes))
result = append(result, ln) // n value = 7
result = append(result, 0x0B) // PUSHNULL
result = append(result, []byte{0x41, 0x13, 0x8D, 0xEF, 0xAF}...) // NeoCryptoCheckMultisigWithECDsaSecp256r1
shaHash := crypto.SHA256(result)
return crypto.RIPEMD160(shaHash)
}
func insertSort(nodes []common.IRNode) []common.IRNode {
for i := 1; i < len(nodes); i++ {
v := nodes[i]
j := i - 1
for j >= 0 && more(nodes[j], v) {
nodes[j+1] = nodes[j]
j--
}
nodes[j+1] = v
}
return nodes
}
func more(a, b common.IRNode) bool {
keyA := a.PublicKey
keyB := b.PublicKey
for i := 1; i < len(keyA); i++ { // start from 1 because we sort based on Xcoord of public key
if keyA[i] == keyB[i] {
continue
}
return keyA[i] > keyB[i]
}
return false
}