package neofs import ( "github.com/nspcc-dev/neo-go/pkg/interop" "github.com/nspcc-dev/neo-go/pkg/interop/contract" "github.com/nspcc-dev/neo-go/pkg/interop/iterator" "github.com/nspcc-dev/neo-go/pkg/interop/native/crypto" "github.com/nspcc-dev/neo-go/pkg/interop/native/gas" "github.com/nspcc-dev/neo-go/pkg/interop/native/ledger" "github.com/nspcc-dev/neo-go/pkg/interop/native/management" "github.com/nspcc-dev/neo-go/pkg/interop/native/roles" "github.com/nspcc-dev/neo-go/pkg/interop/native/std" "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 ( record struct { key []byte val []byte } ) const ( // CandidateFeeConfigKey contains fee for a candidate registration. CandidateFeeConfigKey = "InnerRingCandidateFee" withdrawFeeConfigKey = "WithdrawFee" alphabetKey = "alphabet" candidatesKey = "candidates" notaryDisabledKey = "notary" processingContractKey = "processingScriptHash" publicKeySize = 33 maxBalanceAmount = 9000 // Max integer of Fixed12 in JSON bound (2**53-1) maxBalanceAmountGAS = maxBalanceAmount * 1_0000_0000 // hardcoded value to ignore deposit notification in onReceive ignoreDepositNotification = "\x57\x0b" ) var ( configPrefix = []byte("config") ) // _deploy sets up initial alphabet node keys. func _deploy(data interface{}, isUpdate bool) { if isUpdate { ctx := storage.GetContext() nodes := getNodes(ctx, candidatesKey) storage.Delete(ctx, candidatesKey) for i := range nodes { key := append([]byte(candidatesKey), nodes[i].PublicKey...) storage.Put(ctx, key, []byte{1}) } return } args := data.([]interface{}) notaryDisabled := args[0].(bool) addrProc := args[1].(interop.Hash160) keys := args[2].([]interop.PublicKey) config := args[3].([][]byte) ctx := storage.GetContext() var irList []common.IRNode if len(keys) == 0 { panic("at least one alphabet key must be provided") } if len(addrProc) != 20 { panic("incorrect length of contract script hash") } for i := 0; i < len(keys); i++ { pub := keys[i] if len(pub) != publicKeySize { panic("incorrect public key length") } irList = append(irList, common.IRNode{PublicKey: pub}) } // initialize all storage slices common.SetSerialized(ctx, alphabetKey, irList) storage.Put(ctx, processingContractKey, addrProc) // initialize the way to collect signatures storage.Put(ctx, notaryDisabledKey, notaryDisabled) if notaryDisabled { common.InitVote(ctx) runtime.Log("neofs contract notary disabled") } ln := len(config) if ln%2 != 0 { panic("bad configuration") } for i := 0; i < ln/2; i++ { key := config[i*2] val := config[i*2+1] setConfig(ctx, key, val) } runtime.Log("neofs: contract initialized") } // Update method updates contract source code and manifest. Can be invoked // only by side chain committee. func Update(script []byte, manifest []byte, data interface{}) { blockHeight := ledger.CurrentIndex() alphabetKeys := roles.GetDesignatedByRole(roles.NeoFSAlphabet, uint32(blockHeight)) alphabetCommittee := common.Multiaddress(alphabetKeys, true) common.CheckAlphabetWitness(alphabetCommittee) contract.Call(interop.Hash160(management.Hash), "update", contract.All, script, manifest, common.AppendVersion(data)) runtime.Log("neofs contract updated") } // AlphabetList returns array of alphabet node keys. Use in side chain notary // disabled environment. func AlphabetList() []common.IRNode { ctx := storage.GetReadOnlyContext() return getNodes(ctx, alphabetKey) } // AlphabetAddress returns 2\3n+1 multi signature address of alphabet nodes. // Used in side chain notary disabled environment. func AlphabetAddress() interop.Hash160 { ctx := storage.GetReadOnlyContext() return multiaddress(getNodes(ctx, alphabetKey)) } // InnerRingCandidates returns array of structures that contain Inner Ring // candidate node key. func InnerRingCandidates() []common.IRNode { ctx := storage.GetReadOnlyContext() nodes := []common.IRNode{} it := storage.Find(ctx, candidatesKey, storage.KeysOnly|storage.RemovePrefix) for iterator.Next(it) { pub := iterator.Value(it).([]byte) nodes = append(nodes, common.IRNode{PublicKey: pub}) } return nodes } // InnerRingCandidateRemove removes key from the list of Inner Ring candidates. // Can be invoked by Alphabet nodes or candidate itself. // // Method does not return fee back to the candidate. func InnerRingCandidateRemove(key interop.PublicKey) { ctx := storage.GetContext() notaryDisabled := storage.Get(ctx, notaryDisabledKey).(bool) var ( // for invocation collection without notary alphabet []common.IRNode nodeKey []byte ) keyOwner := runtime.CheckWitness(key) if !keyOwner { if notaryDisabled { alphabet = getNodes(ctx, alphabetKey) nodeKey = common.InnerRingInvoker(alphabet) if len(nodeKey) == 0 { panic("this method must be invoked by candidate or alphabet") } } else { multiaddr := AlphabetAddress() if !runtime.CheckWitness(multiaddr) { panic("this method must be invoked by candidate or alphabet") } } } if notaryDisabled && !keyOwner { threshold := len(alphabet)*2/3 + 1 id := append(key, []byte("delete")...) hashID := crypto.Sha256(id) n := common.Vote(ctx, hashID, nodeKey) if n < threshold { return } common.RemoveVotes(ctx, hashID) } prefix := []byte(candidatesKey) stKey := append(prefix, key...) if storage.Get(ctx, stKey) != nil { storage.Delete(ctx, stKey) runtime.Log("candidate has been removed") } } // InnerRingCandidateAdd adds key to the list of Inner Ring candidates. // Can be invoked only by candidate itself. // // This method transfers fee from candidate to contract account. // Fee value specified in NeoFS network config with the key InnerRingCandidateFee. func InnerRingCandidateAdd(key interop.PublicKey) { ctx := storage.GetContext() common.CheckWitness(key) stKey := append([]byte(candidatesKey), key...) if storage.Get(ctx, stKey) != nil { panic("candidate already in the list") } from := contract.CreateStandardAccount(key) to := runtime.GetExecutingScriptHash() fee := getConfig(ctx, CandidateFeeConfigKey).(int) transferred := gas.Transfer(from, to, fee, []byte(ignoreDepositNotification)) if !transferred { panic("failed to transfer funds, aborting") } storage.Put(ctx, stKey, []byte{1}) runtime.Log("candidate has been added") } // OnNEP17Payment is a callback for NEP-17 compatible native GAS contract. // It takes no more than 9000.0 GAS. Native GAS has precision 8 and // NeoFS balance contract has precision 12. Values bigger than 9000.0 can // break JSON limits for integers when precision is converted. func OnNEP17Payment(from interop.Hash160, amount int, data interface{}) { rcv := data.(interop.Hash160) if common.BytesEqual(rcv, []byte(ignoreDepositNotification)) { return } if amount <= 0 { panic("amount must be positive") } else if maxBalanceAmountGAS < amount { panic("out of max amount limit") } caller := runtime.GetCallingScriptHash() if !common.BytesEqual(caller, interop.Hash160(gas.Hash)) { panic("only GAS can be accepted for deposit") } switch len(rcv) { case 20: case 0: rcv = from default: panic("invalid data argument, expected Hash160") } runtime.Log("funds have been transferred") tx := runtime.GetScriptContainer() runtime.Notify("Deposit", from, amount, rcv, tx.Hash) } // Withdraw initialize gas asset withdraw from NeoFS. Can be invoked only // by the specified user. // // This method produces Withdraw notification to lock assets in side chain and // transfers withdraw fee from user account to each Alphabet node. If notary // is enabled in main chain, fee is transferred to Processing contract. // Fee value specified in NeoFS network config with the key WithdrawFee. func Withdraw(user interop.Hash160, amount int) { if !runtime.CheckWitness(user) { panic("you should be the owner of the wallet") } if amount < 0 { panic("non positive amount number") } if amount > maxBalanceAmount { panic("out of max amount limit") } ctx := storage.GetContext() notaryDisabled := storage.Get(ctx, notaryDisabledKey).(bool) // transfer fee to proxy contract to pay cheque invocation fee := getConfig(ctx, withdrawFeeConfigKey).(int) if notaryDisabled { alphabet := getNodes(ctx, alphabetKey) for _, node := range alphabet { processingAddr := contract.CreateStandardAccount(node.PublicKey) transferred := gas.Transfer(user, processingAddr, fee, []byte{}) if !transferred { panic("failed to transfer withdraw fee, aborting") } } } else { processingAddr := storage.Get(ctx, processingContractKey).(interop.Hash160) transferred := gas.Transfer(user, processingAddr, fee, []byte{}) if !transferred { panic("failed to transfer withdraw fee, aborting") } } // notify alphabet nodes amount = amount * 100000000 tx := runtime.GetScriptContainer() runtime.Notify("Withdraw", user, amount, tx.Hash) } // Cheque transfers GAS back to the user from contract account, if assets were // successfully locked in NeoFS balance contract. Can be invoked only by // Alphabet nodes. // // This method produces Cheque notification to burn assets in side chain. func Cheque(id []byte, user interop.Hash160, amount int, lockAcc []byte) { ctx := storage.GetContext() notaryDisabled := storage.Get(ctx, notaryDisabledKey).(bool) var ( // for invocation collection without notary alphabet []common.IRNode nodeKey []byte ) if notaryDisabled { alphabet = getNodes(ctx, alphabetKey) nodeKey = common.InnerRingInvoker(alphabet) if len(nodeKey) == 0 { panic("this method must be invoked by alphabet") } } else { multiaddr := AlphabetAddress() common.CheckAlphabetWitness(multiaddr) } from := runtime.GetExecutingScriptHash() if notaryDisabled { threshold := len(alphabet)*2/3 + 1 n := common.Vote(ctx, id, nodeKey) if n < threshold { return } common.RemoveVotes(ctx, id) } transferred := gas.Transfer(from, user, amount, nil) if !transferred { panic("failed to transfer funds, aborting") } runtime.Log("funds have been transferred") runtime.Notify("Cheque", id, user, amount, lockAcc) } // Bind method produces notification to bind specified public keys in NeoFSID // contract in side chain. Can be invoked only by specified user. // // This method produces Bind notification. Method panics if keys are not // 33 byte long. User argument must be valid 20 byte script hash. func Bind(user []byte, keys []interop.PublicKey) { if !runtime.CheckWitness(user) { panic("you should be the owner of the wallet") } for i := 0; i < len(keys); i++ { pubKey := keys[i] if len(pubKey) != publicKeySize { panic("incorrect public key size") } } runtime.Notify("Bind", user, keys) } // Unbind method produces notification to unbind specified public keys in NeoFSID // contract in side chain. Can be invoked only by specified user. // // This method produces Unbind notification. Method panics if keys are not // 33 byte long. User argument must be valid 20 byte script hash. func Unbind(user []byte, keys []interop.PublicKey) { if !runtime.CheckWitness(user) { panic("you should be the owner of the wallet") } for i := 0; i < len(keys); i++ { pubKey := keys[i] if len(pubKey) != publicKeySize { panic("incorrect public key size") } } runtime.Notify("Unbind", user, keys) } // AlphabetUpdate updates list of alphabet nodes with provided list of // public keys. Can be invoked only by alphabet nodes. // // This method used in notary disabled side chain environment. In this case // actual alphabet list should be stored in the NeoFS contract. func AlphabetUpdate(id []byte, args []interop.PublicKey) { ctx := storage.GetContext() notaryDisabled := storage.Get(ctx, notaryDisabledKey).(bool) if len(args) == 0 { panic("bad arguments") } var ( // for invocation collection without notary alphabet []common.IRNode nodeKey []byte ) if notaryDisabled { alphabet = getNodes(ctx, alphabetKey) nodeKey = common.InnerRingInvoker(alphabet) if len(nodeKey) == 0 { panic("this method must be invoked by alphabet") } } else { multiaddr := AlphabetAddress() common.CheckAlphabetWitness(multiaddr) } newAlphabet := []common.IRNode{} for i := 0; i < len(args); i++ { pubKey := args[i] if len(pubKey) != publicKeySize { panic("invalid public key in alphabet list") } newAlphabet = append(newAlphabet, common.IRNode{ PublicKey: pubKey, }) } if notaryDisabled { threshold := len(alphabet)*2/3 + 1 n := common.Vote(ctx, id, nodeKey) if n < threshold { return } common.RemoveVotes(ctx, id) } common.SetSerialized(ctx, alphabetKey, newAlphabet) runtime.Notify("AlphabetUpdate", id, newAlphabet) runtime.Log("alphabet list has been updated") } // Config returns configuration value of NeoFS configuration. If key does // not exists, returns nil. func Config(key []byte) interface{} { ctx := storage.GetReadOnlyContext() return getConfig(ctx, key) } // SetConfig key-value pair as a NeoFS runtime configuration value. Can be invoked // only by Alphabet nodes. func SetConfig(id, key, val []byte) { ctx := storage.GetContext() notaryDisabled := storage.Get(ctx, notaryDisabledKey).(bool) var ( // for invocation collection without notary alphabet []common.IRNode nodeKey []byte ) if notaryDisabled { alphabet = getNodes(ctx, alphabetKey) nodeKey = common.InnerRingInvoker(alphabet) if len(key) == 0 { panic("this method must be invoked by alphabet") } } else { multiaddr := AlphabetAddress() common.CheckAlphabetWitness(multiaddr) } if notaryDisabled { threshold := len(alphabet)*2/3 + 1 n := common.Vote(ctx, id, nodeKey) if n < threshold { return } common.RemoveVotes(ctx, id) } setConfig(ctx, key, val) runtime.Notify("SetConfig", id, key, val) runtime.Log("configuration has been updated") } // ListConfig returns array of structures that contain key and value of all // NeoFS configuration records. Key and value are both byte arrays. func ListConfig() []record { ctx := storage.GetReadOnlyContext() 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 } // Version returns version of the contract. func Version() int { return common.Version } // getNodes returns deserialized slice of nodes from storage. func getNodes(ctx storage.Context, key string) []common.IRNode { data := storage.Get(ctx, key) if data != nil { return std.Deserialize(data.([]byte)).([]common.IRNode) } return []common.IRNode{} } // 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) } // multiaddress returns multi signature address from list of IRNode structures // with m = 2/3n+1. func multiaddress(n []common.IRNode) []byte { threshold := len(n)*2/3 + 1 keys := []interop.PublicKey{} for _, node := range n { key := node.PublicKey keys = append(keys, key) } return contract.CreateMultisigAccount(threshold, keys) }