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fx.go
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fx.go
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// Copyright (C) 2019-2023, Ava Labs, Inc. All rights reserved.
// See the file LICENSE for licensing terms.
package secp256k1fx
import (
"errors"
"fmt"
"github.com/MetalBlockchain/metalgo/cache"
"github.com/MetalBlockchain/metalgo/ids"
"github.com/MetalBlockchain/metalgo/utils/crypto/secp256k1"
"github.com/MetalBlockchain/metalgo/utils/hashing"
"github.com/MetalBlockchain/metalgo/utils/wrappers"
"github.com/MetalBlockchain/metalgo/vms/components/verify"
)
const (
defaultCacheSize = 256
)
var (
ErrWrongVMType = errors.New("wrong vm type")
ErrWrongTxType = errors.New("wrong tx type")
ErrWrongOpType = errors.New("wrong operation type")
ErrWrongUTXOType = errors.New("wrong utxo type")
ErrWrongInputType = errors.New("wrong input type")
ErrWrongCredentialType = errors.New("wrong credential type")
ErrWrongOwnerType = errors.New("wrong owner type")
ErrMismatchedAmounts = errors.New("utxo amount and input amount are not equal")
ErrWrongNumberOfUTXOs = errors.New("wrong number of utxos for the operation")
ErrWrongMintCreated = errors.New("wrong mint output created from the operation")
ErrTimelocked = errors.New("output is time locked")
ErrTooManySigners = errors.New("input has more signers than expected")
ErrTooFewSigners = errors.New("input has less signers than expected")
ErrInputOutputIndexOutOfBounds = errors.New("input referenced a nonexistent address in the output")
ErrInputCredentialSignersMismatch = errors.New("input expected a different number of signers than provided in the credential")
ErrWrongSig = errors.New("wrong signature")
)
// Fx describes the secp256k1 feature extension
type Fx struct {
VM VM
SECPFactory secp256k1.Factory
bootstrapped bool
}
func (fx *Fx) Initialize(vmIntf interface{}) error {
if err := fx.InitializeVM(vmIntf); err != nil {
return err
}
log := fx.VM.Logger()
log.Debug("initializing secp256k1 fx")
fx.SECPFactory = secp256k1.Factory{
Cache: cache.LRU[ids.ID, *secp256k1.PublicKey]{
Size: defaultCacheSize,
},
}
c := fx.VM.CodecRegistry()
errs := wrappers.Errs{}
errs.Add(
c.RegisterType(&TransferInput{}),
c.RegisterType(&MintOutput{}),
c.RegisterType(&TransferOutput{}),
c.RegisterType(&MintOperation{}),
c.RegisterType(&Credential{}),
)
return errs.Err
}
func (fx *Fx) InitializeVM(vmIntf interface{}) error {
vm, ok := vmIntf.(VM)
if !ok {
return ErrWrongVMType
}
fx.VM = vm
return nil
}
func (*Fx) Bootstrapping() error {
return nil
}
func (fx *Fx) Bootstrapped() error {
fx.bootstrapped = true
return nil
}
// VerifyPermission returns nil iff [credIntf] proves that [controlGroup] assents to [txIntf]
func (fx *Fx) VerifyPermission(txIntf, inIntf, credIntf, ownerIntf interface{}) error {
tx, ok := txIntf.(UnsignedTx)
if !ok {
return ErrWrongTxType
}
in, ok := inIntf.(*Input)
if !ok {
return ErrWrongInputType
}
cred, ok := credIntf.(*Credential)
if !ok {
return ErrWrongCredentialType
}
owner, ok := ownerIntf.(*OutputOwners)
if !ok {
return ErrWrongOwnerType
}
if err := verify.All(in, cred, owner); err != nil {
return err
}
return fx.VerifyCredentials(tx, in, cred, owner)
}
func (fx *Fx) VerifyOperation(txIntf, opIntf, credIntf interface{}, utxosIntf []interface{}) error {
tx, ok := txIntf.(UnsignedTx)
if !ok {
return ErrWrongTxType
}
op, ok := opIntf.(*MintOperation)
if !ok {
return ErrWrongOpType
}
cred, ok := credIntf.(*Credential)
if !ok {
return ErrWrongCredentialType
}
if len(utxosIntf) != 1 {
return ErrWrongNumberOfUTXOs
}
out, ok := utxosIntf[0].(*MintOutput)
if !ok {
return ErrWrongUTXOType
}
return fx.verifyOperation(tx, op, cred, out)
}
func (fx *Fx) verifyOperation(tx UnsignedTx, op *MintOperation, cred *Credential, utxo *MintOutput) error {
if err := verify.All(op, cred, utxo); err != nil {
return err
}
if !utxo.Equals(&op.MintOutput.OutputOwners) {
return ErrWrongMintCreated
}
return fx.VerifyCredentials(tx, &op.MintInput, cred, &utxo.OutputOwners)
}
func (fx *Fx) VerifyTransfer(txIntf, inIntf, credIntf, utxoIntf interface{}) error {
tx, ok := txIntf.(UnsignedTx)
if !ok {
return ErrWrongTxType
}
in, ok := inIntf.(*TransferInput)
if !ok {
return ErrWrongInputType
}
cred, ok := credIntf.(*Credential)
if !ok {
return ErrWrongCredentialType
}
out, ok := utxoIntf.(*TransferOutput)
if !ok {
return ErrWrongUTXOType
}
return fx.VerifySpend(tx, in, cred, out)
}
// VerifySpend ensures that the utxo can be sent to any address
func (fx *Fx) VerifySpend(utx UnsignedTx, in *TransferInput, cred *Credential, utxo *TransferOutput) error {
if err := verify.All(utxo, in, cred); err != nil {
return err
} else if utxo.Amt != in.Amt {
return fmt.Errorf("%w: %d != %d", ErrMismatchedAmounts, utxo.Amt, in.Amt)
}
return fx.VerifyCredentials(utx, &in.Input, cred, &utxo.OutputOwners)
}
// VerifyCredentials ensures that the output can be spent by the input with the
// credential. A nil return values means the output can be spent.
func (fx *Fx) VerifyCredentials(utx UnsignedTx, in *Input, cred *Credential, out *OutputOwners) error {
numSigs := len(in.SigIndices)
switch {
case out.Locktime > fx.VM.Clock().Unix():
return ErrTimelocked
case out.Threshold < uint32(numSigs):
return ErrTooManySigners
case out.Threshold > uint32(numSigs):
return ErrTooFewSigners
case numSigs != len(cred.Sigs):
return ErrInputCredentialSignersMismatch
case !fx.bootstrapped: // disable signature verification during bootstrapping
return nil
}
txHash := hashing.ComputeHash256(utx.Bytes())
for i, index := range in.SigIndices {
// Make sure the input references an address that exists
if index >= uint32(len(out.Addrs)) {
return ErrInputOutputIndexOutOfBounds
}
// Make sure each signature in the signature list is from an owner of
// the output being consumed
sig := cred.Sigs[i]
pk, err := fx.SECPFactory.RecoverHashPublicKey(txHash, sig[:])
if err != nil {
return err
}
if expectedAddress := out.Addrs[index]; expectedAddress != pk.Address() {
return fmt.Errorf("%w: expected signature from %s but got from %s",
ErrWrongSig,
expectedAddress,
pk.Address())
}
}
return nil
}
// CreateOutput creates a new output with the provided control group worth
// the specified amount
func (*Fx) CreateOutput(amount uint64, ownerIntf interface{}) (interface{}, error) {
owner, ok := ownerIntf.(*OutputOwners)
if !ok {
return nil, ErrWrongOwnerType
}
if err := owner.Verify(); err != nil {
return nil, err
}
return &TransferOutput{
Amt: amount,
OutputOwners: *owner,
}, nil
}