erigon-pulse/core/vm/lightclient/multistoreproof.go
Alex Sharov e328049353
Remove dependency on leveldb (#4213)
* save

* save

* save

* save

* save

* save
2022-05-20 11:24:28 +07:00

139 lines
4.1 KiB
Go

package lightclient
import (
"bytes"
"fmt"
iavl2 "github.com/ledgerwatch/erigon/core/vm/lightclient/iavl"
"github.com/tendermint/tendermint/crypto/merkle"
cmn "github.com/tendermint/tendermint/libs/common"
)
// MultiStoreProof defines a collection of store proofs in a multi-store
type MultiStoreProof struct {
StoreInfos []StoreInfo
}
func NewMultiStoreProof(storeInfos []StoreInfo) *MultiStoreProof {
return &MultiStoreProof{StoreInfos: storeInfos}
}
// ComputeRootHash returns the root hash for a given multi-store proof.
func (proof *MultiStoreProof) ComputeRootHash() []byte {
ci := CommitInfo{
Version: -1, // TODO: Not needed; improve code.
StoreInfos: proof.StoreInfos,
}
return ci.Hash()
}
// RequireProof return whether proof is require for the subpath
func RequireProof(subpath string) bool {
// XXX: create a better convention.
// Currently, only when query subpath is "/store" or "/key", will proof be included in response.
// If there are some changes about proof building in iavlstore.go, we must change code here to keep consistency with iavlstore.go:212
if subpath == "/store" || subpath == "/key" {
return true
}
return false
}
//-----------------------------------------------------------------------------
var _ merkle.ProofOperator = MultiStoreProofOp{}
// the multi-store proof operation constant value
const ProofOpMultiStore = "multistore"
// TODO: document
type MultiStoreProofOp struct {
// Encoded in ProofOp.Key
key []byte
// To encode in ProofOp.Data.
Proof *MultiStoreProof `json:"proof"`
}
func NewMultiStoreProofOp(key []byte, proof *MultiStoreProof) MultiStoreProofOp {
return MultiStoreProofOp{
key: key,
Proof: proof,
}
}
// MultiStoreProofOpDecoder returns a multi-store merkle proof operator from a
// given proof operation.
func MultiStoreProofOpDecoder(pop merkle.ProofOp) (merkle.ProofOperator, error) {
if pop.Type != ProofOpMultiStore {
return nil, cmn.NewError("unexpected ProofOp.Type; got %v, want %v", pop.Type, ProofOpMultiStore)
}
// XXX: a bit strange as we'll discard this, but it works
var op MultiStoreProofOp
err := Cdc.UnmarshalBinaryLengthPrefixed(pop.Data, &op)
if err != nil {
return nil, cmn.ErrorWrap(err, "decoding ProofOp.Data into MultiStoreProofOp")
}
return NewMultiStoreProofOp(pop.Key, op.Proof), nil
}
// ProofOp return a merkle proof operation from a given multi-store proof
// operation.
func (op MultiStoreProofOp) ProofOp() merkle.ProofOp {
bz := Cdc.MustMarshalBinaryLengthPrefixed(op)
return merkle.ProofOp{
Type: ProofOpMultiStore,
Key: op.key,
Data: bz,
}
}
// String implements the Stringer interface for a mult-store proof operation.
func (op MultiStoreProofOp) String() string {
return fmt.Sprintf("MultiStoreProofOp{%v}", op.GetKey())
}
// GetKey returns the key for a multi-store proof operation.
func (op MultiStoreProofOp) GetKey() []byte {
return op.key
}
// Run executes a multi-store proof operation for a given value. It returns
// the root hash if the value matches all the store's commitID's hash or an
// error otherwise.
func (op MultiStoreProofOp) Run(args [][]byte) ([][]byte, error) {
if len(args) != 1 {
return nil, cmn.NewError("Value size is not 1")
}
value := args[0]
root := op.Proof.ComputeRootHash()
for _, si := range op.Proof.StoreInfos {
if si.Name == string(op.key) {
if bytes.Equal(value, si.Core.CommitID.Hash) {
return [][]byte{root}, nil
}
return nil, cmn.NewError("hash mismatch for substore %v: %X vs %X", si.Name, si.Core.CommitID.Hash, value)
}
}
return nil, cmn.NewError("key %v not found in multistore proof", op.key)
}
//-----------------------------------------------------------------------------
// XXX: This should be managed by the rootMultiStore which may want to register
// more proof ops?
func DefaultProofRuntime() (prt *merkle.ProofRuntime) {
prt = merkle.NewProofRuntime()
prt.RegisterOpDecoder(merkle.ProofOpSimpleValue, merkle.SimpleValueOpDecoder)
prt.RegisterOpDecoder(iavl2.ProofOpIAVLValue, iavl2.IAVLValueOpDecoder)
prt.RegisterOpDecoder(iavl2.ProofOpIAVLAbsence, iavl2.IAVLAbsenceOpDecoder)
prt.RegisterOpDecoder(ProofOpMultiStore, MultiStoreProofOpDecoder)
return
}