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proof_ics23.go
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/
proof_ics23.go
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package iavl
import (
"encoding/binary"
"fmt"
ics23 "github.com/cosmos/ics23/go"
)
/*
GetMembershipProof will produce a CommitmentProof that the given key (and queries value) exists in the iavl tree.
If the key doesn't exist in the tree, this will return an error.
*/
func (t *ImmutableTree) GetMembershipProof(key []byte) (*ics23.CommitmentProof, error) {
exist, err := t.createExistenceProof(key)
if err != nil {
return nil, err
}
proof := &ics23.CommitmentProof{
Proof: &ics23.CommitmentProof_Exist{
Exist: exist,
},
}
return proof, nil
}
// VerifyMembership returns true iff proof is an ExistenceProof for the given key.
func (t *ImmutableTree) VerifyMembership(proof *ics23.CommitmentProof, key []byte) (bool, error) {
val, err := t.Get(key)
if err != nil {
return false, err
}
root := t.Hash()
return ics23.VerifyMembership(ics23.IavlSpec, root, proof, key, val), nil
}
/*
GetNonMembershipProof will produce a CommitmentProof that the given key doesn't exist in the iavl tree.
If the key exists in the tree, this will return an error.
*/
func (t *ImmutableTree) GetNonMembershipProof(key []byte) (*ics23.CommitmentProof, error) {
// idx is one node right of what we want....
var err error
idx, val, err := t.GetWithIndex(key)
if err != nil {
return nil, err
}
if val != nil {
return nil, fmt.Errorf("cannot create NonExistanceProof when Key in State")
}
nonexist := &ics23.NonExistenceProof{
Key: key,
}
if idx >= 1 {
leftkey, _, err := t.GetByIndex(idx - 1)
if err != nil {
return nil, err
}
nonexist.Left, err = t.createExistenceProof(leftkey)
if err != nil {
return nil, err
}
}
// this will be nil if nothing right of the queried key
rightkey, _, err := t.GetByIndex(idx)
if err != nil {
return nil, err
}
if rightkey != nil {
nonexist.Right, err = t.createExistenceProof(rightkey)
if err != nil {
return nil, err
}
}
proof := &ics23.CommitmentProof{
Proof: &ics23.CommitmentProof_Nonexist{
Nonexist: nonexist,
},
}
return proof, nil
}
// VerifyNonMembership returns true iff proof is a NonExistenceProof for the given key.
func (t *ImmutableTree) VerifyNonMembership(proof *ics23.CommitmentProof, key []byte) (bool, error) {
root := t.Hash()
return ics23.VerifyNonMembership(ics23.IavlSpec, root, proof, key), nil
}
// createExistenceProof will get the proof from the tree and convert the proof into a valid
// existence proof, if that's what it is.
func (t *ImmutableTree) createExistenceProof(key []byte) (*ics23.ExistenceProof, error) {
t.Hash()
path, node, err := t.root.PathToLeaf(t, key, t.version+1)
nodeVersion := t.version + 1
if node.nodeKey != nil {
nodeVersion = node.nodeKey.version
}
return &ics23.ExistenceProof{
Key: node.key,
Value: node.value,
Leaf: convertLeafOp(nodeVersion),
Path: convertInnerOps(path),
}, err
}
func convertLeafOp(version int64) *ics23.LeafOp {
var varintBuf [binary.MaxVarintLen64]byte
// this is adapted from iavl/proof.go:proofLeafNode.Hash()
prefix := convertVarIntToBytes(0, varintBuf)
prefix = append(prefix, convertVarIntToBytes(1, varintBuf)...)
prefix = append(prefix, convertVarIntToBytes(version, varintBuf)...)
return &ics23.LeafOp{
Hash: ics23.HashOp_SHA256,
PrehashValue: ics23.HashOp_SHA256,
Length: ics23.LengthOp_VAR_PROTO,
Prefix: prefix,
}
}
// we cannot get the proofInnerNode type, so we need to do the whole path in one function
func convertInnerOps(path PathToLeaf) []*ics23.InnerOp {
steps := make([]*ics23.InnerOp, 0, len(path))
// lengthByte is the length prefix prepended to each of the sha256 sub-hashes
var lengthByte byte = 0x20
var varintBuf [binary.MaxVarintLen64]byte
// we need to go in reverse order, iavl starts from root to leaf,
// we want to go up from the leaf to the root
for i := len(path) - 1; i >= 0; i-- {
// this is adapted from iavl/proof.go:proofInnerNode.Hash()
prefix := convertVarIntToBytes(int64(path[i].Height), varintBuf)
prefix = append(prefix, convertVarIntToBytes(path[i].Size, varintBuf)...)
prefix = append(prefix, convertVarIntToBytes(path[i].Version, varintBuf)...)
var suffix []byte
if len(path[i].Left) > 0 {
// length prefixed left side
prefix = append(prefix, lengthByte)
prefix = append(prefix, path[i].Left...)
// prepend the length prefix for child
prefix = append(prefix, lengthByte)
} else {
// prepend the length prefix for child
prefix = append(prefix, lengthByte)
// length-prefixed right side
suffix = []byte{lengthByte}
suffix = append(suffix, path[i].Right...)
}
op := &ics23.InnerOp{
Hash: ics23.HashOp_SHA256,
Prefix: prefix,
Suffix: suffix,
}
steps = append(steps, op)
}
return steps
}
func convertVarIntToBytes(orig int64, buf [binary.MaxVarintLen64]byte) []byte {
n := binary.PutVarint(buf[:], orig)
return buf[:n]
}
// GetProof gets the proof for the given key.
func (t *ImmutableTree) GetProof(key []byte) (*ics23.CommitmentProof, error) {
if t.root == nil {
return nil, fmt.Errorf("cannot generate the proof with nil root")
}
exist, err := t.Has(key)
if err != nil {
return nil, err
}
if exist {
return t.GetMembershipProof(key)
}
return t.GetNonMembershipProof(key)
}
// VerifyProof checks if the proof is correct for the given key.
func (t *ImmutableTree) VerifyProof(proof *ics23.CommitmentProof, key []byte) (bool, error) {
if proof.GetExist() != nil {
return t.VerifyMembership(proof, key)
}
return t.VerifyNonMembership(proof, key)
}
// GetVersionedProof gets the proof for the given key at the specified version.
func (tree *MutableTree) GetVersionedProof(key []byte, version int64) (*ics23.CommitmentProof, error) {
if tree.VersionExists(version) {
t, err := tree.GetImmutable(version)
if err != nil {
return nil, err
}
return t.GetProof(key)
}
return nil, ErrVersionDoesNotExist
}