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proof_path.go
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proof_path.go
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package iavl
import (
"fmt"
"strings"
)
// pathWithLeaf is a path to a leaf node and the leaf node itself.
type pathWithLeaf struct {
Path PathToLeaf `json:"path"`
Leaf ProofLeafNode `json:"leaf"`
}
func (pwl pathWithLeaf) String() string {
return pwl.StringIndented("")
}
func (pwl pathWithLeaf) StringIndented(indent string) string {
return fmt.Sprintf(`pathWithLeaf{
%s Path: %v
%s Leaf: %v
%s}`,
indent, pwl.Path.stringIndented(indent+" "),
indent, pwl.Leaf.stringIndented(indent+" "),
indent)
}
// `computeRootHash` computes the root hash with leaf node.
// Does not verify the root hash.
func (pwl pathWithLeaf) computeRootHash() []byte {
leafHash := pwl.Leaf.Hash()
return pwl.Path.computeRootHash(leafHash)
}
//----------------------------------------
// PathToLeaf represents an inner path to a leaf node.
// Note that the nodes are ordered such that the last one is closest
// to the root of the tree.
type PathToLeaf []ProofInnerNode
func (pl PathToLeaf) String() string {
return pl.stringIndented("")
}
func (pl PathToLeaf) stringIndented(indent string) string {
if len(pl) == 0 {
return "empty-PathToLeaf"
}
strs := make([]string, 0, len(pl))
for i, pin := range pl {
if i == 20 {
strs = append(strs, fmt.Sprintf("... (%v total)", len(pl)))
break
}
strs = append(strs, fmt.Sprintf("%v:%v", i, pin.stringIndented(indent+" ")))
}
return fmt.Sprintf(`PathToLeaf{
%s %v
%s}`,
indent, strings.Join(strs, "\n"+indent+" "),
indent)
}
// `computeRootHash` computes the root hash assuming some leaf hash.
// Does not verify the root hash.
func (pl PathToLeaf) computeRootHash(leafHash []byte) []byte {
hash := leafHash
for i := len(pl) - 1; i >= 0; i-- {
pin := pl[i]
hash = pin.Hash(hash)
}
return hash
}
func (pl PathToLeaf) isLeftmost() bool {
for _, node := range pl {
if len(node.Left) > 0 {
return false
}
}
return true
}
func (pl PathToLeaf) isRightmost() bool {
for _, node := range pl {
if len(node.Right) > 0 {
return false
}
}
return true
}
// returns -1 if invalid.
func (pl PathToLeaf) Index() (idx int64) {
for i, node := range pl {
switch {
case node.Left == nil:
continue
case node.Right == nil:
if i < len(pl)-1 {
idx += node.Size - pl[i+1].Size
} else {
idx += node.Size - 1
}
default:
return -1
}
}
return idx
}