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@@ -219,54 +219,69 @@ func unsetInternal(n node, left []byte, right []byte) error {
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if len(left) != len(right) {
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return errors.New("inconsistent edge path")
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}
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- // Step down to the fork point
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- prefix, pos := prefixLen(left, right), 0
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- var parent node
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+ // Step down to the fork point. There are two scenarios can happen:
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+ // - the fork point is a shortnode: the left proof MUST point to a
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+ // non-existent key and the key doesn't match with the shortnode
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+ // - the fork point is a fullnode: the left proof can point to an
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+ // existent key or not.
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+ var (
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+ pos = 0
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+ parent node
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+ )
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+findFork:
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for {
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- if pos >= prefix {
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- break
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- }
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switch rn := (n).(type) {
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case *shortNode:
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+ // The right proof must point to an existent key.
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if len(right)-pos < len(rn.Key) || !bytes.Equal(rn.Key, right[pos:pos+len(rn.Key)]) {
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return errors.New("invalid edge path")
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}
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+ rn.flags = nodeFlag{dirty: true}
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// Special case, the non-existent proof points to the same path
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// as the existent proof, but the path of existent proof is longer.
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- // In this case, truncate the extra path(it should be recovered
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- // by node insertion).
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+ // In this case, the fork point is this shortnode.
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if len(left)-pos < len(rn.Key) || !bytes.Equal(rn.Key, left[pos:pos+len(rn.Key)]) {
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- fn := parent.(*fullNode)
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- fn.Children[left[pos-1]] = nil
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- return nil
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+ break findFork
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}
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- rn.flags = nodeFlag{dirty: true}
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parent = n
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n, pos = rn.Val, pos+len(rn.Key)
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case *fullNode:
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+ leftnode, rightnode := rn.Children[left[pos]], rn.Children[right[pos]]
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+ // The right proof must point to an existent key.
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+ if rightnode == nil {
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+ return errors.New("invalid edge path")
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+ }
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rn.flags = nodeFlag{dirty: true}
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+ if leftnode != rightnode {
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+ break findFork
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+ }
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parent = n
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- n, pos = rn.Children[right[pos]], pos+1
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+ n, pos = rn.Children[left[pos]], pos+1
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default:
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panic(fmt.Sprintf("%T: invalid node: %v", n, n))
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}
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}
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- fn, ok := n.(*fullNode)
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- if !ok {
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- return errors.New("the fork point must be a fullnode")
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- }
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- // Find the fork point! Unset all intermediate references
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- for i := left[prefix] + 1; i < right[prefix]; i++ {
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- fn.Children[i] = nil
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- }
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- fn.flags = nodeFlag{dirty: true}
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- if err := unset(fn, fn.Children[left[prefix]], left[prefix:], 1, false); err != nil {
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- return err
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- }
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- if err := unset(fn, fn.Children[right[prefix]], right[prefix:], 1, true); err != nil {
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- return err
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+ switch rn := n.(type) {
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+ case *shortNode:
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+ if _, ok := rn.Val.(valueNode); ok {
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+ parent.(*fullNode).Children[right[pos-1]] = nil
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+ return nil
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+ }
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+ return unset(rn, rn.Val, right[pos:], len(rn.Key), true)
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+ case *fullNode:
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+ for i := left[pos] + 1; i < right[pos]; i++ {
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+ rn.Children[i] = nil
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+ }
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+ if err := unset(rn, rn.Children[left[pos]], left[pos:], 1, false); err != nil {
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+ return err
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+ }
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+ if err := unset(rn, rn.Children[right[pos]], right[pos:], 1, true); err != nil {
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+ return err
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+ }
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+ return nil
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+ default:
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+ panic(fmt.Sprintf("%T: invalid node: %v", n, n))
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}
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- return nil
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}
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// unset removes all internal node references either the left most or right most.
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@@ -314,8 +329,8 @@ func unset(parent node, child node, key []byte, pos int, removeLeft bool) error
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// The key of fork shortnode is less than the
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// path(it doesn't belong to the range), keep
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// it with the cached hash available.
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- return nil
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}
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+ return nil
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}
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if _, ok := cld.Val.(valueNode); ok {
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fn := parent.(*fullNode)
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gary rong