package merkletree
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import (
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"fmt"
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"math/big"
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)
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// NodeType defines the type of node in the MT.
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type NodeType byte
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const (
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// NodeTypeMiddle indicates the type of middle Node that has children.
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NodeTypeMiddle NodeType = 0
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// NodeTypeLeaf indicates the type of a leaf Node that contains a key &
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// value.
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NodeTypeLeaf NodeType = 1
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// NodeTypeEmpty indicates the type of an empty Node.
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NodeTypeEmpty NodeType = 2
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// DBEntryTypeRoot indicates the type of a DB entry that indicates the
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// current Root of a MerkleTree
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DBEntryTypeRoot NodeType = 3
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)
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// Node is the struct that represents a node in the MT. The node should not be
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// modified after creation because the cached key won't be updated.
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type Node struct {
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// Type is the type of node in the tree.
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Type NodeType
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// ChildL is the left child of a middle node.
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ChildL *Hash
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// ChildR is the right child of a middle node.
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ChildR *Hash
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// Entry is the data stored in a leaf node.
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Entry [2]*Hash
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// key is a cache used to avoid recalculating key
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key *Hash
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}
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// NewNodeLeaf creates a new leaf node.
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func NewNodeLeaf(k, v *Hash) *Node {
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return &Node{Type: NodeTypeLeaf, Entry: [2]*Hash{k, v}}
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}
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// NewNodeMiddle creates a new middle node.
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func NewNodeMiddle(childL *Hash, childR *Hash) *Node {
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return &Node{Type: NodeTypeMiddle, ChildL: childL, ChildR: childR}
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}
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// NewNodeEmpty creates a new empty node.
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func NewNodeEmpty() *Node {
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return &Node{Type: NodeTypeEmpty}
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}
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// NewNodeFromBytes creates a new node by parsing the input []byte.
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func NewNodeFromBytes(b []byte) (*Node, error) {
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if len(b) < 1 {
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return nil, ErrNodeBytesBadSize
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}
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n := Node{Type: NodeType(b[0])}
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b = b[1:]
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switch n.Type {
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case NodeTypeMiddle:
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if len(b) != 2*ElemBytesLen {
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return nil, ErrNodeBytesBadSize
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}
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n.ChildL, n.ChildR = &Hash{}, &Hash{}
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copy(n.ChildL[:], b[:ElemBytesLen])
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copy(n.ChildR[:], b[ElemBytesLen:ElemBytesLen*2])
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case NodeTypeLeaf:
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if len(b) != 2*ElemBytesLen {
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return nil, ErrNodeBytesBadSize
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}
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n.Entry = [2]*Hash{{}, {}}
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copy(n.Entry[0][:], b[0:32])
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copy(n.Entry[1][:], b[32:64])
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case NodeTypeEmpty:
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break
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default:
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return nil, ErrInvalidNodeFound
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}
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return &n, nil
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}
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// LeafKey computes the key of a leaf node given the hIndex and hValue of the
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// entry of the leaf.
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func LeafKey(k, v *Hash) (*Hash, error) {
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return HashElemsKey(big.NewInt(1), k.BigInt(), v.BigInt())
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}
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// Key computes the key of the node by hashing the content in a specific way
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// for each type of node. This key is used as the hash of the merkle tree for
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// each node.
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func (n *Node) Key() (*Hash, error) {
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if n.key == nil { // Cache the key to avoid repeated hash computations.
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// NOTE: We are not using the type to calculate the hash!
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switch n.Type {
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case NodeTypeMiddle: // H(ChildL || ChildR)
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var err error
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n.key, err = HashElems(n.ChildL.BigInt(), n.ChildR.BigInt())
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if err != nil {
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return nil, err
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}
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case NodeTypeLeaf:
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var err error
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n.key, err = LeafKey(n.Entry[0], n.Entry[1])
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if err != nil {
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return nil, err
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}
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case NodeTypeEmpty: // Zero
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n.key = &HashZero
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default:
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n.key = &HashZero
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}
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}
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return n.key, nil
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}
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// Value returns the value of the node. This is the content that is stored in
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// the backend database.
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func (n *Node) Value() []byte {
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switch n.Type {
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case NodeTypeMiddle: // {Type || ChildL || ChildR}
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return append([]byte{byte(n.Type)}, append(n.ChildL[:], n.ChildR[:]...)...)
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case NodeTypeLeaf: // {Type || Data...}
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return append([]byte{byte(n.Type)}, append(n.Entry[0][:], n.Entry[1][:]...)...)
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case NodeTypeEmpty: // {}
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return []byte{}
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default:
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return []byte{}
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}
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}
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// String outputs a string representation of a node (different for each type).
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func (n *Node) String() string {
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switch n.Type {
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case NodeTypeMiddle: // {Type || ChildL || ChildR}
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return fmt.Sprintf("Middle L:%s R:%s", n.ChildL, n.ChildR)
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case NodeTypeLeaf: // {Type || Data...}
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return fmt.Sprintf("Leaf I:%v D:%v", n.Entry[0], n.Entry[1])
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case NodeTypeEmpty: // {}
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return "Empty"
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default:
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return "Invalid Node"
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}
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}
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