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91 lines
2.3 KiB
91 lines
2.3 KiB
package arbo
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import (
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"encoding/json"
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)
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// CircomVerifierProof contains the needed data to check a Circom Verifier Proof
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// inside a circom circuit. CircomVerifierProof allow to verify through a
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// zkSNARK proof the inclusion/exclusion of a leaf in a tree.
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type CircomVerifierProof struct {
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Root []byte `json:"root"`
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Siblings [][]byte `json:"siblings"`
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OldKey []byte `json:"oldKey"`
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OldValue []byte `json:"oldValue"`
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IsOld0 bool `json:"isOld0"`
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Key []byte `json:"key"`
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Value []byte `json:"value"`
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Fnc int `json:"fnc"` // 0: inclusion, 1: non inclusion
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}
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// MarshalJSON implements the JSON marshaler
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func (cvp CircomVerifierProof) MarshalJSON() ([]byte, error) {
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m := make(map[string]interface{})
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m["root"] = BytesToBigInt(cvp.Root).String()
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m["siblings"] = siblingsToStringArray(cvp.Siblings)
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m["oldKey"] = BytesToBigInt(cvp.OldKey).String()
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m["oldValue"] = BytesToBigInt(cvp.OldValue).String()
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if cvp.IsOld0 {
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m["isOld0"] = "1"
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} else {
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m["isOld0"] = "0"
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}
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m["key"] = BytesToBigInt(cvp.Key).String()
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m["value"] = BytesToBigInt(cvp.Value).String()
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m["fnc"] = cvp.Fnc
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return json.Marshal(m)
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}
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func siblingsToStringArray(s [][]byte) []string {
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var r []string
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for i := 0; i < len(s); i++ {
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r = append(r, BytesToBigInt(s[i]).String())
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}
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return r
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}
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// FillMissingEmptySiblings adds the empty values to the array of siblings for
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// the Tree number of max levels
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func (t *Tree) FillMissingEmptySiblings(s [][]byte) [][]byte {
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for i := len(s); i < t.maxLevels; i++ {
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s = append(s, emptyValue)
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}
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return s
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}
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// GenerateCircomVerifierProof generates a CircomVerifierProof for a given key
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// in the Tree
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func (t *Tree) GenerateCircomVerifierProof(k []byte) (*CircomVerifierProof, error) {
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kAux, v, siblings, existence, err := t.GenProof(k)
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if err != nil && err != ErrKeyNotFound {
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return nil, err
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}
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var cp CircomVerifierProof
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cp.Root, err = t.Root()
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if err != nil {
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return nil, err
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}
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s, err := UnpackSiblings(t.hashFunction, siblings)
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if err != nil {
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return nil, err
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}
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cp.Siblings = t.FillMissingEmptySiblings(s)
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if !existence {
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cp.OldKey = kAux
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cp.OldValue = v
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} else {
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cp.OldKey = emptyValue
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cp.OldValue = emptyValue
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}
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cp.Key = k
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cp.Value = v
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if existence {
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cp.Fnc = 0 // inclusion
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} else {
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cp.Fnc = 1 // non inclusion
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}
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return &cp, nil
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}
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