//go:build (386 || arm64 || amd64) && darwin && !ios // +build 386 arm64 amd64 // +build darwin // +build !ios package link import r "github.com/waku-org/go-zerokit-rln-apple/rln" type RLNWrapper struct { ffi *r.RLN } func NewWithParams(depth int, wasm []byte, zkey []byte, verifKey []byte, treeConfig []byte) (*RLNWrapper, error) { rln, err := r.NewWithParams(depth, wasm, zkey, verifKey, treeConfig) if err != nil { return nil, err } return &RLNWrapper{ffi: rln}, nil } func New(depth int, config []byte) (*RLNWrapper, error) { rln, err := r.New(uint(depth), config) if err != nil { return nil, err } return &RLNWrapper{ffi: rln}, nil } func (i RLNWrapper) SetTree(treeHeight uint) bool { return i.ffi.SetTree(treeHeight) } func (i RLNWrapper) InitTreeWithLeaves(idcommitments []byte) bool { return i.ffi.InitTreeWithLeaves(idcommitments) } func (i RLNWrapper) KeyGen() []byte { return i.ffi.KeyGen() } func (i RLNWrapper) SeededKeyGen(seed []byte) []byte { return i.ffi.SeededKeyGen(seed) } func (i RLNWrapper) ExtendedKeyGen() []byte { return i.ffi.ExtendedKeyGen() } func (i RLNWrapper) ExtendedSeededKeyGen(seed []byte) []byte { return i.ffi.ExtendedSeededKeyGen(seed) } func (i RLNWrapper) Hash(input []byte) ([]byte, error) { return i.ffi.Hash(input) } func (i RLNWrapper) PoseidonHash(input []byte) ([]byte, error) { return i.ffi.PoseidonHash(input) } func (i RLNWrapper) SetLeaf(index uint, idcommitment []byte) bool { return i.ffi.SetLeaf(index, idcommitment) } func (i RLNWrapper) SetNextLeaf(idcommitment []byte) bool { return i.ffi.SetNextLeaf(idcommitment) } func (i RLNWrapper) SetLeavesFrom(index uint, idcommitments []byte) bool { return i.ffi.SetLeavesFrom(index, idcommitments) } func (i RLNWrapper) DeleteLeaf(index uint) bool { return i.ffi.DeleteLeaf(index) } func (i RLNWrapper) GetRoot() ([]byte, error) { return i.ffi.GetRoot() } func (i RLNWrapper) GetLeaf(index uint) ([]byte, error) { return i.ffi.GetLeaf(index) } func (i RLNWrapper) GenerateRLNProof(input []byte) ([]byte, error) { return i.ffi.GenerateRLNProof(input) } func (i RLNWrapper) VerifyWithRoots(input []byte, roots []byte) (bool, error) { return i.ffi.VerifyWithRoots(input, roots) } func (i RLNWrapper) AtomicOperation(index uint, leaves []byte, indices []byte) bool { return i.ffi.AtomicOperation(index, leaves, indices) } func (i RLNWrapper) SeqAtomicOperation(leaves []byte, indices []byte) bool { return i.ffi.SeqAtomicOperation(leaves, indices) } func (i RLNWrapper) RecoverIDSecret(proof1 []byte, proof2 []byte) ([]byte, error) { return i.ffi.RecoverIDSecret(proof1, proof2) } func (i RLNWrapper) SetMetadata(metadata []byte) bool { return i.ffi.SetMetadata(metadata) } func (i RLNWrapper) GetMetadata() ([]byte, error) { return i.ffi.GetMetadata() } func (i RLNWrapper) Flush() bool { return i.ffi.Flush() } func (i RLNWrapper) LeavesSet() uint { return i.ffi.LeavesSet() }