package transaction import ( "errors" "github.com/nspcc-dev/neo-go/pkg/io" ) // OracleResponseCode represents result code of oracle response. type OracleResponseCode byte // OracleResponse represents oracle response. type OracleResponse struct { ID uint64 `json:"id"` Code OracleResponseCode `json:"code"` Result []byte `json:"result"` } const maxResultSize = 1024 // Enumeration of possible oracle response types. const ( Success OracleResponseCode = 0x00 NotFound OracleResponseCode = 0x10 Timeout OracleResponseCode = 0x12 Forbidden OracleResponseCode = 0x14 Error OracleResponseCode = 0xff ) // Various validation errors. var ( ErrInvalidResponseCode = errors.New("invalid oracle response code") ErrInvalidResult = errors.New("oracle response != success, but result is not empty") ) // IsValid checks if c is valid response code. func (c OracleResponseCode) IsValid() bool { return c == Success || c == NotFound || c == Timeout || c == Forbidden || c == Error } // DecodeBinary implements io.Serializable interface. func (r *OracleResponse) DecodeBinary(br *io.BinReader) { r.ID = br.ReadU64LE() r.Code = OracleResponseCode(br.ReadB()) if !r.Code.IsValid() { br.Err = ErrInvalidResponseCode return } r.Result = br.ReadVarBytes(maxResultSize) if r.Code != Success && len(r.Result) > 0 { br.Err = ErrInvalidResult } } // EncodeBinary implements io.Serializable interface. func (r *OracleResponse) EncodeBinary(w *io.BinWriter) { w.WriteU64LE(r.ID) w.WriteB(byte(r.Code)) w.WriteVarBytes(r.Result) } func (r *OracleResponse) toJSONMap(m map[string]interface{}) { m["id"] = r.ID m["code"] = r.Code m["result"] = r.Result }