package query import ( "encoding/hex" "fmt" "strings" "time" "dns.froth.zone/awl/pkg/util" "github.com/miekg/dns" "golang.org/x/net/idna" ) func (message *Message) displayQuestion(msg *dns.Msg, opts *util.Options, opt *dns.OPT) error { var ( name string err error ) for _, question := range msg.Question { if opts.Display.UcodeTranslate { name, err = idna.ToUnicode(question.Name) if err != nil { return fmt.Errorf("punycode to unicode: %w", err) } } else { name = question.Name } message.Name = name message.Type = question.Qtype message.TypeName = dns.TypeToString[question.Qtype] message.Class = question.Qclass message.ClassName = dns.ClassToString[question.Qclass] } return nil } func (message *Message) displayAnswers(msg *dns.Msg, opts *util.Options, opt *dns.OPT) error { var ( ttl any name string err error ) for _, answer := range msg.Answer { temp := strings.Split(answer.String(), "\t") if opts.Display.TTL { if opts.Display.HumanTTL { ttl = (time.Duration(answer.Header().Ttl) * time.Second).String() } else { ttl = answer.Header().Ttl } } if opts.Display.UcodeTranslate { name, err = idna.ToUnicode(answer.Header().Name) if err != nil { return fmt.Errorf("punycode to unicode: %w", err) } } else { name = answer.Header().Name } message.AnswerRRs = append(message.AnswerRRs, Answer{ Name: name, ClassName: dns.ClassToString[answer.Header().Class], Class: answer.Header().Class, TypeName: dns.TypeToString[answer.Header().Rrtype], Type: answer.Header().Rrtype, Rdlength: answer.Header().Rdlength, TTL: ttl, Value: temp[len(temp)-1], }) } return nil } func (message *Message) displayAuthority(msg *dns.Msg, opts *util.Options, opt *dns.OPT) error { var ( ttl any name string err error ) for _, ns := range msg.Ns { temp := strings.Split(ns.String(), "\t") if opts.Display.TTL { if opts.Display.HumanTTL { ttl = (time.Duration(ns.Header().Ttl) * time.Second).String() } else { ttl = ns.Header().Ttl } } if opts.Display.UcodeTranslate { name, err = idna.ToUnicode(ns.Header().Name) if err != nil { return fmt.Errorf("punycode to unicode: %w", err) } } else { name = ns.Header().Name } message.AuthoritativeRRs = append(message.AuthoritativeRRs, Answer{ Name: name, TypeName: dns.TypeToString[ns.Header().Rrtype], Type: ns.Header().Rrtype, Class: ns.Header().Class, ClassName: dns.ClassToString[ns.Header().Class], Rdlength: ns.Header().Rdlength, TTL: ttl, Value: temp[len(temp)-1], }) } return nil } func (message *Message) displayAdditional(msg *dns.Msg, opts *util.Options, opt *dns.OPT) error { var ( ttl any name string err error ) for _, additional := range msg.Extra { if additional.Header().Rrtype == dns.StringToType["OPT"] { continue } else { temp := strings.Split(additional.String(), "\t") if opts.Display.TTL { if opts.Display.HumanTTL { ttl = (time.Duration(additional.Header().Ttl) * time.Second).String() } else { ttl = additional.Header().Ttl } } if opts.Display.UcodeTranslate { name, err = idna.ToUnicode(additional.Header().Name) if err != nil { return fmt.Errorf("punycode to unicode: %w", err) } } else { name = additional.Header().Name } message.AdditionalRRs = append(message.AdditionalRRs, Answer{ Name: name, TypeName: dns.TypeToString[additional.Header().Rrtype], Type: additional.Header().Rrtype, Class: additional.Header().Class, ClassName: dns.ClassToString[additional.Header().Class], Rdlength: additional.Header().Rdlength, TTL: ttl, Value: temp[len(temp)-1], }) } } return nil } // ParseOpt parses opts. func (message *Message) ParseOpt(rcode int, rr dns.OPT) (ret EDNS0, err error) { ret.Rcode = dns.RcodeToString[rcode] // Most of this is taken from https://github.com/miekg/dns/blob/master/edns.go#L76 if rr.Do() { ret.Flags = append(ret.Flags, "DO") } for i := uint32(1); i <= 0x7FFF; i <<= 1 { if rr.Hdr.Ttl&i != 0 { ret.Flags = append(ret.Flags, fmt.Sprintf("BIT%d", i)) } } ret.PayloadSize = rr.UDPSize() for _, opt := range rr.Option { switch opt := opt.(type) { case *dns.EDNS0_NSID: str := opt.String() hex, err := hex.DecodeString(str) if err != nil { return ret, fmt.Errorf("%w", err) } ret.NsidHex = string(hex) ret.Nsid = str case *dns.EDNS0_SUBNET: ret.Subnet = &EDNSSubnet{ Source: opt.SourceNetmask, Family: opt.Family, } // 1: IPv4 2: IPv6 if ret.Subnet.Family <= 2 { ret.Subnet.IP = opt.Address.String() } else { ret.Subnet.IP = hex.EncodeToString([]byte(opt.Address)) } if opt.SourceScope != 0 { ret.Subnet.Scope = opt.SourceScope } case *dns.EDNS0_COOKIE: ret.Cookie = append(ret.Cookie, opt.String()) case *dns.EDNS0_EXPIRE: ret.Expire = opt.Expire case *dns.EDNS0_TCP_KEEPALIVE: ret.KeepAlive = opt.Timeout case *dns.EDNS0_LLQ: ret.LLQ = &EdnsLLQ{ Version: opt.Version, Opcode: opt.Opcode, Error: opt.Error, ID: opt.Id, Lease: opt.LeaseLife, } case *dns.EDNS0_DAU: ret.Dau = opt.AlgCode case *dns.EDNS0_DHU: ret.Dhu = opt.AlgCode case *dns.EDNS0_N3U: ret.N3u = opt.AlgCode case *dns.EDNS0_PADDING: ret.Padding = string(opt.Padding) case *dns.EDNS0_EDE: ret.EDE = &EDNSErr{ Code: opt.InfoCode, Purpose: dns.ExtendedErrorCodeToString[opt.InfoCode], Text: opt.ExtraText, } } } return ret, nil }