package xip import ( "fmt" "log" "net" "os" "regexp" "strings" "time" "github.com/miekg/dns" ) type Xip struct { server dns.Server nameServers []*dns.NS } type HardcodedRecord struct { A []*dns.A AAAA []*dns.AAAA TXT []string // *dns.TXT MX []*dns.MX CNAME []*dns.CNAME SRV *dns.SRV } const ( zone = "local-ip.sh." nameservers = "ns1.local-ip.sh.,ns2.local-ip.sh." ) var ( flyRegion = os.Getenv("FLY_REGION") dottedIpV4Regex = regexp.MustCompile(`(?:^|(?:[\w\d])+\.)(((25[0-5]|(2[0-4]|1\d|[1-9]|)\d)\.?\b){4})($|[.-])`) dashedIpV4Regex = regexp.MustCompile(`(?:^|(?:[\w\d])+\.)(((25[0-5]|(2[0-4]|1\d|[1-9]|)\d)\-?\b){4})($|[.-])`) hardcodedRecords = map[string]HardcodedRecord{ "ns.local-ip.sh.": { // record holding ip addresses of ns1 and ns2 A: []*dns.A{ {A: net.IPv4(137, 66, 40, 11)}, {A: net.IPv4(137, 66, 40, 12)}, }, }, "ns1.local-ip.sh.": { A: []*dns.A{ {A: net.IPv4(137, 66, 40, 11)}, // fly.io edge-only ip address, see https://community.fly.io/t/custom-domains-certificate-is-stuck-on-awaiting-configuration/8329 }, }, "ns2.local-ip.sh.": { A: []*dns.A{ {A: net.IPv4(137, 66, 40, 12)}, // fly.io edge-only ip address #2 }, }, "local-ip.sh.": { A: []*dns.A{ // {A: net.IPv4(66, 241, 125, 48)}, {A: net.IPv4(137, 66, 40, 11)}, // fly.io edge-only ip address }, TXT: []string{"v=spf1 include:capsulecorp.dev ~all"}, MX: []*dns.MX{ {Preference: 10, Mx: "email.capsulecorp.dev."}, }, }, "autodiscover.local-ip.sh.": { CNAME: []*dns.CNAME{ {Target: "email.capsulecorp.dev."}, }, }, "_autodiscover._tcp.local-ip.sh.": { SRV: &dns.SRV{ Priority: 0, Weight: 0, Port: 443, Target: "email.capsulecorp.dev.", }, }, "autoconfig.local-ip.sh.": { CNAME: []*dns.CNAME{ {Target: "email.capsulecorp.dev."}, }, }, "_dmarc.local-ip.sh.": { TXT: []string{"v=DMARC1; p=none; rua=mailto:postmaster@local-ip.sh; ruf=mailto:admin@local-ip.sh"}, }, "dkim._domainkey.local-ip.sh.": { TXT: []string{ "v=DKIM1;k=rsa;t=s;s=email;p=MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAsMW6NFo34qzKRPbzK41GwbWncB8IDg1i2eA2VWznIVDmTzzsqILaBOGv2xokVpzZm0QRF9wSbeVUmvwEeQ7Z6wkfMjawenDEc3XxsNSvQUVBP6LU/xcm1zsR8wtD8r5J+Jm45pNFaateiM/kb/Eypp2ntdtd8CPsEgCEDpNb62LWdy0yzRdZ/M/fNn51UMN8hVFp4YfZngAt3bQwa6kPtgvTeqEbpNf5xanpDysNJt2S8zfqJMVGvnr8JaJiTv7ZlKMMp94aC5Ndcir1WbMyfmgSnGgemuCTVMWDGPJnXDi+8BQMH1b1hmTpWDiVdVlehyyWx5AfPrsWG9cEuDIfXwIDAQAB", }, }, "_acme-challenge.local-ip.sh.": { // will be filled in later when requesting the wildcard certificate TXT: []string{}, }, } ) func (xip *Xip) SetTXTRecord(fqdn string, value string) { log.Printf("trying to set TXT record \"%s\" for fqdn \"%s\"", value, fqdn) if fqdn != "_acme-challenge.local-ip.sh." { log.Println("not allowed, abort") return } if records, ok := hardcodedRecords[fqdn]; ok { records.TXT = []string{value} hardcodedRecords["_acme-challenge.local-ip.sh."] = records } } func (xip *Xip) UnsetTXTRecord(fqdn string) { log.Printf("trying to unset TXT record for fqdn \"%s\"", fqdn) if fqdn != "_acme-challenge.local-ip.sh." { log.Println("not allowed, abort") return } if records, ok := hardcodedRecords[fqdn]; ok { records.TXT = []string{} hardcodedRecords["_acme-challenge.local-ip.sh."] = records } } func (xip *Xip) fqdnToA(fqdn string) []*dns.A { normalizedFqdn := strings.ToLower(fqdn) if hardcodedRecords[normalizedFqdn].A != nil { var records []*dns.A for _, record := range hardcodedRecords[normalizedFqdn].A { records = append(records, &dns.A{ Hdr: dns.RR_Header{ Ttl: uint32((time.Minute * 5).Seconds()), Name: fqdn, Rrtype: dns.TypeA, Class: dns.ClassINET, }, A: record.A, }) } return records } for _, ipV4RE := range []*regexp.Regexp{dashedIpV4Regex, dottedIpV4Regex} { if ipV4RE.MatchString(fqdn) { match := ipV4RE.FindStringSubmatch(fqdn)[1] match = strings.ReplaceAll(match, "-", ".") ipV4Address := net.ParseIP(match).To4() if ipV4Address == nil { return nil } return []*dns.A{{ Hdr: dns.RR_Header{ Ttl: uint32((time.Minute * 5).Seconds()), Name: fqdn, Rrtype: dns.TypeA, Class: dns.ClassINET, }, A: ipV4Address, }} } } return nil } func (xip *Xip) answerWithAuthority(question dns.Question, message *dns.Msg) { message.Ns = append(message.Ns, xip.soaRecord(question)) } func (xip *Xip) handleA(question dns.Question, message *dns.Msg) { fqdn := question.Name records := xip.fqdnToA(fqdn) if len(records) == 0 { message.Rcode = dns.RcodeNameError xip.answerWithAuthority(question, message) return } for _, record := range records { log.Printf("(%s) %s => %s\n", flyRegion, fqdn, record.A) message.Answer = append(message.Answer, record) } } func (xip *Xip) handleAAAA(question dns.Question, message *dns.Msg) { fqdn := question.Name normalizedFqdn := strings.ToLower(fqdn) if hardcodedRecords[normalizedFqdn].AAAA == nil { xip.answerWithAuthority(question, message) return } for _, record := range hardcodedRecords[normalizedFqdn].AAAA { message.Answer = append(message.Answer, &dns.AAAA{ Hdr: dns.RR_Header{ Ttl: uint32((time.Minute * 5).Seconds()), Name: fqdn, Rrtype: dns.TypeAAAA, Class: dns.ClassINET, }, AAAA: record.AAAA, }) } } func (xip *Xip) handleNS(question dns.Question, message *dns.Msg) { fqdn := question.Name nameServers := []*dns.NS{} additionals := []*dns.A{} for _, ns := range xip.nameServers { nameServers = append(nameServers, &dns.NS{ Hdr: dns.RR_Header{ Ttl: uint32((time.Minute * 5).Seconds()), Name: fqdn, Rrtype: dns.TypeNS, Class: dns.ClassINET, }, Ns: ns.Ns, }) additionals = append(additionals, xip.fqdnToA(ns.Ns)...) } for _, record := range nameServers { message.Answer = append(message.Answer, record) } for _, record := range additionals { message.Extra = append(message.Extra, record) } } func chunkBy(str string, chunkSize int) (chunks []string) { for chunkSize < len(str) { str, chunks = str[chunkSize:], append(chunks, str[0:chunkSize]) } return append(chunks, str) } func (xip *Xip) handleTXT(question dns.Question, message *dns.Msg) { fqdn := question.Name normalizedFqdn := strings.ToLower(fqdn) if hardcodedRecords[normalizedFqdn].TXT == nil { xip.answerWithAuthority(question, message) return } for _, record := range hardcodedRecords[normalizedFqdn].TXT { message.Answer = append(message.Answer, &dns.TXT{ Hdr: dns.RR_Header{ Ttl: uint32((time.Minute * 5).Seconds()), Name: fqdn, Rrtype: dns.TypeTXT, Class: dns.ClassINET, }, Txt: chunkBy(record, 255), }) } } func (xip *Xip) handleMX(question dns.Question, message *dns.Msg) { fqdn := question.Name normalizedFqdn := strings.ToLower(fqdn) if hardcodedRecords[normalizedFqdn].MX == nil { xip.answerWithAuthority(question, message) return } for _, record := range hardcodedRecords[normalizedFqdn].MX { message.Answer = append(message.Answer, &dns.MX{ Hdr: dns.RR_Header{ Ttl: uint32((time.Minute * 5).Seconds()), Name: fqdn, Rrtype: dns.TypeMX, Class: dns.ClassINET, }, Mx: record.Mx, Preference: record.Preference, }) } } func (xip *Xip) handleCNAME(question dns.Question, message *dns.Msg) { fqdn := question.Name normalizedFqdn := strings.ToLower(fqdn) if hardcodedRecords[normalizedFqdn].CNAME == nil { xip.answerWithAuthority(question, message) return } for _, record := range hardcodedRecords[normalizedFqdn].CNAME { message.Answer = append(message.Answer, &dns.CNAME{ Hdr: dns.RR_Header{ Ttl: uint32((time.Minute * 5).Seconds()), Name: fqdn, Rrtype: dns.TypeCNAME, Class: dns.ClassINET, }, Target: record.Target, }) } } func (xip *Xip) handleSRV(question dns.Question, message *dns.Msg) { fqdn := question.Name normalizedFqdn := strings.ToLower(fqdn) if hardcodedRecords[normalizedFqdn].SRV == nil { xip.answerWithAuthority(question, message) return } message.Answer = append(message.Answer, &dns.SRV{ Hdr: dns.RR_Header{ Ttl: uint32((time.Minute * 5).Seconds()), Name: fqdn, Rrtype: dns.TypeSRV, Class: dns.ClassINET, }, Priority: hardcodedRecords[normalizedFqdn].SRV.Priority, Weight: hardcodedRecords[normalizedFqdn].SRV.Weight, Port: hardcodedRecords[normalizedFqdn].SRV.Port, Target: hardcodedRecords[normalizedFqdn].SRV.Target, }) } func (xip *Xip) handleSOA(question dns.Question, message *dns.Msg) { message.Answer = append(message.Answer, xip.soaRecord(question)) } func (xip *Xip) soaRecord(question dns.Question) *dns.SOA { soa := new(dns.SOA) soa.Hdr = dns.RR_Header{ Name: question.Name, Rrtype: dns.TypeSOA, Class: dns.ClassINET, Ttl: uint32((time.Minute * 5).Seconds()), Rdlength: 0, } soa.Ns = "ns1.local-ip.sh." soa.Mbox = "admin.local-ip.sh." soa.Serial = 2022102800 soa.Refresh = uint32((time.Minute * 15).Seconds()) soa.Retry = uint32((time.Minute * 15).Seconds()) soa.Expire = uint32((time.Minute * 30).Seconds()) soa.Minttl = uint32((time.Minute * 5).Seconds()) return soa } func (xip *Xip) handleQuery(message *dns.Msg) { for _, question := range message.Question { switch question.Qtype { case dns.TypeA: xip.handleA(question, message) case dns.TypeAAAA: xip.handleAAAA(question, message) case dns.TypeNS: xip.handleNS(question, message) case dns.TypeTXT: xip.handleTXT(question, message) case dns.TypeMX: xip.handleMX(question, message) case dns.TypeCNAME: xip.handleCNAME(question, message) case dns.TypeSRV: xip.handleSRV(question, message) case dns.TypeSOA: xip.handleSOA(question, message) default: xip.handleSOA(question, message) } } } func (xip *Xip) handleDnsRequest(response dns.ResponseWriter, request *dns.Msg) { go func() { message := new(dns.Msg) message.SetReply(request) message.Compress = true message.Authoritative = true message.RecursionAvailable = false switch request.Opcode { case dns.OpcodeQuery: xip.handleQuery(message) default: message.MsgHdr.Rcode = dns.RcodeRefused } error := response.WriteMsg(message) if error != nil { log.Printf("Error writing answer \"%s\": %s\n", message.String(), error.Error()) } }() } func (xip *Xip) StartServer() { err := xip.server.ListenAndServe() defer xip.server.Shutdown() if err != nil { if strings.Contains(err.Error(), "fly-global-services: no such host") { // we're not running on fly, bind to 0.0.0.0 instead port := strings.Split(xip.server.Addr, ":")[1] xip.server = dns.Server{ Addr: fmt.Sprintf(":%s", port), Net: "udp", } xip.StartServer() return } log.Fatalf("Failed to start server: %s\n ", err.Error()) } log.Printf("Listening on %s\n", xip.server.Addr) } func NewXip(port int) (xip *Xip) { xip = &Xip{} for _, ns := range strings.Split(nameservers, ",") { xip.nameServers = append(xip.nameServers, &dns.NS{Ns: ns}) } xip.server = dns.Server{ Addr: fmt.Sprintf("fly-global-services:%d", port), Net: "udp", } dns.HandleFunc(zone, xip.handleDnsRequest) return xip }