package bind /* bind - Generate zonefiles suitiable for BIND. The zonefiles are read and written to the directory -bind_dir If the old zonefiles are readable, we read them to determine if an update is actually needed. The old zonefile is also used as the basis for generating the new SOA serial number. */ import ( "bytes" "encoding/json" "fmt" "log" "os" "path/filepath" "strings" "github.com/miekg/dns" "github.com/miekg/dns/dnsutil" "github.com/StackExchange/dnscontrol/models" "github.com/StackExchange/dnscontrol/providers" "github.com/StackExchange/dnscontrol/providers/diff" ) var docNotes = providers.DocumentationNotes{ providers.DocDualHost: providers.Can(), providers.DocCreateDomains: providers.Can("Driver just maintains list of zone files. It should automatically add missing ones."), providers.DocOfficiallySupported: providers.Can(), } func initBind(config map[string]string, providermeta json.RawMessage) (providers.DNSServiceProvider, error) { // config -- the key/values from creds.json // meta -- the json blob from NewReq('name', 'TYPE', meta) api := &Bind{ directory: config["directory"], } if api.directory == "" { api.directory = "zones" } if len(providermeta) != 0 { err := json.Unmarshal(providermeta, api) if err != nil { return nil, err } } api.nameservers = models.StringsToNameservers(api.DefaultNS) return api, nil } func init() { providers.RegisterDomainServiceProviderType("BIND", initBind, providers.CanUsePTR, providers.CanUseSRV, providers.CanUseCAA, providers.CantUseNOPURGE, docNotes) } type SoaInfo struct { Ns string `json:"master"` Mbox string `json:"mbox"` Serial uint32 `json:"serial"` Refresh uint32 `json:"refresh"` Retry uint32 `json:"retry"` Expire uint32 `json:"expire"` Minttl uint32 `json:"minttl"` } func (s SoaInfo) String() string { return fmt.Sprintf("%s %s %d %d %d %d %d", s.Ns, s.Mbox, s.Serial, s.Refresh, s.Retry, s.Expire, s.Minttl) } type Bind struct { DefaultNS []string `json:"default_ns"` DefaultSoa SoaInfo `json:"default_soa"` nameservers []*models.Nameserver directory string } //var bindSkeletin = flag.String("bind_skeletin", "skeletin/master/var/named/chroot/var/named/master", "") func rrToRecord(rr dns.RR, origin string, replaceSerial uint32) (models.RecordConfig, uint32) { // Convert's dns.RR into our native data type (models.RecordConfig). // Records are translated directly with no changes. // If it is an SOA for the apex domain and // replaceSerial != 0, change the serial to replaceSerial. // WARNING(tlim): This assumes SOAs do not have serial=0. // If one is found, we replace it with serial=1. var old_serial, new_serial uint32 header := rr.Header() rc := models.RecordConfig{} rc.Type = dns.TypeToString[header.Rrtype] rc.NameFQDN = strings.ToLower(strings.TrimSuffix(header.Name, ".")) rc.Name = strings.ToLower(dnsutil.TrimDomainName(header.Name, origin)) rc.TTL = header.Ttl switch v := rr.(type) { // #rtype_variations case *dns.A: rc.Target = v.A.String() case *dns.AAAA: rc.Target = v.AAAA.String() case *dns.CAA: rc.CaaTag = v.Tag rc.CaaFlag = v.Flag rc.Target = v.Value case *dns.CNAME: rc.Target = v.Target case *dns.MX: rc.Target = v.Mx rc.MxPreference = v.Preference case *dns.NS: rc.Target = v.Ns case *dns.PTR: rc.Target = v.Ptr case *dns.SOA: old_serial = v.Serial if old_serial == 0 { // For SOA records, we never return a 0 serial number. old_serial = 1 } new_serial = v.Serial if rc.Name == "@" && replaceSerial != 0 { new_serial = replaceSerial } rc.Target = fmt.Sprintf("%v %v %v %v %v %v %v", v.Ns, v.Mbox, new_serial, v.Refresh, v.Retry, v.Expire, v.Minttl) case *dns.SRV: rc.Target = v.Target rc.SrvPort = v.Port rc.SrvWeight = v.Weight rc.SrvPriority = v.Priority case *dns.TXT: rc.Target = strings.Join(v.Txt, " ") default: log.Fatalf("rrToRecord: Unimplemented zone record type=%s (%v)\n", rc.Type, rr) } return rc, old_serial } func makeDefaultSOA(info SoaInfo, origin string) *models.RecordConfig { // Make a default SOA record in case one isn't found: soaRec := models.RecordConfig{ Type: "SOA", Name: "@", } soaRec.NameFQDN = dnsutil.AddOrigin(soaRec.Name, origin) if len(info.Ns) == 0 { info.Ns = "DEFAULT_NOT_SET." } if len(info.Mbox) == 0 { info.Mbox = "DEFAULT_NOT_SET." } if info.Serial == 0 { info.Serial = 1 } if info.Refresh == 0 { info.Refresh = 3600 } if info.Retry == 0 { info.Retry = 600 } if info.Expire == 0 { info.Expire = 604800 } if info.Minttl == 0 { info.Minttl = 1440 } soaRec.Target = info.String() return &soaRec } func (c *Bind) GetNameservers(string) ([]*models.Nameserver, error) { return c.nameservers, nil } func (c *Bind) GetDomainCorrections(dc *models.DomainConfig) ([]*models.Correction, error) { dc.Punycode() // Phase 1: Copy everything to []*models.RecordConfig: // expectedRecords < dc.Records[i] // foundRecords < zonefile // // Phase 2: Do any manipulations: // add NS // manipulate SOA // // Phase 3: Convert to []diff.Records and compare: // expectedDiffRecords < expectedRecords // foundDiffRecords < foundRecords // diff.Inc...(foundDiffRecords, expectedDiffRecords ) // Default SOA record. If we see one in the zone, this will be replaced. soaRec := makeDefaultSOA(c.DefaultSoa, dc.Name) // Read foundRecords: foundRecords := make([]*models.RecordConfig, 0) var oldSerial, newSerial uint32 zonefile := filepath.Join(c.directory, strings.Replace(strings.ToLower(dc.Name), "/", "_", -1)+".zone") foundFH, err := os.Open(zonefile) zoneFileFound := err == nil if err != nil && !os.IsNotExist(os.ErrNotExist) { // Don't whine if the file doesn't exist. However all other // errors will be reported. fmt.Printf("Could not read zonefile: %v\n", err) } else { for x := range dns.ParseZone(foundFH, dc.Name, zonefile) { if x.Error != nil { log.Println("Error in zonefile:", x.Error) } else { rec, serial := rrToRecord(x.RR, dc.Name, oldSerial) if serial != 0 && oldSerial != 0 { log.Fatalf("Multiple SOA records in zonefile: %v\n", zonefile) } if serial != 0 { // This was an SOA record. Update the serial. oldSerial = serial newSerial = generate_serial(oldSerial) // Regenerate with new serial: *soaRec, _ = rrToRecord(x.RR, dc.Name, newSerial) rec = *soaRec } foundRecords = append(foundRecords, &rec) } } } // Add SOA record to expected set: if !dc.HasRecordTypeName("SOA", "@") { dc.Records = append(dc.Records, soaRec) } differ := diff.New(dc) _, create, del, mod := differ.IncrementalDiff(foundRecords) buf := &bytes.Buffer{} // Print a list of changes. Generate an actual change that is the zone changes := false for _, i := range create { changes = true if zoneFileFound { fmt.Fprintln(buf, i) } } for _, i := range del { changes = true if zoneFileFound { fmt.Fprintln(buf, i) } } for _, i := range mod { changes = true if zoneFileFound { fmt.Fprintln(buf, i) } } msg := fmt.Sprintf("GENERATE_ZONEFILE: %s\n", dc.Name) if !zoneFileFound { msg = msg + fmt.Sprintf(" (%d records)\n", len(create)) } msg += buf.String() corrections := []*models.Correction{} if changes { corrections = append(corrections, &models.Correction{ Msg: msg, F: func() error { fmt.Printf("CREATING ZONEFILE: %v\n", zonefile) zf, err := os.Create(zonefile) if err != nil { log.Fatalf("Could not create zonefile: %v", err) } zonefilerecords := make([]dns.RR, 0, len(dc.Records)) for _, r := range dc.Records { zonefilerecords = append(zonefilerecords, r.ToRR()) } err = WriteZoneFile(zf, zonefilerecords, dc.Name) if err != nil { log.Fatalf("WriteZoneFile error: %v\n", err) } err = zf.Close() if err != nil { log.Fatalf("Closing: %v", err) } return nil }, }) } return corrections, nil }