lego/vendor/github.com/miekg/dns/zduplicate.go
Ludovic Fernandez 42941ccea6
Refactor the core of the lib (#700)
- Packages
- Isolate code used by the CLI into the package `cmd`
- (experimental) Add e2e tests for HTTP01, TLS-ALPN-01 and DNS-01, use [Pebble](https://github.com/letsencrypt/pebble) and [challtestsrv](https://github.com/letsencrypt/boulder/tree/master/test/challtestsrv) 
- Support non-ascii domain name (punnycode)
- Check all challenges in a predictable order
- No more global exported variables
- Archive revoked certificates
- Fixes revocation for subdomains and non-ascii domains
- Disable pending authorizations
- use pointer for RemoteError/ProblemDetails
- Poll authz URL instead of challenge URL
- The ability for a DNS provider to solve the challenge sequentially
- Check all nameservers in a predictable order
- Option to disable the complete propagation Requirement
- CLI, support for renew with CSR
- CLI, add SAN on renew
- Add command to list certificates.
- Logs every iteration of waiting for the propagation
- update DNSimple client
- update github.com/miekg/dns
2018-12-06 22:50:17 +01:00

943 lines
17 KiB
Go

// Code generated by "go run duplicate_generate.go"; DO NOT EDIT.
package dns
// isDuplicateRdata calls the rdata specific functions
func isDuplicateRdata(r1, r2 RR) bool {
switch r1.Header().Rrtype {
case TypeA:
return isDuplicateA(r1.(*A), r2.(*A))
case TypeAAAA:
return isDuplicateAAAA(r1.(*AAAA), r2.(*AAAA))
case TypeAFSDB:
return isDuplicateAFSDB(r1.(*AFSDB), r2.(*AFSDB))
case TypeAVC:
return isDuplicateAVC(r1.(*AVC), r2.(*AVC))
case TypeCAA:
return isDuplicateCAA(r1.(*CAA), r2.(*CAA))
case TypeCERT:
return isDuplicateCERT(r1.(*CERT), r2.(*CERT))
case TypeCNAME:
return isDuplicateCNAME(r1.(*CNAME), r2.(*CNAME))
case TypeCSYNC:
return isDuplicateCSYNC(r1.(*CSYNC), r2.(*CSYNC))
case TypeDHCID:
return isDuplicateDHCID(r1.(*DHCID), r2.(*DHCID))
case TypeDNAME:
return isDuplicateDNAME(r1.(*DNAME), r2.(*DNAME))
case TypeDNSKEY:
return isDuplicateDNSKEY(r1.(*DNSKEY), r2.(*DNSKEY))
case TypeDS:
return isDuplicateDS(r1.(*DS), r2.(*DS))
case TypeEID:
return isDuplicateEID(r1.(*EID), r2.(*EID))
case TypeEUI48:
return isDuplicateEUI48(r1.(*EUI48), r2.(*EUI48))
case TypeEUI64:
return isDuplicateEUI64(r1.(*EUI64), r2.(*EUI64))
case TypeGID:
return isDuplicateGID(r1.(*GID), r2.(*GID))
case TypeGPOS:
return isDuplicateGPOS(r1.(*GPOS), r2.(*GPOS))
case TypeHINFO:
return isDuplicateHINFO(r1.(*HINFO), r2.(*HINFO))
case TypeHIP:
return isDuplicateHIP(r1.(*HIP), r2.(*HIP))
case TypeKX:
return isDuplicateKX(r1.(*KX), r2.(*KX))
case TypeL32:
return isDuplicateL32(r1.(*L32), r2.(*L32))
case TypeL64:
return isDuplicateL64(r1.(*L64), r2.(*L64))
case TypeLOC:
return isDuplicateLOC(r1.(*LOC), r2.(*LOC))
case TypeLP:
return isDuplicateLP(r1.(*LP), r2.(*LP))
case TypeMB:
return isDuplicateMB(r1.(*MB), r2.(*MB))
case TypeMD:
return isDuplicateMD(r1.(*MD), r2.(*MD))
case TypeMF:
return isDuplicateMF(r1.(*MF), r2.(*MF))
case TypeMG:
return isDuplicateMG(r1.(*MG), r2.(*MG))
case TypeMINFO:
return isDuplicateMINFO(r1.(*MINFO), r2.(*MINFO))
case TypeMR:
return isDuplicateMR(r1.(*MR), r2.(*MR))
case TypeMX:
return isDuplicateMX(r1.(*MX), r2.(*MX))
case TypeNAPTR:
return isDuplicateNAPTR(r1.(*NAPTR), r2.(*NAPTR))
case TypeNID:
return isDuplicateNID(r1.(*NID), r2.(*NID))
case TypeNIMLOC:
return isDuplicateNIMLOC(r1.(*NIMLOC), r2.(*NIMLOC))
case TypeNINFO:
return isDuplicateNINFO(r1.(*NINFO), r2.(*NINFO))
case TypeNS:
return isDuplicateNS(r1.(*NS), r2.(*NS))
case TypeNSAPPTR:
return isDuplicateNSAPPTR(r1.(*NSAPPTR), r2.(*NSAPPTR))
case TypeNSEC:
return isDuplicateNSEC(r1.(*NSEC), r2.(*NSEC))
case TypeNSEC3:
return isDuplicateNSEC3(r1.(*NSEC3), r2.(*NSEC3))
case TypeNSEC3PARAM:
return isDuplicateNSEC3PARAM(r1.(*NSEC3PARAM), r2.(*NSEC3PARAM))
case TypeOPENPGPKEY:
return isDuplicateOPENPGPKEY(r1.(*OPENPGPKEY), r2.(*OPENPGPKEY))
case TypePTR:
return isDuplicatePTR(r1.(*PTR), r2.(*PTR))
case TypePX:
return isDuplicatePX(r1.(*PX), r2.(*PX))
case TypeRKEY:
return isDuplicateRKEY(r1.(*RKEY), r2.(*RKEY))
case TypeRP:
return isDuplicateRP(r1.(*RP), r2.(*RP))
case TypeRRSIG:
return isDuplicateRRSIG(r1.(*RRSIG), r2.(*RRSIG))
case TypeRT:
return isDuplicateRT(r1.(*RT), r2.(*RT))
case TypeSMIMEA:
return isDuplicateSMIMEA(r1.(*SMIMEA), r2.(*SMIMEA))
case TypeSOA:
return isDuplicateSOA(r1.(*SOA), r2.(*SOA))
case TypeSPF:
return isDuplicateSPF(r1.(*SPF), r2.(*SPF))
case TypeSRV:
return isDuplicateSRV(r1.(*SRV), r2.(*SRV))
case TypeSSHFP:
return isDuplicateSSHFP(r1.(*SSHFP), r2.(*SSHFP))
case TypeTA:
return isDuplicateTA(r1.(*TA), r2.(*TA))
case TypeTALINK:
return isDuplicateTALINK(r1.(*TALINK), r2.(*TALINK))
case TypeTKEY:
return isDuplicateTKEY(r1.(*TKEY), r2.(*TKEY))
case TypeTLSA:
return isDuplicateTLSA(r1.(*TLSA), r2.(*TLSA))
case TypeTSIG:
return isDuplicateTSIG(r1.(*TSIG), r2.(*TSIG))
case TypeTXT:
return isDuplicateTXT(r1.(*TXT), r2.(*TXT))
case TypeUID:
return isDuplicateUID(r1.(*UID), r2.(*UID))
case TypeUINFO:
return isDuplicateUINFO(r1.(*UINFO), r2.(*UINFO))
case TypeURI:
return isDuplicateURI(r1.(*URI), r2.(*URI))
case TypeX25:
return isDuplicateX25(r1.(*X25), r2.(*X25))
}
return false
}
// isDuplicate() functions
func isDuplicateA(r1, r2 *A) bool {
if len(r1.A) != len(r2.A) {
return false
}
for i := 0; i < len(r1.A); i++ {
if r1.A[i] != r2.A[i] {
return false
}
}
return true
}
func isDuplicateAAAA(r1, r2 *AAAA) bool {
if len(r1.AAAA) != len(r2.AAAA) {
return false
}
for i := 0; i < len(r1.AAAA); i++ {
if r1.AAAA[i] != r2.AAAA[i] {
return false
}
}
return true
}
func isDuplicateAFSDB(r1, r2 *AFSDB) bool {
if r1.Subtype != r2.Subtype {
return false
}
if !isDulicateName(r1.Hostname, r2.Hostname) {
return false
}
return true
}
func isDuplicateAVC(r1, r2 *AVC) bool {
if len(r1.Txt) != len(r2.Txt) {
return false
}
for i := 0; i < len(r1.Txt); i++ {
if r1.Txt[i] != r2.Txt[i] {
return false
}
}
return true
}
func isDuplicateCAA(r1, r2 *CAA) bool {
if r1.Flag != r2.Flag {
return false
}
if r1.Tag != r2.Tag {
return false
}
if r1.Value != r2.Value {
return false
}
return true
}
func isDuplicateCERT(r1, r2 *CERT) bool {
if r1.Type != r2.Type {
return false
}
if r1.KeyTag != r2.KeyTag {
return false
}
if r1.Algorithm != r2.Algorithm {
return false
}
if r1.Certificate != r2.Certificate {
return false
}
return true
}
func isDuplicateCNAME(r1, r2 *CNAME) bool {
if !isDulicateName(r1.Target, r2.Target) {
return false
}
return true
}
func isDuplicateCSYNC(r1, r2 *CSYNC) bool {
if r1.Serial != r2.Serial {
return false
}
if r1.Flags != r2.Flags {
return false
}
if len(r1.TypeBitMap) != len(r2.TypeBitMap) {
return false
}
for i := 0; i < len(r1.TypeBitMap); i++ {
if r1.TypeBitMap[i] != r2.TypeBitMap[i] {
return false
}
}
return true
}
func isDuplicateDHCID(r1, r2 *DHCID) bool {
if r1.Digest != r2.Digest {
return false
}
return true
}
func isDuplicateDNAME(r1, r2 *DNAME) bool {
if !isDulicateName(r1.Target, r2.Target) {
return false
}
return true
}
func isDuplicateDNSKEY(r1, r2 *DNSKEY) bool {
if r1.Flags != r2.Flags {
return false
}
if r1.Protocol != r2.Protocol {
return false
}
if r1.Algorithm != r2.Algorithm {
return false
}
if r1.PublicKey != r2.PublicKey {
return false
}
return true
}
func isDuplicateDS(r1, r2 *DS) bool {
if r1.KeyTag != r2.KeyTag {
return false
}
if r1.Algorithm != r2.Algorithm {
return false
}
if r1.DigestType != r2.DigestType {
return false
}
if r1.Digest != r2.Digest {
return false
}
return true
}
func isDuplicateEID(r1, r2 *EID) bool {
if r1.Endpoint != r2.Endpoint {
return false
}
return true
}
func isDuplicateEUI48(r1, r2 *EUI48) bool {
if r1.Address != r2.Address {
return false
}
return true
}
func isDuplicateEUI64(r1, r2 *EUI64) bool {
if r1.Address != r2.Address {
return false
}
return true
}
func isDuplicateGID(r1, r2 *GID) bool {
if r1.Gid != r2.Gid {
return false
}
return true
}
func isDuplicateGPOS(r1, r2 *GPOS) bool {
if r1.Longitude != r2.Longitude {
return false
}
if r1.Latitude != r2.Latitude {
return false
}
if r1.Altitude != r2.Altitude {
return false
}
return true
}
func isDuplicateHINFO(r1, r2 *HINFO) bool {
if r1.Cpu != r2.Cpu {
return false
}
if r1.Os != r2.Os {
return false
}
return true
}
func isDuplicateHIP(r1, r2 *HIP) bool {
if r1.HitLength != r2.HitLength {
return false
}
if r1.PublicKeyAlgorithm != r2.PublicKeyAlgorithm {
return false
}
if r1.PublicKeyLength != r2.PublicKeyLength {
return false
}
if r1.Hit != r2.Hit {
return false
}
if r1.PublicKey != r2.PublicKey {
return false
}
if len(r1.RendezvousServers) != len(r2.RendezvousServers) {
return false
}
for i := 0; i < len(r1.RendezvousServers); i++ {
if !isDulicateName(r1.RendezvousServers[i], r2.RendezvousServers[i]) {
return false
}
}
return true
}
func isDuplicateKX(r1, r2 *KX) bool {
if r1.Preference != r2.Preference {
return false
}
if !isDulicateName(r1.Exchanger, r2.Exchanger) {
return false
}
return true
}
func isDuplicateL32(r1, r2 *L32) bool {
if r1.Preference != r2.Preference {
return false
}
if len(r1.Locator32) != len(r2.Locator32) {
return false
}
for i := 0; i < len(r1.Locator32); i++ {
if r1.Locator32[i] != r2.Locator32[i] {
return false
}
}
return true
}
func isDuplicateL64(r1, r2 *L64) bool {
if r1.Preference != r2.Preference {
return false
}
if r1.Locator64 != r2.Locator64 {
return false
}
return true
}
func isDuplicateLOC(r1, r2 *LOC) bool {
if r1.Version != r2.Version {
return false
}
if r1.Size != r2.Size {
return false
}
if r1.HorizPre != r2.HorizPre {
return false
}
if r1.VertPre != r2.VertPre {
return false
}
if r1.Latitude != r2.Latitude {
return false
}
if r1.Longitude != r2.Longitude {
return false
}
if r1.Altitude != r2.Altitude {
return false
}
return true
}
func isDuplicateLP(r1, r2 *LP) bool {
if r1.Preference != r2.Preference {
return false
}
if !isDulicateName(r1.Fqdn, r2.Fqdn) {
return false
}
return true
}
func isDuplicateMB(r1, r2 *MB) bool {
if !isDulicateName(r1.Mb, r2.Mb) {
return false
}
return true
}
func isDuplicateMD(r1, r2 *MD) bool {
if !isDulicateName(r1.Md, r2.Md) {
return false
}
return true
}
func isDuplicateMF(r1, r2 *MF) bool {
if !isDulicateName(r1.Mf, r2.Mf) {
return false
}
return true
}
func isDuplicateMG(r1, r2 *MG) bool {
if !isDulicateName(r1.Mg, r2.Mg) {
return false
}
return true
}
func isDuplicateMINFO(r1, r2 *MINFO) bool {
if !isDulicateName(r1.Rmail, r2.Rmail) {
return false
}
if !isDulicateName(r1.Email, r2.Email) {
return false
}
return true
}
func isDuplicateMR(r1, r2 *MR) bool {
if !isDulicateName(r1.Mr, r2.Mr) {
return false
}
return true
}
func isDuplicateMX(r1, r2 *MX) bool {
if r1.Preference != r2.Preference {
return false
}
if !isDulicateName(r1.Mx, r2.Mx) {
return false
}
return true
}
func isDuplicateNAPTR(r1, r2 *NAPTR) bool {
if r1.Order != r2.Order {
return false
}
if r1.Preference != r2.Preference {
return false
}
if r1.Flags != r2.Flags {
return false
}
if r1.Service != r2.Service {
return false
}
if r1.Regexp != r2.Regexp {
return false
}
if !isDulicateName(r1.Replacement, r2.Replacement) {
return false
}
return true
}
func isDuplicateNID(r1, r2 *NID) bool {
if r1.Preference != r2.Preference {
return false
}
if r1.NodeID != r2.NodeID {
return false
}
return true
}
func isDuplicateNIMLOC(r1, r2 *NIMLOC) bool {
if r1.Locator != r2.Locator {
return false
}
return true
}
func isDuplicateNINFO(r1, r2 *NINFO) bool {
if len(r1.ZSData) != len(r2.ZSData) {
return false
}
for i := 0; i < len(r1.ZSData); i++ {
if r1.ZSData[i] != r2.ZSData[i] {
return false
}
}
return true
}
func isDuplicateNS(r1, r2 *NS) bool {
if !isDulicateName(r1.Ns, r2.Ns) {
return false
}
return true
}
func isDuplicateNSAPPTR(r1, r2 *NSAPPTR) bool {
if !isDulicateName(r1.Ptr, r2.Ptr) {
return false
}
return true
}
func isDuplicateNSEC(r1, r2 *NSEC) bool {
if !isDulicateName(r1.NextDomain, r2.NextDomain) {
return false
}
if len(r1.TypeBitMap) != len(r2.TypeBitMap) {
return false
}
for i := 0; i < len(r1.TypeBitMap); i++ {
if r1.TypeBitMap[i] != r2.TypeBitMap[i] {
return false
}
}
return true
}
func isDuplicateNSEC3(r1, r2 *NSEC3) bool {
if r1.Hash != r2.Hash {
return false
}
if r1.Flags != r2.Flags {
return false
}
if r1.Iterations != r2.Iterations {
return false
}
if r1.SaltLength != r2.SaltLength {
return false
}
if r1.Salt != r2.Salt {
return false
}
if r1.HashLength != r2.HashLength {
return false
}
if r1.NextDomain != r2.NextDomain {
return false
}
if len(r1.TypeBitMap) != len(r2.TypeBitMap) {
return false
}
for i := 0; i < len(r1.TypeBitMap); i++ {
if r1.TypeBitMap[i] != r2.TypeBitMap[i] {
return false
}
}
return true
}
func isDuplicateNSEC3PARAM(r1, r2 *NSEC3PARAM) bool {
if r1.Hash != r2.Hash {
return false
}
if r1.Flags != r2.Flags {
return false
}
if r1.Iterations != r2.Iterations {
return false
}
if r1.SaltLength != r2.SaltLength {
return false
}
if r1.Salt != r2.Salt {
return false
}
return true
}
func isDuplicateOPENPGPKEY(r1, r2 *OPENPGPKEY) bool {
if r1.PublicKey != r2.PublicKey {
return false
}
return true
}
func isDuplicatePTR(r1, r2 *PTR) bool {
if !isDulicateName(r1.Ptr, r2.Ptr) {
return false
}
return true
}
func isDuplicatePX(r1, r2 *PX) bool {
if r1.Preference != r2.Preference {
return false
}
if !isDulicateName(r1.Map822, r2.Map822) {
return false
}
if !isDulicateName(r1.Mapx400, r2.Mapx400) {
return false
}
return true
}
func isDuplicateRKEY(r1, r2 *RKEY) bool {
if r1.Flags != r2.Flags {
return false
}
if r1.Protocol != r2.Protocol {
return false
}
if r1.Algorithm != r2.Algorithm {
return false
}
if r1.PublicKey != r2.PublicKey {
return false
}
return true
}
func isDuplicateRP(r1, r2 *RP) bool {
if !isDulicateName(r1.Mbox, r2.Mbox) {
return false
}
if !isDulicateName(r1.Txt, r2.Txt) {
return false
}
return true
}
func isDuplicateRRSIG(r1, r2 *RRSIG) bool {
if r1.TypeCovered != r2.TypeCovered {
return false
}
if r1.Algorithm != r2.Algorithm {
return false
}
if r1.Labels != r2.Labels {
return false
}
if r1.OrigTtl != r2.OrigTtl {
return false
}
if r1.Expiration != r2.Expiration {
return false
}
if r1.Inception != r2.Inception {
return false
}
if r1.KeyTag != r2.KeyTag {
return false
}
if !isDulicateName(r1.SignerName, r2.SignerName) {
return false
}
if r1.Signature != r2.Signature {
return false
}
return true
}
func isDuplicateRT(r1, r2 *RT) bool {
if r1.Preference != r2.Preference {
return false
}
if !isDulicateName(r1.Host, r2.Host) {
return false
}
return true
}
func isDuplicateSMIMEA(r1, r2 *SMIMEA) bool {
if r1.Usage != r2.Usage {
return false
}
if r1.Selector != r2.Selector {
return false
}
if r1.MatchingType != r2.MatchingType {
return false
}
if r1.Certificate != r2.Certificate {
return false
}
return true
}
func isDuplicateSOA(r1, r2 *SOA) bool {
if !isDulicateName(r1.Ns, r2.Ns) {
return false
}
if !isDulicateName(r1.Mbox, r2.Mbox) {
return false
}
if r1.Serial != r2.Serial {
return false
}
if r1.Refresh != r2.Refresh {
return false
}
if r1.Retry != r2.Retry {
return false
}
if r1.Expire != r2.Expire {
return false
}
if r1.Minttl != r2.Minttl {
return false
}
return true
}
func isDuplicateSPF(r1, r2 *SPF) bool {
if len(r1.Txt) != len(r2.Txt) {
return false
}
for i := 0; i < len(r1.Txt); i++ {
if r1.Txt[i] != r2.Txt[i] {
return false
}
}
return true
}
func isDuplicateSRV(r1, r2 *SRV) bool {
if r1.Priority != r2.Priority {
return false
}
if r1.Weight != r2.Weight {
return false
}
if r1.Port != r2.Port {
return false
}
if !isDulicateName(r1.Target, r2.Target) {
return false
}
return true
}
func isDuplicateSSHFP(r1, r2 *SSHFP) bool {
if r1.Algorithm != r2.Algorithm {
return false
}
if r1.Type != r2.Type {
return false
}
if r1.FingerPrint != r2.FingerPrint {
return false
}
return true
}
func isDuplicateTA(r1, r2 *TA) bool {
if r1.KeyTag != r2.KeyTag {
return false
}
if r1.Algorithm != r2.Algorithm {
return false
}
if r1.DigestType != r2.DigestType {
return false
}
if r1.Digest != r2.Digest {
return false
}
return true
}
func isDuplicateTALINK(r1, r2 *TALINK) bool {
if !isDulicateName(r1.PreviousName, r2.PreviousName) {
return false
}
if !isDulicateName(r1.NextName, r2.NextName) {
return false
}
return true
}
func isDuplicateTKEY(r1, r2 *TKEY) bool {
if !isDulicateName(r1.Algorithm, r2.Algorithm) {
return false
}
if r1.Inception != r2.Inception {
return false
}
if r1.Expiration != r2.Expiration {
return false
}
if r1.Mode != r2.Mode {
return false
}
if r1.Error != r2.Error {
return false
}
if r1.KeySize != r2.KeySize {
return false
}
if r1.Key != r2.Key {
return false
}
if r1.OtherLen != r2.OtherLen {
return false
}
if r1.OtherData != r2.OtherData {
return false
}
return true
}
func isDuplicateTLSA(r1, r2 *TLSA) bool {
if r1.Usage != r2.Usage {
return false
}
if r1.Selector != r2.Selector {
return false
}
if r1.MatchingType != r2.MatchingType {
return false
}
if r1.Certificate != r2.Certificate {
return false
}
return true
}
func isDuplicateTSIG(r1, r2 *TSIG) bool {
if !isDulicateName(r1.Algorithm, r2.Algorithm) {
return false
}
if r1.TimeSigned != r2.TimeSigned {
return false
}
if r1.Fudge != r2.Fudge {
return false
}
if r1.MACSize != r2.MACSize {
return false
}
if r1.MAC != r2.MAC {
return false
}
if r1.OrigId != r2.OrigId {
return false
}
if r1.Error != r2.Error {
return false
}
if r1.OtherLen != r2.OtherLen {
return false
}
if r1.OtherData != r2.OtherData {
return false
}
return true
}
func isDuplicateTXT(r1, r2 *TXT) bool {
if len(r1.Txt) != len(r2.Txt) {
return false
}
for i := 0; i < len(r1.Txt); i++ {
if r1.Txt[i] != r2.Txt[i] {
return false
}
}
return true
}
func isDuplicateUID(r1, r2 *UID) bool {
if r1.Uid != r2.Uid {
return false
}
return true
}
func isDuplicateUINFO(r1, r2 *UINFO) bool {
if r1.Uinfo != r2.Uinfo {
return false
}
return true
}
func isDuplicateURI(r1, r2 *URI) bool {
if r1.Priority != r2.Priority {
return false
}
if r1.Weight != r2.Weight {
return false
}
if r1.Target != r2.Target {
return false
}
return true
}
func isDuplicateX25(r1, r2 *X25) bool {
if r1.PSDNAddress != r2.PSDNAddress {
return false
}
return true
}