badguardhome/dnsforward/dnsforward.go

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package dnsforward
import (
"crypto/tls"
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"errors"
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"fmt"
"net"
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"net/http"
"strings"
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"sync"
"time"
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"github.com/AdguardTeam/AdGuardHome/dnsfilter"
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"github.com/AdguardTeam/dnsproxy/proxy"
"github.com/AdguardTeam/dnsproxy/upstream"
"github.com/hmage/golibs/log"
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"github.com/joomcode/errorx"
"github.com/miekg/dns"
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)
// DefaultTimeout is the default upstream timeout
const DefaultTimeout = 10 * time.Second
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const (
safeBrowsingBlockHost = "standard-block.dns.adguard.com"
parentalBlockHost = "family-block.dns.adguard.com"
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)
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// Server is the main way to start a DNS server.
//
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// Example:
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// s := dnsforward.Server{}
// err := s.Start(nil) // will start a DNS server listening on default port 53, in a goroutine
// err := s.Reconfigure(ServerConfig{UDPListenAddr: &net.UDPAddr{Port: 53535}}) // will reconfigure running DNS server to listen on UDP port 53535
// err := s.Stop() // will stop listening on port 53535 and cancel all goroutines
// err := s.Start(nil) // will start listening again, on port 53535, in a goroutine
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//
// The zero Server is empty and ready for use.
type Server struct {
dnsProxy *proxy.Proxy // DNS proxy instance
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dnsFilter *dnsfilter.Dnsfilter // DNS filter instance
queryLog *queryLog // Query log instance
stats *stats // General server statistics
once sync.Once
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sync.RWMutex
ServerConfig
}
// NewServer creates a new instance of the dnsforward.Server
// baseDir is the base directory for query logs
func NewServer(baseDir string) *Server {
return &Server{
queryLog: newQueryLog(baseDir),
stats: newStats(),
}
}
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// FilteringConfig represents the DNS filtering configuration of AdGuard Home
// The zero FilteringConfig is empty and ready for use.
type FilteringConfig struct {
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ProtectionEnabled bool `yaml:"protection_enabled"` // whether or not use any of dnsfilter features
FilteringEnabled bool `yaml:"filtering_enabled"` // whether or not use filter lists
BlockedResponseTTL uint32 `yaml:"blocked_response_ttl"` // if 0, then default is used (3600)
QueryLogEnabled bool `yaml:"querylog_enabled"`
Ratelimit int `yaml:"ratelimit"`
RatelimitWhitelist []string `yaml:"ratelimit_whitelist"`
RefuseAny bool `yaml:"refuse_any"`
BootstrapDNS string `yaml:"bootstrap_dns"`
dnsfilter.Config `yaml:",inline"`
}
// TLSConfig is the TLS configuration for HTTPS, DNS-over-HTTPS, and DNS-over-TLS
type TLSConfig struct {
TLSListenAddr *net.TCPAddr `yaml:"-" json:"-"`
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CertificateChain string `yaml:"certificate_chain" json:"certificate_chain"` // PEM-encoded certificates chain
PrivateKey string `yaml:"private_key" json:"private_key"` // PEM-encoded private key
}
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// ServerConfig represents server configuration.
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// The zero ServerConfig is empty and ready for use.
type ServerConfig struct {
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UDPListenAddr *net.UDPAddr // UDP listen address
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TCPListenAddr *net.TCPAddr // TCP listen address
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Upstreams []upstream.Upstream // Configured upstreams
Filters []dnsfilter.Filter // A list of filters to use
FilteringConfig
TLSConfig
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}
// if any of ServerConfig values are zero, then default values from below are used
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var defaultValues = ServerConfig{
UDPListenAddr: &net.UDPAddr{Port: 53},
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TCPListenAddr: &net.TCPAddr{Port: 53},
FilteringConfig: FilteringConfig{BlockedResponseTTL: 3600},
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}
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func init() {
defaultDNS := []string{"8.8.8.8:53", "8.8.4.4:53"}
defaultUpstreams := make([]upstream.Upstream, 0)
for _, addr := range defaultDNS {
u, err := upstream.AddressToUpstream(addr, "", DefaultTimeout)
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if err == nil {
defaultUpstreams = append(defaultUpstreams, u)
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}
}
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defaultValues.Upstreams = defaultUpstreams
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}
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// Start starts the DNS server
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func (s *Server) Start(config *ServerConfig) error {
s.Lock()
defer s.Unlock()
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return s.startInternal(config)
}
// startInternal starts without locking
func (s *Server) startInternal(config *ServerConfig) error {
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if config != nil {
s.ServerConfig = *config
}
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if s.dnsFilter != nil || s.dnsProxy != nil {
return errors.New("DNS server is already started")
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}
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if s.queryLog == nil {
s.queryLog = newQueryLog(".")
}
if s.stats == nil {
s.stats = newStats()
}
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err := s.initDNSFilter()
if err != nil {
return err
}
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log.Tracef("Loading stats from querylog")
err = s.queryLog.fillStatsFromQueryLog(s.stats)
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if err != nil {
return errorx.Decorate(err, "failed to load stats from querylog")
}
// TODO: Think about reworking this, the current approach won't work properly if AG Home is restarted periodically
s.once.Do(func() {
log.Printf("Start DNS server periodic jobs")
go s.queryLog.periodicQueryLogRotate()
go s.queryLog.runningTop.periodicHourlyTopRotate()
go s.stats.statsRotator()
})
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proxyConfig := proxy.Config{
UDPListenAddr: s.UDPListenAddr,
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TCPListenAddr: s.TCPListenAddr,
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Ratelimit: s.Ratelimit,
RatelimitWhitelist: s.RatelimitWhitelist,
RefuseAny: s.RefuseAny,
CacheEnabled: true,
Upstreams: s.Upstreams,
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Handler: s.handleDNSRequest,
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}
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if s.TLSListenAddr != nil && s.CertificateChain != "" && s.PrivateKey != "" {
proxyConfig.TLSListenAddr = s.TLSListenAddr
keypair, err := tls.X509KeyPair([]byte(s.CertificateChain), []byte(s.PrivateKey))
if err != nil {
return errorx.Decorate(err, "Failed to parse TLS keypair")
}
proxyConfig.TLSConfig = &tls.Config{Certificates: []tls.Certificate{keypair}}
}
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if proxyConfig.UDPListenAddr == nil {
proxyConfig.UDPListenAddr = defaultValues.UDPListenAddr
}
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if proxyConfig.TCPListenAddr == nil {
proxyConfig.TCPListenAddr = defaultValues.TCPListenAddr
}
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if len(proxyConfig.Upstreams) == 0 {
proxyConfig.Upstreams = defaultValues.Upstreams
}
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// Initialize and start the DNS proxy
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s.dnsProxy = &proxy.Proxy{Config: proxyConfig}
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return s.dnsProxy.Start()
}
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// Initializes the DNS filter
func (s *Server) initDNSFilter() error {
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log.Tracef("Creating dnsfilter")
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s.dnsFilter = dnsfilter.New(&s.Config)
// add rules only if they are enabled
if s.FilteringEnabled {
err := s.dnsFilter.AddRules(s.Filters)
if err != nil {
return errorx.Decorate(err, "could not initialize dnsfilter")
}
}
return nil
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}
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// Stop stops the DNS server
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func (s *Server) Stop() error {
s.Lock()
defer s.Unlock()
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return s.stopInternal()
}
// stopInternal stops without locking
func (s *Server) stopInternal() error {
if s.dnsProxy != nil {
err := s.dnsProxy.Stop()
s.dnsProxy = nil
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if err != nil {
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return errorx.Decorate(err, "could not stop the DNS server properly")
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}
}
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if s.dnsFilter != nil {
s.dnsFilter.Destroy()
s.dnsFilter = nil
}
// flush remainder to file
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return s.queryLog.flushLogBuffer()
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}
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// IsRunning returns true if the DNS server is running
func (s *Server) IsRunning() bool {
s.RLock()
isRunning := true
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if s.dnsProxy == nil {
isRunning = false
}
s.RUnlock()
return isRunning
}
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// Reconfigure applies the new configuration to the DNS server
func (s *Server) Reconfigure(config *ServerConfig) error {
s.Lock()
defer s.Unlock()
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log.Print("Start reconfiguring the server")
err := s.stopInternal()
if err != nil {
return errorx.Decorate(err, "could not reconfigure the server")
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}
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err = s.startInternal(config)
if err != nil {
return errorx.Decorate(err, "could not reconfigure the server")
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}
return nil
}
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// ServeHTTP is a HTTP handler method we use to provide DNS-over-HTTPS
func (s *Server) ServeHTTP(w http.ResponseWriter, r *http.Request) {
s.RLock()
s.dnsProxy.ServeHTTP(w, r)
s.RUnlock()
}
// GetQueryLog returns a map with the current query log ready to be converted to a JSON
func (s *Server) GetQueryLog() []map[string]interface{} {
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s.RLock()
defer s.RUnlock()
return s.queryLog.getQueryLog()
}
// GetStatsTop returns the current stop stats
func (s *Server) GetStatsTop() *StatsTop {
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s.RLock()
defer s.RUnlock()
return s.queryLog.runningTop.getStatsTop()
}
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// PurgeStats purges current server stats
func (s *Server) PurgeStats() {
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s.Lock()
defer s.Unlock()
s.stats.purgeStats()
}
// GetAggregatedStats returns aggregated stats data for the 24 hours
func (s *Server) GetAggregatedStats() map[string]interface{} {
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s.RLock()
defer s.RUnlock()
return s.stats.getAggregatedStats()
}
// GetStatsHistory gets stats history aggregated by the specified time unit
// timeUnit is either time.Second, time.Minute, time.Hour, or 24*time.Hour
// start is start of the time range
// end is end of the time range
// returns nil if time unit is not supported
func (s *Server) GetStatsHistory(timeUnit time.Duration, startTime time.Time, endTime time.Time) (map[string]interface{}, error) {
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s.RLock()
defer s.RUnlock()
return s.stats.getStatsHistory(timeUnit, startTime, endTime)
}
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// handleDNSRequest filters the incoming DNS requests and writes them to the query log
func (s *Server) handleDNSRequest(p *proxy.Proxy, d *proxy.DNSContext) error {
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start := time.Now()
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// use dnsfilter before cache -- changed settings or filters would require cache invalidation otherwise
res, err := s.filterDNSRequest(d)
if err != nil {
return err
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}
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if d.Res == nil {
// request was not filtered so let it be processed further
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err = p.Resolve(d)
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if err != nil {
return err
}
}
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shouldLog := true
msg := d.Req
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// don't log ANY request if refuseAny is enabled
if len(msg.Question) >= 1 && msg.Question[0].Qtype == dns.TypeANY && s.RefuseAny {
shouldLog = false
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}
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if s.QueryLogEnabled && shouldLog {
elapsed := time.Since(start)
upstreamAddr := ""
if d.Upstream != nil {
upstreamAddr = d.Upstream.Address()
}
entry := s.queryLog.logRequest(msg, d.Res, res, elapsed, d.Addr, upstreamAddr)
if entry != nil {
s.stats.incrementCounters(entry)
}
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}
return nil
}
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// filterDNSRequest applies the dnsFilter and sets d.Res if the request was filtered
func (s *Server) filterDNSRequest(d *proxy.DNSContext) (*dnsfilter.Result, error) {
msg := d.Req
host := strings.TrimSuffix(msg.Question[0].Name, ".")
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s.RLock()
protectionEnabled := s.ProtectionEnabled
dnsFilter := s.dnsFilter
s.RUnlock()
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if !protectionEnabled {
return nil, nil
}
var res dnsfilter.Result
var err error
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res, err = dnsFilter.CheckHost(host)
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if err != nil {
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// Return immediately if there's an error
return nil, errorx.Decorate(err, "dnsfilter failed to check host '%s'", host)
} else if res.IsFiltered {
// log.Tracef("Host %s is filtered, reason - '%s', matched rule: '%s'", host, res.Reason, res.Rule)
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d.Res = s.genDNSFilterMessage(d, &res)
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}
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return &res, err
}
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// genDNSFilterMessage generates a DNS message corresponding to the filtering result
func (s *Server) genDNSFilterMessage(d *proxy.DNSContext, result *dnsfilter.Result) *dns.Msg {
m := d.Req
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if m.Question[0].Qtype != dns.TypeA {
return s.genNXDomain(m)
}
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switch result.Reason {
case dnsfilter.FilteredSafeBrowsing:
return s.genBlockedHost(m, safeBrowsingBlockHost, d.Upstream)
case dnsfilter.FilteredParental:
return s.genBlockedHost(m, parentalBlockHost, d.Upstream)
default:
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if result.IP != nil {
return s.genARecord(m, result.IP)
}
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return s.genNXDomain(m)
}
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}
func (s *Server) genServerFailure(request *dns.Msg) *dns.Msg {
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resp := dns.Msg{}
resp.SetRcode(request, dns.RcodeServerFailure)
resp.RecursionAvailable = true
return &resp
}
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func (s *Server) genARecord(request *dns.Msg, ip net.IP) *dns.Msg {
resp := dns.Msg{}
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resp.SetReply(request)
answer, err := dns.NewRR(fmt.Sprintf("%s %d A %s", request.Question[0].Name, s.BlockedResponseTTL, ip.String()))
if err != nil {
log.Printf("Couldn't generate A record for replacement host '%s': %s", ip.String(), err)
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return s.genServerFailure(request)
}
resp.Answer = append(resp.Answer, answer)
return &resp
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}
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func (s *Server) genBlockedHost(request *dns.Msg, newAddr string, upstream upstream.Upstream) *dns.Msg {
// look up the hostname, TODO: cache
replReq := dns.Msg{}
replReq.SetQuestion(dns.Fqdn(newAddr), request.Question[0].Qtype)
replReq.RecursionDesired = true
reply, err := upstream.Exchange(&replReq)
if err != nil {
log.Printf("Couldn't look up replacement host '%s' on upstream %s: %s", newAddr, upstream.Address(), err)
return s.genServerFailure(request)
}
resp := dns.Msg{}
resp.SetReply(request)
resp.Authoritative, resp.RecursionAvailable = true, true
if reply != nil {
for _, answer := range reply.Answer {
answer.Header().Name = request.Question[0].Name
resp.Answer = append(resp.Answer, answer)
}
}
return &resp
}
func (s *Server) genNXDomain(request *dns.Msg) *dns.Msg {
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resp := dns.Msg{}
resp.SetRcode(request, dns.RcodeNameError)
resp.RecursionAvailable = true
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resp.Ns = s.genSOA(request)
return &resp
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}
func (s *Server) genSOA(request *dns.Msg) []dns.RR {
zone := ""
if len(request.Question) > 0 {
zone = request.Question[0].Name
}
soa := dns.SOA{
// values copied from verisign's nonexistent .com domain
// their exact values are not important in our use case because they are used for domain transfers between primary/secondary DNS servers
Refresh: 1800,
Retry: 900,
Expire: 604800,
Minttl: 86400,
// copied from AdGuard DNS
Ns: "fake-for-negative-caching.adguard.com.",
Serial: 100500,
// rest is request-specific
Hdr: dns.RR_Header{
Name: zone,
Rrtype: dns.TypeSOA,
Ttl: s.BlockedResponseTTL,
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Class: dns.ClassINET,
},
Mbox: "hostmaster.", // zone will be appended later if it's not empty or "."
}
if soa.Hdr.Ttl == 0 {
soa.Hdr.Ttl = defaultValues.BlockedResponseTTL
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}
if len(zone) > 0 && zone[0] != '.' {
soa.Mbox += zone
}
return []dns.RR{&soa}
}