package home import ( "fmt" "net" "path/filepath" "github.com/AdguardTeam/AdGuardHome/dnsfilter" "github.com/AdguardTeam/AdGuardHome/dnsforward" "github.com/AdguardTeam/AdGuardHome/querylog" "github.com/AdguardTeam/AdGuardHome/stats" "github.com/AdguardTeam/AdGuardHome/util" "github.com/AdguardTeam/dnsproxy/proxy" "github.com/AdguardTeam/golibs/log" "github.com/joomcode/errorx" ) // Called by other modules when configuration is changed func onConfigModified() { _ = config.write() } // initDNSServer creates an instance of the dnsforward.Server // Please note that we must do it even if we don't start it // so that we had access to the query log and the stats func initDNSServer() error { var err error baseDir := Context.getDataDir() statsConf := stats.Config{ Filename: filepath.Join(baseDir, "stats.db"), LimitDays: config.DNS.StatsInterval, AnonymizeClientIP: config.DNS.AnonymizeClientIP, ConfigModified: onConfigModified, HTTPRegister: httpRegister, } Context.stats, err = stats.New(statsConf) if err != nil { return fmt.Errorf("couldn't initialize statistics module") } conf := querylog.Config{ Enabled: config.DNS.QueryLogEnabled, FileEnabled: config.DNS.QueryLogFileEnabled, BaseDir: baseDir, Interval: config.DNS.QueryLogInterval, MemSize: config.DNS.QueryLogMemSize, AnonymizeClientIP: config.DNS.AnonymizeClientIP, ConfigModified: onConfigModified, HTTPRegister: httpRegister, } Context.queryLog = querylog.New(conf) filterConf := config.DNS.DnsfilterConf bindhost := config.DNS.BindHost if config.DNS.BindHost == "0.0.0.0" { bindhost = "127.0.0.1" } filterConf.ResolverAddress = fmt.Sprintf("%s:%d", bindhost, config.DNS.Port) filterConf.AutoHosts = &Context.autoHosts filterConf.ConfigModified = onConfigModified filterConf.HTTPRegister = httpRegister Context.dnsFilter = dnsfilter.New(&filterConf, nil) Context.dnsServer = dnsforward.NewServer(Context.dnsFilter, Context.stats, Context.queryLog) dnsConfig := generateServerConfig() err = Context.dnsServer.Prepare(&dnsConfig) if err != nil { closeDNSServer() return fmt.Errorf("dnsServer.Prepare: %s", err) } Context.rdns = InitRDNS(Context.dnsServer, &Context.clients) Context.whois = initWhois(&Context.clients) Context.filters.Init() return nil } func isRunning() bool { return Context.dnsServer != nil && Context.dnsServer.IsRunning() } // nolint (gocyclo) // Return TRUE if IP is within public Internet IP range func isPublicIP(ip net.IP) bool { ip4 := ip.To4() if ip4 != nil { switch ip4[0] { case 0: return false //software case 10: return false //private network case 127: return false //loopback case 169: if ip4[1] == 254 { return false //link-local } case 172: if ip4[1] >= 16 && ip4[1] <= 31 { return false //private network } case 192: if (ip4[1] == 0 && ip4[2] == 0) || //private network (ip4[1] == 0 && ip4[2] == 2) || //documentation (ip4[1] == 88 && ip4[2] == 99) || //reserved (ip4[1] == 168) { //private network return false } case 198: if (ip4[1] == 18 || ip4[2] == 19) || //private network (ip4[1] == 51 || ip4[2] == 100) { //documentation return false } case 203: if ip4[1] == 0 && ip4[2] == 113 { //documentation return false } case 224: if ip4[1] == 0 && ip4[2] == 0 { //multicast return false } case 255: if ip4[1] == 255 && ip4[2] == 255 && ip4[3] == 255 { //subnet return false } } } else { if ip.IsLoopback() || ip.IsLinkLocalMulticast() || ip.IsLinkLocalUnicast() { return false } } return true } func onDNSRequest(d *proxy.DNSContext) { ip := dnsforward.GetIPString(d.Addr) if ip == "" { // This would be quite weird if we get here return } ipAddr := net.ParseIP(ip) if !ipAddr.IsLoopback() { Context.rdns.Begin(ip) } if isPublicIP(ipAddr) { Context.whois.Begin(ip) } } func generateServerConfig() dnsforward.ServerConfig { newconfig := dnsforward.ServerConfig{ UDPListenAddr: &net.UDPAddr{IP: net.ParseIP(config.DNS.BindHost), Port: config.DNS.Port}, TCPListenAddr: &net.TCPAddr{IP: net.ParseIP(config.DNS.BindHost), Port: config.DNS.Port}, FilteringConfig: config.DNS.FilteringConfig, ConfigModified: onConfigModified, HTTPRegister: httpRegister, OnDNSRequest: onDNSRequest, } tlsConf := tlsConfigSettings{} Context.tls.WriteDiskConfig(&tlsConf) if tlsConf.Enabled { newconfig.TLSConfig = tlsConf.TLSConfig if tlsConf.PortDNSOverTLS != 0 { newconfig.TLSListenAddr = &net.TCPAddr{ IP: net.ParseIP(config.DNS.BindHost), Port: tlsConf.PortDNSOverTLS, } } } newconfig.TLSv12Roots = Context.tlsRoots newconfig.TLSCiphers = Context.tlsCiphers newconfig.TLSAllowUnencryptedDOH = tlsConf.AllowUnencryptedDOH newconfig.FilterHandler = applyAdditionalFiltering newconfig.GetCustomUpstreamByClient = Context.clients.FindUpstreams return newconfig } // Get the list of DNS addresses the server is listening on func getDNSAddresses() []string { dnsAddresses := []string{} if config.DNS.BindHost == "0.0.0.0" { ifaces, e := util.GetValidNetInterfacesForWeb() if e != nil { log.Error("Couldn't get network interfaces: %v", e) return []string{} } for _, iface := range ifaces { for _, addr := range iface.Addresses { addDNSAddress(&dnsAddresses, addr) } } } else { addDNSAddress(&dnsAddresses, config.DNS.BindHost) } tlsConf := tlsConfigSettings{} Context.tls.WriteDiskConfig(&tlsConf) if tlsConf.Enabled && len(tlsConf.ServerName) != 0 { if tlsConf.PortHTTPS != 0 { addr := tlsConf.ServerName if tlsConf.PortHTTPS != 443 { addr = fmt.Sprintf("%s:%d", addr, tlsConf.PortHTTPS) } addr = fmt.Sprintf("https://%s/dns-query", addr) dnsAddresses = append(dnsAddresses, addr) } if tlsConf.PortDNSOverTLS != 0 { addr := fmt.Sprintf("tls://%s:%d", tlsConf.ServerName, tlsConf.PortDNSOverTLS) dnsAddresses = append(dnsAddresses, addr) } } return dnsAddresses } // If a client has his own settings, apply them func applyAdditionalFiltering(clientAddr string, setts *dnsfilter.RequestFilteringSettings) { Context.dnsFilter.ApplyBlockedServices(setts, nil, true) if len(clientAddr) == 0 { return } c, ok := Context.clients.Find(clientAddr) if !ok { return } log.Debug("Using settings for client with IP %s", clientAddr) if c.UseOwnBlockedServices { Context.dnsFilter.ApplyBlockedServices(setts, c.BlockedServices, false) } setts.ClientTags = c.Tags if !c.UseOwnSettings { return } setts.FilteringEnabled = c.FilteringEnabled setts.SafeSearchEnabled = c.SafeSearchEnabled setts.SafeBrowsingEnabled = c.SafeBrowsingEnabled setts.ParentalEnabled = c.ParentalEnabled } func startDNSServer() error { if isRunning() { return fmt.Errorf("unable to start forwarding DNS server: Already running") } enableFilters(false) Context.clients.Start() err := Context.dnsServer.Start() if err != nil { return errorx.Decorate(err, "Couldn't start forwarding DNS server") } Context.dnsFilter.Start() Context.filters.Start() Context.stats.Start() Context.queryLog.Start() const topClientsNumber = 100 // the number of clients to get topClients := Context.stats.GetTopClientsIP(topClientsNumber) for _, ip := range topClients { ipAddr := net.ParseIP(ip) if !ipAddr.IsLoopback() { Context.rdns.Begin(ip) } if isPublicIP(ipAddr) { Context.whois.Begin(ip) } } return nil } func reconfigureDNSServer() error { newconfig := generateServerConfig() err := Context.dnsServer.Reconfigure(&newconfig) if err != nil { return errorx.Decorate(err, "Couldn't start forwarding DNS server") } return nil } func stopDNSServer() error { if !isRunning() { return nil } err := Context.dnsServer.Stop() if err != nil { return errorx.Decorate(err, "Couldn't stop forwarding DNS server") } closeDNSServer() return nil } func closeDNSServer() { // DNS forward module must be closed BEFORE stats or queryLog because it depends on them if Context.dnsServer != nil { Context.dnsServer.Close() Context.dnsServer = nil } if Context.dnsFilter != nil { Context.dnsFilter.Close() Context.dnsFilter = nil } if Context.stats != nil { Context.stats.Close() Context.stats = nil } if Context.queryLog != nil { Context.queryLog.Close() Context.queryLog = nil } Context.filters.Close() log.Debug("Closed all DNS modules") }