package home import ( "fmt" "net" "net/netip" "net/url" "os" "path/filepath" "github.com/AdguardTeam/AdGuardHome/internal/aghalg" "github.com/AdguardTeam/AdGuardHome/internal/aghhttp" "github.com/AdguardTeam/AdGuardHome/internal/aghnet" "github.com/AdguardTeam/AdGuardHome/internal/dhcpd" "github.com/AdguardTeam/AdGuardHome/internal/dnsforward" "github.com/AdguardTeam/AdGuardHome/internal/filtering" "github.com/AdguardTeam/AdGuardHome/internal/querylog" "github.com/AdguardTeam/AdGuardHome/internal/stats" "github.com/AdguardTeam/dnsproxy/proxy" "github.com/AdguardTeam/golibs/errors" "github.com/AdguardTeam/golibs/log" "github.com/AdguardTeam/golibs/netutil" "github.com/ameshkov/dnscrypt/v2" yaml "gopkg.in/yaml.v3" ) // Default ports. const ( defaultPortDNS = 53 defaultPortHTTP = 80 defaultPortHTTPS = 443 defaultPortQUIC = 853 defaultPortTLS = 853 ) // Called by other modules when configuration is changed func onConfigModified() { err := config.write() if err != nil { log.Error("writing config: %s", err) } } // initDNS updates all the fields of the [Context] needed to initialize the DNS // server and initializes it at last. It also must not be called unless // [config] and [Context] are initialized. func initDNS() (err error) { baseDir := Context.getDataDir() anonymizer := config.anonymizer() statsConf := stats.Config{ Filename: filepath.Join(baseDir, "stats.db"), LimitDays: config.DNS.StatsInterval, ConfigModified: onConfigModified, HTTPRegister: httpRegister, } Context.stats, err = stats.New(statsConf) if err != nil { return fmt.Errorf("init stats: %w", err) } conf := querylog.Config{ Anonymizer: anonymizer, ConfigModified: onConfigModified, HTTPRegister: httpRegister, FindClient: Context.clients.findMultiple, BaseDir: baseDir, RotationIvl: config.DNS.QueryLogInterval.Duration, MemSize: config.DNS.QueryLogMemSize, Enabled: config.DNS.QueryLogEnabled, FileEnabled: config.DNS.QueryLogFileEnabled, AnonymizeClientIP: config.DNS.AnonymizeClientIP, } Context.queryLog = querylog.New(conf) Context.filters, err = filtering.New(config.DNS.DnsfilterConf, nil) if err != nil { // Don't wrap the error, since it's informative enough as is. return err } tlsConf := &tlsConfigSettings{} Context.tls.WriteDiskConfig(tlsConf) return initDNSServer( Context.filters, Context.stats, Context.queryLog, Context.dhcpServer, anonymizer, httpRegister, tlsConf, ) } // initDNSServer initializes the [context.dnsServer]. To only use the internal // proxy, none of the arguments are required, but tlsConf still must not be nil, // in other cases all the arguments also must not be nil. It also must not be // called unless [config] and [Context] are initialized. func initDNSServer( filters *filtering.DNSFilter, sts stats.Interface, qlog querylog.QueryLog, dhcpSrv dhcpd.Interface, anonymizer *aghnet.IPMut, httpReg aghhttp.RegisterFunc, tlsConf *tlsConfigSettings, ) (err error) { privateNets, err := parseSubnetSet(config.DNS.PrivateNets) if err != nil { return fmt.Errorf("preparing set of private subnets: %w", err) } p := dnsforward.DNSCreateParams{ DNSFilter: filters, Stats: sts, QueryLog: qlog, PrivateNets: privateNets, Anonymizer: anonymizer, LocalDomain: config.DHCP.LocalDomainName, DHCPServer: dhcpSrv, } Context.dnsServer, err = dnsforward.NewServer(p) if err != nil { closeDNSServer() return fmt.Errorf("dnsforward.NewServer: %w", err) } Context.clients.dnsServer = Context.dnsServer dnsConf, err := generateServerConfig(tlsConf, httpReg) if err != nil { closeDNSServer() return fmt.Errorf("generateServerConfig: %w", err) } err = Context.dnsServer.Prepare(&dnsConf) if err != nil { closeDNSServer() return fmt.Errorf("dnsServer.Prepare: %w", err) } if config.Clients.Sources.RDNS { Context.rdns = NewRDNS(Context.dnsServer, &Context.clients, config.DNS.UsePrivateRDNS) } if config.Clients.Sources.WHOIS { Context.whois = initWHOIS(&Context.clients) } return nil } // parseSubnetSet parses a slice of subnets. If the slice is empty, it returns // a subnet set that matches all locally served networks, see // [netutil.IsLocallyServed]. func parseSubnetSet(nets []string) (s netutil.SubnetSet, err error) { switch len(nets) { case 0: // Use an optimized function-based matcher. return netutil.SubnetSetFunc(netutil.IsLocallyServed), nil case 1: s, err = netutil.ParseSubnet(nets[0]) if err != nil { return nil, err } return s, nil default: var nets []*net.IPNet nets, err = netutil.ParseSubnets(config.DNS.PrivateNets...) if err != nil { return nil, err } return netutil.SliceSubnetSet(nets), nil } } func isRunning() bool { return Context.dnsServer != nil && Context.dnsServer.IsRunning() } func onDNSRequest(pctx *proxy.DNSContext) { ip := netutil.NetAddrToAddrPort(pctx.Addr).Addr() if ip == (netip.Addr{}) { // This would be quite weird if we get here. return } srcs := config.Clients.Sources if srcs.RDNS && !ip.IsLoopback() { Context.rdns.Begin(ip) } if srcs.WHOIS && !netutil.IsSpecialPurposeAddr(ip) { Context.whois.Begin(ip) } } func ipsToTCPAddrs(ips []netip.Addr, port int) (tcpAddrs []*net.TCPAddr) { if ips == nil { return nil } tcpAddrs = make([]*net.TCPAddr, 0, len(ips)) for _, ip := range ips { tcpAddrs = append(tcpAddrs, net.TCPAddrFromAddrPort(netip.AddrPortFrom(ip, uint16(port)))) } return tcpAddrs } func ipsToUDPAddrs(ips []netip.Addr, port int) (udpAddrs []*net.UDPAddr) { if ips == nil { return nil } udpAddrs = make([]*net.UDPAddr, 0, len(ips)) for _, ip := range ips { udpAddrs = append(udpAddrs, net.UDPAddrFromAddrPort(netip.AddrPortFrom(ip, uint16(port)))) } return udpAddrs } func generateServerConfig( tlsConf *tlsConfigSettings, httpReg aghhttp.RegisterFunc, ) (newConf dnsforward.ServerConfig, err error) { dnsConf := config.DNS hosts := aghalg.CoalesceSlice(dnsConf.BindHosts, []netip.Addr{netutil.IPv4Localhost()}) newConf = dnsforward.ServerConfig{ UDPListenAddrs: ipsToUDPAddrs(hosts, dnsConf.Port), TCPListenAddrs: ipsToTCPAddrs(hosts, dnsConf.Port), FilteringConfig: dnsConf.FilteringConfig, ConfigModified: onConfigModified, HTTPRegister: httpReg, OnDNSRequest: onDNSRequest, UseDNS64: config.DNS.UseDNS64, DNS64Prefixes: config.DNS.DNS64Prefixes, } if tlsConf.Enabled { newConf.TLSConfig = tlsConf.TLSConfig newConf.TLSConfig.ServerName = tlsConf.ServerName if tlsConf.PortHTTPS != 0 { newConf.HTTPSListenAddrs = ipsToTCPAddrs(hosts, tlsConf.PortHTTPS) } if tlsConf.PortDNSOverTLS != 0 { newConf.TLSListenAddrs = ipsToTCPAddrs(hosts, tlsConf.PortDNSOverTLS) } if tlsConf.PortDNSOverQUIC != 0 { newConf.QUICListenAddrs = ipsToUDPAddrs(hosts, tlsConf.PortDNSOverQUIC) } if tlsConf.PortDNSCrypt != 0 { newConf.DNSCryptConfig, err = newDNSCrypt(hosts, *tlsConf) if err != nil { // Don't wrap the error, because it's already // wrapped by newDNSCrypt. return dnsforward.ServerConfig{}, err } } } newConf.TLSv12Roots = Context.tlsRoots newConf.TLSAllowUnencryptedDoH = tlsConf.AllowUnencryptedDoH newConf.FilterHandler = applyAdditionalFiltering newConf.GetCustomUpstreamByClient = Context.clients.findUpstreams newConf.LocalPTRResolvers = dnsConf.LocalPTRResolvers newConf.UpstreamTimeout = dnsConf.UpstreamTimeout.Duration newConf.ResolveClients = config.Clients.Sources.RDNS newConf.UsePrivateRDNS = dnsConf.UsePrivateRDNS newConf.ServeHTTP3 = dnsConf.ServeHTTP3 newConf.UseHTTP3Upstreams = dnsConf.UseHTTP3Upstreams return newConf, nil } func newDNSCrypt(hosts []netip.Addr, tlsConf tlsConfigSettings) (dnscc dnsforward.DNSCryptConfig, err error) { if tlsConf.DNSCryptConfigFile == "" { return dnscc, errors.Error("no dnscrypt_config_file") } f, err := os.Open(tlsConf.DNSCryptConfigFile) if err != nil { return dnscc, fmt.Errorf("opening dnscrypt config: %w", err) } defer func() { err = errors.WithDeferred(err, f.Close()) }() rc := &dnscrypt.ResolverConfig{} err = yaml.NewDecoder(f).Decode(rc) if err != nil { return dnscc, fmt.Errorf("decoding dnscrypt config: %w", err) } cert, err := rc.CreateCert() if err != nil { return dnscc, fmt.Errorf("creating dnscrypt cert: %w", err) } return dnsforward.DNSCryptConfig{ ResolverCert: cert, ProviderName: rc.ProviderName, UDPListenAddrs: ipsToUDPAddrs(hosts, tlsConf.PortDNSCrypt), TCPListenAddrs: ipsToTCPAddrs(hosts, tlsConf.PortDNSCrypt), Enabled: true, }, nil } type dnsEncryption struct { https string tls string quic string } func getDNSEncryption() (de dnsEncryption) { tlsConf := tlsConfigSettings{} Context.tls.WriteDiskConfig(&tlsConf) if tlsConf.Enabled && len(tlsConf.ServerName) != 0 { hostname := tlsConf.ServerName if tlsConf.PortHTTPS != 0 { addr := hostname if tlsConf.PortHTTPS != defaultPortHTTPS { addr = netutil.JoinHostPort(addr, tlsConf.PortHTTPS) } de.https = (&url.URL{ Scheme: "https", Host: addr, Path: "/dns-query", }).String() } if tlsConf.PortDNSOverTLS != 0 { de.tls = (&url.URL{ Scheme: "tls", Host: netutil.JoinHostPort(hostname, tlsConf.PortDNSOverTLS), }).String() } if tlsConf.PortDNSOverQUIC != 0 { de.quic = (&url.URL{ Scheme: "quic", Host: netutil.JoinHostPort(hostname, tlsConf.PortDNSOverQUIC), }).String() } } return de } // applyAdditionalFiltering adds additional client information and settings if // the client has them. func applyAdditionalFiltering(clientIP net.IP, clientID string, setts *filtering.Settings) { // pref is a prefix for logging messages around the scope. const pref = "applying filters" Context.filters.ApplyBlockedServices(setts, nil) log.Debug("%s: looking for client with ip %s and clientid %q", pref, clientIP, clientID) if clientIP == nil { return } setts.ClientIP = clientIP c, ok := Context.clients.Find(clientID) if !ok { c, ok = Context.clients.Find(clientIP.String()) if !ok { log.Debug("%s: no clients with ip %s and clientid %q", pref, clientIP, clientID) return } } log.Debug("%s: using settings for client %q (%s; %q)", pref, c.Name, clientIP, clientID) if c.UseOwnBlockedServices { // TODO(e.burkov): Get rid of this crutch. svcs := c.BlockedServices if svcs == nil { svcs = []string{} } Context.filters.ApplyBlockedServices(setts, svcs) log.Debug("%s: services for client %q set: %s", pref, c.Name, svcs) } setts.ClientName = c.Name 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 { config.RLock() defer config.RUnlock() if isRunning() { return fmt.Errorf("unable to start forwarding DNS server: Already running") } Context.filters.EnableFilters(false) Context.clients.Start() err := Context.dnsServer.Start() if err != nil { return fmt.Errorf("couldn't start forwarding DNS server: %w", err) } Context.filters.Start() Context.stats.Start() Context.queryLog.Start() const topClientsNumber = 100 // the number of clients to get for _, ip := range Context.stats.TopClientsIP(topClientsNumber) { srcs := config.Clients.Sources if srcs.RDNS && !ip.IsLoopback() { Context.rdns.Begin(ip) } if srcs.WHOIS && !netutil.IsSpecialPurposeAddr(ip) { Context.whois.Begin(ip) } } return nil } func reconfigureDNSServer() (err error) { var newConf dnsforward.ServerConfig tlsConf := &tlsConfigSettings{} Context.tls.WriteDiskConfig(tlsConf) newConf, err = generateServerConfig(tlsConf, httpRegister) if err != nil { return fmt.Errorf("generating forwarding dns server config: %w", err) } err = Context.dnsServer.Reconfigure(&newConf) if err != nil { return fmt.Errorf("starting forwarding dns server: %w", err) } return nil } func stopDNSServer() (err error) { if !isRunning() { return nil } err = Context.dnsServer.Stop() if err != nil { return fmt.Errorf("stopping forwarding dns server: %w", err) } err = Context.clients.close() if err != nil { return fmt.Errorf("closing clients container: %w", err) } 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 } Context.filters.Close() if Context.stats != nil { err := Context.stats.Close() if err != nil { log.Debug("closing stats: %s", err) } // TODO(e.burkov): Find out if it's safe. Context.stats = nil } if Context.queryLog != nil { Context.queryLog.Close() Context.queryLog = nil } log.Debug("all dns modules are closed") }