package dnsforward import ( "net" "strings" "time" "github.com/AdguardTeam/AdGuardHome/internal/dhcpd" "github.com/AdguardTeam/AdGuardHome/internal/dnsfilter" "github.com/AdguardTeam/AdGuardHome/internal/util" "github.com/AdguardTeam/dnsproxy/proxy" "github.com/AdguardTeam/golibs/log" "github.com/miekg/dns" ) // To transfer information between modules type dnsContext struct { srv *Server proxyCtx *proxy.DNSContext setts *dnsfilter.RequestFilteringSettings // filtering settings for this client startTime time.Time result *dnsfilter.Result origResp *dns.Msg // response received from upstream servers. Set when response is modified by filtering origQuestion dns.Question // question received from client. Set when Rewrites are used. err error // error returned from the module protectionEnabled bool // filtering is enabled, dnsfilter object is ready responseFromUpstream bool // response is received from upstream servers origReqDNSSEC bool // DNSSEC flag in the original request from user } const ( resultDone = iota // module has completed its job, continue resultFinish // module has completed its job, exit normally resultError // an error occurred, exit with an error ) // handleDNSRequest filters the incoming DNS requests and writes them to the query log func (s *Server) handleDNSRequest(_ *proxy.Proxy, d *proxy.DNSContext) error { ctx := &dnsContext{srv: s, proxyCtx: d} ctx.result = &dnsfilter.Result{} ctx.startTime = time.Now() type modProcessFunc func(ctx *dnsContext) int mods := []modProcessFunc{ processInitial, processInternalHosts, processInternalIPAddrs, processFilteringBeforeRequest, processUpstream, processDNSSECAfterResponse, processFilteringAfterResponse, s.ipset.process, processQueryLogsAndStats, } for _, process := range mods { r := process(ctx) switch r { case resultDone: // continue: call the next filter case resultFinish: return nil case resultError: return ctx.err } } if d.Res != nil { d.Res.Compress = true // some devices require DNS message compression } return nil } // Perform initial checks; process WHOIS & rDNS func processInitial(ctx *dnsContext) int { s := ctx.srv d := ctx.proxyCtx if s.conf.AAAADisabled && d.Req.Question[0].Qtype == dns.TypeAAAA { _ = proxy.CheckDisabledAAAARequest(d, true) return resultFinish } if s.conf.OnDNSRequest != nil { s.conf.OnDNSRequest(d) } // disable Mozilla DoH // https://support.mozilla.org/en-US/kb/canary-domain-use-application-dnsnet if (d.Req.Question[0].Qtype == dns.TypeA || d.Req.Question[0].Qtype == dns.TypeAAAA) && d.Req.Question[0].Name == "use-application-dns.net." { d.Res = s.genNXDomain(d.Req) return resultFinish } return resultDone } // Return TRUE if host names doesn't contain disallowed characters func isHostnameOK(hostname string) bool { for _, c := range hostname { if !((c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || (c >= '0' && c <= '9') || c == '.' || c == '-') { log.Debug("DNS: skipping invalid hostname %s from DHCP", hostname) return false } } return true } func (s *Server) onDHCPLeaseChanged(flags int) { switch flags { case dhcpd.LeaseChangedAdded, dhcpd.LeaseChangedAddedStatic, dhcpd.LeaseChangedRemovedStatic: // default: return } hostToIP := make(map[string]net.IP) m := make(map[string]string) ll := s.dhcpServer.Leases(dhcpd.LeasesAll) for _, l := range ll { if len(l.Hostname) == 0 || !isHostnameOK(l.Hostname) { continue } lowhost := strings.ToLower(l.Hostname) m[l.IP.String()] = lowhost ip := make(net.IP, 4) copy(ip, l.IP.To4()) hostToIP[lowhost] = ip } log.Debug("DNS: added %d A/PTR entries from DHCP", len(m)) s.tableHostToIPLock.Lock() s.tableHostToIP = hostToIP s.tableHostToIPLock.Unlock() s.tablePTRLock.Lock() s.tablePTR = m s.tablePTRLock.Unlock() } // Respond to A requests if the target host name is associated with a lease from our DHCP server func processInternalHosts(ctx *dnsContext) int { s := ctx.srv req := ctx.proxyCtx.Req if !(req.Question[0].Qtype == dns.TypeA || req.Question[0].Qtype == dns.TypeAAAA) { return resultDone } host := req.Question[0].Name host = strings.ToLower(host) if !strings.HasSuffix(host, ".lan.") { return resultDone } host = strings.TrimSuffix(host, ".lan.") s.tableHostToIPLock.Lock() if s.tableHostToIP == nil { s.tableHostToIPLock.Unlock() return resultDone } ip, ok := s.tableHostToIP[host] s.tableHostToIPLock.Unlock() if !ok { return resultDone } log.Debug("DNS: internal record: %s -> %s", req.Question[0].Name, ip.String()) resp := s.makeResponse(req) if req.Question[0].Qtype == dns.TypeA { a := &dns.A{} a.Hdr = dns.RR_Header{ Name: req.Question[0].Name, Rrtype: dns.TypeA, Ttl: s.conf.BlockedResponseTTL, Class: dns.ClassINET, } a.A = make([]byte, 4) copy(a.A, ip) resp.Answer = append(resp.Answer, a) } ctx.proxyCtx.Res = resp return resultDone } // Respond to PTR requests if the target IP address is leased by our DHCP server func processInternalIPAddrs(ctx *dnsContext) int { s := ctx.srv req := ctx.proxyCtx.Req if req.Question[0].Qtype != dns.TypePTR { return resultDone } arpa := req.Question[0].Name arpa = strings.TrimSuffix(arpa, ".") arpa = strings.ToLower(arpa) ip := util.DNSUnreverseAddr(arpa) if ip == nil { return resultDone } s.tablePTRLock.Lock() if s.tablePTR == nil { s.tablePTRLock.Unlock() return resultDone } host, ok := s.tablePTR[ip.String()] s.tablePTRLock.Unlock() if !ok { return resultDone } log.Debug("DNS: reverse-lookup: %s -> %s", arpa, host) resp := s.makeResponse(req) ptr := &dns.PTR{} ptr.Hdr = dns.RR_Header{ Name: req.Question[0].Name, Rrtype: dns.TypePTR, Ttl: s.conf.BlockedResponseTTL, Class: dns.ClassINET, } ptr.Ptr = host + "." resp.Answer = append(resp.Answer, ptr) ctx.proxyCtx.Res = resp return resultDone } // Apply filtering logic func processFilteringBeforeRequest(ctx *dnsContext) int { s := ctx.srv d := ctx.proxyCtx if d.Res != nil { return resultDone // response is already set - nothing to do } s.RLock() // Synchronize access to s.dnsFilter so it won't be suddenly uninitialized while in use. // This could happen after proxy server has been stopped, but its workers are not yet exited. // // A better approach is for proxy.Stop() to wait until all its workers exit, // but this would require the Upstream interface to have Close() function // (to prevent from hanging while waiting for unresponsive DNS server to respond). var err error ctx.protectionEnabled = s.conf.ProtectionEnabled && s.dnsFilter != nil if ctx.protectionEnabled { ctx.setts = s.getClientRequestFilteringSettings(d) ctx.result, err = s.filterDNSRequest(ctx) } s.RUnlock() if err != nil { ctx.err = err return resultError } return resultDone } // Pass request to upstream servers; process the response func processUpstream(ctx *dnsContext) int { s := ctx.srv d := ctx.proxyCtx if d.Res != nil { return resultDone // response is already set - nothing to do } if d.Addr != nil && s.conf.GetCustomUpstreamByClient != nil { clientIP := ipFromAddr(d.Addr) upstreamsConf := s.conf.GetCustomUpstreamByClient(clientIP) if upstreamsConf != nil { log.Debug("Using custom upstreams for %s", clientIP) d.CustomUpstreamConfig = upstreamsConf } } if s.conf.EnableDNSSEC { opt := d.Req.IsEdns0() if opt == nil { log.Debug("DNS: Adding OPT record with DNSSEC flag") d.Req.SetEdns0(4096, true) } else if !opt.Do() { opt.SetDo(true) } else { ctx.origReqDNSSEC = true } } // request was not filtered so let it be processed further err := s.dnsProxy.Resolve(d) if err != nil { ctx.err = err return resultError } ctx.responseFromUpstream = true return resultDone } // Process DNSSEC after response from upstream server func processDNSSECAfterResponse(ctx *dnsContext) int { d := ctx.proxyCtx if !ctx.responseFromUpstream || // don't process response if it's not from upstream servers !ctx.srv.conf.EnableDNSSEC { return resultDone } if !ctx.origReqDNSSEC { optResp := d.Res.IsEdns0() if optResp != nil && !optResp.Do() { return resultDone } // Remove RRSIG records from response // because there is no DO flag in the original request from client, // but we have EnableDNSSEC set, so we have set DO flag ourselves, // and now we have to clean up the DNS records our client didn't ask for. answers := []dns.RR{} for _, a := range d.Res.Answer { switch a.(type) { case *dns.RRSIG: log.Debug("Removing RRSIG record from response: %v", a) default: answers = append(answers, a) } } d.Res.Answer = answers answers = []dns.RR{} for _, a := range d.Res.Ns { switch a.(type) { case *dns.RRSIG: log.Debug("Removing RRSIG record from response: %v", a) default: answers = append(answers, a) } } d.Res.Ns = answers } return resultDone } // Apply filtering logic after we have received response from upstream servers func processFilteringAfterResponse(ctx *dnsContext) int { s := ctx.srv d := ctx.proxyCtx res := ctx.result var err error switch res.Reason { case dnsfilter.ReasonRewrite, dnsfilter.DNSRewriteRule: if len(ctx.origQuestion.Name) == 0 { // origQuestion is set in case we get only CNAME without IP from rewrites table break } d.Req.Question[0] = ctx.origQuestion d.Res.Question[0] = ctx.origQuestion if len(d.Res.Answer) != 0 { answer := []dns.RR{} answer = append(answer, s.genAnswerCNAME(d.Req, res.CanonName)) answer = append(answer, d.Res.Answer...) d.Res.Answer = answer } case dnsfilter.NotFilteredAllowList: // nothing default: if !ctx.protectionEnabled || // filters are disabled: there's nothing to check for !ctx.responseFromUpstream { // only check response if it's from an upstream server break } origResp2 := d.Res ctx.result, err = s.filterDNSResponse(ctx) if err != nil { ctx.err = err return resultError } if ctx.result != nil { ctx.origResp = origResp2 // matched by response } else { ctx.result = &dnsfilter.Result{} } } return resultDone }