package agent import ( "fmt" "io" "log" "math/rand" "net" "strings" "sync" "time" "github.com/hashicorp/consul/consul/structs" "github.com/miekg/dns" ) const ( maxServiceResponses = 3 // For UDP only maxRecurseRecords = 5 ) // DNSServer is used to wrap an Agent and expose various // service discovery endpoints using a DNS interface. type DNSServer struct { agent *Agent config *DNSConfig dnsHandler *dns.ServeMux dnsServer *dns.Server dnsServerTCP *dns.Server domain string recursors []string logger *log.Logger } // Shutdown stops the DNS Servers func (d *DNSServer) Shutdown() { if err := d.dnsServer.Shutdown(); err != nil { d.logger.Printf("[ERR] dns: error stopping udp server: %v", err) } if err := d.dnsServerTCP.Shutdown(); err != nil { d.logger.Printf("[ERR] dns: error stopping tcp server: %v", err) } } // NewDNSServer starts a new DNS server to provide an agent interface func NewDNSServer(agent *Agent, config *DNSConfig, logOutput io.Writer, domain string, bind string, recursors []string) (*DNSServer, error) { // Make sure domain is FQDN domain = dns.Fqdn(domain) // Construct the DNS components mux := dns.NewServeMux() var wg sync.WaitGroup // Setup the servers server := &dns.Server{ Addr: bind, Net: "udp", Handler: mux, UDPSize: 65535, NotifyStartedFunc: wg.Done, } serverTCP := &dns.Server{ Addr: bind, Net: "tcp", Handler: mux, NotifyStartedFunc: wg.Done, } // Create the server srv := &DNSServer{ agent: agent, config: config, dnsHandler: mux, dnsServer: server, dnsServerTCP: serverTCP, domain: domain, recursors: recursors, logger: log.New(logOutput, "", log.LstdFlags), } // Register mux handler, for reverse lookup mux.HandleFunc("arpa.", srv.handlePtr) // Register mux handlers mux.HandleFunc(domain, srv.handleQuery) if len(recursors) > 0 { validatedRecursors := make([]string, len(recursors)) for idx, recursor := range recursors { recursor, err := recursorAddr(recursor) if err != nil { return nil, fmt.Errorf("Invalid recursor address: %v", err) } validatedRecursors[idx] = recursor } srv.recursors = validatedRecursors mux.HandleFunc(".", srv.handleRecurse) } wg.Add(2) // Async start the DNS Servers, handle a potential error errCh := make(chan error, 1) go func() { if err := server.ListenAndServe(); err != nil { srv.logger.Printf("[ERR] dns: error starting udp server: %v", err) errCh <- fmt.Errorf("dns udp setup failed: %v", err) } }() errChTCP := make(chan error, 1) go func() { if err := serverTCP.ListenAndServe(); err != nil { srv.logger.Printf("[ERR] dns: error starting tcp server: %v", err) errChTCP <- fmt.Errorf("dns tcp setup failed: %v", err) } }() // Wait for NotifyStartedFunc callbacks indicating server has started startCh := make(chan struct{}) go func() { wg.Wait() close(startCh) }() // Wait for either the check, listen error, or timeout select { case e := <-errCh: return srv, e case e := <-errChTCP: return srv, e case <-startCh: return srv, nil case <-time.After(time.Second): return srv, fmt.Errorf("timeout setting up DNS server") } } // recursorAddr is used to add a port to the recursor if omitted. func recursorAddr(recursor string) (string, error) { // Add the port if none START: _, _, err := net.SplitHostPort(recursor) if ae, ok := err.(*net.AddrError); ok && ae.Err == "missing port in address" { recursor = fmt.Sprintf("%s:%d", recursor, 53) goto START } if err != nil { return "", err } // Get the address addr, err := net.ResolveTCPAddr("tcp", recursor) if err != nil { return "", err } // Return string return addr.String(), nil } // handlePtr is used to handle "reverse" DNS queries func (d *DNSServer) handlePtr(resp dns.ResponseWriter, req *dns.Msg) { q := req.Question[0] defer func(s time.Time) { d.logger.Printf("[DEBUG] dns: request for %v (%v) from client %s (%s)", q, time.Now().Sub(s), resp.RemoteAddr().String(), resp.RemoteAddr().Network()) }(time.Now()) // Setup the message response m := new(dns.Msg) m.SetReply(req) m.Authoritative = true m.RecursionAvailable = (len(d.recursors) > 0) // Only add the SOA if requested if req.Question[0].Qtype == dns.TypeSOA { d.addSOA(d.domain, m) } datacenter := d.agent.config.Datacenter // Get the QName without the domain suffix qName := strings.ToLower(dns.Fqdn(req.Question[0].Name)) args := structs.DCSpecificRequest{ Datacenter: datacenter, QueryOptions: structs.QueryOptions{ Token: d.agent.config.ACLToken, AllowStale: d.config.AllowStale, }, } var out structs.IndexedNodes // TODO: Replace ListNodes with an internal RPC that can do the filter // server side to avoid transferring the entire node list. if err := d.agent.RPC("Catalog.ListNodes", &args, &out); err == nil { for _, n := range out.Nodes { arpa, _ := dns.ReverseAddr(n.Address) if arpa == qName { ptr := &dns.PTR{ Hdr: dns.RR_Header{Name: q.Name, Rrtype: dns.TypePTR, Class: dns.ClassINET, Ttl: 0}, Ptr: fmt.Sprintf("%s.node.%s.%s", n.Node, datacenter, d.domain), } m.Answer = append(m.Answer, ptr) break } } } // nothing found locally, recurse if len(m.Answer) == 0 { d.handleRecurse(resp, req) return } // Write out the complete response if err := resp.WriteMsg(m); err != nil { d.logger.Printf("[WARN] dns: failed to respond: %v", err) } } // handleQUery is used to handle DNS queries in the configured domain func (d *DNSServer) handleQuery(resp dns.ResponseWriter, req *dns.Msg) { q := req.Question[0] defer func(s time.Time) { d.logger.Printf("[DEBUG] dns: request for %v (%v) from client %s (%s)", q, time.Now().Sub(s), resp.RemoteAddr().String(), resp.RemoteAddr().Network()) }(time.Now()) // Switch to TCP if the client is network := "udp" if _, ok := resp.RemoteAddr().(*net.TCPAddr); ok { network = "tcp" } // Setup the message response m := new(dns.Msg) m.SetReply(req) m.Authoritative = true m.RecursionAvailable = (len(d.recursors) > 0) // Only add the SOA if requested if req.Question[0].Qtype == dns.TypeSOA { d.addSOA(d.domain, m) } // Dispatch the correct handler d.dispatch(network, req, m) // Write out the complete response if err := resp.WriteMsg(m); err != nil { d.logger.Printf("[WARN] dns: failed to respond: %v", err) } } // addSOA is used to add an SOA record to a message for the given domain func (d *DNSServer) addSOA(domain string, msg *dns.Msg) { soa := &dns.SOA{ Hdr: dns.RR_Header{ Name: domain, Rrtype: dns.TypeSOA, Class: dns.ClassINET, Ttl: 0, }, Ns: "ns." + domain, Mbox: "postmaster." + domain, Serial: uint32(time.Now().Unix()), Refresh: 3600, Retry: 600, Expire: 86400, Minttl: 0, } msg.Ns = append(msg.Ns, soa) } // dispatch is used to parse a request and invoke the correct handler func (d *DNSServer) dispatch(network string, req, resp *dns.Msg) { // By default the query is in the default datacenter datacenter := d.agent.config.Datacenter // Get the QName without the domain suffix qName := strings.ToLower(dns.Fqdn(req.Question[0].Name)) qName = strings.TrimSuffix(qName, d.domain) // Split into the label parts labels := dns.SplitDomainName(qName) // The last label is either "node", "service" or a datacenter name PARSE: n := len(labels) if n == 0 { goto INVALID } switch labels[n-1] { case "service": if n == 1 { goto INVALID } // Support RFC 2782 style syntax if n == 3 && strings.HasPrefix(labels[n-2], "_") && strings.HasPrefix(labels[n-3], "_") { // Grab the tag since we make nuke it if it's tcp tag := labels[n-2][1:] // Treat _name._tcp.service.consul as a default, no need to filter on that tag if tag == "tcp" { tag = "" } // _name._tag.service.consul d.serviceLookup(network, datacenter, labels[n-3][1:], tag, req, resp) // Consul 0.3 and prior format for SRV queries } else { // Support "." in the label, re-join all the parts tag := "" if n >= 3 { tag = strings.Join(labels[:n-2], ".") } // tag[.tag].name.service.consul d.serviceLookup(network, datacenter, labels[n-2], tag, req, resp) } case "node": if len(labels) == 1 { goto INVALID } // Allow a "." in the node name, just join all the parts node := strings.Join(labels[:n-1], ".") d.nodeLookup(network, datacenter, node, req, resp) default: // Store the DC, and re-parse datacenter = labels[n-1] labels = labels[:n-1] goto PARSE } return INVALID: d.logger.Printf("[WARN] dns: QName invalid: %s", qName) d.addSOA(d.domain, resp) resp.SetRcode(req, dns.RcodeNameError) } // nodeLookup is used to handle a node query func (d *DNSServer) nodeLookup(network, datacenter, node string, req, resp *dns.Msg) { // Only handle ANY, A and AAAA type requests qType := req.Question[0].Qtype if qType != dns.TypeANY && qType != dns.TypeA && qType != dns.TypeAAAA { return } // Make an RPC request args := structs.NodeSpecificRequest{ Datacenter: datacenter, Node: node, QueryOptions: structs.QueryOptions{ Token: d.agent.config.ACLToken, AllowStale: d.config.AllowStale, }, } var out structs.IndexedNodeServices RPC: if err := d.agent.RPC("Catalog.NodeServices", &args, &out); err != nil { d.logger.Printf("[ERR] dns: rpc error: %v", err) resp.SetRcode(req, dns.RcodeServerFailure) return } // Verify that request is not too stale, redo the request if args.AllowStale && out.LastContact > d.config.MaxStale { args.AllowStale = false d.logger.Printf("[WARN] dns: Query results too stale, re-requesting") goto RPC } // If we have no address, return not found! if out.NodeServices == nil { d.addSOA(d.domain, resp) resp.SetRcode(req, dns.RcodeNameError) return } // Add the node record records := d.formatNodeRecord(&out.NodeServices.Node, out.NodeServices.Node.Address, req.Question[0].Name, qType, d.config.NodeTTL) if records != nil { resp.Answer = append(resp.Answer, records...) } } // formatNodeRecord takes a Node and returns an A, AAAA, or CNAME record func (d *DNSServer) formatNodeRecord(node *structs.Node, addr, qName string, qType uint16, ttl time.Duration) (records []dns.RR) { // Parse the IP ip := net.ParseIP(addr) var ipv4 net.IP if ip != nil { ipv4 = ip.To4() } switch { case ipv4 != nil && (qType == dns.TypeANY || qType == dns.TypeA): return []dns.RR{&dns.A{ Hdr: dns.RR_Header{ Name: qName, Rrtype: dns.TypeA, Class: dns.ClassINET, Ttl: uint32(ttl / time.Second), }, A: ip, }} case ip != nil && ipv4 == nil && (qType == dns.TypeANY || qType == dns.TypeAAAA): return []dns.RR{&dns.AAAA{ Hdr: dns.RR_Header{ Name: qName, Rrtype: dns.TypeAAAA, Class: dns.ClassINET, Ttl: uint32(ttl / time.Second), }, AAAA: ip, }} case ip == nil && (qType == dns.TypeANY || qType == dns.TypeCNAME || qType == dns.TypeA || qType == dns.TypeAAAA): // Get the CNAME cnRec := &dns.CNAME{ Hdr: dns.RR_Header{ Name: qName, Rrtype: dns.TypeCNAME, Class: dns.ClassINET, Ttl: uint32(ttl / time.Second), }, Target: dns.Fqdn(addr), } records = append(records, cnRec) // Recurse more := d.resolveCNAME(cnRec.Target) extra := 0 MORE_REC: for _, rr := range more { switch rr.Header().Rrtype { case dns.TypeCNAME, dns.TypeA, dns.TypeAAAA: records = append(records, rr) extra++ if extra == maxRecurseRecords { break MORE_REC } } } } return records } // serviceLookup is used to handle a service query func (d *DNSServer) serviceLookup(network, datacenter, service, tag string, req, resp *dns.Msg) { // Make an RPC request args := structs.ServiceSpecificRequest{ Datacenter: datacenter, ServiceName: service, ServiceTag: tag, TagFilter: tag != "", QueryOptions: structs.QueryOptions{ Token: d.agent.config.ACLToken, AllowStale: d.config.AllowStale, }, } var out structs.IndexedCheckServiceNodes RPC: if err := d.agent.RPC("Health.ServiceNodes", &args, &out); err != nil { d.logger.Printf("[ERR] dns: rpc error: %v", err) resp.SetRcode(req, dns.RcodeServerFailure) return } // Verify that request is not too stale, redo the request if args.AllowStale && out.LastContact > d.config.MaxStale { args.AllowStale = false d.logger.Printf("[WARN] dns: Query results too stale, re-requesting") goto RPC } // Determine the TTL var ttl time.Duration if d.config.ServiceTTL != nil { var ok bool ttl, ok = d.config.ServiceTTL[service] if !ok { ttl = d.config.ServiceTTL["*"] } } // Filter out any service nodes due to health checks out.Nodes = d.filterServiceNodes(out.Nodes) // If we have no nodes, return not found! if len(out.Nodes) == 0 { d.addSOA(d.domain, resp) resp.SetRcode(req, dns.RcodeNameError) return } // Perform a random shuffle shuffleServiceNodes(out.Nodes) // Add various responses depending on the request qType := req.Question[0].Qtype d.serviceNodeRecords(out.Nodes, req, resp, ttl) if qType == dns.TypeSRV { d.serviceSRVRecords(datacenter, out.Nodes, req, resp, ttl) } // If the network is not TCP, restrict the number of responses if network != "tcp" && len(resp.Answer) > maxServiceResponses { resp.Answer = resp.Answer[:maxServiceResponses] // Flag that there are more records to return in the UDP response if d.config.EnableTruncate { resp.Truncated = true } } // If the answer is empty, return not found if len(resp.Answer) == 0 { d.addSOA(d.domain, resp) return } } // filterServiceNodes is used to filter out nodes that are failing // health checks to prevent routing to unhealthy nodes func (d *DNSServer) filterServiceNodes(nodes structs.CheckServiceNodes) structs.CheckServiceNodes { n := len(nodes) OUTER: for i := 0; i < n; i++ { node := nodes[i] for _, check := range node.Checks { if check.Status == structs.HealthCritical || (d.config.OnlyPassing && check.Status != structs.HealthPassing) { d.logger.Printf("[WARN] dns: node '%s' failing health check '%s: %s', dropping from service '%s'", node.Node.Node, check.CheckID, check.Name, node.Service.Service) nodes[i], nodes[n-1] = nodes[n-1], structs.CheckServiceNode{} n-- i-- continue OUTER } } } return nodes[:n] } // shuffleServiceNodes does an in-place random shuffle using the Fisher-Yates algorithm func shuffleServiceNodes(nodes structs.CheckServiceNodes) { for i := len(nodes) - 1; i > 0; i-- { j := rand.Int31() % int32(i+1) nodes[i], nodes[j] = nodes[j], nodes[i] } } // serviceNodeRecords is used to add the node records for a service lookup func (d *DNSServer) serviceNodeRecords(nodes structs.CheckServiceNodes, req, resp *dns.Msg, ttl time.Duration) { qName := req.Question[0].Name qType := req.Question[0].Qtype handled := make(map[string]struct{}) for _, node := range nodes { // Avoid duplicate entries, possible if a node has // the same service on multiple ports, etc. addr := node.Node.Address if node.Service.Address != "" { addr = node.Service.Address } if _, ok := handled[addr]; ok { continue } handled[addr] = struct{}{} // Add the node record records := d.formatNodeRecord(&node.Node, addr, qName, qType, ttl) if records != nil { resp.Answer = append(resp.Answer, records...) } } } // serviceARecords is used to add the SRV records for a service lookup func (d *DNSServer) serviceSRVRecords(dc string, nodes structs.CheckServiceNodes, req, resp *dns.Msg, ttl time.Duration) { handled := make(map[string]struct{}) for _, node := range nodes { // Avoid duplicate entries, possible if a node has // the same service the same port, etc. tuple := fmt.Sprintf("%s:%s:%d", node.Node.Node, node.Service.Address, node.Service.Port) if _, ok := handled[tuple]; ok { continue } handled[tuple] = struct{}{} // Add the SRV record srvRec := &dns.SRV{ Hdr: dns.RR_Header{ Name: req.Question[0].Name, Rrtype: dns.TypeSRV, Class: dns.ClassINET, Ttl: uint32(ttl / time.Second), }, Priority: 1, Weight: 1, Port: uint16(node.Service.Port), Target: fmt.Sprintf("%s.node.%s.%s", node.Node.Node, dc, d.domain), } resp.Answer = append(resp.Answer, srvRec) // Determine advertised address addr := node.Node.Address if node.Service.Address != "" { addr = node.Service.Address } // Add the extra record records := d.formatNodeRecord(&node.Node, addr, srvRec.Target, dns.TypeANY, ttl) if records != nil { resp.Extra = append(resp.Extra, records...) } } } // handleRecurse is used to handle recursive DNS queries func (d *DNSServer) handleRecurse(resp dns.ResponseWriter, req *dns.Msg) { q := req.Question[0] network := "udp" defer func(s time.Time) { d.logger.Printf("[DEBUG] dns: request for %v (%s) (%v) from client %s (%s)", q, network, time.Now().Sub(s), resp.RemoteAddr().String(), resp.RemoteAddr().Network()) }(time.Now()) // Switch to TCP if the client is if _, ok := resp.RemoteAddr().(*net.TCPAddr); ok { network = "tcp" } // Recursively resolve c := &dns.Client{Net: network} var r *dns.Msg var rtt time.Duration var err error for _, recursor := range d.recursors { r, rtt, err = c.Exchange(req, recursor) if err == nil { // Forward the response d.logger.Printf("[DEBUG] dns: recurse RTT for %v (%v)", q, rtt) if err := resp.WriteMsg(r); err != nil { d.logger.Printf("[WARN] dns: failed to respond: %v", err) } return } d.logger.Printf("[ERR] dns: recurse failed: %v", err) } // If all resolvers fail, return a SERVFAIL message d.logger.Printf("[ERR] dns: all resolvers failed for %v from client %s (%s)", q, resp.RemoteAddr().String(), resp.RemoteAddr().Network()) m := &dns.Msg{} m.SetReply(req) m.RecursionAvailable = true m.SetRcode(req, dns.RcodeServerFailure) resp.WriteMsg(m) } // resolveCNAME is used to recursively resolve CNAME records func (d *DNSServer) resolveCNAME(name string) []dns.RR { // Do nothing if we don't have a recursor if len(d.recursors) == 0 { return nil } // Ask for any A records m := new(dns.Msg) m.SetQuestion(name, dns.TypeA) // Make a DNS lookup request c := &dns.Client{Net: "udp"} var r *dns.Msg var rtt time.Duration var err error for _, recursor := range d.recursors { r, rtt, err = c.Exchange(m, recursor) if err == nil { d.logger.Printf("[DEBUG] dns: cname recurse RTT for %v (%v)", name, rtt) return r.Answer } d.logger.Printf("[ERR] dns: cname recurse failed for %v: %v", name, err) } d.logger.Printf("[ERR] dns: all resolvers failed for %v", name) return nil }