package mapper import ( "encoding/binary" "encoding/json" "fmt" "net/url" "strings" "sync" "time" mapset "github.com/deckarep/golang-set/v2" "github.com/juanfont/headscale/hscontrol/db" "github.com/juanfont/headscale/hscontrol/policy" "github.com/juanfont/headscale/hscontrol/types" "github.com/juanfont/headscale/hscontrol/util" "github.com/klauspost/compress/zstd" "github.com/rs/zerolog/log" "github.com/samber/lo" "tailscale.com/smallzstd" "tailscale.com/tailcfg" "tailscale.com/types/dnstype" "tailscale.com/types/key" ) const ( nextDNSDoHPrefix = "https://dns.nextdns.io" reservedResponseHeaderSize = 4 ) type Mapper struct { db *db.HSDatabase privateKey2019 *key.MachinePrivate isNoise bool // Configuration // TODO(kradalby): figure out if this is the format we want this in derpMap *tailcfg.DERPMap baseDomain string dnsCfg *tailcfg.DNSConfig logtail bool randomClientPort bool } func NewMapper( db *db.HSDatabase, privateKey *key.MachinePrivate, isNoise bool, derpMap *tailcfg.DERPMap, baseDomain string, dnsCfg *tailcfg.DNSConfig, logtail bool, randomClientPort bool, ) *Mapper { return &Mapper{ db: db, privateKey2019: privateKey, isNoise: isNoise, derpMap: derpMap, baseDomain: baseDomain, dnsCfg: dnsCfg, logtail: logtail, randomClientPort: randomClientPort, } } // TODO: Optimise // As this work continues, the idea is that there will be one Mapper instance // per node, attached to the open stream between the control and client. // This means that this can hold a state per machine and we can use that to // improve the mapresponses sent. // We could: // - Keep information about the previous mapresponse so we can send a diff // - Store hashes // - Create a "minifier" that removes info not needed for the node // fullMapResponse is the internal function for generating a MapResponse // for a machine. func fullMapResponse( pol *policy.ACLPolicy, machine *types.Machine, peers types.Machines, baseDomain string, dnsCfg *tailcfg.DNSConfig, derpMap *tailcfg.DERPMap, logtail bool, randomClientPort bool, ) (*tailcfg.MapResponse, error) { tailnode, err := tailNode(*machine, pol, dnsCfg, baseDomain) if err != nil { return nil, err } rules, sshPolicy, err := policy.GenerateFilterAndSSHRules( pol, machine, peers, ) if err != nil { return nil, err } // Filter out peers that have expired. peers = lo.Filter(peers, func(item types.Machine, index int) bool { return !item.IsExpired() }) // If there are filter rules present, see if there are any machines that cannot // access eachother at all and remove them from the peers. if len(rules) > 0 { peers = policy.FilterMachinesByACL(machine, peers, rules) } profiles := generateUserProfiles(machine, peers, baseDomain) dnsConfig := generateDNSConfig( dnsCfg, baseDomain, *machine, peers, ) tailPeers, err := tailNodes(peers, pol, dnsCfg, baseDomain) if err != nil { return nil, err } now := time.Now() resp := tailcfg.MapResponse{ KeepAlive: false, Node: tailnode, // TODO: Only send if updated DERPMap: derpMap, // TODO: Only send if updated Peers: tailPeers, // TODO(kradalby): Implement: // https://github.com/tailscale/tailscale/blob/main/tailcfg/tailcfg.go#L1351-L1374 // PeersChanged // PeersRemoved // PeersChangedPatch // PeerSeenChange // OnlineChange // TODO: Only send if updated DNSConfig: dnsConfig, // TODO: Only send if updated Domain: baseDomain, // Do not instruct clients to collect services, we do not // support or do anything with them CollectServices: "false", // TODO: Only send if updated PacketFilter: policy.ReduceFilterRules(machine, rules), UserProfiles: profiles, // TODO: Only send if updated SSHPolicy: sshPolicy, ControlTime: &now, Debug: &tailcfg.Debug{ DisableLogTail: !logtail, RandomizeClientPort: randomClientPort, }, } return &resp, nil } func generateUserProfiles( machine *types.Machine, peers types.Machines, baseDomain string, ) []tailcfg.UserProfile { userMap := make(map[string]types.User) userMap[machine.User.Name] = machine.User for _, peer := range peers { userMap[peer.User.Name] = peer.User // not worth checking if already is there } profiles := []tailcfg.UserProfile{} for _, user := range userMap { displayName := user.Name if baseDomain != "" { displayName = fmt.Sprintf("%s@%s", user.Name, baseDomain) } profiles = append(profiles, tailcfg.UserProfile{ ID: tailcfg.UserID(user.ID), LoginName: user.Name, DisplayName: displayName, }) } return profiles } func generateDNSConfig( base *tailcfg.DNSConfig, baseDomain string, machine types.Machine, peers types.Machines, ) *tailcfg.DNSConfig { dnsConfig := base.Clone() // if MagicDNS is enabled if base != nil && base.Proxied { // Only inject the Search Domain of the current user // shared nodes should use their full FQDN dnsConfig.Domains = append( dnsConfig.Domains, fmt.Sprintf( "%s.%s", machine.User.Name, baseDomain, ), ) userSet := mapset.NewSet[types.User]() userSet.Add(machine.User) for _, p := range peers { userSet.Add(p.User) } for _, user := range userSet.ToSlice() { dnsRoute := fmt.Sprintf("%v.%v", user.Name, baseDomain) dnsConfig.Routes[dnsRoute] = nil } } else { dnsConfig = base } addNextDNSMetadata(dnsConfig.Resolvers, machine) return dnsConfig } // If any nextdns DoH resolvers are present in the list of resolvers it will // take metadata from the machine metadata and instruct tailscale to add it // to the requests. This makes it possible to identify from which device the // requests come in the NextDNS dashboard. // // This will produce a resolver like: // `https://dns.nextdns.io/?device_name=node-name&device_model=linux&device_ip=100.64.0.1` func addNextDNSMetadata(resolvers []*dnstype.Resolver, machine types.Machine) { for _, resolver := range resolvers { if strings.HasPrefix(resolver.Addr, nextDNSDoHPrefix) { attrs := url.Values{ "device_name": []string{machine.Hostname}, "device_model": []string{machine.HostInfo.OS}, } if len(machine.IPAddresses) > 0 { attrs.Add("device_ip", machine.IPAddresses[0].String()) } resolver.Addr = fmt.Sprintf("%s?%s", resolver.Addr, attrs.Encode()) } } } // CreateMapResponse returns a MapResponse for the given machine. func (m Mapper) CreateMapResponse( mapRequest tailcfg.MapRequest, machine *types.Machine, pol *policy.ACLPolicy, ) ([]byte, error) { peers, err := m.db.ListPeers(machine) if err != nil { log.Error(). Caller(). Err(err). Msg("Cannot fetch peers") return nil, err } mapResponse, err := fullMapResponse( pol, machine, peers, m.baseDomain, m.dnsCfg, m.derpMap, m.logtail, m.randomClientPort, ) if err != nil { return nil, err } if m.isNoise { return m.marshalMapResponse(mapResponse, key.MachinePublic{}, mapRequest.Compress) } var machineKey key.MachinePublic err = machineKey.UnmarshalText([]byte(util.MachinePublicKeyEnsurePrefix(machine.MachineKey))) if err != nil { log.Error(). Caller(). Err(err). Msg("Cannot parse client key") return nil, err } return m.marshalMapResponse(mapResponse, machineKey, mapRequest.Compress) } func (m Mapper) CreateKeepAliveResponse( mapRequest tailcfg.MapRequest, machine *types.Machine, ) ([]byte, error) { keepAliveResponse := tailcfg.MapResponse{ KeepAlive: true, } if m.isNoise { return m.marshalMapResponse( keepAliveResponse, key.MachinePublic{}, mapRequest.Compress, ) } var machineKey key.MachinePublic err := machineKey.UnmarshalText([]byte(util.MachinePublicKeyEnsurePrefix(machine.MachineKey))) if err != nil { log.Error(). Caller(). Err(err). Msg("Cannot parse client key") return nil, err } return m.marshalMapResponse(keepAliveResponse, machineKey, mapRequest.Compress) } // MarshalResponse takes an Tailscale Response, marhsal it to JSON. // If isNoise is set, then the JSON body will be returned // If !isNoise and privateKey2019 is set, the JSON body will be sealed in a Nacl box. func MarshalResponse( resp interface{}, isNoise bool, privateKey2019 *key.MachinePrivate, machineKey key.MachinePublic, ) ([]byte, error) { jsonBody, err := json.Marshal(resp) if err != nil { log.Error(). Caller(). Err(err). Msg("Cannot marshal response") return nil, err } if !isNoise && privateKey2019 != nil { return privateKey2019.SealTo(machineKey, jsonBody), nil } return jsonBody, nil } func (m Mapper) marshalMapResponse( resp interface{}, machineKey key.MachinePublic, compression string, ) ([]byte, error) { jsonBody, err := json.Marshal(resp) if err != nil { log.Error(). Caller(). Err(err). Msg("Cannot marshal map response") } var respBody []byte if compression == util.ZstdCompression { respBody = zstdEncode(jsonBody) if !m.isNoise { // if legacy protocol respBody = m.privateKey2019.SealTo(machineKey, respBody) } } else { if !m.isNoise { // if legacy protocol respBody = m.privateKey2019.SealTo(machineKey, jsonBody) } else { respBody = jsonBody } } data := make([]byte, reservedResponseHeaderSize) binary.LittleEndian.PutUint32(data, uint32(len(respBody))) data = append(data, respBody...) return data, nil } func zstdEncode(in []byte) []byte { encoder, ok := zstdEncoderPool.Get().(*zstd.Encoder) if !ok { panic("invalid type in sync pool") } out := encoder.EncodeAll(in, nil) _ = encoder.Close() zstdEncoderPool.Put(encoder) return out } var zstdEncoderPool = &sync.Pool{ New: func() any { encoder, err := smallzstd.NewEncoder( nil, zstd.WithEncoderLevel(zstd.SpeedFastest)) if err != nil { panic(err) } return encoder }, }