headscale/hscontrol/mapper/mapper.go

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package mapper
import (
"encoding/binary"
"encoding/json"
"fmt"
"io/fs"
"net/url"
"os"
"path"
"sort"
"strings"
"sync"
"sync/atomic"
"time"
mapset "github.com/deckarep/golang-set/v2"
"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/envknob"
"tailscale.com/smallzstd"
"tailscale.com/tailcfg"
"tailscale.com/types/dnstype"
"tailscale.com/types/key"
)
const (
nextDNSDoHPrefix = "https://dns.nextdns.io"
reservedResponseHeaderSize = 4
mapperIDLength = 8
debugMapResponsePerm = 0o755
)
var debugDumpMapResponsePath = envknob.String("HEADSCALE_DEBUG_DUMP_MAPRESPONSE_PATH")
// 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.
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// This means that this can hold a state per node 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
type Mapper struct {
privateKey2019 *key.MachinePrivate
isNoise bool
capVer tailcfg.CapabilityVersion
// 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
uid string
created time.Time
seq uint64
// Map isnt concurrency safe, so we need to ensure
// only one func is accessing it over time.
mu sync.Mutex
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peers map[uint64]*types.Node
}
func NewMapper(
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node *types.Node,
peers types.Nodes,
privateKey *key.MachinePrivate,
isNoise bool,
capVer tailcfg.CapabilityVersion,
derpMap *tailcfg.DERPMap,
baseDomain string,
dnsCfg *tailcfg.DNSConfig,
logtail bool,
randomClientPort bool,
) *Mapper {
log.Debug().
Caller().
Bool("noise", isNoise).
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Str("node", node.Hostname).
Msg("creating new mapper")
uid, _ := util.GenerateRandomStringDNSSafe(mapperIDLength)
return &Mapper{
privateKey2019: privateKey,
isNoise: isNoise,
capVer: capVer,
derpMap: derpMap,
baseDomain: baseDomain,
dnsCfg: dnsCfg,
logtail: logtail,
randomClientPort: randomClientPort,
uid: uid,
created: time.Now(),
seq: 0,
// TODO: populate
peers: peers.IDMap(),
}
}
func (m *Mapper) String() string {
return fmt.Sprintf("Mapper: { seq: %d, uid: %s, created: %s }", m.seq, m.uid, m.created)
}
func generateUserProfiles(
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node *types.Node,
peers types.Nodes,
baseDomain string,
) []tailcfg.UserProfile {
userMap := make(map[string]types.User)
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userMap[node.User.Name] = node.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,
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node *types.Node,
peers types.Nodes,
) *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",
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node.User.Name,
baseDomain,
),
)
userSet := mapset.NewSet[types.User]()
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userSet.Add(node.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
}
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addNextDNSMetadata(dnsConfig.Resolvers, node)
return dnsConfig
}
// If any nextdns DoH resolvers are present in the list of resolvers it will
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// take metadata from the node 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/<nextdns-id>?device_name=node-name&device_model=linux&device_ip=100.64.0.1`
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func addNextDNSMetadata(resolvers []*dnstype.Resolver, node *types.Node) {
for _, resolver := range resolvers {
if strings.HasPrefix(resolver.Addr, nextDNSDoHPrefix) {
attrs := url.Values{
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"device_name": []string{node.Hostname},
"device_model": []string{node.HostInfo.OS},
}
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if len(node.IPAddresses) > 0 {
attrs.Add("device_ip", node.IPAddresses[0].String())
}
resolver.Addr = fmt.Sprintf("%s?%s", resolver.Addr, attrs.Encode())
}
}
}
// fullMapResponse creates a complete MapResponse for a node.
// It is a separate function to make testing easier.
func (m *Mapper) fullMapResponse(
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node *types.Node,
pol *policy.ACLPolicy,
) (*tailcfg.MapResponse, error) {
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peers := nodeMapToList(m.peers)
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resp, err := m.baseWithConfigMapResponse(node, pol)
if err != nil {
return nil, err
}
err = appendPeerChanges(
resp,
pol,
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node,
m.capVer,
peers,
peers,
m.baseDomain,
m.dnsCfg,
m.randomClientPort,
)
if err != nil {
return nil, err
}
return resp, nil
}
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// FullMapResponse returns a MapResponse for the given node.
func (m *Mapper) FullMapResponse(
mapRequest tailcfg.MapRequest,
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node *types.Node,
pol *policy.ACLPolicy,
) ([]byte, error) {
m.mu.Lock()
defer m.mu.Unlock()
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resp, err := m.fullMapResponse(node, pol)
if err != nil {
return nil, err
}
if m.isNoise {
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return m.marshalMapResponse(mapRequest, resp, node, mapRequest.Compress)
}
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return m.marshalMapResponse(mapRequest, resp, node, mapRequest.Compress)
}
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// LiteMapResponse returns a MapResponse for the given node.
// Lite means that the peers has been omitted, this is intended
// to be used to answer MapRequests with OmitPeers set to true.
func (m *Mapper) LiteMapResponse(
mapRequest tailcfg.MapRequest,
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node *types.Node,
pol *policy.ACLPolicy,
) ([]byte, error) {
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resp, err := m.baseWithConfigMapResponse(node, pol)
if err != nil {
return nil, err
}
if m.isNoise {
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return m.marshalMapResponse(mapRequest, resp, node, mapRequest.Compress)
}
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return m.marshalMapResponse(mapRequest, resp, node, mapRequest.Compress)
}
func (m *Mapper) KeepAliveResponse(
mapRequest tailcfg.MapRequest,
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node *types.Node,
) ([]byte, error) {
resp := m.baseMapResponse()
resp.KeepAlive = true
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return m.marshalMapResponse(mapRequest, &resp, node, mapRequest.Compress)
}
func (m *Mapper) DERPMapResponse(
mapRequest tailcfg.MapRequest,
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node *types.Node,
derpMap tailcfg.DERPMap,
) ([]byte, error) {
resp := m.baseMapResponse()
resp.DERPMap = &derpMap
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return m.marshalMapResponse(mapRequest, &resp, node, mapRequest.Compress)
}
func (m *Mapper) PeerChangedResponse(
mapRequest tailcfg.MapRequest,
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node *types.Node,
changed types.Nodes,
pol *policy.ACLPolicy,
) ([]byte, error) {
m.mu.Lock()
defer m.mu.Unlock()
lastSeen := make(map[tailcfg.NodeID]bool)
// Update our internal map.
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for _, node := range changed {
m.peers[node.ID] = node
// We have just seen the node, let the peers update their list.
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lastSeen[tailcfg.NodeID(node.ID)] = true
}
resp := m.baseMapResponse()
err := appendPeerChanges(
&resp,
pol,
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node,
m.capVer,
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nodeMapToList(m.peers),
changed,
m.baseDomain,
m.dnsCfg,
m.randomClientPort,
)
if err != nil {
return nil, err
}
// resp.PeerSeenChange = lastSeen
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return m.marshalMapResponse(mapRequest, &resp, node, mapRequest.Compress)
}
func (m *Mapper) PeerRemovedResponse(
mapRequest tailcfg.MapRequest,
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node *types.Node,
removed []tailcfg.NodeID,
) ([]byte, error) {
m.mu.Lock()
defer m.mu.Unlock()
// remove from our internal map
for _, id := range removed {
delete(m.peers, uint64(id))
}
resp := m.baseMapResponse()
resp.PeersRemoved = removed
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return m.marshalMapResponse(mapRequest, &resp, node, mapRequest.Compress)
}
func (m *Mapper) marshalMapResponse(
mapRequest tailcfg.MapRequest,
resp *tailcfg.MapResponse,
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node *types.Node,
compression string,
) ([]byte, error) {
atomic.AddUint64(&m.seq, 1)
var machineKey key.MachinePublic
err := machineKey.UnmarshalText([]byte(node.MachineKey))
if err != nil {
log.Error().
Caller().
Err(err).
Msg("Cannot parse client key")
return nil, err
}
jsonBody, err := json.Marshal(resp)
if err != nil {
log.Error().
Caller().
Err(err).
Msg("Cannot marshal map response")
}
if debugDumpMapResponsePath != "" {
data := map[string]interface{}{
"MapRequest": mapRequest,
"MapResponse": resp,
}
body, err := json.Marshal(data)
if err != nil {
log.Error().
Caller().
Err(err).
Msg("Cannot marshal map response")
}
perms := fs.FileMode(debugMapResponsePerm)
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mPath := path.Join(debugDumpMapResponsePath, node.Hostname)
err = os.MkdirAll(mPath, perms)
if err != nil {
panic(err)
}
now := time.Now().UnixNano()
mapResponsePath := path.Join(
mPath,
fmt.Sprintf("%d-%s-%d.json", now, m.uid, atomic.LoadUint64(&m.seq)),
)
log.Trace().Msgf("Writing MapResponse to %s", mapResponsePath)
err = os.WriteFile(mapResponsePath, body, perms)
if err != nil {
panic(err)
}
}
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
}
// 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 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
},
}
// baseMapResponse returns a tailcfg.MapResponse with
// KeepAlive false and ControlTime set to now.
func (m *Mapper) baseMapResponse() tailcfg.MapResponse {
now := time.Now()
resp := tailcfg.MapResponse{
KeepAlive: false,
ControlTime: &now,
}
return resp
}
// baseWithConfigMapResponse returns a tailcfg.MapResponse struct
// with the basic configuration from headscale set.
// It is used in for bigger updates, such as full and lite, not
// incremental.
func (m *Mapper) baseWithConfigMapResponse(
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node *types.Node,
pol *policy.ACLPolicy,
) (*tailcfg.MapResponse, error) {
resp := m.baseMapResponse()
tailnode, err := tailNode(node, m.capVer, pol, m.dnsCfg, m.baseDomain, m.randomClientPort)
if err != nil {
return nil, err
}
resp.Node = tailnode
resp.DERPMap = m.derpMap
resp.Domain = m.baseDomain
// Do not instruct clients to collect services we do not
// support or do anything with them
resp.CollectServices = "false"
resp.KeepAlive = false
resp.Debug = &tailcfg.Debug{
DisableLogTail: !m.logtail,
}
return &resp, nil
}
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func nodeMapToList(nodes map[uint64]*types.Node) types.Nodes {
ret := make(types.Nodes, 0)
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for _, node := range nodes {
ret = append(ret, node)
}
return ret
}
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func filterExpiredAndNotReady(peers types.Nodes) types.Nodes {
return lo.Filter(peers, func(item *types.Node, index int) bool {
// Filter out nodes that are expired OR
// nodes that has no endpoints, this typically means they have
// registered, but are not configured.
return !item.IsExpired() || len(item.Endpoints) > 0
})
}
// appendPeerChanges mutates a tailcfg.MapResponse with all the
// necessary changes when peers have changed.
func appendPeerChanges(
resp *tailcfg.MapResponse,
pol *policy.ACLPolicy,
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node *types.Node,
capVer tailcfg.CapabilityVersion,
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peers types.Nodes,
changed types.Nodes,
baseDomain string,
dnsCfg *tailcfg.DNSConfig,
randomClientPort bool,
) error {
fullChange := len(peers) == len(changed)
rules, sshPolicy, err := policy.GenerateFilterAndSSHRules(
pol,
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node,
peers,
)
if err != nil {
return err
}
// Filter out peers that have expired.
changed = filterExpiredAndNotReady(changed)
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// If there are filter rules present, see if there are any nodes that cannot
// access eachother at all and remove them from the peers.
if len(rules) > 0 {
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changed = policy.FilterNodesByACL(node, changed, rules)
}
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profiles := generateUserProfiles(node, changed, baseDomain)
dnsConfig := generateDNSConfig(
dnsCfg,
baseDomain,
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node,
peers,
)
tailPeers, err := tailNodes(changed, capVer, pol, dnsCfg, baseDomain, randomClientPort)
if err != nil {
return err
}
// Peers is always returned sorted by Node.ID.
sort.SliceStable(tailPeers, func(x, y int) bool {
return tailPeers[x].ID < tailPeers[y].ID
})
if fullChange {
resp.Peers = tailPeers
} else {
resp.PeersChanged = tailPeers
}
resp.DNSConfig = dnsConfig
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resp.PacketFilter = policy.ReduceFilterRules(node, rules)
resp.UserProfiles = profiles
resp.SSHPolicy = sshPolicy
// TODO(kradalby): This currently does not take last seen in keepalives into account
resp.OnlineChange = peers.OnlineNodeMap()
return nil
}