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tailscale/tstest/integration/testcontrol/testcontrol.go

905 lines
23 KiB
Go

// Copyright (c) 2021 Tailscale Inc & AUTHORS All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Package testcontrol contains a minimal control plane server for testing purposes.
package testcontrol
import (
"bytes"
"context"
crand "crypto/rand"
"encoding/binary"
"encoding/json"
"errors"
"fmt"
"io"
"io/ioutil"
"log"
"math/rand"
"net/http"
"net/http/httptest"
"net/url"
"sort"
"strings"
"sync"
"time"
"github.com/klauspost/compress/zstd"
"go4.org/mem"
"inet.af/netaddr"
"tailscale.com/net/tsaddr"
"tailscale.com/smallzstd"
"tailscale.com/tailcfg"
"tailscale.com/types/key"
"tailscale.com/types/logger"
)
const msgLimit = 1 << 20 // encrypted message length limit
// Server is a control plane server. Its zero value is ready for use.
// Everything is stored in-memory in one tailnet.
type Server struct {
Logf logger.Logf // nil means to use the log package
DERPMap *tailcfg.DERPMap // nil means to use prod DERP map
RequireAuth bool
Verbose bool
DNSConfig *tailcfg.DNSConfig // nil means no DNS config
// ExplicitBaseURL or HTTPTestServer must be set.
ExplicitBaseURL string // e.g. "http://127.0.0.1:1234" with no trailing URL
HTTPTestServer *httptest.Server // if non-nil, used to get BaseURL
initMuxOnce sync.Once
mux *http.ServeMux
mu sync.Mutex
inServeMap int
cond *sync.Cond // lazily initialized by condLocked
pubKey key.MachinePublic
privKey key.ControlPrivate // not strictly needed vs. MachinePrivate, but handy to test type interactions.
noisePubKey key.MachinePublic
noisePrivKey key.ControlPrivate // not strictly needed vs. MachinePrivate, but handy to test type interactions.
nodes map[key.NodePublic]*tailcfg.Node
users map[key.NodePublic]*tailcfg.User
logins map[key.NodePublic]*tailcfg.Login
updates map[tailcfg.NodeID]chan updateType
authPath map[string]*AuthPath
nodeKeyAuthed map[key.NodePublic]bool // key => true once authenticated
pingReqsToAdd map[key.NodePublic]*tailcfg.PingRequest
allExpired bool // All nodes will be told their node key is expired.
}
// BaseURL returns the server's base URL, without trailing slash.
func (s *Server) BaseURL() string {
if e := s.ExplicitBaseURL; e != "" {
return e
}
if hs := s.HTTPTestServer; hs != nil {
if hs.URL != "" {
return hs.URL
}
panic("Server.HTTPTestServer not started")
}
panic("Server ExplicitBaseURL and HTTPTestServer both unset")
}
// NumNodes returns the number of nodes in the testcontrol server.
//
// This is useful when connecting a bunch of virtual machines to a testcontrol
// server to see how many of them connected successfully.
func (s *Server) NumNodes() int {
s.mu.Lock()
defer s.mu.Unlock()
return len(s.nodes)
}
// condLocked lazily initializes and returns s.cond.
// s.mu must be held.
func (s *Server) condLocked() *sync.Cond {
if s.cond == nil {
s.cond = sync.NewCond(&s.mu)
}
return s.cond
}
// AwaitNodeInMapRequest waits for node k to be stuck in a map poll.
// It returns an error if and only if the context is done first.
func (s *Server) AwaitNodeInMapRequest(ctx context.Context, k key.NodePublic) error {
s.mu.Lock()
defer s.mu.Unlock()
cond := s.condLocked()
done := make(chan struct{})
defer close(done)
go func() {
select {
case <-done:
case <-ctx.Done():
cond.Broadcast()
}
}()
for {
node := s.nodeLocked(k)
if node == nil {
return errors.New("unknown node key")
}
if _, ok := s.updates[node.ID]; ok {
return nil
}
cond.Wait()
if err := ctx.Err(); err != nil {
return err
}
}
}
// AddPingRequest sends the ping pr to nodeKeyDst. It reports whether it did so. That is,
// it reports whether nodeKeyDst was connected.
func (s *Server) AddPingRequest(nodeKeyDst key.NodePublic, pr *tailcfg.PingRequest) bool {
s.mu.Lock()
defer s.mu.Unlock()
if s.pingReqsToAdd == nil {
s.pingReqsToAdd = map[key.NodePublic]*tailcfg.PingRequest{}
}
// Now send the update to the channel
node := s.nodeLocked(nodeKeyDst)
if node == nil {
return false
}
s.pingReqsToAdd[nodeKeyDst] = pr
nodeID := node.ID
oldUpdatesCh := s.updates[nodeID]
return sendUpdate(oldUpdatesCh, updateDebugInjection)
}
// Mark the Node key of every node as expired
func (s *Server) SetExpireAllNodes(expired bool) {
s.mu.Lock()
defer s.mu.Unlock()
s.allExpired = expired
for _, node := range s.nodes {
sendUpdate(s.updates[node.ID], updateSelfChanged)
}
}
type AuthPath struct {
nodeKey key.NodePublic
closeOnce sync.Once
ch chan struct{}
success bool
}
func (ap *AuthPath) completeSuccessfully() {
ap.success = true
close(ap.ch)
}
// CompleteSuccessfully completes the login path successfully, as if
// the user did the whole auth dance.
func (ap *AuthPath) CompleteSuccessfully() {
ap.closeOnce.Do(ap.completeSuccessfully)
}
func (s *Server) logf(format string, a ...any) {
if s.Logf != nil {
s.Logf(format, a...)
} else {
log.Printf(format, a...)
}
}
func (s *Server) initMux() {
s.mux = http.NewServeMux()
s.mux.HandleFunc("/", s.serveUnhandled)
s.mux.HandleFunc("/key", s.serveKey)
s.mux.HandleFunc("/machine/", s.serveMachine)
}
func (s *Server) ServeHTTP(w http.ResponseWriter, r *http.Request) {
s.initMuxOnce.Do(s.initMux)
s.mux.ServeHTTP(w, r)
}
func (s *Server) serveUnhandled(w http.ResponseWriter, r *http.Request) {
var got bytes.Buffer
r.Write(&got)
go panic(fmt.Sprintf("testcontrol.Server received unhandled request: %s", got.Bytes()))
}
func (s *Server) publicKeys() (noiseKey, pubKey key.MachinePublic) {
s.mu.Lock()
defer s.mu.Unlock()
s.ensureKeyPairLocked()
return s.noisePubKey, s.pubKey
}
func (s *Server) privateKey() key.ControlPrivate {
s.mu.Lock()
defer s.mu.Unlock()
s.ensureKeyPairLocked()
return s.privKey
}
func (s *Server) ensureKeyPairLocked() {
if !s.pubKey.IsZero() {
return
}
s.noisePrivKey = key.NewControl()
s.noisePubKey = s.noisePrivKey.Public()
s.privKey = key.NewControl()
s.pubKey = s.privKey.Public()
}
func (s *Server) serveKey(w http.ResponseWriter, r *http.Request) {
_, legacyKey := s.publicKeys()
if r.FormValue("v") == "" {
w.Header().Set("Content-Type", "text/plain")
io.WriteString(w, legacyKey.UntypedHexString())
return
}
w.Header().Set("Content-Type", "application/json")
// TODO(maisem/bradfitz): support noise protocol here.
json.NewEncoder(w).Encode(&tailcfg.OverTLSPublicKeyResponse{
LegacyPublicKey: legacyKey,
// PublicKey: noiseKey,
})
}
func (s *Server) serveMachine(w http.ResponseWriter, r *http.Request) {
mkeyStr := strings.TrimPrefix(r.URL.Path, "/machine/")
rem := ""
if i := strings.IndexByte(mkeyStr, '/'); i != -1 {
rem = mkeyStr[i:]
mkeyStr = mkeyStr[:i]
}
// TODO(maisem/bradfitz): support noise protocol here.
mkey, err := key.ParseMachinePublicUntyped(mem.S(mkeyStr))
if err != nil {
http.Error(w, "bad machine key hex", 400)
return
}
if r.Method != "POST" {
http.Error(w, "POST required", 400)
return
}
switch rem {
case "":
s.serveRegister(w, r, mkey)
case "/map":
s.serveMap(w, r, mkey)
default:
s.serveUnhandled(w, r)
}
}
// Node returns the node for nodeKey. It's always nil or cloned memory.
func (s *Server) Node(nodeKey key.NodePublic) *tailcfg.Node {
s.mu.Lock()
defer s.mu.Unlock()
return s.nodeLocked(nodeKey)
}
// nodeLocked returns the node for nodeKey. It's always nil or cloned memory.
//
// s.mu must be held.
func (s *Server) nodeLocked(nodeKey key.NodePublic) *tailcfg.Node {
return s.nodes[nodeKey].Clone()
}
// AddFakeNode injects a fake node into the server.
func (s *Server) AddFakeNode() {
s.mu.Lock()
defer s.mu.Unlock()
if s.nodes == nil {
s.nodes = make(map[key.NodePublic]*tailcfg.Node)
}
nk := key.NewNode().Public()
mk := key.NewMachine().Public()
dk := key.NewDisco().Public()
r := nk.Raw32()
id := int64(binary.LittleEndian.Uint64(r[:]))
ip := netaddr.IPv4(r[0], r[1], r[2], r[3])
addr := netaddr.IPPrefixFrom(ip, 32)
s.nodes[nk] = &tailcfg.Node{
ID: tailcfg.NodeID(id),
StableID: tailcfg.StableNodeID(fmt.Sprintf("TESTCTRL%08x", id)),
User: tailcfg.UserID(id),
Machine: mk,
Key: nk,
MachineAuthorized: true,
DiscoKey: dk,
Addresses: []netaddr.IPPrefix{addr},
AllowedIPs: []netaddr.IPPrefix{addr},
}
// TODO: send updates to other (non-fake?) nodes
}
func (s *Server) AllNodes() (nodes []*tailcfg.Node) {
s.mu.Lock()
defer s.mu.Unlock()
for _, n := range s.nodes {
nodes = append(nodes, n.Clone())
}
sort.Slice(nodes, func(i, j int) bool {
return nodes[i].StableID < nodes[j].StableID
})
return nodes
}
func (s *Server) getUser(nodeKey key.NodePublic) (*tailcfg.User, *tailcfg.Login) {
s.mu.Lock()
defer s.mu.Unlock()
if s.users == nil {
s.users = map[key.NodePublic]*tailcfg.User{}
}
if s.logins == nil {
s.logins = map[key.NodePublic]*tailcfg.Login{}
}
if u, ok := s.users[nodeKey]; ok {
return u, s.logins[nodeKey]
}
id := tailcfg.UserID(len(s.users) + 1)
domain := "fake-control.example.net"
loginName := fmt.Sprintf("user-%d@%s", id, domain)
displayName := fmt.Sprintf("User %d", id)
login := &tailcfg.Login{
ID: tailcfg.LoginID(id),
Provider: "testcontrol",
LoginName: loginName,
DisplayName: displayName,
ProfilePicURL: "https://tailscale.com/static/images/marketing/team-carney.jpg",
Domain: domain,
}
user := &tailcfg.User{
ID: id,
LoginName: loginName,
DisplayName: displayName,
Domain: domain,
Logins: []tailcfg.LoginID{login.ID},
}
s.users[nodeKey] = user
s.logins[nodeKey] = login
return user, login
}
// authPathDone returns a close-only struct that's closed when the
// authPath ("/auth/XXXXXX") has authenticated.
func (s *Server) authPathDone(authPath string) <-chan struct{} {
s.mu.Lock()
defer s.mu.Unlock()
if a, ok := s.authPath[authPath]; ok {
return a.ch
}
return nil
}
func (s *Server) addAuthPath(authPath string, nodeKey key.NodePublic) {
s.mu.Lock()
defer s.mu.Unlock()
if s.authPath == nil {
s.authPath = map[string]*AuthPath{}
}
s.authPath[authPath] = &AuthPath{
ch: make(chan struct{}),
nodeKey: nodeKey,
}
}
// CompleteAuth marks the provided path or URL (containing
// "/auth/...") as successfully authenticated, unblocking any
// requests blocked on that in serveRegister.
func (s *Server) CompleteAuth(authPathOrURL string) bool {
i := strings.Index(authPathOrURL, "/auth/")
if i == -1 {
return false
}
authPath := authPathOrURL[i:]
s.mu.Lock()
defer s.mu.Unlock()
ap, ok := s.authPath[authPath]
if !ok {
return false
}
if ap.nodeKey.IsZero() {
panic("zero AuthPath.NodeKey")
}
if s.nodeKeyAuthed == nil {
s.nodeKeyAuthed = map[key.NodePublic]bool{}
}
s.nodeKeyAuthed[ap.nodeKey] = true
ap.CompleteSuccessfully()
return true
}
func (s *Server) serveRegister(w http.ResponseWriter, r *http.Request, mkey key.MachinePublic) {
msg, err := ioutil.ReadAll(io.LimitReader(r.Body, msgLimit))
r.Body.Close()
if err != nil {
http.Error(w, fmt.Sprintf("bad map request read: %v", err), 400)
return
}
var req tailcfg.RegisterRequest
if err := s.decode(mkey, msg, &req); err != nil {
go panic(fmt.Sprintf("serveRegister: decode: %v", err))
}
if req.Version == 0 {
panic("serveRegister: zero Version")
}
if req.NodeKey.IsZero() {
go panic("serveRegister: request has zero node key")
}
if s.Verbose {
j, _ := json.MarshalIndent(req, "", "\t")
log.Printf("Got %T: %s", req, j)
}
// If this is a followup request, wait until interactive followup URL visit complete.
if req.Followup != "" {
followupURL, err := url.Parse(req.Followup)
if err != nil {
panic(err)
}
doneCh := s.authPathDone(followupURL.Path)
select {
case <-r.Context().Done():
return
case <-doneCh:
}
// TODO(bradfitz): support a side test API to mark an
// auth as failued so we can send an error response in
// some follow-ups? For now all are successes.
}
nk := req.NodeKey
user, login := s.getUser(nk)
s.mu.Lock()
if s.nodes == nil {
s.nodes = map[key.NodePublic]*tailcfg.Node{}
}
machineAuthorized := true // TODO: add Server.RequireMachineAuth
v4Prefix := netaddr.IPPrefixFrom(netaddr.IPv4(100, 64, uint8(tailcfg.NodeID(user.ID)>>8), uint8(tailcfg.NodeID(user.ID))), 32)
v6Prefix := netaddr.IPPrefixFrom(tsaddr.Tailscale4To6(v4Prefix.IP()), 128)
allowedIPs := []netaddr.IPPrefix{
v4Prefix,
v6Prefix,
}
s.nodes[nk] = &tailcfg.Node{
ID: tailcfg.NodeID(user.ID),
StableID: tailcfg.StableNodeID(fmt.Sprintf("TESTCTRL%08x", int(user.ID))),
User: user.ID,
Machine: mkey,
Key: req.NodeKey,
MachineAuthorized: machineAuthorized,
Addresses: allowedIPs,
AllowedIPs: allowedIPs,
Hostinfo: req.Hostinfo.View(),
}
requireAuth := s.RequireAuth
if requireAuth && s.nodeKeyAuthed[nk] {
requireAuth = false
}
allExpired := s.allExpired
s.mu.Unlock()
authURL := ""
if requireAuth {
randHex := make([]byte, 10)
crand.Read(randHex)
authPath := fmt.Sprintf("/auth/%x", randHex)
s.addAuthPath(authPath, nk)
authURL = s.BaseURL() + authPath
}
res, err := s.encode(mkey, false, tailcfg.RegisterResponse{
User: *user,
Login: *login,
NodeKeyExpired: allExpired,
MachineAuthorized: machineAuthorized,
AuthURL: authURL,
})
if err != nil {
go panic(fmt.Sprintf("serveRegister: encode: %v", err))
}
w.WriteHeader(200)
w.Write(res)
}
// updateType indicates why a long-polling map request is being woken
// up for an update.
type updateType int
const (
// updatePeerChanged is an update that a peer has changed.
updatePeerChanged updateType = iota + 1
// updateSelfChanged is an update that the node changed itself
// via a lite endpoint update. These ones are never dup-suppressed,
// as the client is expecting an answer regardless.
updateSelfChanged
// updateDebugInjection is an update used for PingRequests
updateDebugInjection
)
func (s *Server) updateLocked(source string, peers []tailcfg.NodeID) {
for _, peer := range peers {
sendUpdate(s.updates[peer], updatePeerChanged)
}
}
// sendUpdate sends updateType to dst if dst is non-nil and
// has capacity. It reports whether a value was sent.
func sendUpdate(dst chan<- updateType, updateType updateType) bool {
if dst == nil {
return false
}
// The dst channel has a buffer size of 1.
// If we fail to insert an update into the buffer that
// means there is already an update pending.
select {
case dst <- updateType:
return true
default:
return false
}
}
func (s *Server) UpdateNode(n *tailcfg.Node) (peersToUpdate []tailcfg.NodeID) {
s.mu.Lock()
defer s.mu.Unlock()
if n.Key.IsZero() {
panic("zero nodekey")
}
s.nodes[n.Key] = n.Clone()
for _, n2 := range s.nodes {
if n.ID != n2.ID {
peersToUpdate = append(peersToUpdate, n2.ID)
}
}
return peersToUpdate
}
func (s *Server) incrInServeMap(delta int) {
s.mu.Lock()
defer s.mu.Unlock()
s.inServeMap += delta
}
// InServeMap returns the number of clients currently in a MapRequest HTTP handler.
func (s *Server) InServeMap() int {
s.mu.Lock()
defer s.mu.Unlock()
return s.inServeMap
}
func (s *Server) serveMap(w http.ResponseWriter, r *http.Request, mkey key.MachinePublic) {
s.incrInServeMap(1)
defer s.incrInServeMap(-1)
ctx := r.Context()
msg, err := ioutil.ReadAll(io.LimitReader(r.Body, msgLimit))
if err != nil {
r.Body.Close()
http.Error(w, fmt.Sprintf("bad map request read: %v", err), 400)
return
}
r.Body.Close()
req := new(tailcfg.MapRequest)
if err := s.decode(mkey, msg, req); err != nil {
go panic(fmt.Sprintf("bad map request: %v", err))
}
jitter := time.Duration(rand.Intn(8000)) * time.Millisecond
keepAlive := 50*time.Second + jitter
node := s.Node(req.NodeKey)
if node == nil {
http.Error(w, "node not found", 400)
return
}
if node.Machine != mkey {
http.Error(w, "node doesn't match machine key", 400)
return
}
var peersToUpdate []tailcfg.NodeID
if !req.ReadOnly {
endpoints := filterInvalidIPv6Endpoints(req.Endpoints)
node.Endpoints = endpoints
node.DiscoKey = req.DiscoKey
if req.Hostinfo != nil {
node.Hostinfo = req.Hostinfo.View()
if ni := node.Hostinfo.NetInfo(); ni.Valid() {
if ni.PreferredDERP() != 0 {
node.DERP = fmt.Sprintf("127.3.3.40:%d", ni.PreferredDERP())
}
}
}
peersToUpdate = s.UpdateNode(node)
}
nodeID := node.ID
s.mu.Lock()
updatesCh := make(chan updateType, 1)
oldUpdatesCh := s.updates[nodeID]
if breakSameNodeMapResponseStreams(req) {
if oldUpdatesCh != nil {
close(oldUpdatesCh)
}
if s.updates == nil {
s.updates = map[tailcfg.NodeID]chan updateType{}
}
s.updates[nodeID] = updatesCh
} else {
sendUpdate(oldUpdatesCh, updateSelfChanged)
}
s.updateLocked("serveMap", peersToUpdate)
s.condLocked().Broadcast()
s.mu.Unlock()
// ReadOnly implies no streaming, as it doesn't
// register an updatesCh to get updates.
streaming := req.Stream && !req.ReadOnly
compress := req.Compress != ""
w.WriteHeader(200)
for {
res, err := s.MapResponse(req)
if err != nil {
// TODO: log
return
}
if res == nil {
return // done
}
s.mu.Lock()
allExpired := s.allExpired
s.mu.Unlock()
if allExpired {
res.Node.KeyExpiry = time.Now().Add(-1 * time.Minute)
}
// TODO: add minner if/when needed
resBytes, err := json.Marshal(res)
if err != nil {
s.logf("json.Marshal: %v", err)
return
}
if err := s.sendMapMsg(w, mkey, compress, resBytes); err != nil {
return
}
if !streaming {
return
}
keepAliveLoop:
for {
var keepAliveTimer *time.Timer
var keepAliveTimerCh <-chan time.Time
if keepAlive > 0 {
keepAliveTimer = time.NewTimer(keepAlive)
keepAliveTimerCh = keepAliveTimer.C
}
select {
case <-ctx.Done():
if keepAliveTimer != nil {
keepAliveTimer.Stop()
}
return
case _, ok := <-updatesCh:
if !ok {
// replaced by new poll request
return
}
break keepAliveLoop
case <-keepAliveTimerCh:
if err := s.sendMapMsg(w, mkey, compress, keepAliveMsg); err != nil {
return
}
}
}
}
}
var keepAliveMsg = &struct {
KeepAlive bool
}{
KeepAlive: true,
}
// MapResponse generates a MapResponse for a MapRequest.
//
// No updates to s are done here.
func (s *Server) MapResponse(req *tailcfg.MapRequest) (res *tailcfg.MapResponse, err error) {
nk := req.NodeKey
node := s.Node(nk)
if node == nil {
// node key rotated away (once test server supports that)
return nil, nil
}
user, _ := s.getUser(nk)
t := time.Date(2020, 8, 3, 0, 0, 0, 1, time.UTC)
res = &tailcfg.MapResponse{
Node: node,
DERPMap: s.DERPMap,
Domain: string(user.Domain),
CollectServices: "true",
PacketFilter: tailcfg.FilterAllowAll,
Debug: &tailcfg.Debug{
DisableUPnP: "true",
},
DNSConfig: s.DNSConfig,
ControlTime: &t,
}
for _, p := range s.AllNodes() {
if p.StableID != node.StableID {
res.Peers = append(res.Peers, p)
}
}
sort.Slice(res.Peers, func(i, j int) bool {
return res.Peers[i].ID < res.Peers[j].ID
})
v4Prefix := netaddr.IPPrefixFrom(netaddr.IPv4(100, 64, uint8(tailcfg.NodeID(user.ID)>>8), uint8(tailcfg.NodeID(user.ID))), 32)
v6Prefix := netaddr.IPPrefixFrom(tsaddr.Tailscale4To6(v4Prefix.IP()), 128)
res.Node.Addresses = []netaddr.IPPrefix{
v4Prefix,
v6Prefix,
}
res.Node.AllowedIPs = res.Node.Addresses
// Consume the PingRequest while protected by mutex if it exists
s.mu.Lock()
if pr, ok := s.pingReqsToAdd[nk]; ok {
res.PingRequest = pr
delete(s.pingReqsToAdd, nk)
}
s.mu.Unlock()
return res, nil
}
func (s *Server) sendMapMsg(w http.ResponseWriter, mkey key.MachinePublic, compress bool, msg any) error {
resBytes, err := s.encode(mkey, compress, msg)
if err != nil {
return err
}
if len(resBytes) > 16<<20 {
return fmt.Errorf("map message too big: %d", len(resBytes))
}
var siz [4]byte
binary.LittleEndian.PutUint32(siz[:], uint32(len(resBytes)))
if _, err := w.Write(siz[:]); err != nil {
return err
}
if _, err := w.Write(resBytes); err != nil {
return err
}
if f, ok := w.(http.Flusher); ok {
f.Flush()
} else {
s.logf("[unexpected] ResponseWriter %T is not a Flusher", w)
}
return nil
}
func (s *Server) decode(mkey key.MachinePublic, msg []byte, v any) error {
if len(msg) == msgLimit {
return errors.New("encrypted message too long")
}
decrypted, ok := s.privateKey().OpenFrom(mkey, msg)
if !ok {
return errors.New("can't decrypt request")
}
return json.Unmarshal(decrypted, v)
}
var zstdEncoderPool = &sync.Pool{
New: func() any {
encoder, err := smallzstd.NewEncoder(nil, zstd.WithEncoderLevel(zstd.SpeedFastest))
if err != nil {
panic(err)
}
return encoder
},
}
func (s *Server) encode(mkey key.MachinePublic, compress bool, v any) (b []byte, err error) {
var isBytes bool
if b, isBytes = v.([]byte); !isBytes {
b, err = json.Marshal(v)
if err != nil {
return nil, err
}
}
if compress {
encoder := zstdEncoderPool.Get().(*zstd.Encoder)
b = encoder.EncodeAll(b, nil)
encoder.Close()
zstdEncoderPool.Put(encoder)
}
return s.privateKey().SealTo(mkey, b), nil
}
// filterInvalidIPv6Endpoints removes invalid IPv6 endpoints from eps,
// modify the slice in place, returning the potentially smaller subset (aliasing
// the original memory).
//
// Two types of IPv6 endpoints are considered invalid: link-local
// addresses, and anything with a zone.
func filterInvalidIPv6Endpoints(eps []string) []string {
clean := eps[:0]
for _, ep := range eps {
if keepClientEndpoint(ep) {
clean = append(clean, ep)
}
}
return clean
}
func keepClientEndpoint(ep string) bool {
ipp, err := netaddr.ParseIPPort(ep)
if err != nil {
// Shouldn't have made it this far if we unmarshalled
// the incoming JSON response.
return false
}
ip := ipp.IP()
if ip.Zone() != "" {
return false
}
if ip.Is6() && ip.IsLinkLocalUnicast() {
// We let clients send these for now, but
// tailscaled doesn't know how to use them yet
// so we filter them out for now. A future
// MapRequest.Version might signal that
// clients know how to use them (e.g. try all
// local scopes).
return false
}
return true
}
// breakSameNodeMapResponseStreams reports whether req should break a
// prior long-polling MapResponse stream (if active) from the same
// node ID.
func breakSameNodeMapResponseStreams(req *tailcfg.MapRequest) bool {
if req.ReadOnly {
// Don't register our updatesCh for closability
// nor close another peer's if we're a read-only request.
return false
}
if !req.Stream && req.OmitPeers {
// Likewise, if we're not streaming and not asking for peers,
// (but still mutable, without Readonly set), consider this an endpoint
// update request only, and don't close any existing map response
// for this nodeID. It's likely the same client with a built-up
// compression context. We want to let them update their
// new endpoints with us without breaking that other long-running
// map response.
return false
}
return true
}