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tailscale/control/controlclient/direct.go

1197 lines
33 KiB
Go

// Copyright (c) 2020 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 controlclient
import (
"bytes"
"context"
"crypto/rand"
"encoding/binary"
"encoding/json"
"errors"
"flag"
"fmt"
"io"
"io/ioutil"
"log"
"net/http"
"net/url"
"os"
"os/exec"
"path/filepath"
"reflect"
"runtime"
"sort"
"strconv"
"strings"
"sync"
"sync/atomic"
"time"
"golang.org/x/crypto/nacl/box"
"golang.org/x/oauth2"
"inet.af/netaddr"
"tailscale.com/health"
"tailscale.com/log/logheap"
"tailscale.com/net/dnscache"
"tailscale.com/net/netns"
"tailscale.com/net/tlsdial"
"tailscale.com/net/tshttpproxy"
"tailscale.com/tailcfg"
"tailscale.com/types/logger"
"tailscale.com/types/netmap"
"tailscale.com/types/opt"
"tailscale.com/types/persist"
"tailscale.com/types/wgkey"
"tailscale.com/util/systemd"
"tailscale.com/version"
"tailscale.com/wgengine/filter"
)
// Direct is the client that connects to a tailcontrol server for a node.
type Direct struct {
httpc *http.Client // HTTP client used to talk to tailcontrol
serverURL string // URL of the tailcontrol server
timeNow func() time.Time
lastPrintMap time.Time
newDecompressor func() (Decompressor, error)
keepAlive bool
logf logger.Logf
discoPubKey tailcfg.DiscoKey
machinePrivKey wgkey.Private
debugFlags []string
keepSharerAndUserSplit bool
mu sync.Mutex // mutex guards the following fields
serverKey wgkey.Key
persist persist.Persist
authKey string
tryingNewKey wgkey.Private
expiry *time.Time
// hostinfo is mutated in-place while mu is held.
hostinfo *tailcfg.Hostinfo // always non-nil
endpoints []string
everEndpoints bool // whether we've ever had non-empty endpoints
localPort uint16 // or zero to mean auto
}
type Options struct {
Persist persist.Persist // initial persistent data
MachinePrivateKey wgkey.Private // the machine key to use
ServerURL string // URL of the tailcontrol server
AuthKey string // optional node auth key for auto registration
TimeNow func() time.Time // time.Now implementation used by Client
Hostinfo *tailcfg.Hostinfo // non-nil passes ownership, nil means to use default using os.Hostname, etc
DiscoPublicKey tailcfg.DiscoKey
NewDecompressor func() (Decompressor, error)
KeepAlive bool
Logf logger.Logf
HTTPTestClient *http.Client // optional HTTP client to use (for tests only)
DebugFlags []string // debug settings to send to control
// KeepSharerAndUserSplit controls whether the client
// understands Node.Sharer. If false, the Sharer is mapped to the User.
KeepSharerAndUserSplit bool
}
type Decompressor interface {
DecodeAll(input, dst []byte) ([]byte, error)
Close()
}
// NewDirect returns a new Direct client.
func NewDirect(opts Options) (*Direct, error) {
if opts.ServerURL == "" {
return nil, errors.New("controlclient.New: no server URL specified")
}
if opts.MachinePrivateKey.IsZero() {
return nil, errors.New("controlclient.New: no MachinePrivateKey specified")
}
opts.ServerURL = strings.TrimRight(opts.ServerURL, "/")
serverURL, err := url.Parse(opts.ServerURL)
if err != nil {
return nil, err
}
if opts.TimeNow == nil {
opts.TimeNow = time.Now
}
if opts.Logf == nil {
// TODO(apenwarr): remove this default and fail instead.
// TODO(bradfitz): ... but then it shouldn't be in Options.
opts.Logf = log.Printf
}
httpc := opts.HTTPTestClient
if httpc == nil {
dnsCache := &dnscache.Resolver{
Forward: dnscache.Get().Forward, // use default cache's forwarder
UseLastGood: true,
}
dialer := netns.NewDialer()
tr := http.DefaultTransport.(*http.Transport).Clone()
tr.Proxy = tshttpproxy.ProxyFromEnvironment
tshttpproxy.SetTransportGetProxyConnectHeader(tr)
tr.DialContext = dnscache.Dialer(dialer.DialContext, dnsCache)
tr.ForceAttemptHTTP2 = true
tr.TLSClientConfig = tlsdial.Config(serverURL.Host, tr.TLSClientConfig)
httpc = &http.Client{Transport: tr}
}
c := &Direct{
httpc: httpc,
machinePrivKey: opts.MachinePrivateKey,
serverURL: opts.ServerURL,
timeNow: opts.TimeNow,
logf: opts.Logf,
newDecompressor: opts.NewDecompressor,
keepAlive: opts.KeepAlive,
persist: opts.Persist,
authKey: opts.AuthKey,
discoPubKey: opts.DiscoPublicKey,
debugFlags: opts.DebugFlags,
keepSharerAndUserSplit: opts.KeepSharerAndUserSplit,
}
if opts.Hostinfo == nil {
c.SetHostinfo(NewHostinfo())
} else {
c.SetHostinfo(opts.Hostinfo)
}
return c, nil
}
var osVersion func() string // non-nil on some platforms
func NewHostinfo() *tailcfg.Hostinfo {
hostname, _ := os.Hostname()
var osv string
if osVersion != nil {
osv = osVersion()
}
return &tailcfg.Hostinfo{
IPNVersion: version.Long,
Hostname: hostname,
OS: version.OS(),
OSVersion: osv,
Package: packageType(),
GoArch: runtime.GOARCH,
}
}
func packageType() string {
switch runtime.GOOS {
case "windows":
if _, err := os.Stat(`C:\ProgramData\chocolatey\lib\tailscale`); err == nil {
return "choco"
}
case "darwin":
// Using tailscaled or IPNExtension?
exe, _ := os.Executable()
return filepath.Base(exe)
}
return ""
}
// SetHostinfo clones the provided Hostinfo and remembers it for the
// next update. It reports whether the Hostinfo has changed.
func (c *Direct) SetHostinfo(hi *tailcfg.Hostinfo) bool {
if hi == nil {
panic("nil Hostinfo")
}
c.mu.Lock()
defer c.mu.Unlock()
if hi.Equal(c.hostinfo) {
return false
}
c.hostinfo = hi.Clone()
j, _ := json.Marshal(c.hostinfo)
c.logf("HostInfo: %s", j)
return true
}
// SetNetInfo clones the provided NetInfo and remembers it for the
// next update. It reports whether the NetInfo has changed.
func (c *Direct) SetNetInfo(ni *tailcfg.NetInfo) bool {
if ni == nil {
panic("nil NetInfo")
}
c.mu.Lock()
defer c.mu.Unlock()
if c.hostinfo == nil {
c.logf("[unexpected] SetNetInfo called with no HostInfo; ignoring NetInfo update: %+v", ni)
return false
}
if reflect.DeepEqual(ni, c.hostinfo.NetInfo) {
return false
}
c.hostinfo.NetInfo = ni.Clone()
return true
}
func (c *Direct) GetPersist() persist.Persist {
c.mu.Lock()
defer c.mu.Unlock()
return c.persist
}
type LoginFlags int
const (
LoginDefault = LoginFlags(0)
LoginInteractive = LoginFlags(1 << iota) // force user login and key refresh
)
func (c *Direct) TryLogout(ctx context.Context) error {
c.logf("direct.TryLogout()")
c.mu.Lock()
defer c.mu.Unlock()
// TODO(crawshaw): Tell the server. This node key should be
// immediately invalidated.
//if !c.persist.PrivateNodeKey.IsZero() {
//}
c.persist = persist.Persist{}
return nil
}
func (c *Direct) TryLogin(ctx context.Context, t *oauth2.Token, flags LoginFlags) (url string, err error) {
c.logf("direct.TryLogin(token=%v, flags=%v)", t != nil, flags)
return c.doLoginOrRegen(ctx, t, flags, false, "")
}
func (c *Direct) WaitLoginURL(ctx context.Context, url string) (newUrl string, err error) {
c.logf("direct.WaitLoginURL")
return c.doLoginOrRegen(ctx, nil, LoginDefault, false, url)
}
func (c *Direct) doLoginOrRegen(ctx context.Context, t *oauth2.Token, flags LoginFlags, regen bool, url string) (newUrl string, err error) {
mustregen, url, err := c.doLogin(ctx, t, flags, regen, url)
if err != nil {
return url, err
}
if mustregen {
_, url, err = c.doLogin(ctx, t, flags, true, url)
}
return url, err
}
func (c *Direct) doLogin(ctx context.Context, t *oauth2.Token, flags LoginFlags, regen bool, url string) (mustregen bool, newurl string, err error) {
c.mu.Lock()
persist := c.persist
tryingNewKey := c.tryingNewKey
serverKey := c.serverKey
authKey := c.authKey
hostinfo := c.hostinfo.Clone()
backendLogID := hostinfo.BackendLogID
expired := c.expiry != nil && !c.expiry.IsZero() && c.expiry.Before(c.timeNow())
c.mu.Unlock()
if c.machinePrivKey.IsZero() {
return false, "", errors.New("controlclient.Direct requires a machine private key")
}
if expired {
c.logf("Old key expired -> regen=true")
systemd.Status("key expired; run 'tailscale up' to authenticate")
regen = true
}
if (flags & LoginInteractive) != 0 {
c.logf("LoginInteractive -> regen=true")
regen = true
}
c.logf("doLogin(regen=%v, hasUrl=%v)", regen, url != "")
if serverKey.IsZero() {
var err error
serverKey, err = loadServerKey(ctx, c.httpc, c.serverURL)
if err != nil {
return regen, url, err
}
c.mu.Lock()
c.serverKey = serverKey
c.mu.Unlock()
}
var oldNodeKey wgkey.Key
if url != "" {
} else if regen || persist.PrivateNodeKey.IsZero() {
c.logf("Generating a new nodekey.")
persist.OldPrivateNodeKey = persist.PrivateNodeKey
key, err := wgkey.NewPrivate()
if err != nil {
c.logf("login keygen: %v", err)
return regen, url, err
}
tryingNewKey = key
} else {
// Try refreshing the current key first
tryingNewKey = persist.PrivateNodeKey
}
if !persist.OldPrivateNodeKey.IsZero() {
oldNodeKey = persist.OldPrivateNodeKey.Public()
}
if tryingNewKey.IsZero() {
log.Fatalf("tryingNewKey is empty, give up")
}
if backendLogID == "" {
err = errors.New("hostinfo: BackendLogID missing")
return regen, url, err
}
request := tailcfg.RegisterRequest{
Version: 1,
OldNodeKey: tailcfg.NodeKey(oldNodeKey),
NodeKey: tailcfg.NodeKey(tryingNewKey.Public()),
Hostinfo: hostinfo,
Followup: url,
}
c.logf("RegisterReq: onode=%v node=%v fup=%v",
request.OldNodeKey.ShortString(),
request.NodeKey.ShortString(), url != "")
request.Auth.Oauth2Token = t
request.Auth.Provider = persist.Provider
request.Auth.LoginName = persist.LoginName
request.Auth.AuthKey = authKey
bodyData, err := encode(request, &serverKey, &c.machinePrivKey)
if err != nil {
return regen, url, err
}
body := bytes.NewReader(bodyData)
u := fmt.Sprintf("%s/machine/%s", c.serverURL, c.machinePrivKey.Public().HexString())
req, err := http.NewRequest("POST", u, body)
if err != nil {
return regen, url, err
}
req = req.WithContext(ctx)
res, err := c.httpc.Do(req)
if err != nil {
return regen, url, fmt.Errorf("register request: %v", err)
}
if res.StatusCode != 200 {
msg, _ := ioutil.ReadAll(res.Body)
res.Body.Close()
return regen, url, fmt.Errorf("register request: http %d: %.200s",
res.StatusCode, strings.TrimSpace(string(msg)))
}
resp := tailcfg.RegisterResponse{}
if err := decode(res, &resp, &serverKey, &c.machinePrivKey); err != nil {
c.logf("error decoding RegisterResponse with server key %s and machine key %s: %v", serverKey, c.machinePrivKey.Public(), err)
return regen, url, fmt.Errorf("register request: %v", err)
}
// Log without PII:
c.logf("RegisterReq: got response; nodeKeyExpired=%v, machineAuthorized=%v; authURL=%v",
resp.NodeKeyExpired, resp.MachineAuthorized, resp.AuthURL != "")
if resp.NodeKeyExpired {
if regen {
return true, "", fmt.Errorf("weird: regen=true but server says NodeKeyExpired: %v", request.NodeKey)
}
c.logf("server reports new node key %v has expired",
request.NodeKey.ShortString())
return true, "", nil
}
if persist.Provider == "" {
persist.Provider = resp.Login.Provider
}
if persist.LoginName == "" {
persist.LoginName = resp.Login.LoginName
}
// TODO(crawshaw): RegisterResponse should be able to mechanically
// communicate some extra instructions from the server:
// - new node key required
// - machine key no longer supported
// - user is disabled
if resp.AuthURL != "" {
c.logf("AuthURL is %v", resp.AuthURL)
} else {
c.logf("No AuthURL")
}
c.mu.Lock()
if resp.AuthURL == "" {
// key rotation is complete
persist.PrivateNodeKey = tryingNewKey
} else {
// save it for the retry-with-URL
c.tryingNewKey = tryingNewKey
}
c.persist = persist
c.mu.Unlock()
if err != nil {
return regen, "", err
}
if ctx.Err() != nil {
return regen, "", ctx.Err()
}
return false, resp.AuthURL, nil
}
func sameStrings(a, b []string) bool {
if len(a) != len(b) {
return false
}
for i := range a {
if a[i] != b[i] {
return false
}
}
return true
}
// newEndpoints acquires c.mu and sets the local port and endpoints and reports
// whether they've changed.
//
// It does not retain the provided slice.
func (c *Direct) newEndpoints(localPort uint16, endpoints []string) (changed bool) {
c.mu.Lock()
defer c.mu.Unlock()
// Nothing new?
if c.localPort == localPort && sameStrings(c.endpoints, endpoints) {
return false // unchanged
}
c.logf("client.newEndpoints(%v, %v)", localPort, endpoints)
c.localPort = localPort
c.endpoints = append(c.endpoints[:0], endpoints...)
if len(endpoints) > 0 {
c.everEndpoints = true
}
return true // changed
}
// SetEndpoints updates the list of locally advertised endpoints.
// It won't be replicated to the server until a *fresh* call to PollNetMap().
// You don't need to restart PollNetMap if we return changed==false.
func (c *Direct) SetEndpoints(localPort uint16, endpoints []string) (changed bool) {
// (no log message on function entry, because it clutters the logs
// if endpoints haven't changed. newEndpoints() will log it.)
return c.newEndpoints(localPort, endpoints)
}
func inTest() bool { return flag.Lookup("test.v") != nil }
// PollNetMap makes a /map request to download the network map, calling cb with
// each new netmap.
//
// maxPolls is how many network maps to download; common values are 1
// or -1 (to keep a long-poll query open to the server).
func (c *Direct) PollNetMap(ctx context.Context, maxPolls int, cb func(*netmap.NetworkMap)) error {
return c.sendMapRequest(ctx, maxPolls, cb)
}
// SendLiteMapUpdate makes a /map request to update the server of our latest state,
// but does not fetch anything. It returns an error if the server did not return a
// successful 200 OK response.
func (c *Direct) SendLiteMapUpdate(ctx context.Context) error {
return c.sendMapRequest(ctx, 1, nil)
}
// cb nil means to omit peers.
func (c *Direct) sendMapRequest(ctx context.Context, maxPolls int, cb func(*netmap.NetworkMap)) error {
c.mu.Lock()
persist := c.persist
serverURL := c.serverURL
serverKey := c.serverKey
hostinfo := c.hostinfo.Clone()
backendLogID := hostinfo.BackendLogID
localPort := c.localPort
ep := append([]string(nil), c.endpoints...)
everEndpoints := c.everEndpoints
c.mu.Unlock()
if persist.PrivateNodeKey.IsZero() {
return errors.New("privateNodeKey is zero")
}
if backendLogID == "" {
return errors.New("hostinfo: BackendLogID missing")
}
allowStream := maxPolls != 1
c.logf("[v1] PollNetMap: stream=%v :%v ep=%v", allowStream, localPort, ep)
vlogf := logger.Discard
if Debug.NetMap {
// TODO(bradfitz): update this to use "[v2]" prefix perhaps? but we don't
// want to upload it always.
vlogf = c.logf
}
request := tailcfg.MapRequest{
Version: tailcfg.CurrentMapRequestVersion,
KeepAlive: c.keepAlive,
NodeKey: tailcfg.NodeKey(persist.PrivateNodeKey.Public()),
DiscoKey: c.discoPubKey,
Endpoints: ep,
Stream: allowStream,
Hostinfo: hostinfo,
DebugFlags: c.debugFlags,
OmitPeers: cb == nil,
}
var extraDebugFlags []string
if hostinfo != nil && ipForwardingBroken(hostinfo.RoutableIPs) {
extraDebugFlags = append(extraDebugFlags, "warn-ip-forwarding-off")
}
if health.RouterHealth() != nil {
extraDebugFlags = append(extraDebugFlags, "warn-router-unhealthy")
}
if len(extraDebugFlags) > 0 {
old := request.DebugFlags
request.DebugFlags = append(old[:len(old):len(old)], extraDebugFlags...)
}
if c.newDecompressor != nil {
request.Compress = "zstd"
}
// On initial startup before we know our endpoints, set the ReadOnly flag
// to tell the control server not to distribute out our (empty) endpoints to peers.
// Presumably we'll learn our endpoints in a half second and do another post
// with useful results. The first POST just gets us the DERP map which we
// need to do the STUN queries to discover our endpoints.
// TODO(bradfitz): we skip this optimization in tests, though,
// because the e2e tests are currently hyperspecific about the
// ordering of things. The e2e tests need love.
if len(ep) == 0 && !everEndpoints && !inTest() {
request.ReadOnly = true
}
bodyData, err := encode(request, &serverKey, &c.machinePrivKey)
if err != nil {
vlogf("netmap: encode: %v", err)
return err
}
ctx, cancel := context.WithCancel(ctx)
defer cancel()
machinePubKey := tailcfg.MachineKey(c.machinePrivKey.Public())
t0 := time.Now()
u := fmt.Sprintf("%s/machine/%s/map", serverURL, machinePubKey.HexString())
req, err := http.NewRequestWithContext(ctx, "POST", u, bytes.NewReader(bodyData))
if err != nil {
return err
}
res, err := c.httpc.Do(req)
if err != nil {
vlogf("netmap: Do: %v", err)
return err
}
vlogf("netmap: Do = %v after %v", res.StatusCode, time.Since(t0).Round(time.Millisecond))
if res.StatusCode != 200 {
msg, _ := ioutil.ReadAll(res.Body)
res.Body.Close()
return fmt.Errorf("initial fetch failed %d: %.200s",
res.StatusCode, strings.TrimSpace(string(msg)))
}
defer res.Body.Close()
if cb == nil {
io.Copy(ioutil.Discard, res.Body)
return nil
}
// If we go more than pollTimeout without hearing from the server,
// end the long poll. We should be receiving a keep alive ping
// every minute.
const pollTimeout = 120 * time.Second
timeout := time.NewTimer(pollTimeout)
timeoutReset := make(chan struct{})
pollDone := make(chan struct{})
defer close(pollDone)
go func() {
for {
select {
case <-pollDone:
vlogf("netmap: ending timeout goroutine")
return
case <-timeout.C:
c.logf("map response long-poll timed out!")
cancel()
return
case <-timeoutReset:
if !timeout.Stop() {
select {
case <-timeout.C:
case <-pollDone:
vlogf("netmap: ending timeout goroutine")
return
}
}
vlogf("netmap: reset timeout timer")
timeout.Reset(pollTimeout)
}
}
}()
var lastDERPMap *tailcfg.DERPMap
var lastUserProfile = map[tailcfg.UserID]tailcfg.UserProfile{}
var lastParsedPacketFilter []filter.Match
var collectServices bool
// If allowStream, then the server will use an HTTP long poll to
// return incremental results. There is always one response right
// away, followed by a delay, and eventually others.
// If !allowStream, it'll still send the first result in exactly
// the same format before just closing the connection.
// We can use this same read loop either way.
var msg []byte
var previousPeers []*tailcfg.Node // for delta-purposes
for i := 0; i < maxPolls || maxPolls < 0; i++ {
vlogf("netmap: starting size read after %v (poll %v)", time.Since(t0).Round(time.Millisecond), i)
var siz [4]byte
if _, err := io.ReadFull(res.Body, siz[:]); err != nil {
vlogf("netmap: size read error after %v: %v", time.Since(t0).Round(time.Millisecond), err)
return err
}
size := binary.LittleEndian.Uint32(siz[:])
vlogf("netmap: read size %v after %v", size, time.Since(t0).Round(time.Millisecond))
msg = append(msg[:0], make([]byte, size)...)
if _, err := io.ReadFull(res.Body, msg); err != nil {
vlogf("netmap: body read error: %v", err)
return err
}
vlogf("netmap: read body after %v", time.Since(t0).Round(time.Millisecond))
var resp tailcfg.MapResponse
if err := c.decodeMsg(msg, &resp); err != nil {
vlogf("netmap: decode error: %v")
return err
}
if resp.KeepAlive {
vlogf("netmap: got keep-alive")
} else {
vlogf("netmap: got new map")
}
select {
case timeoutReset <- struct{}{}:
vlogf("netmap: sent timer reset")
case <-ctx.Done():
c.logf("[v1] netmap: not resetting timer; context done: %v", ctx.Err())
return ctx.Err()
}
if resp.KeepAlive {
continue
}
undeltaPeers(&resp, previousPeers)
previousPeers = cloneNodes(resp.Peers) // defensive/lazy clone, since this escapes to who knows where
for _, up := range resp.UserProfiles {
lastUserProfile[up.ID] = up
}
if resp.DERPMap != nil {
vlogf("netmap: new map contains DERP map")
lastDERPMap = resp.DERPMap
}
if resp.Debug != nil {
if resp.Debug.LogHeapPprof {
go logheap.LogHeap(resp.Debug.LogHeapURL)
}
setControlAtomic(&controlUseDERPRoute, resp.Debug.DERPRoute)
setControlAtomic(&controlTrimWGConfig, resp.Debug.TrimWGConfig)
}
// Temporarily (2020-06-29) support removing all but
// discovery-supporting nodes during development, for
// less noise.
if Debug.OnlyDisco {
filtered := resp.Peers[:0]
for _, p := range resp.Peers {
if !p.DiscoKey.IsZero() {
filtered = append(filtered, p)
}
}
resp.Peers = filtered
}
if Debug.StripEndpoints {
for _, p := range resp.Peers {
// We need at least one endpoint here for now else
// other code doesn't even create the discoEndpoint.
// TODO(bradfitz): fix that and then just nil this out.
p.Endpoints = []string{"127.9.9.9:456"}
}
}
if pf := resp.PacketFilter; pf != nil {
lastParsedPacketFilter = c.parsePacketFilter(pf)
}
if v, ok := resp.CollectServices.Get(); ok {
collectServices = v
}
// Get latest localPort. This might've changed if
// a lite map update occured meanwhile. This only affects
// the end-to-end test.
// TODO(bradfitz): remove the NetworkMap.LocalPort field entirely.
c.mu.Lock()
localPort = c.localPort
c.mu.Unlock()
nm := &netmap.NetworkMap{
SelfNode: resp.Node,
NodeKey: tailcfg.NodeKey(persist.PrivateNodeKey.Public()),
PrivateKey: persist.PrivateNodeKey,
MachineKey: machinePubKey,
Expiry: resp.Node.KeyExpiry,
Name: resp.Node.Name,
Addresses: resp.Node.Addresses,
Peers: resp.Peers,
LocalPort: localPort,
User: resp.Node.User,
UserProfiles: make(map[tailcfg.UserID]tailcfg.UserProfile),
Domain: resp.Domain,
DNS: resp.DNSConfig,
Hostinfo: resp.Node.Hostinfo,
PacketFilter: lastParsedPacketFilter,
CollectServices: collectServices,
DERPMap: lastDERPMap,
Debug: resp.Debug,
}
addUserProfile := func(userID tailcfg.UserID) {
if _, dup := nm.UserProfiles[userID]; dup {
// Already populated it from a previous peer.
return
}
if up, ok := lastUserProfile[userID]; ok {
nm.UserProfiles[userID] = up
}
}
addUserProfile(nm.User)
magicDNSSuffix := nm.MagicDNSSuffix()
nm.SelfNode.InitDisplayNames(magicDNSSuffix)
for _, peer := range resp.Peers {
peer.InitDisplayNames(magicDNSSuffix)
if !peer.Sharer.IsZero() {
if c.keepSharerAndUserSplit {
addUserProfile(peer.Sharer)
} else {
peer.User = peer.Sharer
}
}
addUserProfile(peer.User)
}
if resp.Node.MachineAuthorized {
nm.MachineStatus = tailcfg.MachineAuthorized
} else {
nm.MachineStatus = tailcfg.MachineUnauthorized
}
if len(resp.DNS) > 0 {
nm.DNS.Nameservers = resp.DNS
}
if len(resp.SearchPaths) > 0 {
nm.DNS.Domains = resp.SearchPaths
}
if Debug.ProxyDNS {
nm.DNS.Proxied = true
}
// Printing the netmap can be extremely verbose, but is very
// handy for debugging. Let's limit how often we do it.
// Code elsewhere prints netmap diffs every time, so this
// occasional full dump, plus incremental diffs, should do
// the job.
now := c.timeNow()
if now.Sub(c.lastPrintMap) >= 5*time.Minute {
c.lastPrintMap = now
c.logf("[v1] new network map[%d]:\n%s", i, nm.Concise())
}
c.mu.Lock()
c.expiry = &nm.Expiry
c.mu.Unlock()
cb(nm)
}
if ctx.Err() != nil {
return ctx.Err()
}
return nil
}
func decode(res *http.Response, v interface{}, serverKey *wgkey.Key, mkey *wgkey.Private) error {
defer res.Body.Close()
msg, err := ioutil.ReadAll(io.LimitReader(res.Body, 1<<20))
if err != nil {
return err
}
if res.StatusCode != 200 {
return fmt.Errorf("%d: %v", res.StatusCode, string(msg))
}
return decodeMsg(msg, v, serverKey, mkey)
}
var debugMap, _ = strconv.ParseBool(os.Getenv("TS_DEBUG_MAP"))
var jsonEscapedZero = []byte(`\u0000`)
func (c *Direct) decodeMsg(msg []byte, v interface{}) error {
c.mu.Lock()
serverKey := c.serverKey
c.mu.Unlock()
decrypted, err := decryptMsg(msg, &serverKey, &c.machinePrivKey)
if err != nil {
return err
}
var b []byte
if c.newDecompressor == nil {
b = decrypted
} else {
decoder, err := c.newDecompressor()
if err != nil {
return err
}
defer decoder.Close()
b, err = decoder.DecodeAll(decrypted, nil)
if err != nil {
return err
}
}
if debugMap {
var buf bytes.Buffer
json.Indent(&buf, b, "", " ")
log.Printf("MapResponse: %s", buf.Bytes())
}
if bytes.Contains(b, jsonEscapedZero) {
log.Printf("[unexpected] zero byte in controlclient.Direct.decodeMsg into %T: %q", v, b)
}
if err := json.Unmarshal(b, v); err != nil {
return fmt.Errorf("response: %v", err)
}
return nil
}
func decodeMsg(msg []byte, v interface{}, serverKey *wgkey.Key, mkey *wgkey.Private) error {
decrypted, err := decryptMsg(msg, serverKey, mkey)
if err != nil {
return err
}
if bytes.Contains(decrypted, jsonEscapedZero) {
log.Printf("[unexpected] zero byte in controlclient decodeMsg into %T: %q", v, decrypted)
}
if err := json.Unmarshal(decrypted, v); err != nil {
return fmt.Errorf("response: %v", err)
}
return nil
}
func decryptMsg(msg []byte, serverKey *wgkey.Key, mkey *wgkey.Private) ([]byte, error) {
var nonce [24]byte
if len(msg) < len(nonce)+1 {
return nil, fmt.Errorf("response missing nonce, len=%d", len(msg))
}
copy(nonce[:], msg)
msg = msg[len(nonce):]
pub, pri := (*[32]byte)(serverKey), (*[32]byte)(mkey)
decrypted, ok := box.Open(nil, msg, &nonce, pub, pri)
if !ok {
return nil, fmt.Errorf("cannot decrypt response (len %d + nonce %d = %d)", len(msg), len(nonce), len(msg)+len(nonce))
}
return decrypted, nil
}
func encode(v interface{}, serverKey *wgkey.Key, mkey *wgkey.Private) ([]byte, error) {
b, err := json.Marshal(v)
if err != nil {
return nil, err
}
if debugMap {
if _, ok := v.(tailcfg.MapRequest); ok {
log.Printf("MapRequest: %s", b)
}
}
var nonce [24]byte
if _, err := io.ReadFull(rand.Reader, nonce[:]); err != nil {
panic(err)
}
pub, pri := (*[32]byte)(serverKey), (*[32]byte)(mkey)
msg := box.Seal(nonce[:], b, &nonce, pub, pri)
return msg, nil
}
func loadServerKey(ctx context.Context, httpc *http.Client, serverURL string) (wgkey.Key, error) {
req, err := http.NewRequest("GET", serverURL+"/key", nil)
if err != nil {
return wgkey.Key{}, fmt.Errorf("create control key request: %v", err)
}
req = req.WithContext(ctx)
res, err := httpc.Do(req)
if err != nil {
return wgkey.Key{}, fmt.Errorf("fetch control key: %v", err)
}
defer res.Body.Close()
b, err := ioutil.ReadAll(io.LimitReader(res.Body, 1<<16))
if err != nil {
return wgkey.Key{}, fmt.Errorf("fetch control key response: %v", err)
}
if res.StatusCode != 200 {
return wgkey.Key{}, fmt.Errorf("fetch control key: %d: %s", res.StatusCode, string(b))
}
key, err := wgkey.ParseHex(string(b))
if err != nil {
return wgkey.Key{}, fmt.Errorf("fetch control key: %v", err)
}
return key, nil
}
// Debug contains temporary internal-only debug knobs.
// They're unexported to not draw attention to them.
var Debug = initDebug()
type debug struct {
NetMap bool
ProxyDNS bool
OnlyDisco bool
Disco bool
StripEndpoints bool // strip endpoints from control (only use disco messages)
}
func initDebug() debug {
use := os.Getenv("TS_DEBUG_USE_DISCO")
return debug{
NetMap: envBool("TS_DEBUG_NETMAP"),
ProxyDNS: envBool("TS_DEBUG_PROXY_DNS"),
StripEndpoints: envBool("TS_DEBUG_STRIP_ENDPOINTS"),
OnlyDisco: use == "only",
Disco: use == "only" || use == "" || envBool("TS_DEBUG_USE_DISCO"),
}
}
func envBool(k string) bool {
e := os.Getenv(k)
if e == "" {
return false
}
v, err := strconv.ParseBool(e)
if err != nil {
panic(fmt.Sprintf("invalid non-bool %q for env var %q", e, k))
}
return v
}
// undeltaPeers updates mapRes.Peers to be complete based on the provided previous peer list
// and the PeersRemoved and PeersChanged fields in mapRes.
// It then also nils out the delta fields.
func undeltaPeers(mapRes *tailcfg.MapResponse, prev []*tailcfg.Node) {
if len(mapRes.Peers) > 0 {
// Not delta encoded.
if !nodesSorted(mapRes.Peers) {
log.Printf("netmap: undeltaPeers: MapResponse.Peers not sorted; sorting")
sortNodes(mapRes.Peers)
}
return
}
var removed map[tailcfg.NodeID]bool
if pr := mapRes.PeersRemoved; len(pr) > 0 {
removed = make(map[tailcfg.NodeID]bool, len(pr))
for _, id := range pr {
removed[id] = true
}
}
changed := mapRes.PeersChanged
if len(removed) == 0 && len(changed) == 0 {
// No changes fast path.
mapRes.Peers = prev
return
}
if !nodesSorted(changed) {
log.Printf("netmap: undeltaPeers: MapResponse.PeersChanged not sorted; sorting")
sortNodes(changed)
}
if !nodesSorted(prev) {
// Internal error (unrelated to the network) if we get here.
log.Printf("netmap: undeltaPeers: [unexpected] prev not sorted; sorting")
sortNodes(prev)
}
newFull := make([]*tailcfg.Node, 0, len(prev)-len(removed))
for len(prev) > 0 && len(changed) > 0 {
pID := prev[0].ID
cID := changed[0].ID
if removed[pID] {
prev = prev[1:]
continue
}
switch {
case pID < cID:
newFull = append(newFull, prev[0])
prev = prev[1:]
case pID == cID:
newFull = append(newFull, changed[0])
prev, changed = prev[1:], changed[1:]
case cID < pID:
newFull = append(newFull, changed[0])
changed = changed[1:]
}
}
newFull = append(newFull, changed...)
for _, n := range prev {
if !removed[n.ID] {
newFull = append(newFull, n)
}
}
sortNodes(newFull)
if mapRes.PeerSeenChange != nil {
peerByID := make(map[tailcfg.NodeID]*tailcfg.Node, len(newFull))
for _, n := range newFull {
peerByID[n.ID] = n
}
now := time.Now()
for nodeID, seen := range mapRes.PeerSeenChange {
if n, ok := peerByID[nodeID]; ok {
if seen {
n.LastSeen = &now
} else {
n.LastSeen = nil
}
}
}
}
mapRes.Peers = newFull
mapRes.PeersChanged = nil
mapRes.PeersRemoved = nil
}
func nodesSorted(v []*tailcfg.Node) bool {
for i, n := range v {
if i > 0 && n.ID <= v[i-1].ID {
return false
}
}
return true
}
func sortNodes(v []*tailcfg.Node) {
sort.Slice(v, func(i, j int) bool { return v[i].ID < v[j].ID })
}
func cloneNodes(v1 []*tailcfg.Node) []*tailcfg.Node {
if v1 == nil {
return nil
}
v2 := make([]*tailcfg.Node, len(v1))
for i, n := range v1 {
v2[i] = n.Clone()
}
return v2
}
// opt.Bool configs from control.
var (
controlUseDERPRoute atomic.Value
controlTrimWGConfig atomic.Value
)
func setControlAtomic(dst *atomic.Value, v opt.Bool) {
old, ok := dst.Load().(opt.Bool)
if !ok || old != v {
dst.Store(v)
}
}
// DERPRouteFlag reports the last reported value from control for whether
// DERP route optimization (Issue 150) should be enabled.
func DERPRouteFlag() opt.Bool {
v, _ := controlUseDERPRoute.Load().(opt.Bool)
return v
}
// TrimWGConfig reports the last reported value from control for whether
// we should do lazy wireguard configuration.
func TrimWGConfig() opt.Bool {
v, _ := controlTrimWGConfig.Load().(opt.Bool)
return v
}
// ipForwardingBroken reports whether the system's IP forwarding is disabled
// and will definitely not work for the routes provided.
//
// It should not return false positives.
func ipForwardingBroken(routes []netaddr.IPPrefix) bool {
if len(routes) == 0 {
// Nothing to route, so no need to warn.
return false
}
if runtime.GOOS != "linux" {
// We only do subnet routing on Linux for now.
// It might work on darwin/macOS when building from source, so
// don't return true for other OSes. We can OS-based warnings
// already in the admin panel.
return false
}
v4Routes, v6Routes := false, false
for _, r := range routes {
if r.IP.Is4() {
v4Routes = true
} else {
v6Routes = true
}
}
if v4Routes {
out, err := ioutil.ReadFile("/proc/sys/net/ipv4/ip_forward")
if err != nil {
// Try another way.
out, err = exec.Command("sysctl", "-n", "net.ipv4.ip_forward").Output()
}
if err != nil {
// Oh well, we tried. This is just for debugging.
// We don't want false positives.
// TODO: maybe we want a different warning for inability to check?
return false
}
if strings.TrimSpace(string(out)) == "0" {
return true
}
}
if v6Routes {
// Note: you might be wondering why we check only the state of
// conf.all.forwarding, rather than per-interface forwarding
// configuration. According to kernel documentation, it seems
// that to actually forward packets, you need to enable
// forwarding globally, and the per-interface forwarding
// setting only alters other things such as how router
// advertisements are handled. The kernel itself warns that
// enabling forwarding per-interface and not globally will
// probably not work, so I feel okay calling those configs
// broken until we have proof otherwise.
out, err := ioutil.ReadFile("/proc/sys/net/ipv6/conf/all/forwarding")
if err != nil {
out, err = exec.Command("sysctl", "-n", "net.ipv6.conf.all.forwarding").Output()
}
if err != nil {
// Oh well, we tried. This is just for debugging.
// We don't want false positives.
// TODO: maybe we want a different warning for inability to check?
return false
}
if strings.TrimSpace(string(out)) == "0" {
return true
}
}
return false
}