// 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 ipn
import (
"context"
"errors"
"fmt"
"os"
"strings"
"sync"
"time"
"github.com/tailscale/wireguard-go/wgcfg"
"golang.org/x/oauth2"
"inet.af/netaddr"
"tailscale.com/control/controlclient"
"tailscale.com/internal/deepprint"
"tailscale.com/ipn/ipnstate"
"tailscale.com/ipn/policy"
"tailscale.com/net/interfaces"
"tailscale.com/net/tsaddr"
"tailscale.com/portlist"
"tailscale.com/tailcfg"
"tailscale.com/types/empty"
"tailscale.com/types/key"
"tailscale.com/types/logger"
"tailscale.com/version"
"tailscale.com/wgengine"
"tailscale.com/wgengine/filter"
"tailscale.com/wgengine/router"
"tailscale.com/wgengine/router/dns"
"tailscale.com/wgengine/tsdns"
)
// LocalBackend is the glue between the major pieces of the Tailscale
// network software: the cloud control plane (via controlclient), the
// network data plane (via wgengine), and the user-facing UIs and CLIs
// (collectively called "frontends", via LocalBackend's implementation
// of the Backend interface).
//
// LocalBackend implements the overall state machine for the Tailscale
// application. Frontends, controlclient and wgengine can feed events
// into LocalBackend to advance the state machine, and advancing the
// state machine generates events back out to zero or more components.
type LocalBackend struct {
// Elements that are thread-safe or constant after construction.
ctx context . Context // canceled by Close
ctxCancel context . CancelFunc // cancels ctx
logf logger . Logf // general logging
keyLogf logger . Logf // for printing list of peers on change
e wgengine . Engine
store StateStore
backendLogID string
portpoll * portlist . Poller // may be nil
portpollOnce sync . Once
serverURL string // tailcontrol URL
newDecompressor func ( ) ( controlclient . Decompressor , error )
filterHash string
// The mutex protects the following elements.
mu sync . Mutex
notify func ( Notify )
c * controlclient . Client
stateKey StateKey
prefs * Prefs
state State
// hostinfo is mutated in-place while mu is held.
hostinfo * tailcfg . Hostinfo
// netMap is not mutated in-place once set.
netMap * controlclient . NetworkMap
engineStatus EngineStatus
endpoints [ ] string
blocked bool
authURL string
interact int
// statusLock must be held before calling statusChanged.Wait() or
// statusChanged.Broadcast().
statusLock sync . Mutex
statusChanged * sync . Cond
}
// NewLocalBackend returns a new LocalBackend that is ready to run,
// but is not actually running.
func NewLocalBackend ( logf logger . Logf , logid string , store StateStore , e wgengine . Engine ) ( * LocalBackend , error ) {
if e == nil {
panic ( "ipn.NewLocalBackend: wgengine must not be nil" )
}
// Default filter blocks everything, until Start() is called.
Add tstest.PanicOnLog(), and fix various problems detected by this.
If a test calls log.Printf, 'go test' horrifyingly rearranges the
output to no longer be in chronological order, which makes debugging
virtually impossible. Let's stop that from happening by making
log.Printf panic if called from any module, no matter how deep, during
tests.
This required us to change the default error handler in at least one
http.Server, as well as plumbing a bunch of logf functions around,
especially in magicsock and wgengine, but also in logtail and backoff.
To add insult to injury, 'go test' also rearranges the output when a
parent test has multiple sub-tests (all the sub-test's t.Logf is always
printed after all the parent tests t.Logf), so we need to screw around
with a special Logf that can point at the "current" t (current_t.Logf)
in some places. Probably our entire way of using subtests is wrong,
since 'go test' would probably like to run them all in parallel if you
called t.Parallel(), but it definitely can't because the're all
manipulating the shared state created by the parent test. They should
probably all be separate toplevel tests instead, with common
setup/teardown logic. But that's a job for another time.
Signed-off-by: Avery Pennarun <apenwarr@tailscale.com>
5 years ago
e . SetFilter ( filter . NewAllowNone ( logf ) )
ctx , cancel := context . WithCancel ( context . Background ( ) )
portpoll , err := portlist . NewPoller ( )
if err != nil {
logf ( "skipping portlist: %s" , err )
}
b := & LocalBackend {
ctx : ctx ,
ctxCancel : cancel ,
logf : logf ,
keyLogf : logger . LogOnChange ( logf , 5 * time . Minute , time . Now ) ,
e : e ,
store : store ,
backendLogID : logid ,
state : NoState ,
portpoll : portpoll ,
}
e . SetLinkChangeCallback ( b . linkChange )
b . statusChanged = sync . NewCond ( & b . statusLock )
return b , nil
}
func ( b * LocalBackend ) linkChange ( major bool , ifst * interfaces . State ) {
// TODO(bradfitz): on a major link change, ask controlclient
// whether its host (e.g. login.tailscale.com) is reachable.
// If not, down the world and poll for a bit. Windows' WinHTTP
// service might be unable to resolve its WPAD PAC URL if we
// have DNS/routes configured. So we need to remove that DNS
// and those routes to let it figure out its proxy
// settings. Once it's back up and happy, then we can resume
// and our connection to the control server would work again.
}
// Shutdown halts the backend and all its sub-components. The backend
// can no longer be used after Shutdown returns.
func ( b * LocalBackend ) Shutdown ( ) {
b . mu . Lock ( )
cli := b . c
b . mu . Unlock ( )
if cli != nil {
cli . Shutdown ( )
}
b . ctxCancel ( )
b . e . Close ( )
b . e . Wait ( )
}
// Status returns the latest status of the backend and its
// sub-components.
func ( b * LocalBackend ) Status ( ) * ipnstate . Status {
sb := new ( ipnstate . StatusBuilder )
b . UpdateStatus ( sb )
return sb . Status ( )
}
// UpdateStatus implements ipnstate.StatusUpdater.
func ( b * LocalBackend ) UpdateStatus ( sb * ipnstate . StatusBuilder ) {
b . e . UpdateStatus ( sb )
b . mu . Lock ( )
defer b . mu . Unlock ( )
sb . SetBackendState ( b . state . String ( ) )
// TODO: hostinfo, and its networkinfo
// TODO: EngineStatus copy (and deprecate it?)
if b . netMap != nil {
for id , up := range b . netMap . UserProfiles {
sb . AddUser ( id , up )
}
for _ , p := range b . netMap . Peers {
var lastSeen time . Time
if p . LastSeen != nil {
lastSeen = * p . LastSeen
}
var tailAddr string
if len ( p . Addresses ) > 0 {
tailAddr = strings . TrimSuffix ( p . Addresses [ 0 ] . String ( ) , "/32" )
}
sb . AddPeer ( key . Public ( p . Key ) , & ipnstate . PeerStatus {
InNetworkMap : true ,
UserID : p . User ,
TailAddr : tailAddr ,
HostName : p . Hostinfo . Hostname ,
DNSName : p . Name ,
OS : p . Hostinfo . OS ,
KeepAlive : p . KeepAlive ,
Created : p . Created ,
LastSeen : lastSeen ,
} )
}
}
}
// SetDecompressor sets a decompression function, which must be a zstd
// reader.
//
// This exists because the iOS/Mac NetworkExtension is very resource
// constrained, and the zstd package is too heavy to fit in the
// constrained RSS limit.
func ( b * LocalBackend ) SetDecompressor ( fn func ( ) ( controlclient . Decompressor , error ) ) {
b . newDecompressor = fn
}
// setClientStatus is the callback invoked by the control client whenever it posts a new status.
// Among other things, this is where we update the netmap, packet filters, DNS and DERP maps.
func ( b * LocalBackend ) setClientStatus ( st controlclient . Status ) {
// The following do not depend on any data for which we need to lock b.
if st . Err != "" {
// TODO(crawshaw): display in the UI.
b . logf ( "Received error: %v" , st . Err )
return
}
if st . LoginFinished != nil {
// Auth completed, unblock the engine
b . blockEngineUpdates ( false )
b . authReconfig ( )
b . send ( Notify { LoginFinished : & empty . Message { } } )
}
prefsChanged := false
// Lock b once and do only the things that require locking.
b . mu . Lock ( )
prefs := b . prefs
stateKey := b . stateKey
netMap := b . netMap
interact := b . interact
if st . Persist != nil {
if ! b . prefs . Persist . Equals ( st . Persist ) {
prefsChanged = true
b . prefs . Persist = st . Persist . Clone ( )
}
}
if st . NetMap != nil {
b . netMap = st . NetMap
}
if st . URL != "" {
b . authURL = st . URL
}
if b . state == NeedsLogin {
if ! b . prefs . WantRunning {
prefsChanged = true
}
b . prefs . WantRunning = true
}
// Prefs will be written out; this is not safe unless locked or cloned.
if prefsChanged {
prefs = b . prefs . Clone ( )
}
b . mu . Unlock ( )
// Now complete the lock-free parts of what we started while locked.
if prefsChanged {
if stateKey != "" {
if err := b . store . WriteState ( stateKey , prefs . ToBytes ( ) ) ; err != nil {
b . logf ( "Failed to save new controlclient state: %v" , err )
}
}
b . send ( Notify { Prefs : prefs } )
}
if st . NetMap != nil {
if netMap != nil {
diff := st . NetMap . ConciseDiffFrom ( netMap )
if strings . TrimSpace ( diff ) == "" {
b . logf ( "netmap diff: (none)" )
} else {
b . logf ( "netmap diff:\n%v" , diff )
}
}
b . updateFilter ( st . NetMap , prefs )
b . e . SetNetworkMap ( st . NetMap )
if ! dnsMapsEqual ( st . NetMap , netMap ) {
b . updateDNSMap ( st . NetMap )
}
b . e . SetDERPMap ( st . NetMap . DERPMap )
b . send ( Notify { NetMap : st . NetMap } )
}
if st . URL != "" {
b . logf ( "Received auth URL: %.20v..." , st . URL )
if interact > 0 {
b . popBrowserAuthNow ( )
}
}
b . stateMachine ( )
// This is currently (2020-07-28) necessary; conditionally disabling it is fragile!
// This is where netmap information gets propagated to router and magicsock.
b . authReconfig ( )
}
// setWgengineStatus is the callback by the wireguard engine whenever it posts a new status.
// This updates the endpoints both in the backend and in the control client.
func ( b * LocalBackend ) setWgengineStatus ( s * wgengine . Status , err error ) {
if err != nil {
b . logf ( "wgengine status error: %#v" , err )
return
}
if s == nil {
b . logf ( "[unexpected] non-error wgengine update with status=nil: %v" , s )
return
}
es := b . parseWgStatus ( s )
b . mu . Lock ( )
c := b . c
b . engineStatus = es
b . endpoints = append ( [ ] string { } , s . LocalAddrs ... )
b . mu . Unlock ( )
if c != nil {
c . UpdateEndpoints ( 0 , s . LocalAddrs )
}
b . stateMachine ( )
b . statusLock . Lock ( )
b . statusChanged . Broadcast ( )
b . statusLock . Unlock ( )
b . send ( Notify { Engine : & es } )
}
// Start applies the configuration specified in opts, and starts the
// state machine.
//
// TODO(danderson): this function is trying to do too many things at
// once: it loads state, or imports it, or updates prefs sometimes,
// contains some settings that are one-shot things done by `tailscale
// up` because we had nowhere else to put them, and there's no clear
// guarantee that switching from one user's state to another is
// actually a supported operation (it should be, but it's very unclear
// from the following whether or not that is a safe transition).
func ( b * LocalBackend ) Start ( opts Options ) error {
if opts . Prefs == nil && opts . StateKey == "" {
return errors . New ( "no state key or prefs provided" )
}
if opts . Prefs != nil {
b . logf ( "Start: %v" , opts . Prefs . Pretty ( ) )
} else {
b . logf ( "Start" )
}
hostinfo := controlclient . NewHostinfo ( )
hostinfo . BackendLogID = b . backendLogID
hostinfo . FrontendLogID = opts . FrontendLogID
b . mu . Lock ( )
if b . c != nil {
// TODO(apenwarr): avoid the need to reinit controlclient.
// This will trigger a full relogin/reconfigure cycle every
// time a Handle reconnects to the backend. Ideally, we
// would send the new Prefs and everything would get back
// into sync with the minimal changes. But that's not how it
// is right now, which is a sign that the code is still too
// complicated.
b . c . Shutdown ( )
}
if b . hostinfo != nil {
hostinfo . Services = b . hostinfo . Services // keep any previous session and netinfo
hostinfo . NetInfo = b . hostinfo . NetInfo
}
b . hostinfo = hostinfo
b . state = NoState
if err := b . loadStateLocked ( opts . StateKey , opts . Prefs , opts . LegacyConfigPath ) ; err != nil {
b . mu . Unlock ( )
return fmt . Errorf ( "loading requested state: %v" , err )
}
b . serverURL = b . prefs . ControlURL
hostinfo . RoutableIPs = append ( hostinfo . RoutableIPs , b . prefs . AdvertiseRoutes ... )
hostinfo . RequestTags = append ( hostinfo . RequestTags , b . prefs . AdvertiseTags ... )
applyPrefsToHostinfo ( hostinfo , b . prefs )
b . notify = opts . Notify
b . netMap = nil
persist := b . prefs . Persist
b . mu . Unlock ( )
b . updateFilter ( nil , nil )
var discoPublic tailcfg . DiscoKey
if controlclient . Debug . Disco {
discoPublic = b . e . DiscoPublicKey ( )
}
var err error
if persist == nil {
// let controlclient initialize it
persist = & controlclient . Persist { }
}
cli , err := controlclient . New ( controlclient . Options {
Logf : logger . WithPrefix ( b . logf , "control: " ) ,
Persist : * persist ,
ServerURL : b . serverURL ,
AuthKey : opts . AuthKey ,
Hostinfo : hostinfo ,
KeepAlive : true ,
NewDecompressor : b . newDecompressor ,
HTTPTestClient : opts . HTTPTestClient ,
DiscoPublicKey : discoPublic ,
} )
if err != nil {
return err
}
// At this point, we have finished using hostinfo without synchronization,
// so it is safe to start readPoller which concurrently writes to it.
if b . portpoll != nil {
b . portpollOnce . Do ( func ( ) {
go b . portpoll . Run ( b . ctx )
go b . readPoller ( )
} )
}
b . mu . Lock ( )
b . c = cli
endpoints := b . endpoints
b . mu . Unlock ( )
if endpoints != nil {
cli . UpdateEndpoints ( 0 , endpoints )
}
cli . SetStatusFunc ( b . setClientStatus )
b . e . SetStatusCallback ( b . setWgengineStatus )
b . e . SetNetInfoCallback ( b . setNetInfo )
b . mu . Lock ( )
prefs := b . prefs . Clone ( )
b . mu . Unlock ( )
blid := b . backendLogID
b . logf ( "Backend: logs: be:%v fe:%v" , blid , opts . FrontendLogID )
b . send ( Notify { BackendLogID : & blid } )
b . send ( Notify { Prefs : prefs } )
cli . Login ( nil , controlclient . LoginDefault )
return nil
}
// updateFilter updates the packet filter in wgengine based on the
// given netMap and user preferences.
func ( b * LocalBackend ) updateFilter ( netMap * controlclient . NetworkMap , prefs * Prefs ) {
// NOTE(danderson): keep change detection as the first thing in
// this function. Don't try to optimize by returning early, more
// likely than not you'll just end up breaking the change
// detection and end up with the wrong filter installed. This is
// quite hard to debug, so save yourself the trouble.
var (
haveNetmap = netMap != nil
addrs [ ] wgcfg . CIDR
packetFilter filter . Matches
advRoutes [ ] wgcfg . CIDR
shieldsUp = prefs == nil || prefs . ShieldsUp // Be conservative when not ready
)
if haveNetmap {
addrs = netMap . Addresses
packetFilter = netMap . PacketFilter
}
if prefs != nil {
advRoutes = prefs . AdvertiseRoutes
}
changed := deepprint . UpdateHash ( & b . filterHash , haveNetmap , addrs , packetFilter , advRoutes , shieldsUp )
if ! changed {
return
}
if ! haveNetmap {
b . logf ( "netmap packet filter: (not ready yet)" )
b . e . SetFilter ( filter . NewAllowNone ( b . logf ) )
return
}
localNets := wgCIDRsToFilter ( netMap . Addresses , advRoutes )
if shieldsUp {
b . logf ( "netmap packet filter: (shields up)" )
var prevFilter * filter . Filter // don't reuse old filter state
b . e . SetFilter ( filter . New ( filter . Matches { } , localNets , prevFilter , b . logf ) )
} else {
b . logf ( "netmap packet filter: %v" , packetFilter )
b . e . SetFilter ( filter . New ( packetFilter , localNets , b . e . GetFilter ( ) , b . logf ) )
}
}
// dnsCIDRsEqual determines whether two CIDR lists are equal
// for DNS map construction purposes (that is, only the first entry counts).
func dnsCIDRsEqual ( newAddr , oldAddr [ ] wgcfg . CIDR ) bool {
if len ( newAddr ) != len ( oldAddr ) {
return false
}
if len ( newAddr ) == 0 || newAddr [ 0 ] == oldAddr [ 0 ] {
return true
}
return false
}
// dnsMapsEqual determines whether the new and the old network map
// induce the same DNS map. It does so without allocating memory,
// at the expense of giving false negatives if peers are reordered.
func dnsMapsEqual ( new , old * controlclient . NetworkMap ) bool {
if ( old == nil ) != ( new == nil ) {
return false
}
if old == nil && new == nil {
return true
}
if len ( new . Peers ) != len ( old . Peers ) {
return false
}
if new . Name != old . Name {
return false
}
if ! dnsCIDRsEqual ( new . Addresses , old . Addresses ) {
return false
}
for i , newPeer := range new . Peers {
oldPeer := old . Peers [ i ]
if newPeer . Name != oldPeer . Name {
return false
}
if ! dnsCIDRsEqual ( newPeer . Addresses , oldPeer . Addresses ) {
return false
}
}
return true
}
// updateDNSMap updates the domain map in the DNS resolver in wgengine
// based on the given netMap and user preferences.
func ( b * LocalBackend ) updateDNSMap ( netMap * controlclient . NetworkMap ) {
if netMap == nil {
b . logf ( "dns map: (not ready)" )
return
}
nameToIP := make ( map [ string ] netaddr . IP )
set := func ( name string , addrs [ ] wgcfg . CIDR ) {
if len ( addrs ) == 0 || name == "" {
return
}
nameToIP [ name ] = netaddr . IPFrom16 ( addrs [ 0 ] . IP . Addr )
}
for _ , peer := range netMap . Peers {
set ( peer . Name , peer . Addresses )
}
set ( netMap . Name , netMap . Addresses )
dnsMap := tsdns . NewMap ( nameToIP , domainsForProxying ( netMap ) )
// map diff will be logged in tsdns.Resolver.SetMap.
b . e . SetDNSMap ( dnsMap )
}
// readPoller is a goroutine that receives service lists from
// b.portpoll and propagates them into the controlclient's HostInfo.
func ( b * LocalBackend ) readPoller ( ) {
for {
ports , ok := <- b . portpoll . C
if ! ok {
return
}
sl := [ ] tailcfg . Service { }
for _ , p := range ports {
s := tailcfg . Service {
Proto : tailcfg . ServiceProto ( p . Proto ) ,
Port : p . Port ,
Description : p . Process ,
}
if policy . IsInterestingService ( s , version . OS ( ) ) {
sl = append ( sl , s )
}
}
b . mu . Lock ( )
if b . hostinfo == nil {
b . hostinfo = new ( tailcfg . Hostinfo )
}
b . hostinfo . Services = sl
hi := b . hostinfo
b . mu . Unlock ( )
b . doSetHostinfoFilterServices ( hi )
}
}
// send delivers n to the connected frontend. If no frontend is
// connected, the notification is dropped without being delivered.
func ( b * LocalBackend ) send ( n Notify ) {
b . mu . Lock ( )
notify := b . notify
b . mu . Unlock ( )
if notify != nil {
n . Version = version . LONG
notify ( n )
} else {
b . logf ( "nil notify callback; dropping %+v" , n )
}
}
// popBrowserAuthNow shuts down the data plane and sends an auth URL
// to the connected frontend, if any.
func ( b * LocalBackend ) popBrowserAuthNow ( ) {
b . mu . Lock ( )
url := b . authURL
b . interact = 0
b . authURL = ""
b . mu . Unlock ( )
b . logf ( "popBrowserAuthNow: url=%v" , url != "" )
b . blockEngineUpdates ( true )
b . stopEngineAndWait ( )
b . send ( Notify { BrowseToURL : & url } )
if b . State ( ) == Running {
b . enterState ( Starting )
}
}
// loadStateLocked sets b.prefs and b.stateKey based on a complex
// combination of key, prefs, and legacyPath. b.mu must be held when
// calling.
func ( b * LocalBackend ) loadStateLocked ( key StateKey , prefs * Prefs , legacyPath string ) error {
if prefs == nil && key == "" {
panic ( "state key and prefs are both unset" )
}
if key == "" {
// Frontend fully owns the state, we just need to obey it.
b . logf ( "Using frontend prefs" )
b . prefs = prefs . Clone ( )
b . stateKey = ""
return nil
}
if prefs != nil {
// Backend owns the state, but frontend is trying to migrate
// state into the backend.
b . logf ( "Importing frontend prefs into backend store" )
if err := b . store . WriteState ( key , prefs . ToBytes ( ) ) ; err != nil {
return fmt . Errorf ( "store.WriteState: %v" , err )
}
}
b . logf ( "Using backend prefs" )
bs , err := b . store . ReadState ( key )
if err != nil {
if errors . Is ( err , ErrStateNotExist ) {
if legacyPath != "" {
b . prefs , err = LoadPrefs ( legacyPath )
if err != nil {
if ! os . IsNotExist ( err ) {
b . logf ( "Failed to load legacy prefs: %v" , err )
}
b . prefs = NewPrefs ( )
} else {
b . logf ( "Imported state from relaynode for %q" , key )
}
} else {
b . prefs = NewPrefs ( )
b . logf ( "Created empty state for %q" , key )
}
b . stateKey = key
return nil
}
return fmt . Errorf ( "store.ReadState(%q): %v" , key , err )
}
b . prefs , err = PrefsFromBytes ( bs , false )
if err != nil {
return fmt . Errorf ( "PrefsFromBytes: %v" , err )
}
b . stateKey = key
return nil
}
// State returns the backend state machine's current state.
func ( b * LocalBackend ) State ( ) State {
b . mu . Lock ( )
defer b . mu . Unlock ( )
return b . state
}
// getEngineStatus returns a copy of b.engineStatus.
//
// TODO(bradfitz): remove this and use Status() throughout.
func ( b * LocalBackend ) getEngineStatus ( ) EngineStatus {
b . mu . Lock ( )
defer b . mu . Unlock ( )
return b . engineStatus
}
// Login implements Backend.
func ( b * LocalBackend ) Login ( token * oauth2 . Token ) {
b . mu . Lock ( )
b . assertClientLocked ( )
c := b . c
b . mu . Unlock ( )
c . Login ( token , controlclient . LoginInteractive )
}
// StartLoginInteractive implements Backend. It requests a new
// interactive login from controlclient, unless such a flow is already
// in progress, in which case StartLoginInteractive attempts to pick
// up the in-progress flow where it left off.
func ( b * LocalBackend ) StartLoginInteractive ( ) {
b . mu . Lock ( )
b . assertClientLocked ( )
b . interact ++
url := b . authURL
c := b . c
b . mu . Unlock ( )
b . logf ( "StartLoginInteractive: url=%v" , url != "" )
if url != "" {
b . popBrowserAuthNow ( )
} else {
c . Login ( nil , controlclient . LoginInteractive )
}
}
// FakeExpireAfter implements Backend.
func ( b * LocalBackend ) FakeExpireAfter ( x time . Duration ) {
b . logf ( "FakeExpireAfter: %v" , x )
b . mu . Lock ( )
defer b . mu . Unlock ( )
if b . netMap == nil {
return
}
// This function is called very rarely,
// so we prefer to fully copy the netmap over introducing in-place modification here.
mapCopy := * b . netMap
e := mapCopy . Expiry
if e . IsZero ( ) || time . Until ( e ) > x {
mapCopy . Expiry = time . Now ( ) . Add ( x )
}
b . netMap = & mapCopy
b . send ( Notify { NetMap : b . netMap } )
}
func ( b * LocalBackend ) Ping ( ipStr string ) {
ip , err := netaddr . ParseIP ( ipStr )
if err != nil {
b . logf ( "ignoring Ping request to invalid IP %q" , ipStr )
return
}
b . e . Ping ( ip , func ( pr * ipnstate . PingResult ) {
b . send ( Notify { PingResult : pr } )
} )
}
func ( b * LocalBackend ) parseWgStatus ( s * wgengine . Status ) ( ret EngineStatus ) {
var (
peerStats [ ] string
peerKeys [ ] string
)
ret . LiveDERPs = s . DERPs
ret . LivePeers = map [ tailcfg . NodeKey ] wgengine . PeerStatus { }
for _ , p := range s . Peers {
if ! p . LastHandshake . IsZero ( ) {
peerStats = append ( peerStats , fmt . Sprintf ( "%d/%d" , p . RxBytes , p . TxBytes ) )
ret . NumLive ++
ret . LivePeers [ p . NodeKey ] = p
peerKeys = append ( peerKeys , p . NodeKey . ShortString ( ) )
}
ret . RBytes += p . RxBytes
ret . WBytes += p . TxBytes
}
if len ( peerStats ) > 0 {
// [GRINDER STATS LINE] - please don't remove (used for log parsing)
b . keyLogf ( "peer keys: %s" , strings . Join ( peerKeys , " " ) )
// [GRINDER STATS LINE] - please don't remove (used for log parsing)
b . logf ( "v%v peers: %v" , version . LONG , strings . Join ( peerStats , " " ) )
}
return ret
}
// shieldsAreUp returns whether user preferences currently request
// "shields up" mode, which disallows all inbound connections.
func ( b * LocalBackend ) shieldsAreUp ( ) bool {
b . mu . Lock ( )
defer b . mu . Unlock ( )
if b . prefs == nil {
return true // default to safest setting
}
return b . prefs . ShieldsUp
}
func ( b * LocalBackend ) SetWantRunning ( wantRunning bool ) {
b . mu . Lock ( )
new := b . prefs . Clone ( )
b . mu . Unlock ( )
if new . WantRunning == wantRunning {
return
}
new . WantRunning = wantRunning
b . logf ( "SetWantRunning: %v" , wantRunning )
b . SetPrefs ( new )
}
// SetPrefs saves new user preferences and propagates them throughout
// the system. Implements Backend.
func ( b * LocalBackend ) SetPrefs ( new * Prefs ) {
if new == nil {
panic ( "SetPrefs got nil prefs" )
}
b . mu . Lock ( )
netMap := b . netMap
stateKey := b . stateKey
old := b . prefs
new . Persist = old . Persist // caller isn't allowed to override this
b . prefs = new
// We do this to avoid holding the lock while doing everything else.
new = b . prefs . Clone ( )
oldHi := b . hostinfo
newHi := oldHi . Clone ( )
newHi . RoutableIPs = append ( [ ] wgcfg . CIDR ( nil ) , b . prefs . AdvertiseRoutes ... )
applyPrefsToHostinfo ( newHi , new )
b . hostinfo = newHi
hostInfoChanged := ! oldHi . Equal ( newHi )
b . mu . Unlock ( )
if stateKey != "" {
if err := b . store . WriteState ( stateKey , new . ToBytes ( ) ) ; err != nil {
b . logf ( "Failed to save new controlclient state: %v" , err )
}
}
// [GRINDER STATS LINE] - please don't remove (used for log parsing)
b . logf ( "SetPrefs: %v" , new . Pretty ( ) )
if old . ShieldsUp != new . ShieldsUp || hostInfoChanged {
b . doSetHostinfoFilterServices ( newHi )
}
b . updateFilter ( netMap , new )
if netMap != nil {
b . e . SetDERPMap ( netMap . DERPMap )
}
if old . WantRunning != new . WantRunning {
b . stateMachine ( )
} else {
b . authReconfig ( )
}
b . send ( Notify { Prefs : new } )
}
// doSetHostinfoFilterServices calls SetHostinfo on the controlclient,
// possibly after mangling the given hostinfo.
//
// TODO(danderson): we shouldn't be mangling hostinfo here after
// painstakingly constructing it in twelvety other places.
func ( b * LocalBackend ) doSetHostinfoFilterServices ( hi * tailcfg . Hostinfo ) {
hi2 := * hi
if b . shieldsAreUp ( ) {
// No local services are available, since ShieldsUp will block
// them all.
hi2 . Services = [ ] tailcfg . Service { }
}
b . mu . Lock ( )
cli := b . c
b . mu . Unlock ( )
// b.c might not be started yet
if cli != nil {
cli . SetHostinfo ( & hi2 )
}
}
// NetMap returns the latest cached network map received from
// controlclient, or nil if no network map was received yet.
func ( b * LocalBackend ) NetMap ( ) * controlclient . NetworkMap {
b . mu . Lock ( )
defer b . mu . Unlock ( )
return b . netMap
}
// blockEngineUpdate sets b.blocked to block, while holding b.mu. Its
// indirect effect is to turn b.authReconfig() into a no-op if block
// is true.
func ( b * LocalBackend ) blockEngineUpdates ( block bool ) {
b . logf ( "blockEngineUpdates(%v)" , block )
b . mu . Lock ( )
b . blocked = block
b . mu . Unlock ( )
}
// authReconfig pushes a new configuration into wgengine, if engine
// updates are not currently blocked, based on the cached netmap and
// user prefs.
func ( b * LocalBackend ) authReconfig ( ) {
b . mu . Lock ( )
blocked := b . blocked
uc := b . prefs
nm := b . netMap
b . mu . Unlock ( )
if blocked {
b . logf ( "authReconfig: blocked, skipping." )
return
}
if nm == nil {
b . logf ( "authReconfig: netmap not yet valid. Skipping." )
return
}
if ! uc . WantRunning {
b . logf ( "authReconfig: skipping because !WantRunning." )
return
}
var flags controlclient . WGConfigFlags
if uc . RouteAll {
flags |= controlclient . AllowDefaultRoute
// TODO(apenwarr): Make subnet routes a different pref?
flags |= controlclient . AllowSubnetRoutes
}
if uc . AllowSingleHosts {
flags |= controlclient . AllowSingleHosts
}
cfg , err := nm . WGCfg ( b . logf , flags )
if err != nil {
b . logf ( "wgcfg: %v" , err )
return
}
rcfg := routerConfig ( cfg , uc )
// If CorpDNS is false, rcfg.DNS remains the zero value.
if uc . CorpDNS {
domains := nm . DNS . Domains
proxied := nm . DNS . Proxied
if proxied {
if len ( nm . DNS . Nameservers ) == 0 {
b . logf ( "[unexpected] dns proxied but no nameservers" )
proxied = false
} else {
// Domains for proxying should come first to avoid leaking queries.
domains = append ( domainsForProxying ( nm ) , domains ... )
}
}
rcfg . DNS = dns . Config {
Nameservers : nm . DNS . Nameservers ,
Domains : domains ,
PerDomain : nm . DNS . PerDomain ,
Proxied : proxied ,
}
}
err = b . e . Reconfig ( cfg , rcfg )
if err == wgengine . ErrNoChanges {
return
}
b . logf ( "authReconfig: ra=%v dns=%v 0x%02x: %v" , uc . RouteAll , uc . CorpDNS , flags , err )
}
// domainsForProxying produces a list of search domains for proxied DNS.
func domainsForProxying ( nm * controlclient . NetworkMap ) [ ] string {
var domains [ ] string
if idx := strings . IndexByte ( nm . Name , '.' ) ; idx != - 1 {
domains = append ( domains , nm . Name [ idx + 1 : ] )
}
for _ , peer := range nm . Peers {
idx := strings . IndexByte ( peer . Name , '.' )
if idx == - 1 {
continue
}
domain := peer . Name [ idx + 1 : ]
seen := false
// In theory this makes the function O(n^2) worst case,
// but in practice we expect domains to contain very few elements
// (only one until invitations are introduced).
for _ , seenDomain := range domains {
if domain == seenDomain {
seen = true
}
}
if ! seen {
domains = append ( domains , domain )
}
}
return domains
}
// routerConfig produces a router.Config from a wireguard config and IPN prefs.
func routerConfig ( cfg * wgcfg . Config , prefs * Prefs ) * router . Config {
var addrs [ ] wgcfg . CIDR
for _ , addr := range cfg . Addresses {
addrs = append ( addrs , wgcfg . CIDR {
IP : addr . IP ,
Mask : 32 ,
} )
}
rs := & router . Config {
LocalAddrs : wgCIDRToNetaddr ( addrs ) ,
SubnetRoutes : wgCIDRToNetaddr ( prefs . AdvertiseRoutes ) ,
SNATSubnetRoutes : ! prefs . NoSNAT ,
NetfilterMode : prefs . NetfilterMode ,
}
for _ , peer := range cfg . Peers {
rs . Routes = append ( rs . Routes , wgCIDRToNetaddr ( peer . AllowedIPs ) ... )
}
rs . Routes = append ( rs . Routes , netaddr . IPPrefix {
IP : tsaddr . TailscaleServiceIP ( ) ,
Bits : 32 ,
} )
return rs
}
// wgCIDRsToFilter converts lists of wgcfg.CIDR into a single list of
// filter.Net.
func wgCIDRsToFilter ( cidrLists ... [ ] wgcfg . CIDR ) ( ret [ ] filter . Net ) {
for _ , cidrs := range cidrLists {
for _ , cidr := range cidrs {
if ! cidr . IP . Is4 ( ) {
continue
}
ret = append ( ret , filter . Net {
IP : filter . NewIP ( cidr . IP . IP ( ) ) ,
Mask : filter . Netmask ( int ( cidr . Mask ) ) ,
} )
}
}
return ret
}
func wgCIDRToNetaddr ( cidrs [ ] wgcfg . CIDR ) ( ret [ ] netaddr . IPPrefix ) {
for _ , cidr := range cidrs {
ncidr , ok := netaddr . FromStdIPNet ( cidr . IPNet ( ) )
if ! ok {
panic ( fmt . Sprintf ( "conversion of %s from wgcfg to netaddr IPNet failed" , cidr ) )
}
ncidr . IP = ncidr . IP . Unmap ( )
ret = append ( ret , ncidr )
}
return ret
}
func applyPrefsToHostinfo ( hi * tailcfg . Hostinfo , prefs * Prefs ) {
if h := prefs . Hostname ; h != "" {
hi . Hostname = h
}
if v := prefs . OSVersion ; v != "" {
hi . OSVersion = v
}
if m := prefs . DeviceModel ; m != "" {
hi . DeviceModel = m
}
}
// enterState transitions the backend into newState, updating internal
// state and propagating events out as needed.
//
// TODO(danderson): while this isn't a lie, exactly, a ton of other
// places twiddle IPN internal state without going through here, so
// really this is more "one of several places in which random things
// happen".
func ( b * LocalBackend ) enterState ( newState State ) {
b . mu . Lock ( )
state := b . state
b . state = newState
prefs := b . prefs
notify := b . notify
bc := b . c
b . mu . Unlock ( )
if state == newState {
return
}
b . logf ( "Switching ipn state %v -> %v (WantRunning=%v)" ,
state , newState , prefs . WantRunning )
if notify != nil {
b . send ( Notify { State : & newState } )
}
if bc != nil {
bc . SetPaused ( newState == Stopped )
}
switch newState {
case NeedsLogin :
b . blockEngineUpdates ( true )
fallthrough
case Stopped :
err := b . e . Reconfig ( & wgcfg . Config { } , & router . Config { } )
if err != nil {
b . logf ( "Reconfig(down): %v" , err )
}
case Starting , NeedsMachineAuth :
b . authReconfig ( )
// Needed so that UpdateEndpoints can run
b . e . RequestStatus ( )
case Running :
break
default :
b . logf ( "[unexpected] unknown newState %#v" , newState )
}
}
// nextState returns the state the backend seems to be in, based on
// its internal state.
func ( b * LocalBackend ) nextState ( ) State {
b . mu . Lock ( )
b . assertClientLocked ( )
var (
c = b . c
netMap = b . netMap
state = b . state
wantRunning = b . prefs . WantRunning
)
b . mu . Unlock ( )
switch {
case netMap == nil :
if c . AuthCantContinue ( ) {
// Auth was interrupted or waiting for URL visit,
// so it won't proceed without human help.
return NeedsLogin
} else {
// Auth or map request needs to finish
return state
}
case ! wantRunning :
return Stopped
case ! netMap . Expiry . IsZero ( ) && time . Until ( netMap . Expiry ) <= 0 :
return NeedsLogin
case netMap . MachineStatus != tailcfg . MachineAuthorized :
// TODO(crawshaw): handle tailcfg.MachineInvalid
return NeedsMachineAuth
case state == NeedsMachineAuth :
// (if we get here, we know MachineAuthorized == true)
return Starting
case state == Starting :
if st := b . getEngineStatus ( ) ; st . NumLive > 0 || st . LiveDERPs > 0 {
return Running
} else {
return state
}
case state == Running :
return Running
default :
return Starting
}
}
// RequestEngineStatus implements Backend.
func ( b * LocalBackend ) RequestEngineStatus ( ) {
b . e . RequestStatus ( )
}
// RequestStatus implements Backend.
func ( b * LocalBackend ) RequestStatus ( ) {
st := b . Status ( )
b . send ( Notify { Status : st } )
}
// stateMachine updates the state machine state based on other things
// that have happened. It is invoked from the various callbacks that
// feed events into LocalBackend.
//
// TODO(apenwarr): use a channel or something to prevent re-entrancy?
// Or maybe just call the state machine from fewer places.
func ( b * LocalBackend ) stateMachine ( ) {
b . enterState ( b . nextState ( ) )
}
// stopEngineAndWait deconfigures the local network data plane, and
// waits for it to deliver a status update before returning.
//
// TODO(danderson): this may be racy. We could unblock upon receiving
// a status update that predates the "I've shut down" update.
func ( b * LocalBackend ) stopEngineAndWait ( ) {
b . logf ( "stopEngineAndWait..." )
b . e . Reconfig ( & wgcfg . Config { } , & router . Config { } )
b . requestEngineStatusAndWait ( )
b . logf ( "stopEngineAndWait: done." )
}
// Requests the wgengine status, and does not return until the status
// was delivered (to the usual callback).
func ( b * LocalBackend ) requestEngineStatusAndWait ( ) {
b . logf ( "requestEngineStatusAndWait" )
b . statusLock . Lock ( )
go b . e . RequestStatus ( )
b . logf ( "requestEngineStatusAndWait: waiting..." )
b . statusChanged . Wait ( ) // temporarily releases lock while waiting
b . logf ( "requestEngineStatusAndWait: got status update." )
b . statusLock . Unlock ( )
}
// Logout tells the controlclient that we want to log out, and transitions the local engine to the logged-out state without waiting for controlclient to be in that state.
//
// TODO(danderson): controlclient Logout does nothing useful, and we
// shouldn't be transitioning to a state based on what we believe
// controlclient may have done.
//
// NOTE(apenwarr): No easy way to persist logged-out status.
// Maybe that's for the better; if someone logs out accidentally,
// rebooting will fix it.
func ( b * LocalBackend ) Logout ( ) {
b . mu . Lock ( )
c := b . c
b . netMap = nil
b . mu . Unlock ( )
if c == nil {
// Double Logout can happen via repeated IPN
// connections to ipnserver making it repeatedly
// transition from 1->0 total connections, which on
// Windows by default ("client mode") causes a Logout
// on the transition to zero.
// Previously this crashed when we asserted that c was non-nil
// here.
return
}
c . Logout ( )
b . mu . Lock ( )
b . netMap = nil
b . mu . Unlock ( )
b . stateMachine ( )
}
// assertClientLocked crashes if there is no controlclient in this backend.
func ( b * LocalBackend ) assertClientLocked ( ) {
if b . c == nil {
panic ( "LocalBackend.assertClient: b.c == nil" )
}
}
// setNetInfo sets b.hostinfo.NetInfo to ni, and passes ni along to the
// controlclient, if one exists.
func ( b * LocalBackend ) setNetInfo ( ni * tailcfg . NetInfo ) {
b . mu . Lock ( )
c := b . c
if b . hostinfo != nil {
b . hostinfo . NetInfo = ni . Clone ( )
}
b . mu . Unlock ( )
if c == nil {
return
}
c . SetNetInfo ( ni )
}
// TestOnlyPublicKeys returns the current machine and node public
// keys. Used in tests only to facilitate automated node authorization
// in the test harness.
func ( b * LocalBackend ) TestOnlyPublicKeys ( ) ( machineKey tailcfg . MachineKey , nodeKey tailcfg . NodeKey ) {
b . mu . Lock ( )
prefs := b . prefs
b . mu . Unlock ( )
if prefs == nil {
return
}
mk := prefs . Persist . PrivateMachineKey . Public ( )
nk := prefs . Persist . PrivateNodeKey . Public ( )
return tailcfg . MachineKey ( mk ) , tailcfg . NodeKey ( nk )
}