@ -66,7 +66,7 @@ type userspaceEngine struct {
statusCallback StatusCallback
statusCallback StatusCallback
peerSequence [ ] wgcfg . Key
peerSequence [ ] wgcfg . Key
endpoints [ ] string
endpoints [ ] string
pingers map [ wgcfg . Key ] context . CancelFunc // mu must be held to call CancelFunc
pingers map [ wgcfg . Key ] * pinger
linkState * interfaces . State
linkState * interfaces . State
// Lock ordering: wgLock, then mu.
// Lock ordering: wgLock, then mu.
@ -128,7 +128,7 @@ func newUserspaceEngineAdvanced(logf logger.Logf, tundev *tstun.TUN, routerGen R
reqCh : make ( chan struct { } , 1 ) ,
reqCh : make ( chan struct { } , 1 ) ,
waitCh : make ( chan struct { } ) ,
waitCh : make ( chan struct { } ) ,
tundev : tundev ,
tundev : tundev ,
pingers : make ( map [ wgcfg . Key ] context . CancelFunc ) ,
pingers : make ( map [ wgcfg . Key ] * pinger ) ,
}
}
e . linkState , _ = getLinkState ( )
e . linkState , _ = getLinkState ( )
@ -259,28 +259,29 @@ func newUserspaceEngineAdvanced(logf logger.Logf, tundev *tstun.TUN, routerGen R
//
//
// These generated packets are used to ensure we trigger the spray logic in
// These generated packets are used to ensure we trigger the spray logic in
// the magicsock package for NAT traversal.
// the magicsock package for NAT traversal.
func ( e * userspaceEngine ) pinger ( peerKey wgcfg . Key , ips [ ] wgcfg . IP ) { type pinger struct {
e . logf ( "generating initial ping traffic to %s (%v)" , peerKey . ShortString ( ) , ips )
e * userspaceEngine
var srcIP packet . IP
done chan struct { } // closed after shutdown (not the ctx.Done() chan)
cancel context . CancelFunc
}
e . wgLock . Lock ( )
// close cleans up pinger and removes it from the userspaceEngine.pingers map.
if len ( e . lastCfg . Addresses ) > 0 {
// It cannot be called while p.e.mu is held.
srcIP = packet . NewIP ( e . lastCfg . Addresses [ 0 ] . IP . IP ( ) )
func ( p * pinger ) close ( ) {
}
p . cancel ( )
e . wgLock . Unlock ( )
<- p . done
}
if srcIP == 0 {
func ( p * pinger ) run ( ctx context . Context , peerKey wgcfg . Key , ips [ ] wgcfg . IP , srcIP packet . IP ) {
e . logf ( "generating initial ping traffic: no source IP" )
defer func ( ) {
return
p . e . mu . Lock ( )
}
if p . e . pingers [ peerKey ] == p {
delete ( p . e . pingers , peerKey )
}
p . e . mu . Unlock ( )
e . mu . Lock ( )
close ( p . done )
if cancel := e . pingers [ peerKey ] ; cancel != nil {
} ( )
cancel ( )
}
ctx , cancel := context . WithCancel ( context . Background ( ) )
e . pingers [ peerKey ] = cancel
e . mu . Unlock ( )
// sendFreq is slightly longer than sprayFreq in magicsock to ensure
// sendFreq is slightly longer than sprayFreq in magicsock to ensure
// that if these ping packets are the only source of early packets
// that if these ping packets are the only source of early packets
@ -296,19 +297,6 @@ func (e *userspaceEngine) pinger(peerKey wgcfg.Key, ips []wgcfg.IP) {
payload := [ ] byte ( "magicsock_spray" ) // no meaning
payload := [ ] byte ( "magicsock_spray" ) // no meaning
defer func ( ) {
e . mu . Lock ( )
defer e . mu . Unlock ( )
select {
case <- ctx . Done ( ) :
return
default :
}
// If the pinger context is not done, then the
// CancelFunc is still in the pingers map.
delete ( e . pingers , peerKey )
} ( )
ipid := uint16 ( 1 )
ipid := uint16 ( 1 )
t := time . NewTicker ( sendFreq )
t := time . NewTicker ( sendFreq )
defer t . Stop ( )
defer t . Stop ( )
@ -323,10 +311,52 @@ func (e *userspaceEngine) pinger(peerKey wgcfg.Key, ips []wgcfg.IP) {
}
}
for _ , dstIP := range dstIPs {
for _ , dstIP := range dstIPs {
b := packet . GenICMP ( srcIP , dstIP , ipid , packet . ICMPEchoRequest , 0 , payload )
b := packet . GenICMP ( srcIP , dstIP , ipid , packet . ICMPEchoRequest , 0 , payload )
. tundev . InjectOutbound ( b )
p. e. tundev . InjectOutbound ( b )
}
}
ipid ++
ipid ++
}
}
}
// pinger sends ping packets for a few seconds.
//
// These generated packets are used to ensure we trigger the spray logic in
// the magicsock package for NAT traversal.
func ( e * userspaceEngine ) pinger ( peerKey wgcfg . Key , ips [ ] wgcfg . IP ) {
e . logf ( "generating initial ping traffic to %s (%v)" , peerKey . ShortString ( ) , ips )
var srcIP packet . IP
e . wgLock . Lock ( )
if len ( e . lastCfg . Addresses ) > 0 {
srcIP = packet . NewIP ( e . lastCfg . Addresses [ 0 ] . IP . IP ( ) )
}
e . wgLock . Unlock ( )
if srcIP == 0 {
e . logf ( "generating initial ping traffic: no source IP" )
return
}
ctx , cancel := context . WithCancel ( context . Background ( ) )
p := & pinger {
e : e ,
done : make ( chan struct { } ) ,
cancel : cancel ,
}
e . mu . Lock ( )
if e . closing {
e . mu . Unlock ( )
return
}
oldPinger := e . pingers [ peerKey ]
e . pingers [ peerKey ] = p
e . mu . Unlock ( )
if oldPinger != nil {
oldPinger . close ( )
}
p . run ( ctx , peerKey , ips , srcIP )
} }
func configSignature ( cfg * wgcfg . Config , routerCfg * router . Config ) ( string , error ) { func configSignature ( cfg * wgcfg . Config , routerCfg * router . Config ) ( string , error ) {
@ -565,15 +595,16 @@ func (e *userspaceEngine) RequestStatus() {
} }
func ( e * userspaceEngine ) Close ( ) { func ( e * userspaceEngine ) Close ( ) {
var pingers [ ] * pinger
e . mu . Lock ( )
e . mu . Lock ( )
if e . closing {
if e . closing {
e . mu . Unlock ( )
e . mu . Unlock ( )
return
return
}
}
e . closing = true
e . closing = true
for key , cancel := range e . pingers {
for _ , pinger := range e . pingers {
delete ( e . pingers , key )
pingers = append ( pingers , pinger )
cancel ( )
}
}
e . mu . Unlock ( )
e . mu . Unlock ( )
@ -583,6 +614,13 @@ func (e *userspaceEngine) Close() {
e . linkMon . Close ( )
e . linkMon . Close ( )
e . router . Close ( )
e . router . Close ( )
e . magicConn . Close ( )
e . magicConn . Close ( )
// Shut down pingers after tundev is closed (by e.wgdev.Close) so the
// synchronous close does not get stuck on InjectOutbound.
for _ , pinger := range pingers {
pinger . close ( )
}
close ( e . waitCh )
close ( e . waitCh )
} }
David Crawshaw
4 years ago