wireguard-go/device.go

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/* SPDX-License-Identifier: GPL-2.0
*
* Copyright (C) 2017-2018 Jason A. Donenfeld <Jason@zx2c4.com>. All Rights Reserved.
*/
package main
import (
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"./ratelimiter"
"runtime"
"sync"
"sync/atomic"
"time"
)
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const (
DeviceRoutineNumberPerCPU = 3
)
type Device struct {
isUp AtomicBool // device is (going) up
isClosed AtomicBool // device is closed? (acting as guard)
log *Logger
// synchronized resources (locks acquired in order)
state struct {
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stopping sync.WaitGroup
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mutex sync.Mutex
changing AtomicBool
current bool
}
net struct {
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mutex sync.RWMutex
bind Bind // bind interface
port uint16 // listening port
fwmark uint32 // mark value (0 = disabled)
}
noise struct {
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mutex sync.RWMutex
privateKey NoisePrivateKey
publicKey NoisePublicKey
}
routing struct {
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mutex sync.RWMutex
table RoutingTable
}
peers struct {
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mutex sync.RWMutex
keyMap map[NoisePublicKey]*Peer
}
// unprotected / "self-synchronising resources"
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indexTable IndexTable
mac CookieChecker
rate struct {
underLoadUntil atomic.Value
limiter ratelimiter.Ratelimiter
}
pool struct {
messageBuffers sync.Pool
}
queue struct {
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encryption chan *QueueOutboundElement
decryption chan *QueueInboundElement
handshake chan QueueHandshakeElement
}
signals struct {
stop chan struct{}
}
tun struct {
device TUNDevice
mtu int32
}
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}
/* Converts the peer into a "zombie", which remains in the peer map,
* but processes no packets and does not exists in the routing table.
*
* Must hold:
* device.peers.mutex : exclusive lock
* device.routing : exclusive lock
*/
func unsafeRemovePeer(device *Device, peer *Peer, key NoisePublicKey) {
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// stop routing and processing of packets
device.routing.table.RemovePeer(peer)
peer.Stop()
// remove from peer map
delete(device.peers.keyMap, key)
}
func deviceUpdateState(device *Device) {
// check if state already being updated (guard)
if device.state.changing.Swap(true) {
return
}
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// compare to current state of device
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device.state.mutex.Lock()
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newIsUp := device.isUp.Get()
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if newIsUp == device.state.current {
device.state.changing.Set(false)
device.state.mutex.Unlock()
return
}
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// change state of device
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switch newIsUp {
case true:
if err := device.BindUpdate(); err != nil {
device.isUp.Set(false)
break
}
device.peers.mutex.Lock()
for _, peer := range device.peers.keyMap {
peer.Start()
}
device.peers.mutex.Unlock()
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case false:
device.BindClose()
device.peers.mutex.Lock()
for _, peer := range device.peers.keyMap {
peer.Stop()
}
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device.peers.mutex.Unlock()
}
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// update state variables
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device.state.current = newIsUp
device.state.changing.Set(false)
device.state.mutex.Unlock()
// check for state change in the mean time
deviceUpdateState(device)
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}
func (device *Device) Up() {
// closed device cannot be brought up
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if device.isClosed.Get() {
return
}
device.state.mutex.Lock()
device.isUp.Set(true)
device.state.mutex.Unlock()
deviceUpdateState(device)
}
func (device *Device) Down() {
device.state.mutex.Lock()
device.isUp.Set(false)
device.state.mutex.Unlock()
deviceUpdateState(device)
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}
func (device *Device) IsUnderLoad() bool {
// check if currently under load
now := time.Now()
underLoad := len(device.queue.handshake) >= UnderLoadQueueSize
if underLoad {
device.rate.underLoadUntil.Store(now.Add(time.Second))
return true
}
// check if recently under load
until := device.rate.underLoadUntil.Load().(time.Time)
return until.After(now)
}
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func (device *Device) SetPrivateKey(sk NoisePrivateKey) error {
// lock required resources
device.noise.mutex.Lock()
defer device.noise.mutex.Unlock()
device.routing.mutex.Lock()
defer device.routing.mutex.Unlock()
device.peers.mutex.Lock()
defer device.peers.mutex.Unlock()
for _, peer := range device.peers.keyMap {
peer.handshake.mutex.RLock()
defer peer.handshake.mutex.RUnlock()
}
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// remove peers with matching public keys
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publicKey := sk.publicKey()
for key, peer := range device.peers.keyMap {
if peer.handshake.remoteStatic.Equals(publicKey) {
unsafeRemovePeer(device, peer, key)
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}
}
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// update key material
device.noise.privateKey = sk
device.noise.publicKey = publicKey
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device.mac.Init(publicKey)
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// do static-static DH pre-computations
rmKey := device.noise.privateKey.IsZero()
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for key, peer := range device.peers.keyMap {
hs := &peer.handshake
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if rmKey {
hs.precomputedStaticStatic = [NoisePublicKeySize]byte{}
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} else {
hs.precomputedStaticStatic = device.noise.privateKey.sharedSecret(hs.remoteStatic)
}
if isZero(hs.precomputedStaticStatic[:]) {
unsafeRemovePeer(device, peer, key)
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}
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}
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return nil
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}
func (device *Device) GetMessageBuffer() *[MaxMessageSize]byte {
return device.pool.messageBuffers.Get().(*[MaxMessageSize]byte)
}
func (device *Device) PutMessageBuffer(msg *[MaxMessageSize]byte) {
device.pool.messageBuffers.Put(msg)
}
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func NewDevice(tun TUNDevice, logger *Logger) *Device {
device := new(Device)
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device.isUp.Set(false)
device.isClosed.Set(false)
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device.log = logger
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device.tun.device = tun
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mtu, err := device.tun.device.MTU()
if err != nil {
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logger.Error.Println("Trouble determining MTU, assuming default:", err)
mtu = DefaultMTU
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}
device.tun.mtu = int32(mtu)
device.peers.keyMap = make(map[NoisePublicKey]*Peer)
// initialize anti-DoS / anti-scanning features
device.rate.limiter.Init()
device.rate.underLoadUntil.Store(time.Time{})
// initialize noise & crypt-key routine
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device.indexTable.Init()
device.routing.table.Reset()
// setup buffer pool
device.pool.messageBuffers = sync.Pool{
New: func() interface{} {
return new([MaxMessageSize]byte)
},
}
// create queues
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device.queue.handshake = make(chan QueueHandshakeElement, QueueHandshakeSize)
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device.queue.encryption = make(chan *QueueOutboundElement, QueueOutboundSize)
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device.queue.decryption = make(chan *QueueInboundElement, QueueInboundSize)
// prepare signals
device.signals.stop = make(chan struct{}, 1)
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// prepare net
device.net.port = 0
device.net.bind = nil
// start workers
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cpus := runtime.NumCPU()
device.state.stopping.Add(DeviceRoutineNumberPerCPU * cpus)
for i := 0; i < cpus; i += 1 {
go device.RoutineEncryption()
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go device.RoutineDecryption()
go device.RoutineHandshake()
}
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go device.RoutineReadFromTUN()
go device.RoutineTUNEventReader()
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return device
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}
func (device *Device) LookupPeer(pk NoisePublicKey) *Peer {
device.peers.mutex.RLock()
defer device.peers.mutex.RUnlock()
return device.peers.keyMap[pk]
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}
func (device *Device) RemovePeer(key NoisePublicKey) {
device.noise.mutex.Lock()
defer device.noise.mutex.Unlock()
device.routing.mutex.Lock()
defer device.routing.mutex.Unlock()
device.peers.mutex.Lock()
defer device.peers.mutex.Unlock()
// stop peer and remove from routing
peer, ok := device.peers.keyMap[key]
if ok {
unsafeRemovePeer(device, peer, key)
}
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}
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func (device *Device) RemoveAllPeers() {
device.noise.mutex.Lock()
defer device.noise.mutex.Unlock()
device.routing.mutex.Lock()
defer device.routing.mutex.Unlock()
device.peers.mutex.Lock()
defer device.peers.mutex.Unlock()
for key, peer := range device.peers.keyMap {
unsafeRemovePeer(device, peer, key)
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}
device.peers.keyMap = make(map[NoisePublicKey]*Peer)
}
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func (device *Device) FlushPacketQueues() {
for {
select {
case elem, ok := <-device.queue.decryption:
if ok {
elem.Drop()
}
case elem, ok := <-device.queue.encryption:
if ok {
elem.Drop()
}
case <-device.queue.handshake:
default:
return
}
}
}
func (device *Device) Close() {
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if device.isClosed.Swap(true) {
return
}
device.log.Info.Println("Device closing")
device.state.changing.Set(true)
device.state.mutex.Lock()
defer device.state.mutex.Unlock()
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device.tun.device.Close()
device.BindClose()
device.isUp.Set(false)
close(device.signals.stop)
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device.state.stopping.Wait()
device.FlushPacketQueues()
device.RemoveAllPeers()
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device.rate.limiter.Close()
device.state.changing.Set(false)
device.log.Info.Println("Interface closed")
}
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func (device *Device) Wait() chan struct{} {
return device.signals.stop
}