wireguard-go/device/peer.go

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/* SPDX-License-Identifier: MIT
*
* Copyright (C) 2017-2021 WireGuard LLC. All Rights Reserved.
*/
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package device
import (
"encoding/base64"
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"errors"
"fmt"
"sync"
"sync/atomic"
"time"
"golang.zx2c4.com/wireguard/conn"
)
type Peer struct {
isRunning AtomicBool
sync.RWMutex // Mostly protects endpoint, but is generally taken whenever we modify peer
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keypairs Keypairs
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handshake Handshake
device *Device
endpoint conn.Endpoint
persistentKeepaliveInterval uint32 // accessed atomically
firstTrieEntry *trieEntry
stopping sync.WaitGroup // routines pending stop
// These fields are accessed with atomic operations, which must be
// 64-bit aligned even on 32-bit platforms. Go guarantees that an
// allocated struct will be 64-bit aligned. So we place
// atomically-accessed fields up front, so that they can share in
// this alignment before smaller fields throw it off.
stats struct {
txBytes uint64 // bytes send to peer (endpoint)
rxBytes uint64 // bytes received from peer
lastHandshakeNano int64 // nano seconds since epoch
}
disableRoaming bool
timers struct {
retransmitHandshake *Timer
sendKeepalive *Timer
newHandshake *Timer
zeroKeyMaterial *Timer
persistentKeepalive *Timer
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handshakeAttempts uint32
needAnotherKeepalive AtomicBool
sentLastMinuteHandshake AtomicBool
}
queue struct {
sync.RWMutex
staged chan *QueueOutboundElement // staged packets before a handshake is available
outbound chan *QueueOutboundElement // sequential ordering of udp transmission
inbound chan *QueueInboundElement // sequential ordering of tun writing
}
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cookieGenerator CookieGenerator
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}
func (device *Device) NewPeer(pk NoisePublicKey) (*Peer, error) {
if device.isClosed.Get() {
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return nil, errors.New("device closed")
}
// lock resources
device.staticIdentity.RLock()
defer device.staticIdentity.RUnlock()
device.peers.Lock()
defer device.peers.Unlock()
// check if over limit
if len(device.peers.keyMap) >= MaxPeers {
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return nil, errors.New("too many peers")
}
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// create peer
peer := new(Peer)
peer.Lock()
defer peer.Unlock()
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peer.cookieGenerator.Init(pk)
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peer.device = device
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// map public key
_, ok := device.peers.keyMap[pk]
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if ok {
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return nil, errors.New("adding existing peer")
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}
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// pre-compute DH
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handshake := &peer.handshake
handshake.mutex.Lock()
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handshake.precomputedStaticStatic = device.staticIdentity.privateKey.sharedSecret(pk)
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handshake.remoteStatic = pk
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handshake.mutex.Unlock()
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// reset endpoint
peer.endpoint = nil
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// add
device.peers.keyMap[pk] = peer
device.peers.empty.Set(false)
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// start peer
if peer.device.isUp.Get() {
peer.Start()
}
return peer, nil
}
func (peer *Peer) SendBuffer(buffer []byte) error {
peer.device.net.RLock()
defer peer.device.net.RUnlock()
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if peer.device.net.bind == nil {
// Packets can leak through to SendBuffer while the device is closing.
// When that happens, drop them silently to avoid spurious errors.
if peer.device.isClosed.Get() {
return nil
}
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return errors.New("no bind")
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}
peer.RLock()
defer peer.RUnlock()
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if peer.endpoint == nil {
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return errors.New("no known endpoint for peer")
}
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err := peer.device.net.bind.Send(buffer, peer.endpoint)
if err == nil {
atomic.AddUint64(&peer.stats.txBytes, uint64(len(buffer)))
}
return err
}
func (peer *Peer) String() string {
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base64Key := base64.StdEncoding.EncodeToString(peer.handshake.remoteStatic[:])
abbreviatedKey := "invalid"
if len(base64Key) == 44 {
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abbreviatedKey = base64Key[0:4] + "…" + base64Key[39:43]
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}
return fmt.Sprintf("peer(%s)", abbreviatedKey)
}
func (peer *Peer) Start() {
// should never start a peer on a closed device
if peer.device.isClosed.Get() {
return
}
// prevent simultaneous start/stop operations
peer.queue.Lock()
defer peer.queue.Unlock()
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if peer.isRunning.Get() {
return
}
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device := peer.device
device.log.Verbosef("%v - Starting...", peer)
// reset routine state
peer.stopping.Wait()
peer.stopping.Add(2)
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// prepare queues
peer.queue.outbound = make(chan *QueueOutboundElement, QueueOutboundSize)
peer.queue.inbound = make(chan *QueueInboundElement, QueueInboundSize)
if peer.queue.staged == nil {
peer.queue.staged = make(chan *QueueOutboundElement, QueueStagedSize)
}
peer.timersInit()
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peer.handshake.lastSentHandshake = time.Now().Add(-(RekeyTimeout + time.Second))
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go peer.RoutineSequentialSender()
go peer.RoutineSequentialReceiver()
peer.isRunning.Set(true)
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}
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func (peer *Peer) ZeroAndFlushAll() {
device := peer.device
// clear key pairs
keypairs := &peer.keypairs
keypairs.Lock()
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device.DeleteKeypair(keypairs.previous)
device.DeleteKeypair(keypairs.current)
device.DeleteKeypair(keypairs.loadNext())
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keypairs.previous = nil
keypairs.current = nil
keypairs.storeNext(nil)
keypairs.Unlock()
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// clear handshake state
handshake := &peer.handshake
handshake.mutex.Lock()
device.indexTable.Delete(handshake.localIndex)
handshake.Clear()
handshake.mutex.Unlock()
peer.FlushStagedPackets()
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}
func (peer *Peer) ExpireCurrentKeypairs() {
handshake := &peer.handshake
handshake.mutex.Lock()
peer.device.indexTable.Delete(handshake.localIndex)
handshake.Clear()
peer.handshake.lastSentHandshake = time.Now().Add(-(RekeyTimeout + time.Second))
handshake.mutex.Unlock()
keypairs := &peer.keypairs
keypairs.Lock()
if keypairs.current != nil {
atomic.StoreUint64(&keypairs.current.sendNonce, RejectAfterMessages)
}
if keypairs.next != nil {
next := keypairs.loadNext()
atomic.StoreUint64(&next.sendNonce, RejectAfterMessages)
}
keypairs.Unlock()
}
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func (peer *Peer) Stop() {
peer.queue.Lock()
defer peer.queue.Unlock()
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if !peer.isRunning.Swap(false) {
return
}
peer.device.log.Verbosef("%v - Stopping...", peer)
peer.timersStop()
close(peer.queue.inbound)
close(peer.queue.outbound)
peer.stopping.Wait()
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peer.ZeroAndFlushAll()
}
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func (peer *Peer) SetEndpointFromPacket(endpoint conn.Endpoint) {
if peer.disableRoaming {
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return
}
peer.Lock()
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peer.endpoint = endpoint
peer.Unlock()
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}