mirror of
https://git.zx2c4.com/wireguard-go
synced 2024-11-15 01:05:15 +01:00
0bcb822e5b
This commit simplifies device state management. It creates a single unified state variable and documents its semantics. It also makes state changes more atomic. As an example of the sort of bug that occurred due to non-atomic state changes, the following sequence of events used to occur approximately every 2.5 million test runs: * RoutineTUNEventReader received an EventDown event. * It called device.Down, which called device.setUpDown. * That set device.state.changing, but did not yet attempt to lock device.state.Mutex. * Test completion called device.Close. * device.Close locked device.state.Mutex. * device.Close blocked on a call to device.state.stopping.Wait. * device.setUpDown then attempted to lock device.state.Mutex and blocked. Deadlock results. setUpDown cannot progress because device.state.Mutex is locked. Until setUpDown returns, RoutineTUNEventReader cannot call device.state.stopping.Done. Until device.state.stopping.Done gets called, device.state.stopping.Wait is blocked. As long as device.state.stopping.Wait is blocked, device.state.Mutex cannot be unlocked. This commit fixes that deadlock by holding device.state.mu when checking that the device is not closed. Signed-off-by: Josh Bleecher Snyder <josh@tailscale.com>
491 lines
12 KiB
Go
491 lines
12 KiB
Go
/* SPDX-License-Identifier: MIT
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*
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* Copyright (C) 2017-2021 WireGuard LLC. All Rights Reserved.
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*/
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package device
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import (
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"bytes"
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"encoding/binary"
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"errors"
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"net"
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"sync"
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"sync/atomic"
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"time"
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"golang.org/x/crypto/chacha20poly1305"
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"golang.org/x/net/ipv4"
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"golang.org/x/net/ipv6"
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"golang.zx2c4.com/wireguard/conn"
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)
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type QueueHandshakeElement struct {
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msgType uint32
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packet []byte
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endpoint conn.Endpoint
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buffer *[MaxMessageSize]byte
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}
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type QueueInboundElement struct {
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sync.Mutex
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buffer *[MaxMessageSize]byte
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packet []byte
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counter uint64
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keypair *Keypair
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endpoint conn.Endpoint
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}
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// clearPointers clears elem fields that contain pointers.
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// This makes the garbage collector's life easier and
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// avoids accidentally keeping other objects around unnecessarily.
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// It also reduces the possible collateral damage from use-after-free bugs.
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func (elem *QueueInboundElement) clearPointers() {
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elem.buffer = nil
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elem.packet = nil
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elem.keypair = nil
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elem.endpoint = nil
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}
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/* Called when a new authenticated message has been received
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*
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* NOTE: Not thread safe, but called by sequential receiver!
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*/
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func (peer *Peer) keepKeyFreshReceiving() {
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if peer.timers.sentLastMinuteHandshake.Get() {
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return
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}
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keypair := peer.keypairs.Current()
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if keypair != nil && keypair.isInitiator && time.Since(keypair.created) > (RejectAfterTime-KeepaliveTimeout-RekeyTimeout) {
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peer.timers.sentLastMinuteHandshake.Set(true)
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peer.SendHandshakeInitiation(false)
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}
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}
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/* Receives incoming datagrams for the device
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*
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* Every time the bind is updated a new routine is started for
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* IPv4 and IPv6 (separately)
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*/
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func (device *Device) RoutineReceiveIncoming(IP int, bind conn.Bind) {
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defer func() {
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device.log.Verbosef("Routine: receive incoming IPv%d - stopped", IP)
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device.queue.decryption.wg.Done()
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device.queue.handshake.wg.Done()
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device.net.stopping.Done()
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}()
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device.log.Verbosef("Routine: receive incoming IPv%d - started", IP)
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// receive datagrams until conn is closed
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buffer := device.GetMessageBuffer()
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var (
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err error
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size int
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endpoint conn.Endpoint
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deathSpiral int
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)
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for {
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switch IP {
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case ipv4.Version:
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size, endpoint, err = bind.ReceiveIPv4(buffer[:])
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case ipv6.Version:
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size, endpoint, err = bind.ReceiveIPv6(buffer[:])
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default:
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panic("invalid IP version")
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}
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if err != nil {
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device.PutMessageBuffer(buffer)
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if errors.Is(err, conn.NetErrClosed) {
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return
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}
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device.log.Errorf("Failed to receive packet: %v", err)
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if deathSpiral < 10 {
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deathSpiral++
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time.Sleep(time.Second / 3)
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continue
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}
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return
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}
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deathSpiral = 0
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if size < MinMessageSize {
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continue
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}
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// check size of packet
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packet := buffer[:size]
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msgType := binary.LittleEndian.Uint32(packet[:4])
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var okay bool
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switch msgType {
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// check if transport
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case MessageTransportType:
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// check size
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if len(packet) < MessageTransportSize {
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continue
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}
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// lookup key pair
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receiver := binary.LittleEndian.Uint32(
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packet[MessageTransportOffsetReceiver:MessageTransportOffsetCounter],
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)
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value := device.indexTable.Lookup(receiver)
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keypair := value.keypair
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if keypair == nil {
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continue
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}
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// check keypair expiry
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if keypair.created.Add(RejectAfterTime).Before(time.Now()) {
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continue
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}
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// create work element
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peer := value.peer
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elem := device.GetInboundElement()
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elem.packet = packet
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elem.buffer = buffer
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elem.keypair = keypair
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elem.endpoint = endpoint
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elem.counter = 0
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elem.Mutex = sync.Mutex{}
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elem.Lock()
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// add to decryption queues
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peer.queue.RLock()
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if peer.isRunning.Get() {
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peer.queue.inbound <- elem
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device.queue.decryption.c <- elem
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buffer = device.GetMessageBuffer()
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} else {
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device.PutInboundElement(elem)
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}
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peer.queue.RUnlock()
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continue
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// otherwise it is a fixed size & handshake related packet
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case MessageInitiationType:
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okay = len(packet) == MessageInitiationSize
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case MessageResponseType:
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okay = len(packet) == MessageResponseSize
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case MessageCookieReplyType:
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okay = len(packet) == MessageCookieReplySize
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default:
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device.log.Verbosef("Received message with unknown type")
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}
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if okay {
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select {
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case device.queue.handshake.c <- QueueHandshakeElement{
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msgType: msgType,
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buffer: buffer,
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packet: packet,
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endpoint: endpoint,
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}:
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buffer = device.GetMessageBuffer()
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default:
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}
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}
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}
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}
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func (device *Device) RoutineDecryption() {
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var nonce [chacha20poly1305.NonceSize]byte
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defer device.log.Verbosef("Routine: decryption worker - stopped")
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device.log.Verbosef("Routine: decryption worker - started")
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for elem := range device.queue.decryption.c {
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// split message into fields
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counter := elem.packet[MessageTransportOffsetCounter:MessageTransportOffsetContent]
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content := elem.packet[MessageTransportOffsetContent:]
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// decrypt and release to consumer
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var err error
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elem.counter = binary.LittleEndian.Uint64(counter)
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// copy counter to nonce
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binary.LittleEndian.PutUint64(nonce[0x4:0xc], elem.counter)
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elem.packet, err = elem.keypair.receive.Open(
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content[:0],
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nonce[:],
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content,
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nil,
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)
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if err != nil {
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elem.packet = nil
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}
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elem.Unlock()
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}
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}
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/* Handles incoming packets related to handshake
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*/
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func (device *Device) RoutineHandshake() {
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defer device.log.Verbosef("Routine: handshake worker - stopped")
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device.log.Verbosef("Routine: handshake worker - started")
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for elem := range device.queue.handshake.c {
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// handle cookie fields and ratelimiting
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switch elem.msgType {
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case MessageCookieReplyType:
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// unmarshal packet
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var reply MessageCookieReply
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reader := bytes.NewReader(elem.packet)
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err := binary.Read(reader, binary.LittleEndian, &reply)
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if err != nil {
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device.log.Verbosef("Failed to decode cookie reply")
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goto skip
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}
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// lookup peer from index
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entry := device.indexTable.Lookup(reply.Receiver)
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if entry.peer == nil {
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goto skip
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}
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// consume reply
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if peer := entry.peer; peer.isRunning.Get() {
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device.log.Verbosef("Receiving cookie response from %s", elem.endpoint.DstToString())
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if !peer.cookieGenerator.ConsumeReply(&reply) {
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device.log.Verbosef("Could not decrypt invalid cookie response")
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}
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}
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goto skip
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case MessageInitiationType, MessageResponseType:
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// check mac fields and maybe ratelimit
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if !device.cookieChecker.CheckMAC1(elem.packet) {
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device.log.Verbosef("Received packet with invalid mac1")
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goto skip
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}
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// endpoints destination address is the source of the datagram
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if device.IsUnderLoad() {
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// verify MAC2 field
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if !device.cookieChecker.CheckMAC2(elem.packet, elem.endpoint.DstToBytes()) {
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device.SendHandshakeCookie(&elem)
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goto skip
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}
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// check ratelimiter
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if !device.rate.limiter.Allow(elem.endpoint.DstIP()) {
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goto skip
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}
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}
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default:
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device.log.Errorf("Invalid packet ended up in the handshake queue")
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goto skip
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}
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// handle handshake initiation/response content
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switch elem.msgType {
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case MessageInitiationType:
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// unmarshal
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var msg MessageInitiation
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reader := bytes.NewReader(elem.packet)
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err := binary.Read(reader, binary.LittleEndian, &msg)
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if err != nil {
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device.log.Errorf("Failed to decode initiation message")
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goto skip
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}
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// consume initiation
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peer := device.ConsumeMessageInitiation(&msg)
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if peer == nil {
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device.log.Verbosef("Received invalid initiation message from %s", elem.endpoint.DstToString())
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goto skip
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}
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// update timers
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peer.timersAnyAuthenticatedPacketTraversal()
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peer.timersAnyAuthenticatedPacketReceived()
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// update endpoint
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peer.SetEndpointFromPacket(elem.endpoint)
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device.log.Verbosef("%v - Received handshake initiation", peer)
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atomic.AddUint64(&peer.stats.rxBytes, uint64(len(elem.packet)))
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peer.SendHandshakeResponse()
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case MessageResponseType:
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// unmarshal
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var msg MessageResponse
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reader := bytes.NewReader(elem.packet)
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err := binary.Read(reader, binary.LittleEndian, &msg)
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if err != nil {
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device.log.Errorf("Failed to decode response message")
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goto skip
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}
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// consume response
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peer := device.ConsumeMessageResponse(&msg)
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if peer == nil {
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device.log.Verbosef("Received invalid response message from %s", elem.endpoint.DstToString())
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goto skip
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}
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// update endpoint
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peer.SetEndpointFromPacket(elem.endpoint)
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device.log.Verbosef("%v - Received handshake response", peer)
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atomic.AddUint64(&peer.stats.rxBytes, uint64(len(elem.packet)))
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// update timers
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peer.timersAnyAuthenticatedPacketTraversal()
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peer.timersAnyAuthenticatedPacketReceived()
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// derive keypair
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err = peer.BeginSymmetricSession()
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if err != nil {
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device.log.Errorf("%v - Failed to derive keypair: %v", peer, err)
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goto skip
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}
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peer.timersSessionDerived()
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peer.timersHandshakeComplete()
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peer.SendKeepalive()
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}
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skip:
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device.PutMessageBuffer(elem.buffer)
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}
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}
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func (peer *Peer) RoutineSequentialReceiver() {
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device := peer.device
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defer func() {
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device.log.Verbosef("%v - Routine: sequential receiver - stopped", peer)
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peer.stopping.Done()
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}()
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device.log.Verbosef("%v - Routine: sequential receiver - started", peer)
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for elem := range peer.queue.inbound {
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var err error
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elem.Lock()
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if elem.packet == nil {
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// decryption failed
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goto skip
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}
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if !elem.keypair.replayFilter.ValidateCounter(elem.counter, RejectAfterMessages) {
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goto skip
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}
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peer.SetEndpointFromPacket(elem.endpoint)
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if peer.ReceivedWithKeypair(elem.keypair) {
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peer.timersHandshakeComplete()
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peer.SendStagedPackets()
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}
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peer.keepKeyFreshReceiving()
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peer.timersAnyAuthenticatedPacketTraversal()
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peer.timersAnyAuthenticatedPacketReceived()
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atomic.AddUint64(&peer.stats.rxBytes, uint64(len(elem.packet)+MinMessageSize))
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if len(elem.packet) == 0 {
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device.log.Verbosef("%v - Receiving keepalive packet", peer)
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goto skip
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}
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peer.timersDataReceived()
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switch elem.packet[0] >> 4 {
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case ipv4.Version:
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if len(elem.packet) < ipv4.HeaderLen {
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goto skip
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}
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field := elem.packet[IPv4offsetTotalLength : IPv4offsetTotalLength+2]
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length := binary.BigEndian.Uint16(field)
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if int(length) > len(elem.packet) || int(length) < ipv4.HeaderLen {
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goto skip
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}
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elem.packet = elem.packet[:length]
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src := elem.packet[IPv4offsetSrc : IPv4offsetSrc+net.IPv4len]
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if device.allowedips.LookupIPv4(src) != peer {
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device.log.Verbosef("IPv4 packet with disallowed source address from %v", peer)
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goto skip
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}
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case ipv6.Version:
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if len(elem.packet) < ipv6.HeaderLen {
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goto skip
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}
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field := elem.packet[IPv6offsetPayloadLength : IPv6offsetPayloadLength+2]
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length := binary.BigEndian.Uint16(field)
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length += ipv6.HeaderLen
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if int(length) > len(elem.packet) {
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goto skip
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}
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elem.packet = elem.packet[:length]
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src := elem.packet[IPv6offsetSrc : IPv6offsetSrc+net.IPv6len]
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if device.allowedips.LookupIPv6(src) != peer {
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device.log.Verbosef("IPv6 packet with disallowed source address from %v", peer)
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goto skip
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}
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default:
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device.log.Verbosef("Packet with invalid IP version from %v", peer)
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goto skip
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}
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_, err = device.tun.device.Write(elem.buffer[:MessageTransportOffsetContent+len(elem.packet)], MessageTransportOffsetContent)
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if err != nil && !device.isClosed() {
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device.log.Errorf("Failed to write packet to TUN device: %v", err)
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}
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if len(peer.queue.inbound) == 0 {
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err = device.tun.device.Flush()
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if err != nil {
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peer.device.log.Errorf("Unable to flush packets: %v", err)
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}
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}
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skip:
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device.PutMessageBuffer(elem.buffer)
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device.PutInboundElement(elem)
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}
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}
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