mirror of
https://github.com/KusakabeShi/EtherGuard-VPN.git
synced 2024-11-09 00:44:00 +01:00
645 lines
13 KiB
Go
645 lines
13 KiB
Go
package main
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import (
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"bytes"
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"encoding/binary"
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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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"net"
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"sync"
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"sync/atomic"
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"time"
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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 Endpoint
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buffer *[MaxMessageSize]byte
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}
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type QueueInboundElement struct {
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dropped int32
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mutex 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 Endpoint
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}
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func (elem *QueueInboundElement) Drop() {
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atomic.StoreInt32(&elem.dropped, AtomicTrue)
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}
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func (elem *QueueInboundElement) IsDropped() bool {
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return atomic.LoadInt32(&elem.dropped) == AtomicTrue
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}
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func (device *Device) addToInboundQueue(
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queue chan *QueueInboundElement,
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element *QueueInboundElement,
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) {
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for {
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select {
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case queue <- element:
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return
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default:
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select {
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case old := <-queue:
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old.Drop()
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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) addToDecryptionQueue(
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queue chan *QueueInboundElement,
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element *QueueInboundElement,
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) {
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for {
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select {
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case queue <- element:
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return
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default:
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select {
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case old := <-queue:
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// drop & release to potential consumer
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old.Drop()
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old.mutex.Unlock()
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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) addToHandshakeQueue(
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queue chan QueueHandshakeElement,
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element QueueHandshakeElement,
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) {
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for {
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select {
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case queue <- element:
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return
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default:
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select {
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case elem := <-queue:
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device.PutMessageBuffer(elem.buffer)
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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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/* 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 Bind) {
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logDebug := device.log.Debug
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logDebug.Println("Routine, receive incoming, IP version:", 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 Endpoint
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)
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for {
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// read next datagram
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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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return
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}
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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) < MessageTransportType {
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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.indices.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 key-pair 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 := &QueueInboundElement{
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packet: packet,
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buffer: buffer,
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keyPair: keyPair,
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dropped: AtomicFalse,
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endpoint: endpoint,
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}
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elem.mutex.Lock()
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// add to decryption queues
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if peer.isRunning.Get() {
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device.addToDecryptionQueue(device.queue.decryption, elem)
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device.addToInboundQueue(peer.queue.inbound, elem)
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buffer = device.GetMessageBuffer()
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}
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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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}
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if okay {
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device.addToHandshakeQueue(
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device.queue.handshake,
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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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)
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buffer = device.GetMessageBuffer()
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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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logDebug := device.log.Debug
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logDebug.Println("Routine, decryption, started for device")
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for {
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select {
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case <-device.signal.stop.Wait():
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logDebug.Println("Routine, decryption worker, stopped")
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return
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case elem := <-device.queue.decryption:
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// check if dropped
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if elem.IsDropped() {
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continue
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}
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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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// expand nonce
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nonce[0x4] = counter[0x0]
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nonce[0x5] = counter[0x1]
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nonce[0x6] = counter[0x2]
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nonce[0x7] = counter[0x3]
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nonce[0x8] = counter[0x4]
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nonce[0x9] = counter[0x5]
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nonce[0xa] = counter[0x6]
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nonce[0xb] = counter[0x7]
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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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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.Drop()
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}
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elem.mutex.Unlock()
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}
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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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logInfo := device.log.Info
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logError := device.log.Error
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logDebug := device.log.Debug
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logDebug.Println("Routine, handshake routine, started for device")
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var temp [MessageHandshakeSize]byte
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var elem QueueHandshakeElement
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for {
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select {
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case elem = <-device.queue.handshake:
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case <-device.signal.stop.Wait():
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return
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}
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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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logDebug.Println("Failed to decode cookie reply")
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return
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}
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// lookup peer from index
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entry := device.indices.Lookup(reply.Receiver)
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if entry.peer == nil {
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continue
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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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peer.mac.ConsumeReply(&reply)
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}
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continue
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case MessageInitiationType, MessageResponseType:
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// check mac fields and ratelimit
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if !device.mac.CheckMAC1(elem.packet) {
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logDebug.Println("Received packet with invalid mac1")
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continue
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}
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// endpoints destination address is the source of the datagram
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srcBytes := elem.endpoint.DstToBytes()
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if device.IsUnderLoad() {
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// verify MAC2 field
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if !device.mac.CheckMAC2(elem.packet, srcBytes) {
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// construct cookie reply
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logDebug.Println(
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"Sending cookie reply to:",
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elem.endpoint.DstToString(),
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)
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sender := binary.LittleEndian.Uint32(elem.packet[4:8])
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reply, err := device.mac.CreateReply(elem.packet, sender, srcBytes)
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if err != nil {
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logError.Println("Failed to create cookie reply:", err)
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continue
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}
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// marshal and send reply
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writer := bytes.NewBuffer(temp[:0])
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binary.Write(writer, binary.LittleEndian, reply)
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device.net.bind.Send(writer.Bytes(), elem.endpoint)
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if err != nil {
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logDebug.Println("Failed to send cookie reply:", err)
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}
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continue
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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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continue
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}
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}
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default:
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logError.Println("Invalid packet ended up in the handshake queue")
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continue
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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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logError.Println("Failed to decode initiation message")
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continue
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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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logInfo.Println(
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"Received invalid initiation message from",
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elem.endpoint.DstToString(),
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)
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continue
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}
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// update timers
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peer.TimerAnyAuthenticatedPacketTraversal()
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peer.TimerAnyAuthenticatedPacketReceived()
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// update endpoint
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peer.mutex.Lock()
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peer.endpoint = elem.endpoint
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peer.mutex.Unlock()
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// create response
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response, err := device.CreateMessageResponse(peer)
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if err != nil {
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logError.Println("Failed to create response message:", err)
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continue
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}
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peer.TimerEphemeralKeyCreated()
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peer.NewKeyPair()
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logDebug.Println(peer.String(), "Creating handshake response")
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writer := bytes.NewBuffer(temp[:0])
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binary.Write(writer, binary.LittleEndian, response)
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packet := writer.Bytes()
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peer.mac.AddMacs(packet)
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// send response
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err = peer.SendBuffer(packet)
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if err == nil {
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peer.TimerAnyAuthenticatedPacketTraversal()
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} else {
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logError.Println(peer.String(), "Failed to send handshake response", err)
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}
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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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logError.Println("Failed to decode response message")
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continue
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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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logInfo.Println(
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"Recieved invalid response message from",
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elem.endpoint.DstToString(),
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)
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continue
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}
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// update endpoint
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peer.mutex.Lock()
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peer.endpoint = elem.endpoint
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peer.mutex.Unlock()
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logDebug.Println("Received handshake initiation from", peer)
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peer.TimerEphemeralKeyCreated()
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// update timers
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peer.TimerAnyAuthenticatedPacketTraversal()
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peer.TimerAnyAuthenticatedPacketReceived()
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peer.TimerHandshakeComplete()
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// derive key-pair
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peer.NewKeyPair()
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peer.SendKeepAlive()
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}
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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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logInfo := device.log.Info
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logError := device.log.Error
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logDebug := device.log.Debug
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func() {
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defer peer.routines.stopping.Done()
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logDebug.Println(peer.String(), ": Routine, Sequential Receiver, Stopped")
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}()
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logDebug.Println(peer.String(), ": Routine, Sequential Receiver, Started")
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peer.routines.starting.Done()
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for {
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select {
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case <-peer.routines.stop.Wait():
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return
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case elem := <-peer.queue.inbound:
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// wait for decryption
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elem.mutex.Lock()
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if elem.IsDropped() {
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continue
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}
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// check for replay
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if !elem.keyPair.replayFilter.ValidateCounter(elem.counter) {
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continue
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}
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peer.TimerAnyAuthenticatedPacketTraversal()
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peer.TimerAnyAuthenticatedPacketReceived()
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peer.KeepKeyFreshReceiving()
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// check if using new key-pair
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kp := &peer.keyPairs
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kp.mutex.Lock()
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if kp.next == elem.keyPair {
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peer.TimerHandshakeComplete()
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if kp.previous != nil {
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device.DeleteKeyPair(kp.previous)
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}
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kp.previous = kp.current
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kp.current = kp.next
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kp.next = nil
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}
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kp.mutex.Unlock()
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// update endpoint
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peer.mutex.Lock()
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peer.endpoint = elem.endpoint
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peer.mutex.Unlock()
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// check for keep-alive
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if len(elem.packet) == 0 {
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logDebug.Println("Received keep-alive from", peer.String())
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continue
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}
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peer.TimerDataReceived()
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// verify source and strip padding
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switch elem.packet[0] >> 4 {
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case ipv4.Version:
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// strip padding
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if len(elem.packet) < ipv4.HeaderLen {
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continue
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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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continue
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}
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elem.packet = elem.packet[:length]
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// verify IPv4 source
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src := elem.packet[IPv4offsetSrc : IPv4offsetSrc+net.IPv4len]
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if device.routing.table.LookupIPv4(src) != peer {
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logInfo.Println(
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"IPv4 packet with disallowed source address from",
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peer.String(),
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)
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continue
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}
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case ipv6.Version:
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// strip padding
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if len(elem.packet) < ipv6.HeaderLen {
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continue
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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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continue
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}
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elem.packet = elem.packet[:length]
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// verify IPv6 source
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src := elem.packet[IPv6offsetSrc : IPv6offsetSrc+net.IPv6len]
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if device.routing.table.LookupIPv6(src) != peer {
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logInfo.Println(
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"IPv6 packet with disallowed source address from",
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peer.String(),
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)
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continue
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}
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default:
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logInfo.Println("Packet with invalid IP version from", peer.String())
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continue
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}
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// write to tun device
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offset := MessageTransportOffsetContent
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atomic.AddUint64(&peer.stats.rxBytes, uint64(len(elem.packet)))
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_, err := device.tun.device.Write(
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elem.buffer[:offset+len(elem.packet)],
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offset)
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device.PutMessageBuffer(elem.buffer)
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if err != nil {
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logError.Println("Failed to write packet to TUN device:", err)
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}
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}
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}
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}
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