netbird/client/internal/peer/handshaker.go

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package peer
import (
"context"
"errors"
"sync"
log "github.com/sirupsen/logrus"
"github.com/netbirdio/netbird/version"
)
var (
ErrSignalIsNotReady = errors.New("signal is not ready")
)
// IceCredentials ICE protocol credentials struct
type IceCredentials struct {
UFrag string
Pwd string
}
// OfferAnswer represents a session establishment offer or answer
type OfferAnswer struct {
IceCredentials IceCredentials
// WgListenPort is a remote WireGuard listen port.
// This field is used when establishing a direct WireGuard connection without any proxy.
// We can set the remote peer's endpoint with this port.
WgListenPort int
// Version of NetBird Agent
Version string
// RosenpassPubKey is the Rosenpass public key of the remote peer when receiving this message
// This value is the local Rosenpass server public key when sending the message
RosenpassPubKey []byte
// RosenpassAddr is the Rosenpass server address (IP:port) of the remote peer when receiving this message
// This value is the local Rosenpass server address when sending the message
RosenpassAddr string
// relay server address
RelaySrvAddress string
}
type Handshaker struct {
mu sync.Mutex
ctx context.Context
log *log.Entry
config ConnConfig
signaler *Signaler
ice *WorkerICE
relay *WorkerRelay
onNewOfferListeners []func(*OfferAnswer)
// remoteOffersCh is a channel used to wait for remote credentials to proceed with the connection
remoteOffersCh chan OfferAnswer
// remoteAnswerCh is a channel used to wait for remote credentials answer (confirmation of our offer) to proceed with the connection
remoteAnswerCh chan OfferAnswer
}
func NewHandshaker(ctx context.Context, log *log.Entry, config ConnConfig, signaler *Signaler, ice *WorkerICE, relay *WorkerRelay) *Handshaker {
return &Handshaker{
ctx: ctx,
log: log,
config: config,
signaler: signaler,
ice: ice,
relay: relay,
remoteOffersCh: make(chan OfferAnswer),
remoteAnswerCh: make(chan OfferAnswer),
}
}
func (h *Handshaker) AddOnNewOfferListener(offer func(remoteOfferAnswer *OfferAnswer)) {
h.onNewOfferListeners = append(h.onNewOfferListeners, offer)
}
func (h *Handshaker) Listen() {
for {
h.log.Debugf("wait for remote offer confirmation")
remoteOfferAnswer, err := h.waitForRemoteOfferConfirmation()
if err != nil {
var connectionClosedError *ConnectionClosedError
if errors.As(err, &connectionClosedError) {
h.log.Tracef("stop handshaker")
return
}
h.log.Errorf("failed to received remote offer confirmation: %s", err)
continue
}
h.log.Debugf("received connection confirmation, running version %s and with remote WireGuard listen port %d", remoteOfferAnswer.Version, remoteOfferAnswer.WgListenPort)
for _, listener := range h.onNewOfferListeners {
go listener(remoteOfferAnswer)
}
}
}
func (h *Handshaker) SendOffer() error {
h.mu.Lock()
defer h.mu.Unlock()
return h.sendOffer()
}
// OnRemoteOffer handles an offer from the remote peer and returns true if the message was accepted, false otherwise
// doesn't block, discards the message if connection wasn't ready
func (h *Handshaker) OnRemoteOffer(offer OfferAnswer) bool {
select {
case h.remoteOffersCh <- offer:
return true
default:
h.log.Debugf("OnRemoteOffer skipping message because is not ready")
// connection might not be ready yet to receive so we ignore the message
return false
}
}
// OnRemoteAnswer handles an offer from the remote peer and returns true if the message was accepted, false otherwise
// doesn't block, discards the message if connection wasn't ready
func (h *Handshaker) OnRemoteAnswer(answer OfferAnswer) bool {
select {
case h.remoteAnswerCh <- answer:
return true
default:
// connection might not be ready yet to receive so we ignore the message
h.log.Debugf("OnRemoteAnswer skipping message because is not ready")
return false
}
}
func (h *Handshaker) waitForRemoteOfferConfirmation() (*OfferAnswer, error) {
select {
case remoteOfferAnswer := <-h.remoteOffersCh:
// received confirmation from the remote peer -> ready to proceed
err := h.sendAnswer()
if err != nil {
return nil, err
}
return &remoteOfferAnswer, nil
case remoteOfferAnswer := <-h.remoteAnswerCh:
return &remoteOfferAnswer, nil
case <-h.ctx.Done():
// closed externally
return nil, NewConnectionClosedError(h.config.Key)
}
}
// sendOffer prepares local user credentials and signals them to the remote peer
func (h *Handshaker) sendOffer() error {
if !h.signaler.Ready() {
return ErrSignalIsNotReady
}
iceUFrag, icePwd := h.ice.GetLocalUserCredentials()
offer := OfferAnswer{
IceCredentials: IceCredentials{iceUFrag, icePwd},
WgListenPort: h.config.LocalWgPort,
Version: version.NetbirdVersion(),
RosenpassPubKey: h.config.RosenpassPubKey,
RosenpassAddr: h.config.RosenpassAddr,
}
addr, err := h.relay.RelayInstanceAddress()
if err == nil {
offer.RelaySrvAddress = addr
}
return h.signaler.SignalOffer(offer, h.config.Key)
}
func (h *Handshaker) sendAnswer() error {
h.log.Debugf("sending answer")
uFrag, pwd := h.ice.GetLocalUserCredentials()
answer := OfferAnswer{
IceCredentials: IceCredentials{uFrag, pwd},
WgListenPort: h.config.LocalWgPort,
Version: version.NetbirdVersion(),
RosenpassPubKey: h.config.RosenpassPubKey,
RosenpassAddr: h.config.RosenpassAddr,
}
addr, err := h.relay.RelayInstanceAddress()
if err == nil {
answer.RelaySrvAddress = addr
}
err = h.signaler.SignalAnswer(answer, h.config.Key)
if err != nil {
return err
}
return nil
}