// +build e2e_testing package nebula import ( "fmt" "io" "net" "github.com/sirupsen/logrus" ) type Tun struct { Device string Cidr *net.IPNet MTU int UnsafeRoutes []route l *logrus.Logger rxPackets chan []byte // Packets to receive into nebula txPackets chan []byte // Packets transmitted outside by nebula } func newTun(l *logrus.Logger, deviceName string, cidr *net.IPNet, defaultMTU int, _ []route, unsafeRoutes []route, _ int, _ bool) (ifce *Tun, err error) { return &Tun{ Device: deviceName, Cidr: cidr, MTU: defaultMTU, UnsafeRoutes: unsafeRoutes, l: l, rxPackets: make(chan []byte, 100), txPackets: make(chan []byte, 100), }, nil } func newTunFromFd(_ *logrus.Logger, _ int, _ *net.IPNet, _ int, _ []route, _ []route, _ int) (ifce *Tun, err error) { return nil, fmt.Errorf("newTunFromFd not supported") } // Send will place a byte array onto the receive queue for nebula to consume // These are unencrypted ip layer frames destined for another nebula node. // packets should exit the udp side, capture them with udpConn.Get func (c *Tun) Send(packet []byte) { c.rxPackets <- packet } // Get will pull an unencrypted ip layer frame from the transmit queue // nebula meant to send this message to some application on the local system // packets were ingested from the udp side, you can send them with udpConn.Send func (c *Tun) Get(block bool) []byte { if block { return <-c.txPackets } select { case p := <-c.txPackets: return p default: return nil } } //********************************************************************************************************************// // Below this is boilerplate implementation to make nebula actually work //********************************************************************************************************************// func (c *Tun) Activate() error { return nil } func (c *Tun) CidrNet() *net.IPNet { return c.Cidr } func (c *Tun) DeviceName() string { return c.Device } func (c *Tun) Write(b []byte) (n int, err error) { return len(b), c.WriteRaw(b) } func (c *Tun) Close() error { close(c.rxPackets) return nil } func (c *Tun) WriteRaw(b []byte) error { packet := make([]byte, len(b), len(b)) copy(packet, b) c.txPackets <- packet return nil } func (c *Tun) Read(b []byte) (int, error) { p := <-c.rxPackets copy(b, p) return len(p), nil } func (c *Tun) NewMultiQueueReader() (io.ReadWriteCloser, error) { return nil, fmt.Errorf("TODO: multiqueue not implemented") }