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netbird/client/iface/device/renewable_tun.go

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//go:build android
package device
import (
"io"
"os"
"sync"
"sync/atomic"
"time"
log "github.com/sirupsen/logrus"
"golang.zx2c4.com/wireguard/tun"
)
// closeAwareDevice wraps a tun.Device along with a flag
// indicating whether its Close method was called.
//
// It also redirects tun.Device's Events() to a separate goroutine
// and closes it when Close is called.
//
// The WaitGroup and CloseOnce fields are used to ensure that the
// goroutine is awaited and closed only once.
type closeAwareDevice struct {
isClosed atomic.Bool
tun.Device
closeEventCh chan struct{}
wg sync.WaitGroup
closeOnce sync.Once
}
func newClosableDevice(tunDevice tun.Device) *closeAwareDevice {
return &closeAwareDevice{
Device: tunDevice,
isClosed: atomic.Bool{},
closeEventCh: make(chan struct{}),
}
}
// redirectEvents redirects the Events() method of the underlying tun.Device
// to the given channel (RenewableTUN's events channel).
func (c *closeAwareDevice) redirectEvents(out chan tun.Event) {
c.wg.Add(1)
go func() {
defer c.wg.Done()
for {
select {
case ev, ok := <-c.Device.Events():
if !ok {
return
}
if ev == tun.EventDown {
continue
}
select {
case out <- ev:
case <-c.closeEventCh:
return
}
case <-c.closeEventCh:
return
}
}
}()
}
// Close calls the underlying Device's Close method
// after setting isClosed to true.
func (c *closeAwareDevice) Close() (err error) {
c.closeOnce.Do(func() {
c.isClosed.Store(true)
close(c.closeEventCh)
err = c.Device.Close()
c.wg.Wait()
})
return err
}
func (c *closeAwareDevice) IsClosed() bool {
return c.isClosed.Load()
}
type RenewableTUN struct {
devices []*closeAwareDevice
mu sync.Mutex
cond *sync.Cond
events chan tun.Event
closed atomic.Bool
}
func NewRenewableTUN() *RenewableTUN {
r := &RenewableTUN{
devices: make([]*closeAwareDevice, 0),
mu: sync.Mutex{},
events: make(chan tun.Event, 16),
}
r.cond = sync.NewCond(&r.mu)
return r
}
func (r *RenewableTUN) File() *os.File {
for {
dev := r.peekLast()
if dev == nil {
if !r.waitForDevice() {
return nil
}
continue
}
file := dev.File()
if dev.IsClosed() {
time.Sleep(1 * time.Millisecond)
continue
}
return file
}
}
// Read reads from an underlying tun.Device kept in the r.devices slice.
// If no device is available, it waits for one to be added via AddDevice().
//
// On error, it retries reading from the newest device instead of returning the error
// if the device is closed; if not, it propagates the error.
func (r *RenewableTUN) Read(bufs [][]byte, sizes []int, offset int) (n int, err error) {
for {
dev := r.peekLast()
if dev == nil {
// wait until AddDevice() signals a new device via cond.Broadcast()
if !r.waitForDevice() { // returns false if the renewable TUN itself is closed
return 0, io.EOF
}
continue
}
n, err = dev.Read(bufs, sizes, offset)
if err == nil {
return n, nil
}
// swap in progress; retry on the newest instead of returning the error
if dev.IsClosed() {
time.Sleep(1 * time.Millisecond)
continue
}
return n, err // propagate non-swap error
}
}
// Write writes to underlying tun.Device kept in the r.devices slice.
// If no device is available, it waits for one to be added via AddDevice().
//
// On error, it retries writing to the newest device instead of returning the error
// if the device is closed; if not, it propagates the error.
func (r *RenewableTUN) Write(bufs [][]byte, offset int) (int, error) {
for {
dev := r.peekLast()
if dev == nil {
if !r.waitForDevice() {
return 0, io.EOF
}
continue
}
n, err := dev.Write(bufs, offset)
if err == nil {
return n, nil
}
if dev.IsClosed() {
time.Sleep(1 * time.Millisecond)
continue
}
return n, err
}
}
func (r *RenewableTUN) MTU() (int, error) {
for {
dev := r.peekLast()
if dev == nil {
if !r.waitForDevice() {
return 0, io.EOF
}
continue
}
mtu, err := dev.MTU()
if err == nil {
return mtu, nil
}
if dev.IsClosed() {
time.Sleep(1 * time.Millisecond)
continue
}
return 0, err
}
}
func (r *RenewableTUN) Name() (string, error) {
for {
dev := r.peekLast()
if dev == nil {
if !r.waitForDevice() {
return "", io.EOF
}
continue
}
name, err := dev.Name()
if err == nil {
return name, nil
}
if dev.IsClosed() {
time.Sleep(1 * time.Millisecond)
continue
}
return "", err
}
}
// Events returns a channel that is fed events from the underlying tun.Device's events channel
// once it is added.
func (r *RenewableTUN) Events() <-chan tun.Event {
return r.events
}
func (r *RenewableTUN) Close() error {
// Attempts to set the RenewableTUN closed flag to true.
// If it's already true, returns immediately.
if !r.closed.CompareAndSwap(false, true) {
return nil // already closed: idempotent
}
r.mu.Lock()
devices := r.devices
r.devices = nil
r.cond.Broadcast()
r.mu.Unlock()
var lastErr error
log.Debugf("closing %d devices", len(devices))
for _, device := range devices {
if err := device.Close(); err != nil {
log.Debugf("error closing a device: %v", err)
lastErr = err
}
}
close(r.events)
return lastErr
}
func (r *RenewableTUN) BatchSize() int {
return 1
}
func (r *RenewableTUN) AddDevice(device tun.Device) {
r.mu.Lock()
if r.closed.Load() {
r.mu.Unlock()
_ = device.Close()
return
}
var toClose *closeAwareDevice
if len(r.devices) > 0 {
toClose = r.devices[len(r.devices)-1]
}
cad := newClosableDevice(device)
cad.redirectEvents(r.events)
r.devices = []*closeAwareDevice{cad}
r.cond.Broadcast()
r.mu.Unlock()
if toClose != nil {
if err := toClose.Close(); err != nil {
log.Debugf("error closing last device: %v", err)
}
}
}
func (r *RenewableTUN) waitForDevice() bool {
r.mu.Lock()
defer r.mu.Unlock()
for len(r.devices) == 0 && !r.closed.Load() {
r.cond.Wait()
}
return !r.closed.Load()
}
func (r *RenewableTUN) peekLast() *closeAwareDevice {
r.mu.Lock()
defer r.mu.Unlock()
if len(r.devices) == 0 {
return nil
}
return r.devices[len(r.devices)-1]
}
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