mirror of
https://git.zx2c4.com/wireguard-go
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4ffa9c2032
Access to Peer.endpoint was previously synchronized by Peer.RWMutex. This has now moved to Peer.endpoint.Mutex. Peer.SendBuffers() is now the sole caller of Endpoint.ClearSrc(), which is signaled via a new bool, Peer.endpoint.clearSrcOnTx. Previous Callers of Endpoint.ClearSrc() now set this bool, primarily via peer.markEndpointSrcForClearing(). Peer.SetEndpointFromPacket() clears Peer.endpoint.clearSrcOnTx when an updated conn.Endpoint is stored. This maintains the same event order as before, i.e. a conn.Endpoint received after peer.endpoint.clearSrcOnTx is set, but before the next Peer.SendBuffers() call results in the latest conn.Endpoint source being used for the next packet transmission. These changes result in throughput improvements for single flow, parallel (-P n) flow, and bidirectional (--bidir) flow iperf3 TCP/UDP tests as measured on both Linux and Windows. Latency under load improves especially for high throughput Linux scenarios. These improvements are likely realized on all platforms to some degree, as the changes are not platform-specific. Co-authored-by: James Tucker <james@tailscale.com> Signed-off-by: James Tucker <james@tailscale.com> Signed-off-by: Jordan Whited <jordan@tailscale.com> Signed-off-by: Jason A. Donenfeld <Jason@zx2c4.com>
222 lines
6.7 KiB
Go
222 lines
6.7 KiB
Go
/* SPDX-License-Identifier: MIT
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*
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* Copyright (C) 2017-2023 WireGuard LLC. All Rights Reserved.
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*
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* This is based heavily on timers.c from the kernel implementation.
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*/
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package device
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import (
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"sync"
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"time"
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_ "unsafe"
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)
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//go:linkname fastrandn runtime.fastrandn
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func fastrandn(n uint32) uint32
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// A Timer manages time-based aspects of the WireGuard protocol.
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// Timer roughly copies the interface of the Linux kernel's struct timer_list.
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type Timer struct {
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*time.Timer
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modifyingLock sync.RWMutex
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runningLock sync.Mutex
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isPending bool
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}
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func (peer *Peer) NewTimer(expirationFunction func(*Peer)) *Timer {
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timer := &Timer{}
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timer.Timer = time.AfterFunc(time.Hour, func() {
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timer.runningLock.Lock()
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defer timer.runningLock.Unlock()
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timer.modifyingLock.Lock()
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if !timer.isPending {
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timer.modifyingLock.Unlock()
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return
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}
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timer.isPending = false
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timer.modifyingLock.Unlock()
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expirationFunction(peer)
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})
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timer.Stop()
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return timer
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}
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func (timer *Timer) Mod(d time.Duration) {
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timer.modifyingLock.Lock()
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timer.isPending = true
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timer.Reset(d)
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timer.modifyingLock.Unlock()
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}
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func (timer *Timer) Del() {
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timer.modifyingLock.Lock()
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timer.isPending = false
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timer.Stop()
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timer.modifyingLock.Unlock()
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}
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func (timer *Timer) DelSync() {
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timer.Del()
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timer.runningLock.Lock()
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timer.Del()
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timer.runningLock.Unlock()
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}
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func (timer *Timer) IsPending() bool {
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timer.modifyingLock.RLock()
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defer timer.modifyingLock.RUnlock()
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return timer.isPending
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}
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func (peer *Peer) timersActive() bool {
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return peer.isRunning.Load() && peer.device != nil && peer.device.isUp()
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}
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func expiredRetransmitHandshake(peer *Peer) {
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if peer.timers.handshakeAttempts.Load() > MaxTimerHandshakes {
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peer.device.log.Verbosef("%s - Handshake did not complete after %d attempts, giving up", peer, MaxTimerHandshakes+2)
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if peer.timersActive() {
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peer.timers.sendKeepalive.Del()
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}
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/* We drop all packets without a keypair and don't try again,
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* if we try unsuccessfully for too long to make a handshake.
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*/
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peer.FlushStagedPackets()
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/* We set a timer for destroying any residue that might be left
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* of a partial exchange.
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*/
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if peer.timersActive() && !peer.timers.zeroKeyMaterial.IsPending() {
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peer.timers.zeroKeyMaterial.Mod(RejectAfterTime * 3)
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}
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} else {
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peer.timers.handshakeAttempts.Add(1)
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peer.device.log.Verbosef("%s - Handshake did not complete after %d seconds, retrying (try %d)", peer, int(RekeyTimeout.Seconds()), peer.timers.handshakeAttempts.Load()+1)
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/* We clear the endpoint address src address, in case this is the cause of trouble. */
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peer.markEndpointSrcForClearing()
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peer.SendHandshakeInitiation(true)
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}
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}
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func expiredSendKeepalive(peer *Peer) {
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peer.SendKeepalive()
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if peer.timers.needAnotherKeepalive.Load() {
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peer.timers.needAnotherKeepalive.Store(false)
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if peer.timersActive() {
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peer.timers.sendKeepalive.Mod(KeepaliveTimeout)
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}
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}
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}
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func expiredNewHandshake(peer *Peer) {
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peer.device.log.Verbosef("%s - Retrying handshake because we stopped hearing back after %d seconds", peer, int((KeepaliveTimeout + RekeyTimeout).Seconds()))
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/* We clear the endpoint address src address, in case this is the cause of trouble. */
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peer.markEndpointSrcForClearing()
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peer.SendHandshakeInitiation(false)
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}
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func expiredZeroKeyMaterial(peer *Peer) {
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peer.device.log.Verbosef("%s - Removing all keys, since we haven't received a new one in %d seconds", peer, int((RejectAfterTime * 3).Seconds()))
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peer.ZeroAndFlushAll()
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}
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func expiredPersistentKeepalive(peer *Peer) {
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if peer.persistentKeepaliveInterval.Load() > 0 {
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peer.SendKeepalive()
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}
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}
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/* Should be called after an authenticated data packet is sent. */
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func (peer *Peer) timersDataSent() {
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if peer.timersActive() && !peer.timers.newHandshake.IsPending() {
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peer.timers.newHandshake.Mod(KeepaliveTimeout + RekeyTimeout + time.Millisecond*time.Duration(fastrandn(RekeyTimeoutJitterMaxMs)))
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}
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}
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/* Should be called after an authenticated data packet is received. */
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func (peer *Peer) timersDataReceived() {
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if peer.timersActive() {
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if !peer.timers.sendKeepalive.IsPending() {
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peer.timers.sendKeepalive.Mod(KeepaliveTimeout)
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} else {
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peer.timers.needAnotherKeepalive.Store(true)
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}
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}
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}
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/* Should be called after any type of authenticated packet is sent -- keepalive, data, or handshake. */
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func (peer *Peer) timersAnyAuthenticatedPacketSent() {
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if peer.timersActive() {
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peer.timers.sendKeepalive.Del()
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}
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}
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/* Should be called after any type of authenticated packet is received -- keepalive, data, or handshake. */
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func (peer *Peer) timersAnyAuthenticatedPacketReceived() {
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if peer.timersActive() {
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peer.timers.newHandshake.Del()
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}
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}
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/* Should be called after a handshake initiation message is sent. */
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func (peer *Peer) timersHandshakeInitiated() {
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if peer.timersActive() {
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peer.timers.retransmitHandshake.Mod(RekeyTimeout + time.Millisecond*time.Duration(fastrandn(RekeyTimeoutJitterMaxMs)))
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}
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}
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/* Should be called after a handshake response message is received and processed or when getting key confirmation via the first data message. */
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func (peer *Peer) timersHandshakeComplete() {
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if peer.timersActive() {
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peer.timers.retransmitHandshake.Del()
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}
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peer.timers.handshakeAttempts.Store(0)
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peer.timers.sentLastMinuteHandshake.Store(false)
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peer.lastHandshakeNano.Store(time.Now().UnixNano())
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}
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/* Should be called after an ephemeral key is created, which is before sending a handshake response or after receiving a handshake response. */
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func (peer *Peer) timersSessionDerived() {
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if peer.timersActive() {
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peer.timers.zeroKeyMaterial.Mod(RejectAfterTime * 3)
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}
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}
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/* Should be called before a packet with authentication -- keepalive, data, or handshake -- is sent, or after one is received. */
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func (peer *Peer) timersAnyAuthenticatedPacketTraversal() {
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keepalive := peer.persistentKeepaliveInterval.Load()
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if keepalive > 0 && peer.timersActive() {
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peer.timers.persistentKeepalive.Mod(time.Duration(keepalive) * time.Second)
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}
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}
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func (peer *Peer) timersInit() {
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peer.timers.retransmitHandshake = peer.NewTimer(expiredRetransmitHandshake)
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peer.timers.sendKeepalive = peer.NewTimer(expiredSendKeepalive)
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peer.timers.newHandshake = peer.NewTimer(expiredNewHandshake)
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peer.timers.zeroKeyMaterial = peer.NewTimer(expiredZeroKeyMaterial)
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peer.timers.persistentKeepalive = peer.NewTimer(expiredPersistentKeepalive)
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}
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func (peer *Peer) timersStart() {
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peer.timers.handshakeAttempts.Store(0)
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peer.timers.sentLastMinuteHandshake.Store(false)
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peer.timers.needAnotherKeepalive.Store(false)
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}
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func (peer *Peer) timersStop() {
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peer.timers.retransmitHandshake.DelSync()
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peer.timers.sendKeepalive.DelSync()
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peer.timers.newHandshake.DelSync()
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peer.timers.zeroKeyMaterial.DelSync()
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peer.timers.persistentKeepalive.DelSync()
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}
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