mirror of
https://github.com/tailscale/tailscale.git
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257 lines
6.5 KiB
Go
257 lines
6.5 KiB
Go
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// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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package netstack
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import (
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"context"
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"sync"
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"gvisor.dev/gvisor/pkg/tcpip"
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"gvisor.dev/gvisor/pkg/tcpip/header"
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"gvisor.dev/gvisor/pkg/tcpip/stack"
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)
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type queue struct {
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// TODO(jwhited): evaluate performance with mu as Mutex and/or alternative
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// non-channel buffer.
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c chan *stack.PacketBuffer
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mu sync.RWMutex // mu guards closed
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closed bool
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}
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func (q *queue) Close() {
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q.mu.Lock()
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defer q.mu.Unlock()
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if !q.closed {
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close(q.c)
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}
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q.closed = true
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}
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func (q *queue) Read() *stack.PacketBuffer {
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select {
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case p := <-q.c:
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return p
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default:
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return nil
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}
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}
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func (q *queue) ReadContext(ctx context.Context) *stack.PacketBuffer {
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select {
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case pkt := <-q.c:
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return pkt
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case <-ctx.Done():
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return nil
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}
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}
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func (q *queue) Write(pkt *stack.PacketBuffer) tcpip.Error {
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// q holds the PacketBuffer.
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q.mu.RLock()
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defer q.mu.RUnlock()
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if q.closed {
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return &tcpip.ErrClosedForSend{}
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}
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wrote := false
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select {
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case q.c <- pkt.IncRef():
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wrote = true
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default:
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// TODO(jwhited): reconsider/count
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pkt.DecRef()
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}
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if wrote {
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return nil
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}
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return &tcpip.ErrNoBufferSpace{}
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}
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func (q *queue) Num() int {
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return len(q.c)
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}
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var _ stack.LinkEndpoint = (*linkEndpoint)(nil)
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var _ stack.GSOEndpoint = (*linkEndpoint)(nil)
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// linkEndpoint implements stack.LinkEndpoint and stack.GSOEndpoint. Outbound
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// packets written by gVisor towards Tailscale are stored in a channel.
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// Inbound is fed to gVisor via InjectInbound. This is loosely modeled after
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// gvisor.dev/pkg/tcpip/link/channel.Endpoint.
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type linkEndpoint struct {
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LinkEPCapabilities stack.LinkEndpointCapabilities
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SupportedGSOKind stack.SupportedGSO
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mu sync.RWMutex // mu guards the following fields
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dispatcher stack.NetworkDispatcher
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linkAddr tcpip.LinkAddress
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mtu uint32
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q *queue // outbound
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}
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func newLinkEndpoint(size int, mtu uint32, linkAddr tcpip.LinkAddress) *linkEndpoint {
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return &linkEndpoint{
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q: &queue{
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c: make(chan *stack.PacketBuffer, size),
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},
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mtu: mtu,
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linkAddr: linkAddr,
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}
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}
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// Close closes l. Further packet injections will return an error, and all
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// pending packets are discarded. Close may be called concurrently with
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// WritePackets.
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func (l *linkEndpoint) Close() {
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l.q.Close()
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l.Drain()
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}
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// Read does non-blocking read one packet from the outbound packet queue.
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func (l *linkEndpoint) Read() *stack.PacketBuffer {
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return l.q.Read()
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}
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// ReadContext does blocking read for one packet from the outbound packet queue.
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// It can be cancelled by ctx, and in this case, it returns nil.
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func (l *linkEndpoint) ReadContext(ctx context.Context) *stack.PacketBuffer {
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return l.q.ReadContext(ctx)
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}
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// Drain removes all outbound packets from the channel and counts them.
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func (l *linkEndpoint) Drain() int {
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c := 0
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for pkt := l.Read(); pkt != nil; pkt = l.Read() {
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pkt.DecRef()
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c++
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}
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return c
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}
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// NumQueued returns the number of packet queued for outbound.
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func (l *linkEndpoint) NumQueued() int {
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return l.q.Num()
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}
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// InjectInbound injects an inbound packet. If the endpoint is not attached, the
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// packet is not delivered.
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func (l *linkEndpoint) InjectInbound(protocol tcpip.NetworkProtocolNumber, pkt *stack.PacketBuffer) {
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l.mu.RLock()
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d := l.dispatcher
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l.mu.RUnlock()
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if d != nil {
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d.DeliverNetworkPacket(protocol, pkt)
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}
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}
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// Attach saves the stack network-layer dispatcher for use later when packets
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// are injected.
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func (l *linkEndpoint) Attach(dispatcher stack.NetworkDispatcher) {
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l.mu.Lock()
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defer l.mu.Unlock()
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l.dispatcher = dispatcher
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}
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// IsAttached implements stack.LinkEndpoint.IsAttached.
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func (l *linkEndpoint) IsAttached() bool {
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l.mu.RLock()
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defer l.mu.RUnlock()
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return l.dispatcher != nil
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}
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// MTU implements stack.LinkEndpoint.MTU.
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func (l *linkEndpoint) MTU() uint32 {
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l.mu.RLock()
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defer l.mu.RUnlock()
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return l.mtu
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}
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// SetMTU implements stack.LinkEndpoint.SetMTU.
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func (l *linkEndpoint) SetMTU(mtu uint32) {
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l.mu.Lock()
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defer l.mu.Unlock()
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l.mtu = mtu
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}
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// Capabilities implements stack.LinkEndpoint.Capabilities.
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func (l *linkEndpoint) Capabilities() stack.LinkEndpointCapabilities {
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return l.LinkEPCapabilities
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}
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// GSOMaxSize implements stack.GSOEndpoint.
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func (*linkEndpoint) GSOMaxSize() uint32 {
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// This an increase from 32k returned by channel.Endpoint.GSOMaxSize() to
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// 64k, which improves throughput.
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return (1 << 16) - 1
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}
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// SupportedGSO implements stack.GSOEndpoint.
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func (l *linkEndpoint) SupportedGSO() stack.SupportedGSO {
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return l.SupportedGSOKind
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}
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// MaxHeaderLength returns the maximum size of the link layer header. Given it
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// doesn't have a header, it just returns 0.
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func (*linkEndpoint) MaxHeaderLength() uint16 {
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return 0
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}
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// LinkAddress returns the link address of this endpoint.
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func (l *linkEndpoint) LinkAddress() tcpip.LinkAddress {
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l.mu.RLock()
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defer l.mu.RUnlock()
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return l.linkAddr
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}
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// SetLinkAddress implements stack.LinkEndpoint.SetLinkAddress.
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func (l *linkEndpoint) SetLinkAddress(addr tcpip.LinkAddress) {
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l.mu.Lock()
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defer l.mu.Unlock()
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l.linkAddr = addr
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}
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// WritePackets stores outbound packets into the channel.
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// Multiple concurrent calls are permitted.
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func (l *linkEndpoint) WritePackets(pkts stack.PacketBufferList) (int, tcpip.Error) {
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n := 0
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// TODO(jwhited): evaluate writing a stack.PacketBufferList instead of a
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// single packet. We can split 2 x 64K GSO across
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// wireguard-go/conn.IdealBatchSize (128 slots) @ 1280 MTU, and non-GSO we
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// could do more. Read API would need to change to take advantage. Verify
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// gVisor limits around max number of segments packed together. Since we
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// control MTU (and by effect TCP MSS in gVisor) we *shouldn't* expect to
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// ever overflow 128 slots (see wireguard-go/tun.ErrTooManySegments usage).
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for _, pkt := range pkts.AsSlice() {
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if err := l.q.Write(pkt); err != nil {
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if _, ok := err.(*tcpip.ErrNoBufferSpace); !ok && n == 0 {
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return 0, err
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}
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break
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}
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n++
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}
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return n, nil
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}
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// Wait implements stack.LinkEndpoint.Wait.
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func (*linkEndpoint) Wait() {}
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// ARPHardwareType implements stack.LinkEndpoint.ARPHardwareType.
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func (*linkEndpoint) ARPHardwareType() header.ARPHardwareType {
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return header.ARPHardwareNone
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}
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// AddHeader implements stack.LinkEndpoint.AddHeader.
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func (*linkEndpoint) AddHeader(*stack.PacketBuffer) {}
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// ParseHeader implements stack.LinkEndpoint.ParseHeader.
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func (*linkEndpoint) ParseHeader(*stack.PacketBuffer) bool { return true }
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// SetOnCloseAction implements stack.LinkEndpoint.
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func (*linkEndpoint) SetOnCloseAction(func()) {}
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