// Copyright 2020 The gVisor Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package stack import ( "fmt" "gvisor.dev/gvisor/pkg/sync" "gvisor.dev/gvisor/pkg/tcpip" ) const ( // maxPendingResolutions is the maximum number of pending link-address // resolutions. maxPendingResolutions = 64 maxPendingPacketsPerResolution = 256 ) type pendingPacket struct { route *Route proto tcpip.NetworkProtocolNumber pkt *PacketBuffer } // packetsPendingLinkResolution is a queue of packets pending link resolution. // // Once link resolution completes successfully, the packets will be written. type packetsPendingLinkResolution struct { sync.Mutex // The packets to send once the resolver completes. packets map[<-chan struct{}][]pendingPacket // FIFO of channels used to cancel the oldest goroutine waiting for // link-address resolution. cancelChans []chan struct{} } func (f *packetsPendingLinkResolution) init() { f.Lock() defer f.Unlock() f.packets = make(map[<-chan struct{}][]pendingPacket) } func (f *packetsPendingLinkResolution) enqueue(ch <-chan struct{}, r *Route, proto tcpip.NetworkProtocolNumber, pkt *PacketBuffer) { f.Lock() defer f.Unlock() packets, ok := f.packets[ch] if len(packets) == maxPendingPacketsPerResolution { p := packets[0] packets[0] = pendingPacket{} packets = packets[1:] p.route.Stats().IP.OutgoingPacketErrors.Increment() p.route.Release() } if l := len(packets); l >= maxPendingPacketsPerResolution { panic(fmt.Sprintf("max pending packets for resolution reached; got %d packets, max = %d", l, maxPendingPacketsPerResolution)) } f.packets[ch] = append(packets, pendingPacket{ route: r, proto: proto, pkt: pkt, }) if ok { return } // Wait for the link-address resolution to complete. cancel := f.newCancelChannelLocked() go func() { cancelled := false select { case <-ch: case <-cancel: cancelled = true } f.Lock() packets, ok := f.packets[ch] delete(f.packets, ch) f.Unlock() if !ok { panic(fmt.Sprintf("link-resolution goroutine woke up but no entry exists in the queue of packets")) } for _, p := range packets { if cancelled || p.route.IsResolutionRequired() { p.route.Stats().IP.OutgoingPacketErrors.Increment() if linkResolvableEP, ok := p.route.outgoingNIC.getNetworkEndpoint(p.route.NetProto).(LinkResolvableNetworkEndpoint); ok { linkResolvableEP.HandleLinkResolutionFailure(pkt) } } else { p.route.outgoingNIC.writePacket(p.route, nil /* gso */, p.proto, p.pkt) } p.route.Release() } }() } // newCancelChannel creates a channel that can cancel a pending forwarding // activity. The oldest channel is closed if the number of open channels would // exceed maxPendingResolutions. func (f *packetsPendingLinkResolution) newCancelChannelLocked() chan struct{} { if len(f.cancelChans) == maxPendingResolutions { ch := f.cancelChans[0] f.cancelChans[0] = nil f.cancelChans = f.cancelChans[1:] close(ch) } if l := len(f.cancelChans); l >= maxPendingResolutions { panic(fmt.Sprintf("max pending resolutions reached; got %d active resolutions, max = %d", l, maxPendingResolutions)) } ch := make(chan struct{}) f.cancelChans = append(f.cancelChans, ch) return ch }