// Copyright 2018 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 netstack import ( "fmt" "gvisor.dev/gvisor/pkg/abi/linux" "gvisor.dev/gvisor/pkg/errors/linuxerr" "gvisor.dev/gvisor/pkg/log" "gvisor.dev/gvisor/pkg/sentry/inet" "gvisor.dev/gvisor/pkg/syserr" "gvisor.dev/gvisor/pkg/syserror" "gvisor.dev/gvisor/pkg/tcpip" "gvisor.dev/gvisor/pkg/tcpip/header" "gvisor.dev/gvisor/pkg/tcpip/network/ipv4" "gvisor.dev/gvisor/pkg/tcpip/network/ipv6" "gvisor.dev/gvisor/pkg/tcpip/stack" "gvisor.dev/gvisor/pkg/tcpip/transport/tcp" ) // Stack implements inet.Stack for netstack/tcpip/stack.Stack. // // +stateify savable type Stack struct { Stack *stack.Stack `state:"manual"` } // SupportsIPv6 implements Stack.SupportsIPv6. func (s *Stack) SupportsIPv6() bool { return s.Stack.CheckNetworkProtocol(ipv6.ProtocolNumber) } // Converts Netstack's ARPHardwareType to equivalent linux constants. func toLinuxARPHardwareType(t header.ARPHardwareType) uint16 { switch t { case header.ARPHardwareNone: return linux.ARPHRD_NONE case header.ARPHardwareLoopback: return linux.ARPHRD_LOOPBACK case header.ARPHardwareEther: return linux.ARPHRD_ETHER default: panic(fmt.Sprintf("unknown ARPHRD type: %d", t)) } } // Interfaces implements inet.Stack.Interfaces. func (s *Stack) Interfaces() map[int32]inet.Interface { is := make(map[int32]inet.Interface) for id, ni := range s.Stack.NICInfo() { is[int32(id)] = inet.Interface{ Name: ni.Name, Addr: []byte(ni.LinkAddress), Flags: uint32(nicStateFlagsToLinux(ni.Flags)), DeviceType: toLinuxARPHardwareType(ni.ARPHardwareType), MTU: ni.MTU, } } return is } // InterfaceAddrs implements inet.Stack.InterfaceAddrs. func (s *Stack) InterfaceAddrs() map[int32][]inet.InterfaceAddr { nicAddrs := make(map[int32][]inet.InterfaceAddr) for id, ni := range s.Stack.NICInfo() { var addrs []inet.InterfaceAddr for _, a := range ni.ProtocolAddresses { var family uint8 switch a.Protocol { case ipv4.ProtocolNumber: family = linux.AF_INET case ipv6.ProtocolNumber: family = linux.AF_INET6 default: log.Warningf("Unknown network protocol in %+v", a) continue } addrs = append(addrs, inet.InterfaceAddr{ Family: family, PrefixLen: uint8(a.AddressWithPrefix.PrefixLen), Addr: []byte(a.AddressWithPrefix.Address), // TODO(b/68878065): Other fields. }) } nicAddrs[int32(id)] = addrs } return nicAddrs } // convertAddr converts an InterfaceAddr to a ProtocolAddress. func convertAddr(addr inet.InterfaceAddr) (tcpip.ProtocolAddress, error) { var ( protocol tcpip.NetworkProtocolNumber address tcpip.Address protocolAddress tcpip.ProtocolAddress ) switch addr.Family { case linux.AF_INET: if len(addr.Addr) != header.IPv4AddressSize { return protocolAddress, linuxerr.EINVAL } if addr.PrefixLen > header.IPv4AddressSize*8 { return protocolAddress, linuxerr.EINVAL } protocol = ipv4.ProtocolNumber address = tcpip.Address(addr.Addr) case linux.AF_INET6: if len(addr.Addr) != header.IPv6AddressSize { return protocolAddress, linuxerr.EINVAL } if addr.PrefixLen > header.IPv6AddressSize*8 { return protocolAddress, linuxerr.EINVAL } protocol = ipv6.ProtocolNumber address = tcpip.Address(addr.Addr) default: return protocolAddress, syserror.ENOTSUP } protocolAddress = tcpip.ProtocolAddress{ Protocol: protocol, AddressWithPrefix: tcpip.AddressWithPrefix{ Address: address, PrefixLen: int(addr.PrefixLen), }, } return protocolAddress, nil } // AddInterfaceAddr implements inet.Stack.AddInterfaceAddr. func (s *Stack) AddInterfaceAddr(idx int32, addr inet.InterfaceAddr) error { protocolAddress, err := convertAddr(addr) if err != nil { return err } // Attach address to interface. nicID := tcpip.NICID(idx) if err := s.Stack.AddProtocolAddressWithOptions(nicID, protocolAddress, stack.CanBePrimaryEndpoint); err != nil { return syserr.TranslateNetstackError(err).ToError() } // Add route for local network if it doesn't exist already. localRoute := tcpip.Route{ Destination: protocolAddress.AddressWithPrefix.Subnet(), Gateway: "", // No gateway for local network. NIC: nicID, } for _, rt := range s.Stack.GetRouteTable() { if rt.Equal(localRoute) { return nil } } // Local route does not exist yet. Add it. s.Stack.AddRoute(localRoute) return nil } // RemoveInterfaceAddr implements inet.Stack.RemoveInterfaceAddr. func (s *Stack) RemoveInterfaceAddr(idx int32, addr inet.InterfaceAddr) error { protocolAddress, err := convertAddr(addr) if err != nil { return err } // Remove addresses matching the address and prefix. nicID := tcpip.NICID(idx) if err := s.Stack.RemoveAddress(nicID, protocolAddress.AddressWithPrefix.Address); err != nil { return syserr.TranslateNetstackError(err).ToError() } // Remove the corresponding local network route if it exists. localRoute := tcpip.Route{ Destination: protocolAddress.AddressWithPrefix.Subnet(), Gateway: "", // No gateway for local network. NIC: nicID, } s.Stack.RemoveRoutes(func(rt tcpip.Route) bool { return rt.Equal(localRoute) }) return nil } // TCPReceiveBufferSize implements inet.Stack.TCPReceiveBufferSize. func (s *Stack) TCPReceiveBufferSize() (inet.TCPBufferSize, error) { var rs tcpip.TCPReceiveBufferSizeRangeOption err := s.Stack.TransportProtocolOption(tcp.ProtocolNumber, &rs) return inet.TCPBufferSize{ Min: rs.Min, Default: rs.Default, Max: rs.Max, }, syserr.TranslateNetstackError(err).ToError() } // SetTCPReceiveBufferSize implements inet.Stack.SetTCPReceiveBufferSize. func (s *Stack) SetTCPReceiveBufferSize(size inet.TCPBufferSize) error { rs := tcpip.TCPReceiveBufferSizeRangeOption{ Min: size.Min, Default: size.Default, Max: size.Max, } return syserr.TranslateNetstackError(s.Stack.SetTransportProtocolOption(tcp.ProtocolNumber, &rs)).ToError() } // TCPSendBufferSize implements inet.Stack.TCPSendBufferSize. func (s *Stack) TCPSendBufferSize() (inet.TCPBufferSize, error) { var ss tcpip.TCPSendBufferSizeRangeOption err := s.Stack.TransportProtocolOption(tcp.ProtocolNumber, &ss) return inet.TCPBufferSize{ Min: ss.Min, Default: ss.Default, Max: ss.Max, }, syserr.TranslateNetstackError(err).ToError() } // SetTCPSendBufferSize implements inet.Stack.SetTCPSendBufferSize. func (s *Stack) SetTCPSendBufferSize(size inet.TCPBufferSize) error { ss := tcpip.TCPSendBufferSizeRangeOption{ Min: size.Min, Default: size.Default, Max: size.Max, } return syserr.TranslateNetstackError(s.Stack.SetTransportProtocolOption(tcp.ProtocolNumber, &ss)).ToError() } // TCPSACKEnabled implements inet.Stack.TCPSACKEnabled. func (s *Stack) TCPSACKEnabled() (bool, error) { var sack tcpip.TCPSACKEnabled err := s.Stack.TransportProtocolOption(tcp.ProtocolNumber, &sack) return bool(sack), syserr.TranslateNetstackError(err).ToError() } // SetTCPSACKEnabled implements inet.Stack.SetTCPSACKEnabled. func (s *Stack) SetTCPSACKEnabled(enabled bool) error { opt := tcpip.TCPSACKEnabled(enabled) return syserr.TranslateNetstackError(s.Stack.SetTransportProtocolOption(tcp.ProtocolNumber, &opt)).ToError() } // TCPRecovery implements inet.Stack.TCPRecovery. func (s *Stack) TCPRecovery() (inet.TCPLossRecovery, error) { var recovery tcpip.TCPRecovery if err := s.Stack.TransportProtocolOption(tcp.ProtocolNumber, &recovery); err != nil { return 0, syserr.TranslateNetstackError(err).ToError() } return inet.TCPLossRecovery(recovery), nil } // SetTCPRecovery implements inet.Stack.SetTCPRecovery. func (s *Stack) SetTCPRecovery(recovery inet.TCPLossRecovery) error { opt := tcpip.TCPRecovery(recovery) return syserr.TranslateNetstackError(s.Stack.SetTransportProtocolOption(tcp.ProtocolNumber, &opt)).ToError() } // Statistics implements inet.Stack.Statistics. func (s *Stack) Statistics(stat interface{}, arg string) error { switch stats := stat.(type) { case *inet.StatDev: for _, ni := range s.Stack.NICInfo() { if ni.Name != arg { continue } // TODO(gvisor.dev/issue/2103) Support stubbed stats. *stats = inet.StatDev{ // Receive section. ni.Stats.Rx.Bytes.Value(), // bytes. ni.Stats.Rx.Packets.Value(), // packets. 0, // errs. 0, // drop. 0, // fifo. 0, // frame. 0, // compressed. 0, // multicast. // Transmit section. ni.Stats.Tx.Bytes.Value(), // bytes. ni.Stats.Tx.Packets.Value(), // packets. 0, // errs. 0, // drop. 0, // fifo. 0, // colls. 0, // carrier. 0, // compressed. } break } case *inet.StatSNMPIP: ip := Metrics.IP // TODO(gvisor.dev/issue/969) Support stubbed stats. *stats = inet.StatSNMPIP{ 0, // Ip/Forwarding. 0, // Ip/DefaultTTL. ip.PacketsReceived.Value(), // InReceives. 0, // Ip/InHdrErrors. ip.InvalidDestinationAddressesReceived.Value(), // InAddrErrors. 0, // Ip/ForwDatagrams. 0, // Ip/InUnknownProtos. 0, // Ip/InDiscards. ip.PacketsDelivered.Value(), // InDelivers. ip.PacketsSent.Value(), // OutRequests. ip.OutgoingPacketErrors.Value(), // OutDiscards. 0, // Ip/OutNoRoutes. 0, // Support Ip/ReasmTimeout. 0, // Support Ip/ReasmReqds. 0, // Support Ip/ReasmOKs. 0, // Support Ip/ReasmFails. 0, // Support Ip/FragOKs. 0, // Support Ip/FragFails. 0, // Support Ip/FragCreates. } case *inet.StatSNMPICMP: in := Metrics.ICMP.V4.PacketsReceived.ICMPv4PacketStats out := Metrics.ICMP.V4.PacketsSent.ICMPv4PacketStats // TODO(gvisor.dev/issue/969) Support stubbed stats. *stats = inet.StatSNMPICMP{ 0, // Icmp/InMsgs. Metrics.ICMP.V4.PacketsSent.Dropped.Value(), // InErrors. 0, // Icmp/InCsumErrors. in.DstUnreachable.Value(), // InDestUnreachs. in.TimeExceeded.Value(), // InTimeExcds. in.ParamProblem.Value(), // InParmProbs. in.SrcQuench.Value(), // InSrcQuenchs. in.Redirect.Value(), // InRedirects. in.EchoRequest.Value(), // InEchos. in.EchoReply.Value(), // InEchoReps. in.Timestamp.Value(), // InTimestamps. in.TimestampReply.Value(), // InTimestampReps. in.InfoRequest.Value(), // InAddrMasks. in.InfoReply.Value(), // InAddrMaskReps. 0, // Icmp/OutMsgs. Metrics.ICMP.V4.PacketsReceived.Invalid.Value(), // OutErrors. out.DstUnreachable.Value(), // OutDestUnreachs. out.TimeExceeded.Value(), // OutTimeExcds. out.ParamProblem.Value(), // OutParmProbs. out.SrcQuench.Value(), // OutSrcQuenchs. out.Redirect.Value(), // OutRedirects. out.EchoRequest.Value(), // OutEchos. out.EchoReply.Value(), // OutEchoReps. out.Timestamp.Value(), // OutTimestamps. out.TimestampReply.Value(), // OutTimestampReps. out.InfoRequest.Value(), // OutAddrMasks. out.InfoReply.Value(), // OutAddrMaskReps. } case *inet.StatSNMPTCP: tcp := Metrics.TCP // RFC 2012 (updates 1213): SNMPv2-MIB-TCP. *stats = inet.StatSNMPTCP{ 1, // RtoAlgorithm. 200, // RtoMin. 120000, // RtoMax. (1<<64 - 1), // MaxConn. tcp.ActiveConnectionOpenings.Value(), // ActiveOpens. tcp.PassiveConnectionOpenings.Value(), // PassiveOpens. tcp.FailedConnectionAttempts.Value(), // AttemptFails. tcp.EstablishedResets.Value(), // EstabResets. tcp.CurrentEstablished.Value(), // CurrEstab. tcp.ValidSegmentsReceived.Value(), // InSegs. tcp.SegmentsSent.Value(), // OutSegs. tcp.Retransmits.Value(), // RetransSegs. tcp.InvalidSegmentsReceived.Value(), // InErrs. tcp.ResetsSent.Value(), // OutRsts. tcp.ChecksumErrors.Value(), // InCsumErrors. } case *inet.StatSNMPUDP: udp := Metrics.UDP // TODO(gvisor.dev/issue/969) Support stubbed stats. *stats = inet.StatSNMPUDP{ udp.PacketsReceived.Value(), // InDatagrams. udp.UnknownPortErrors.Value(), // NoPorts. 0, // Udp/InErrors. udp.PacketsSent.Value(), // OutDatagrams. udp.ReceiveBufferErrors.Value(), // RcvbufErrors. 0, // Udp/SndbufErrors. udp.ChecksumErrors.Value(), // Udp/InCsumErrors. 0, // Udp/IgnoredMulti. } default: return syserr.ErrEndpointOperation.ToError() } return nil } // RouteTable implements inet.Stack.RouteTable. func (s *Stack) RouteTable() []inet.Route { var routeTable []inet.Route for _, rt := range s.Stack.GetRouteTable() { var family uint8 switch len(rt.Destination.ID()) { case header.IPv4AddressSize: family = linux.AF_INET case header.IPv6AddressSize: family = linux.AF_INET6 default: log.Warningf("Unknown network protocol in route %+v", rt) continue } routeTable = append(routeTable, inet.Route{ Family: family, DstLen: uint8(rt.Destination.Prefix()), // The CIDR prefix for the destination. // Always return unspecified protocol since we have no notion of // protocol for routes. Protocol: linux.RTPROT_UNSPEC, // Set statically to LINK scope for now. // // TODO(gvisor.dev/issue/595): Set scope for routes. Scope: linux.RT_SCOPE_LINK, Type: linux.RTN_UNICAST, DstAddr: []byte(rt.Destination.ID()), OutputInterface: int32(rt.NIC), GatewayAddr: []byte(rt.Gateway), }) } return routeTable } // IPTables returns the stack's iptables. func (s *Stack) IPTables() (*stack.IPTables, error) { return s.Stack.IPTables(), nil } // Resume implements inet.Stack.Resume. func (s *Stack) Resume() { s.Stack.Resume() } // RegisteredEndpoints implements inet.Stack.RegisteredEndpoints. func (s *Stack) RegisteredEndpoints() []stack.TransportEndpoint { return s.Stack.RegisteredEndpoints() } // CleanupEndpoints implements inet.Stack.CleanupEndpoints. func (s *Stack) CleanupEndpoints() []stack.TransportEndpoint { return s.Stack.CleanupEndpoints() } // RestoreCleanupEndpoints implements inet.Stack.RestoreCleanupEndpoints. func (s *Stack) RestoreCleanupEndpoints(es []stack.TransportEndpoint) { s.Stack.RestoreCleanupEndpoints(es) } // SetForwarding implements inet.Stack.SetForwarding. func (s *Stack) SetForwarding(protocol tcpip.NetworkProtocolNumber, enable bool) error { if err := s.Stack.SetForwardingDefaultAndAllNICs(protocol, enable); err != nil { return fmt.Errorf("SetForwardingDefaultAndAllNICs(%d, %t): %s", protocol, enable, err) } return nil } // PortRange implements inet.Stack.PortRange. func (s *Stack) PortRange() (uint16, uint16) { return s.Stack.PortRange() } // SetPortRange implements inet.Stack.SetPortRange. func (s *Stack) SetPortRange(start uint16, end uint16) error { return syserr.TranslateNetstackError(s.Stack.SetPortRange(start, end)).ToError() }