package main import ( "errors" "fmt" "os/exec" "strings" "go.fd.io/govpp/binapi/ethernet_types" "go.fd.io/govpp/binapi/interface_types" "go.fd.io/govpp/binapi/ip_types" ) type ( MacAddress = ethernet_types.MacAddress AddressWithPrefix = ip_types.AddressWithPrefix IP4AddressWithPrefix = ip_types.IP4AddressWithPrefix InterfaceIndex = interface_types.InterfaceIndex NetConfig interface { Configure() error Unconfigure() Name() string Type() string } NetConfigBase struct { name string category string // what else to call this when `type` is reserved? } NetInterface interface { NetConfig SetAddress(string) AddressWithPrefix() AddressWithPrefix IP4AddressWithPrefix() IP4AddressWithPrefix IP4AddressString() string SetIndex(InterfaceIndex) Index() InterfaceIndex HwAddress() MacAddress } NetInterfaceBase struct { NetConfigBase addresser *Addresser ip4Address string // this will have form 10.10.10.1/24 index InterfaceIndex hwAddress MacAddress networkNamespace string networkNumber int } NetworkInterfaceVeth struct { NetInterfaceBase peerNetworkNamespace string peerName string peerNetworkNumber int peerIp4Address string } NetworkInterfaceTap struct { NetInterfaceBase } NetworkNamespace struct { NetConfigBase } NetworkBridge struct { NetConfigBase networkNamespace string interfaces []string } ) const ( NetNs string = "netns" Veth string = "veth" Tap string = "tap" Bridge string = "bridge" ) func (b *NetConfigBase) Name() string { return b.name } func (b *NetConfigBase) Type() string { return b.category } func (b *NetInterfaceBase) SetAddress(address string) { b.ip4Address = address } func (b *NetInterfaceBase) SetIndex(index InterfaceIndex) { b.index = index } func (b *NetInterfaceBase) Index() InterfaceIndex { return b.index } func (b *NetInterfaceBase) AddressWithPrefix() AddressWithPrefix { address, _ := ip_types.ParseAddressWithPrefix(b.ip4Address) return address } func (b *NetInterfaceBase) IP4AddressWithPrefix() IP4AddressWithPrefix { IP4Prefix, _ := ip_types.ParseIP4Prefix(b.ip4Address) IP4AddressWithPrefix := ip_types.IP4AddressWithPrefix(IP4Prefix) return IP4AddressWithPrefix } func (b *NetInterfaceBase) IP4AddressString() string { return strings.Split(b.ip4Address, "/")[0] } func (b *NetInterfaceBase) HwAddress() MacAddress { return b.hwAddress } func NewVeth(cfg NetDevConfig, a *Addresser) (NetworkInterfaceVeth, error) { var veth NetworkInterfaceVeth var err error veth.addresser = a veth.name = cfg["name"].(string) veth.category = "veth" veth.peerNetworkNumber = defaultNetworkNumber if cfg["preset-hw-address"] != nil { veth.hwAddress, err = ethernet_types.ParseMacAddress(cfg["preset-hw-address"].(string)) if err != nil { return NetworkInterfaceVeth{}, err } } if netns, ok := cfg["netns"]; ok { veth.networkNamespace = netns.(string) } if ip, ok := cfg["ip4"]; ok { if n, ok := ip.(NetDevConfig)["network"]; ok { veth.networkNumber = n.(int) } veth.ip4Address, err = veth.addresser.NewIp4Address(veth.networkNumber) if err != nil { return NetworkInterfaceVeth{}, err } } peer := cfg["peer"].(NetDevConfig) veth.peerName = peer["name"].(string) if peer["netns"] != nil { veth.peerNetworkNamespace = peer["netns"].(string) } if peerIp, ok := peer["ip4"]; ok { if n, ok := peerIp.(NetDevConfig)["network"]; ok { veth.peerNetworkNumber = n.(int) } veth.peerIp4Address, err = veth.addresser.NewIp4Address(veth.peerNetworkNumber) if err != nil { return NetworkInterfaceVeth{}, err } } return veth, nil } func (iface *NetworkInterfaceVeth) Configure() error { err := AddVethPair(iface.name, iface.peerName) if err != nil { return err } if iface.networkNamespace != "" { err := LinkSetNetns(iface.name, iface.networkNamespace) if err != nil { return err } } if iface.peerNetworkNamespace != "" { err := LinkSetNetns(iface.peerName, iface.peerNetworkNamespace) if err != nil { return err } } if iface.ip4Address != "" { err = AddAddress( iface.Name(), iface.ip4Address, iface.networkNamespace, ) } if iface.peerIp4Address != "" { err = AddAddress( iface.peerName, iface.peerIp4Address, iface.peerNetworkNamespace, ) if err != nil { return fmt.Errorf("failed to add configure address for %s: %v", iface.peerName, err) } } return nil } func (iface *NetworkInterfaceVeth) Unconfigure() { DelLink(iface.name) } func (iface *NetworkInterfaceVeth) PeerIp4AddressString() string { return strings.Split(iface.peerIp4Address, "/")[0] } func NewTap(cfg NetDevConfig, a *Addresser) (NetworkInterfaceTap, error) { var tap NetworkInterfaceTap tap.addresser = a tap.name = cfg["name"].(string) tap.category = "tap" ip4Address, err := tap.addresser.NewIp4Address() if err != nil { return NetworkInterfaceTap{}, err } tap.SetAddress(ip4Address) return tap, nil } func (iface *NetworkInterfaceTap) Configure() error { err := AddTap(iface.name, iface.IP4AddressString()) if err != nil { return err } return nil } func (iface *NetworkInterfaceTap) Unconfigure() { DelLink(iface.name) } func NewNetNamespace(cfg NetDevConfig) (NetworkNamespace, error) { var networkNamespace NetworkNamespace networkNamespace.name = cfg["name"].(string) networkNamespace.category = "netns" return networkNamespace, nil } func (ns *NetworkNamespace) Configure() error { return addDelNetns(ns.name, true) } func (ns *NetworkNamespace) Unconfigure() { addDelNetns(ns.name, false) } func NewBridge(cfg NetDevConfig) (NetworkBridge, error) { var bridge NetworkBridge bridge.name = cfg["name"].(string) bridge.category = "bridge" for _, v := range cfg["interfaces"].([]interface{}) { bridge.interfaces = append(bridge.interfaces, v.(string)) } bridge.networkNamespace = "" if netns, ok := cfg["netns"]; ok { bridge.networkNamespace = netns.(string) } return bridge, nil } func (b *NetworkBridge) Configure() error { return AddBridge(b.name, b.interfaces, b.networkNamespace) } func (b *NetworkBridge) Unconfigure() { DelBridge(b.name, b.networkNamespace) } func DelBridge(brName, ns string) error { err := SetDevDown(brName, ns) if err != err { return err } err = addDelBridge(brName, ns, false) if err != nil { return err } return nil } func SetDevUp(dev, ns string) error { return setDevUpDown(dev, ns, true) } func SetDevDown(dev, ns string) error { return setDevUpDown(dev, ns, false) } func AddTap(ifName, ifAddress string) error { cmd := exec.Command("ip", "tuntap", "add", ifName, "mode", "tap") o, err := cmd.CombinedOutput() if err != nil { s := fmt.Sprintf("error creating tap %s: %v: %s", ifName, err, string(o)) return errors.New(s) } cmd = exec.Command("ip", "addr", "add", ifAddress, "dev", ifName) err = cmd.Run() if err != nil { DelLink(ifName) s := fmt.Sprintf("error setting addr for tap %s: %v", ifName, err) return errors.New(s) } err = SetDevUp(ifName, "") if err != nil { DelLink(ifName) return err } return nil } func DelLink(ifName string) { cmd := exec.Command("ip", "link", "del", ifName) cmd.Run() } func setDevUpDown(dev, ns string, isUp bool) error { var op string if isUp { op = "up" } else { op = "down" } c := []string{"ip", "link", "set", "dev", dev, op} cmd := appendNetns(c, ns) err := cmd.Run() if err != nil { s := fmt.Sprintf("error bringing %s device %s!", dev, op) return errors.New(s) } return nil } func AddVethPair(ifName, peerName string) error { cmd := exec.Command("ip", "link", "add", ifName, "type", "veth", "peer", "name", peerName) err := cmd.Run() if err != nil { return fmt.Errorf("creating veth pair '%v/%v' failed: %v", ifName, peerName, err) } err = SetDevUp(ifName, "") if err != nil { return fmt.Errorf("set link up failed: %v", err) } err = SetDevUp(peerName, "") if err != nil { return fmt.Errorf("set link up failed: %v", err) } return nil } func addDelNetns(name string, isAdd bool) error { var op string if isAdd { op = "add" } else { op = "del" } cmd := exec.Command("ip", "netns", op, name) _, err := cmd.CombinedOutput() if err != nil { return errors.New("add/del netns failed") } return nil } func AddNetns(nsName string) error { return addDelNetns(nsName, true) } func DelNetns(nsName string) error { return addDelNetns(nsName, false) } func LinkSetNetns(ifName, ns string) error { cmd := exec.Command("ip", "link", "set", "dev", ifName, "up", "netns", ns) err := cmd.Run() if err != nil { return fmt.Errorf("error setting device '%s' to netns '%s: %v", ifName, ns, err) } return nil } func NewCommand(s []string, ns string) *exec.Cmd { return appendNetns(s, ns) } func appendNetns(s []string, ns string) *exec.Cmd { var cmd *exec.Cmd if ns == "" { // use default namespace cmd = exec.Command(s[0], s[1:]...) } else { var args = []string{"netns", "exec", ns} args = append(args, s[:]...) cmd = exec.Command("ip", args...) } return cmd } func addDelBridge(brName, ns string, isAdd bool) error { var op string if isAdd { op = "addbr" } else { op = "delbr" } var c = []string{"brctl", op, brName} cmd := appendNetns(c, ns) err := cmd.Run() if err != nil { s := fmt.Sprintf("%s %s failed!", op, brName) return errors.New(s) } return nil } func AddBridge(brName string, ifs []string, ns string) error { err := addDelBridge(brName, ns, true) if err != nil { return err } for _, v := range ifs { c := []string{"brctl", "addif", brName, v} cmd := appendNetns(c, ns) err = cmd.Run() if err != nil { s := fmt.Sprintf("error adding %s to bridge %s: %v", v, brName, err) return errors.New(s) } } err = SetDevUp(brName, ns) if err != nil { return err } return nil }