package main import ( "encoding/json" "fmt" "github.com/edwarnicke/exechelper" "go.fd.io/govpp" "go.fd.io/govpp/api" "go.fd.io/govpp/binapi/af_packet" interfaces "go.fd.io/govpp/binapi/interface" "go.fd.io/govpp/binapi/interface_types" "go.fd.io/govpp/binapi/session" "go.fd.io/govpp/binapi/vpe" "go.fd.io/govpp/core" ) const vppConfigTemplate = `unix { nodaemon log %[1]s/var/log/vpp/vpp.log full-coredump cli-listen %[1]s%[2]s runtime-dir %[1]s/var/run gid vpp } api-trace { on } api-segment { gid vpp } socksvr { socket-name %[1]s/var/run/vpp/api.sock } statseg { socket-name %[1]s/var/run/vpp/stats.sock } plugins { plugin default { disable } plugin unittest_plugin.so { enable } plugin quic_plugin.so { enable } plugin af_packet_plugin.so { enable } plugin hs_apps_plugin.so { enable } plugin http_plugin.so { enable } } ` const ( defaultCliSocketFilePath = "/var/run/vpp/cli.sock" defaultApiSocketFilePath = "/var/run/vpp/api.sock" ) type VppInstance struct { container *Container config *VppConfig actionFuncName string connection *core.Connection apiChannel api.Channel } type VppConfig struct { Variant string CliSocketFilePath string additionalConfig Stanza } func (vc *VppConfig) getTemplate() string { return fmt.Sprintf(vppConfigTemplate, "%[1]s", vc.CliSocketFilePath) } func (vpp *VppInstance) Suite() *HstSuite { return vpp.container.suite } func (vpp *VppInstance) setVppProxy() { vpp.actionFuncName = "ConfigureVppProxy" } func (vpp *VppInstance) setEnvoyProxy() { vpp.actionFuncName = "ConfigureEnvoyProxy" } func (vpp *VppInstance) setCliSocket(filePath string) { vpp.config.CliSocketFilePath = filePath } func (vpp *VppInstance) getCliSocket() string { return fmt.Sprintf("%s%s", vpp.container.GetContainerWorkDir(), vpp.config.CliSocketFilePath) } func (vpp *VppInstance) getRunDir() string { return vpp.container.GetContainerWorkDir() + "/var/run/vpp" } func (vpp *VppInstance) getLogDir() string { return vpp.container.GetContainerWorkDir() + "/var/log/vpp" } func (vpp *VppInstance) getEtcDir() string { return vpp.container.GetContainerWorkDir() + "/etc/vpp" } func (vpp *VppInstance) legacyStart() error { serializedConfig, err := serializeVppConfig(vpp.config) if err != nil { return fmt.Errorf("serialize vpp config: %v", err) } args := fmt.Sprintf("%s '%s'", vpp.actionFuncName, serializedConfig) _, err = vpp.container.execAction(args) if err != nil { return fmt.Errorf("vpp start failed: %s", err) } return nil } func (vpp *VppInstance) start() error { if vpp.actionFuncName != "" { return vpp.legacyStart() } // Create folders containerWorkDir := vpp.container.GetContainerWorkDir() vpp.container.exec("mkdir --mode=0700 -p " + vpp.getRunDir()) vpp.container.exec("mkdir --mode=0700 -p " + vpp.getLogDir()) vpp.container.exec("mkdir --mode=0700 -p " + vpp.getEtcDir()) // Create startup.conf inside the container configContent := fmt.Sprintf(vppConfigTemplate, containerWorkDir, vpp.config.CliSocketFilePath) configContent += vpp.config.additionalConfig.ToString() startupFileName := vpp.getEtcDir() + "/startup.conf" vpp.container.createFile(startupFileName, configContent) // Start VPP vpp.container.execServer("vpp -c " + startupFileName) // Connect to VPP and store the connection sockAddress := vpp.container.GetHostWorkDir() + defaultApiSocketFilePath conn, connEv, err := govpp.AsyncConnect( sockAddress, core.DefaultMaxReconnectAttempts, core.DefaultReconnectInterval) if err != nil { fmt.Println("async connect error: ", err) } vpp.connection = conn // ... wait for Connected event e := <-connEv if e.State != core.Connected { fmt.Println("connecting to VPP failed: ", e.Error) } // ... check compatibility of used messages ch, err := conn.NewAPIChannel() if err != nil { fmt.Println("creating channel failed: ", err) } if err := ch.CheckCompatiblity(vpe.AllMessages()...); err != nil { fmt.Println("compatibility error: ", err) } if err := ch.CheckCompatiblity(interfaces.AllMessages()...); err != nil { fmt.Println("compatibility error: ", err) } vpp.apiChannel = ch return nil } func (vpp *VppInstance) vppctl(command string, arguments ...any) string { vppCliCommand := fmt.Sprintf(command, arguments...) containerExecCommand := fmt.Sprintf("docker exec --detach=false %[1]s vppctl -s %[2]s %[3]s", vpp.container.name, vpp.getCliSocket(), vppCliCommand) vpp.Suite().log(containerExecCommand) output, err := exechelper.CombinedOutput(containerExecCommand) vpp.Suite().assertNil(err) return string(output) } func NewVppInstance(c *Container) *VppInstance { vppConfig := new(VppConfig) vppConfig.CliSocketFilePath = defaultCliSocketFilePath vpp := new(VppInstance) vpp.container = c vpp.config = vppConfig return vpp } func serializeVppConfig(vppConfig *VppConfig) (string, error) { serializedConfig, err := json.Marshal(vppConfig) if err != nil { return "", fmt.Errorf("vpp start failed: serializing configuration failed: %s", err) } return string(serializedConfig), nil } func deserializeVppConfig(input string) (VppConfig, error) { var vppConfig VppConfig err := json.Unmarshal([]byte(input), &vppConfig) if err != nil { // Since input is not a valid JSON it is going be used as a variant value // for compatibility reasons vppConfig.Variant = input vppConfig.CliSocketFilePath = defaultCliSocketFilePath } return vppConfig, nil } func (vpp *VppInstance) createAfPacket( netInterface NetInterface, ) (interface_types.InterfaceIndex, error) { var veth *NetworkInterfaceVeth veth = netInterface.(*NetworkInterfaceVeth) createReq := &af_packet.AfPacketCreateV2{ UseRandomHwAddr: true, HostIfName: veth.Name(), } if veth.HwAddress() != (MacAddress{}) { createReq.UseRandomHwAddr = false createReq.HwAddr = veth.HwAddress() } createReply := &af_packet.AfPacketCreateV2Reply{} if err := vpp.apiChannel.SendRequest(createReq).ReceiveReply(createReply); err != nil { return 0, err } veth.SetIndex(createReply.SwIfIndex) // Set to up upReq := &interfaces.SwInterfaceSetFlags{ SwIfIndex: veth.Index(), Flags: interface_types.IF_STATUS_API_FLAG_ADMIN_UP, } upReply := &interfaces.SwInterfaceSetFlagsReply{} if err := vpp.apiChannel.SendRequest(upReq).ReceiveReply(upReply); err != nil { return 0, err } // Add address if veth.Ip4AddressWithPrefix() == (AddressWithPrefix{}) { if veth.peerNetworkNamespace != "" { ip4Address, err := veth.addresser. NewIp4AddressWithNamespace(veth.peerNetworkNamespace) if err == nil { veth.SetAddress(ip4Address) } else { return 0, err } } else { ip4Address, err := veth.addresser. NewIp4Address() if err == nil { veth.SetAddress(ip4Address) } else { return 0, err } } } addressReq := &interfaces.SwInterfaceAddDelAddress{ IsAdd: true, SwIfIndex: veth.Index(), Prefix: veth.Ip4AddressWithPrefix(), } addressReply := &interfaces.SwInterfaceAddDelAddressReply{} if err := vpp.apiChannel.SendRequest(addressReq).ReceiveReply(addressReply); err != nil { return 0, err } return veth.Index(), nil } func (vpp *VppInstance) addAppNamespace( secret uint64, ifx interface_types.InterfaceIndex, namespaceId string, ) error { req := &session.AppNamespaceAddDelV2{ Secret: secret, SwIfIndex: ifx, NamespaceID: namespaceId, } reply := &session.AppNamespaceAddDelV2Reply{} if err := vpp.apiChannel.SendRequest(req).ReceiveReply(reply); err != nil { return err } sessionReq := &session.SessionEnableDisable{ IsEnable: true, } sessionReply := &session.SessionEnableDisableReply{} if err := vpp.apiChannel.SendRequest(sessionReq).ReceiveReply(sessionReply); err != nil { return err } return nil } func (vpp *VppInstance) disconnect() { vpp.connection.Disconnect() vpp.apiChannel.Close() }