package main import ( "fmt" "os" "os/exec" "os/signal" "strconv" "strings" "syscall" "time" "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/tapv2" "go.fd.io/govpp/binapi/vpe" "go.fd.io/govpp/core" ) const vppConfigTemplate = `unix { nodaemon log %[1]s%[4]s 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%[3]s } 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 } plugin http_static_plugin.so { enable } plugin prom_plugin.so { enable } plugin tlsopenssl_plugin.so { enable } } logging { default-log-level debug default-syslog-log-level debug } ` const ( defaultCliSocketFilePath = "/var/run/vpp/cli.sock" defaultApiSocketFilePath = "/var/run/vpp/api.sock" defaultLogFilePath = "/var/log/vpp/vpp.log" ) type VppInstance struct { container *Container additionalConfig []Stanza connection *core.Connection apiChannel api.Channel cpus []int } func (vpp *VppInstance) getSuite() *HstSuite { return vpp.container.suite } func (vpp *VppInstance) getCliSocket() string { return fmt.Sprintf("%s%s", vpp.container.getContainerWorkDir(), defaultCliSocketFilePath) } 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) start() error { // 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, defaultCliSocketFilePath, defaultApiSocketFilePath, defaultLogFilePath, ) configContent += vpp.generateCpuConfig() for _, c := range vpp.additionalConfig { configContent += c.toString() } startupFileName := vpp.getEtcDir() + "/startup.conf" vpp.container.createFile(startupFileName, configContent) // create wrapper script for vppctl with proper CLI socket path cliContent := "#!/usr/bin/bash\nvppctl -s " + vpp.getRunDir() + "/cli.sock" vppcliFileName := "/usr/bin/vppcli" vpp.container.createFile(vppcliFileName, cliContent) vpp.container.exec("chmod 0755 " + vppcliFileName) if *isVppDebug { sig := make(chan os.Signal, 1) signal.Notify(sig, syscall.SIGINT) cont := make(chan bool, 1) go func() { <-sig cont <- true }() vpp.container.execServer("su -c \"vpp -c " + startupFileName + " &> /proc/1/fd/1\"") fmt.Println("run following command in different terminal:") fmt.Println("docker exec -it " + vpp.container.name + " gdb -ex \"attach $(docker exec " + vpp.container.name + " pidof vpp)\"") fmt.Println("Afterwards press CTRL+C to continue") <-cont fmt.Println("continuing...") } else { // Start VPP vpp.container.execServer("su -c \"vpp -c " + startupFileName + " &> /proc/1/fd/1\"") } // 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) return 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) return err } if err := ch.CheckCompatiblity(vpe.AllMessages()...); err != nil { fmt.Println("compatibility error: ", err) return err } if err := ch.CheckCompatiblity(interfaces.AllMessages()...); err != nil { fmt.Println("compatibility error: ", err) return 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.getSuite().log(containerExecCommand) output, err := exechelper.CombinedOutput(containerExecCommand) vpp.getSuite().assertNil(err) return string(output) } func (vpp *VppInstance) GetSessionStat(stat string) int { o := vpp.vppctl("show session stats") vpp.getSuite().log(o) for _, line := range strings.Split(o, "\n") { if strings.Contains(line, stat) { tokens := strings.Split(strings.TrimSpace(line), " ") val, err := strconv.Atoi(tokens[0]) if err != nil { vpp.getSuite().FailNow("failed to parse stat value %s", err) return 0 } return val } } return 0 } func (vpp *VppInstance) waitForApp(appName string, timeout int) { for i := 0; i < timeout; i++ { o := vpp.vppctl("show app") if strings.Contains(o, appName) { return } time.Sleep(1 * time.Second) } vpp.getSuite().assertNil(1, "Timeout while waiting for app '%s'", appName) } func (vpp *VppInstance) createAfPacket( veth *NetInterface, ) (interface_types.InterfaceIndex, error) { 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.index = 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.addressWithPrefix() == (AddressWithPrefix{}) { var err error var ip4Address string if ip4Address, err = veth.ip4AddrAllocator.NewIp4InterfaceAddress(veth.peer.networkNumber); err == nil { veth.ip4Address = ip4Address } else { return 0, err } } addressReq := &interfaces.SwInterfaceAddDelAddress{ IsAdd: true, SwIfIndex: veth.index, Prefix: veth.addressWithPrefix(), } 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) createTap( tap *NetInterface, tapId ...uint32, ) error { var id uint32 = 1 if len(tapId) > 0 { id = tapId[0] } createTapReq := &tapv2.TapCreateV2{ ID: id, HostIfNameSet: true, HostIfName: tap.Name(), HostIP4PrefixSet: true, HostIP4Prefix: tap.ip4AddressWithPrefix(), } createTapReply := &tapv2.TapCreateV2Reply{} // Create tap interface if err := vpp.apiChannel.SendRequest(createTapReq).ReceiveReply(createTapReply); err != nil { return err } // Add address addAddressReq := &interfaces.SwInterfaceAddDelAddress{ IsAdd: true, SwIfIndex: createTapReply.SwIfIndex, Prefix: tap.peer.addressWithPrefix(), } addAddressReply := &interfaces.SwInterfaceAddDelAddressReply{} if err := vpp.apiChannel.SendRequest(addAddressReq).ReceiveReply(addAddressReply); err != nil { return err } // Set interface to up upReq := &interfaces.SwInterfaceSetFlags{ SwIfIndex: createTapReply.SwIfIndex, Flags: interface_types.IF_STATUS_API_FLAG_ADMIN_UP, } upReply := &interfaces.SwInterfaceSetFlagsReply{} if err := vpp.apiChannel.SendRequest(upReq).ReceiveReply(upReply); err != nil { return err } return nil } func (vpp *VppInstance) saveLogs() { logTarget := vpp.container.getLogDirPath() + "vppinstance-" + vpp.container.name + ".log" logSource := vpp.container.getHostWorkDir() + defaultLogFilePath cmd := exec.Command("cp", logSource, logTarget) vpp.getSuite().T().Helper() vpp.getSuite().log(cmd.String()) cmd.Run() } func (vpp *VppInstance) disconnect() { vpp.connection.Disconnect() vpp.apiChannel.Close() } func (vpp *VppInstance) generateCpuConfig() string { var c Stanza var s string if len(vpp.cpus) < 1 { return "" } c.newStanza("cpu"). append(fmt.Sprintf("main-core %d", vpp.cpus[0])) workers := vpp.cpus[1:] if len(workers) > 0 { for i := 0; i < len(workers); i++ { if i != 0 { s = s + ", " } s = s + fmt.Sprintf("%d", workers[i]) } c.append(fmt.Sprintf("corelist-workers %s", s)) } return c.close().toString() }