func main() { globalFlagset.Parse(os.Args[1:]) args := globalFlagset.Args() if len(args) > 0 { fmt.Fprintln(os.Stderr, "Wrong parameters") os.Exit(1) } if globalFlags.PrintNoNewPrivs { r1, _, err := syscall.Syscall( syscall.SYS_PRCTL, uintptr(unix.PR_GET_NO_NEW_PRIVS), uintptr(0), uintptr(0), ) fmt.Printf("no_new_privs: %v err: %v\n", r1, err) } if globalFlags.CheckMknod != "" { /* format: c:5:2:name */ dev := strings.SplitN(globalFlags.CheckMknod, ":", 4) if len(dev) < 4 { fmt.Fprintln(os.Stderr, "Not enough parameters for mknod") os.Exit(1) } typ := dev[0] major, err := strconv.Atoi(dev[1]) if err != nil { fmt.Fprintln(os.Stderr, "Wrong major") os.Exit(1) } minor, err := strconv.Atoi(dev[2]) if err != nil { fmt.Fprintln(os.Stderr, "Wrong minor") os.Exit(1) } nodeName := dev[3] majorMinor := device.Makedev(uint(major), uint(minor)) mode := uint32(0777) switch typ { case "c": mode |= syscall.S_IFCHR case "b": mode |= syscall.S_IFBLK default: fmt.Fprintln(os.Stderr, "Wrong device node type") os.Exit(1) } if err := syscall.Mknod(nodeName, mode, int(majorMinor)); err != nil { fmt.Fprintf(os.Stderr, "mknod %s: fail: %v\n", nodeName, err) os.Exit(1) } else { fmt.Printf("mknod %s: succeed\n", nodeName) os.Exit(0) } } if globalFlags.SilentSigterm { terminateCh := make(chan os.Signal, 1) signal.Notify(terminateCh, syscall.SIGTERM) go func() { <-terminateCh os.Exit(0) }() } if globalFlags.PreSleep >= 0 { time.Sleep(time.Duration(globalFlags.PreSleep) * time.Second) } if globalFlags.ReadStdin { reader := bufio.NewReader(os.Stdin) fmt.Printf("Enter text:\n") text, _ := reader.ReadString('\n') fmt.Printf("Received text: %s\n", text) } if globalFlags.CheckTty { fd := int(os.Stdin.Fd()) var termios syscall.Termios _, _, err := syscall.Syscall6(syscall.SYS_IOCTL, uintptr(fd), syscall.TCGETS, uintptr(unsafe.Pointer(&termios)), 0, 0, 0) if err == 0 { fmt.Printf("stdin is a terminal\n") } else { fmt.Printf("stdin is not a terminal\n") } } if globalFlags.CheckPath { envBytes, err := ioutil.ReadFile("/proc/self/environ") if err != nil { fmt.Fprintf(os.Stderr, "Error reading environment from \"/proc/self/environ\": %v\n", err) os.Exit(1) } for _, v := range bytes.Split(envBytes, []byte{0}) { if len(v) == 0 { continue } if strings.HasPrefix(string(v), "PATH=") { if strings.Contains(string(v), "\n") { fmt.Fprintf(os.Stderr, "Malformed PATH: found new line") os.Exit(1) } else { fmt.Printf("PATH is good\n") os.Exit(0) } } else { continue } } fmt.Fprintf(os.Stderr, "PATH not found") os.Exit(1) } if globalFlags.PrintExec { fmt.Fprintf(os.Stdout, "inspect execed as: %s\n", os.Args[0]) } if globalFlags.PrintMsg != "" { fmt.Fprintf(os.Stdout, "%s\n", globalFlags.PrintMsg) messageLoopStr := os.Getenv("MESSAGE_LOOP") messageLoop, err := strconv.Atoi(messageLoopStr) if err == nil { for i := 0; i < messageLoop; i++ { time.Sleep(time.Second) fmt.Fprintf(os.Stdout, "%s\n", globalFlags.PrintMsg) } } } if globalFlags.PrintEnv != "" { fmt.Fprintf(os.Stdout, "%s=%s\n", globalFlags.PrintEnv, os.Getenv(globalFlags.PrintEnv)) } if globalFlags.PrintCapsPid >= 0 { caps, err := capability.NewPid(globalFlags.PrintCapsPid) if err != nil { fmt.Fprintf(os.Stderr, "Cannot get caps: %v\n", err) os.Exit(1) } fmt.Printf("Capability set: effective: %s (%s)\n", caps.StringCap(capability.EFFECTIVE), globalFlags.SuffixMsg) fmt.Printf("Capability set: permitted: %s (%s)\n", caps.StringCap(capability.PERMITTED), globalFlags.SuffixMsg) fmt.Printf("Capability set: inheritable: %s (%s)\n", caps.StringCap(capability.INHERITABLE), globalFlags.SuffixMsg) fmt.Printf("Capability set: bounding: %s (%s)\n", caps.StringCap(capability.BOUNDING), globalFlags.SuffixMsg) if capStr := os.Getenv("CAPABILITY"); capStr != "" { capInt, err := strconv.Atoi(capStr) if err != nil { fmt.Fprintf(os.Stderr, "Environment variable $CAPABILITY is not a valid capability number: %v\n", err) os.Exit(1) } c := capability.Cap(capInt) if caps.Get(capability.BOUNDING, c) { fmt.Printf("%v=enabled (%s)\n", c.String(), globalFlags.SuffixMsg) } else { fmt.Printf("%v=disabled (%s)\n", c.String(), globalFlags.SuffixMsg) } } } if globalFlags.PrintUser { fmt.Printf("User: uid=%d euid=%d gid=%d egid=%d\n", os.Getuid(), os.Geteuid(), os.Getgid(), os.Getegid()) } if globalFlags.PrintGroups { gids, err := os.Getgroups() if err != nil { fmt.Fprintf(os.Stderr, "Error getting groups: %v\n", err) os.Exit(1) } // getgroups(2): It is unspecified whether the effective group ID of // the calling process is included in the returned list. (Thus, an // application should also call getegid(2) and add or remove the // resulting value.) egid := os.Getegid() if !in(gids, egid) { gids = append(gids, egid) sort.Ints(gids) } var b bytes.Buffer for _, gid := range gids { b.WriteString(fmt.Sprintf("%d ", gid)) } fmt.Printf("Groups: %s\n", b.String()) } if globalFlags.WriteFile { fileName := os.Getenv("FILE") if globalFlags.FileName != "" { fileName = globalFlags.FileName } content := os.Getenv("CONTENT") if globalFlags.Content != "" { content = globalFlags.Content } err := ioutil.WriteFile(fileName, []byte(content), 0600) if err != nil { fmt.Fprintf(os.Stderr, "Cannot write to file %q: %v\n", fileName, err) os.Exit(1) } } if globalFlags.ReadFile { fileName := os.Getenv("FILE") if globalFlags.FileName != "" { fileName = globalFlags.FileName } dat, err := ioutil.ReadFile(fileName) if err != nil { fmt.Fprintf(os.Stderr, "Cannot read file %q: %v\n", fileName, err) os.Exit(1) } fmt.Print("<<<") fmt.Print(string(dat)) fmt.Print(">>>\n") } if globalFlags.StatFile { fileName := os.Getenv("FILE") if globalFlags.FileName != "" { fileName = globalFlags.FileName } fi, err := os.Stat(fileName) if err != nil { fmt.Fprintf(os.Stderr, "Cannot stat file %q: %v\n", fileName, err) os.Exit(1) } fmt.Printf("%s: mode: %s\n", fileName, fi.Mode().String()) fmt.Printf("%s: user: %v\n", fileName, fi.Sys().(*syscall.Stat_t).Uid) fmt.Printf("%s: group: %v\n", fileName, fi.Sys().(*syscall.Stat_t).Gid) } if globalFlags.PrintCwd { wd, err := os.Getwd() if err != nil { fmt.Fprintf(os.Stderr, "Cannot get working directory: %v\n", err) os.Exit(1) } fmt.Printf("cwd: %s\n", wd) } if globalFlags.Sleep >= 0 { time.Sleep(time.Duration(globalFlags.Sleep) * time.Second) } if globalFlags.PrintMemoryLimit { memCgroupPath, err := cgroup.GetOwnCgroupPath("memory") if err != nil { fmt.Fprintf(os.Stderr, "Error getting own memory cgroup path: %v\n", err) os.Exit(1) } // we use /proc/1/root to escape the chroot we're in and read our // memory limit limitPath := filepath.Join("/proc/1/root/sys/fs/cgroup/memory", memCgroupPath, "memory.limit_in_bytes") limit, err := ioutil.ReadFile(limitPath) if err != nil { fmt.Fprintf(os.Stderr, "Can't read memory.limit_in_bytes\n") os.Exit(1) } fmt.Printf("Memory Limit: %s\n", string(limit)) } if globalFlags.PrintCPUQuota { cpuCgroupPath, err := cgroup.GetOwnCgroupPath("cpu") if err != nil { fmt.Fprintf(os.Stderr, "Error getting own cpu cgroup path: %v\n", err) os.Exit(1) } // we use /proc/1/root to escape the chroot we're in and read our // cpu quota periodPath := filepath.Join("/proc/1/root/sys/fs/cgroup/cpu", cpuCgroupPath, "cpu.cfs_period_us") periodBytes, err := ioutil.ReadFile(periodPath) if err != nil { fmt.Fprintf(os.Stderr, "Can't read cpu.cpu_period_us\n") os.Exit(1) } quotaPath := filepath.Join("/proc/1/root/sys/fs/cgroup/cpu", cpuCgroupPath, "cpu.cfs_quota_us") quotaBytes, err := ioutil.ReadFile(quotaPath) if err != nil { fmt.Fprintf(os.Stderr, "Can't read cpu.cpu_quota_us\n") os.Exit(1) } period, err := strconv.Atoi(strings.Trim(string(periodBytes), "\n")) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } quota, err := strconv.Atoi(strings.Trim(string(quotaBytes), "\n")) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } quotaMilliCores := quota * 1000 / period fmt.Printf("CPU Quota: %s\n", strconv.Itoa(quotaMilliCores)) } if globalFlags.CheckCgroupMounts { rootCgroupPath := "/proc/1/root/sys/fs/cgroup" testPaths := []string{rootCgroupPath} // test a couple of controllers if they're available if _, err := os.Stat(filepath.Join(rootCgroupPath, "memory")); err == nil { testPaths = append(testPaths, filepath.Join(rootCgroupPath, "memory")) } if _, err := os.Stat(filepath.Join(rootCgroupPath, "cpu")); err == nil { testPaths = append(testPaths, filepath.Join(rootCgroupPath, "cpu")) } for _, p := range testPaths { if err := syscall.Mkdir(filepath.Join(p, "test"), 0600); err == nil || err != syscall.EROFS { fmt.Fprintf(os.Stderr, "check-cgroups: FAIL (%v)", err) os.Exit(1) } } fmt.Println("check-cgroups: SUCCESS") } if globalFlags.PrintNetNS { ns, err := os.Readlink("/proc/self/ns/net") if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("NetNS: %s\n", ns) } if globalFlags.PrintIPv4 != "" { iface := globalFlags.PrintIPv4 ips, err := testutils.GetIPsv4(iface) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } if len(ips) == 0 { fmt.Fprintf(os.Stderr, "No IPv4 found for interface %+v:\n", iface) os.Exit(1) } fmt.Printf("%v IPv4: %s\n", iface, ips[0]) } if globalFlags.PrintDefaultGWv4 { gw, err := testutils.GetDefaultGWv4() if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("DefaultGWv4: %s\n", gw) } if globalFlags.PrintDefaultGWv6 { gw, err := testutils.GetDefaultGWv6() if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("DefaultGWv6: %s\n", gw) } if globalFlags.PrintGWv4 != "" { // TODO: GetGW not implemented yet iface := globalFlags.PrintGWv4 gw, err := testutils.GetGWv4(iface) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("%v GWv4: %s\n", iface, gw) } if globalFlags.PrintIPv6 != "" { // TODO } if globalFlags.PrintGWv6 != "" { // TODO } if globalFlags.PrintHostname { hostname, err := os.Hostname() if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("Hostname: %s\n", hostname) } if globalFlags.ServeHTTP != "" { err := testutils.HTTPServe(globalFlags.ServeHTTP, globalFlags.ServeHTTPTimeout) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } } if globalFlags.GetHTTP != "" { body, err := testutils.HTTPGet(globalFlags.GetHTTP) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("HTTP-Get received: %s\n", body) } if globalFlags.PrintIfaceCount { ifaceCount, err := testutils.GetIfaceCount() if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("Interface count: %d\n", ifaceCount) } if globalFlags.PrintAppAnnotation != "" { mdsUrl, appName := os.Getenv("AC_METADATA_URL"), os.Getenv("AC_APP_NAME") body, err := testutils.HTTPGet(fmt.Sprintf("%s/acMetadata/v1/apps/%s/annotations/%s", mdsUrl, appName, globalFlags.PrintAppAnnotation)) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("Annotation %s=%s\n", globalFlags.PrintAppAnnotation, body) } if globalFlags.CheckMountNS { appMountNS, err := os.Readlink("/proc/self/ns/mnt") if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } s1MountNS, err := os.Readlink("/proc/1/ns/mnt") if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } if appMountNS != s1MountNS { fmt.Println("check-mountns: DIFFERENT") } else { fmt.Println("check-mountns: IDENTICAL") os.Exit(1) } } os.Exit(globalFlags.ExitCode) }
/* * Host launches http server on all interfaces in the host netns * Container must be able to connect via any IP address of the host in the * macvlan network, which is NAT * TODO: test connection to host on an outside interface */ func testNetCustomNatConnectivity(t *testing.T, nt networkTemplateT) { ctx := testutils.NewRktRunCtx() defer ctx.Cleanup() prepareTestNet(t, ctx, nt) httpPort, err := testutils.GetNextFreePort4() if err != nil { t.Fatalf("%v", err) } httpServeAddr := fmt.Sprintf("0.0.0.0:%v", httpPort) httpServeTimeout := 30 nonLoIPv4, err := testutils.GetNonLoIfaceIPv4() if err != nil { t.Fatalf("%v", err) } if nonLoIPv4 == "" { t.Skipf("Can not find any NAT'able IPv4 on the host, skipping..") } httpGetAddr := fmt.Sprintf("http://%v:%v", nonLoIPv4, httpPort) t.Log("Telling the child to connect via", httpGetAddr) ga := testutils.NewGoroutineAssistant(t) ga.Add(2) // Host opens the server go func() { defer ga.Done() err := testutils.HTTPServe(httpServeAddr, httpServeTimeout) if err != nil { ga.Fatalf("Error during HTTPServe: %v", err) } }() // Child connects to host hostname, err := os.Hostname() if err != nil { panic(err) } go func() { defer ga.Done() testImageArgs := []string{fmt.Sprintf("--exec=/inspect --get-http=%v", httpGetAddr)} testImage := patchTestACI("rkt-inspect-networking.aci", testImageArgs...) defer os.Remove(testImage) cmd := fmt.Sprintf("%s --debug --insecure-options=image run --net=%v --mds-register=false %s", ctx.Cmd(), nt.Name, testImage) child := ga.SpawnOrFail(cmd) defer ga.WaitOrFail(child) expectedRegex := `HTTP-Get received: (.*?)\r` result, out, err := expectRegexWithOutput(child, expectedRegex) if err != nil { ga.Fatalf("Error: %v\nOutput: %v", err, out) } if result[1] != hostname { ga.Fatalf("Hostname received by client `%v` doesn't match `%v`", result[1], hostname) } }() ga.Wait() }
func main() { globalFlagset.Parse(os.Args[1:]) args := globalFlagset.Args() if len(args) > 0 { fmt.Fprintln(os.Stderr, "Wrong parameters") os.Exit(1) } if globalFlags.PreSleep >= 0 { time.Sleep(time.Duration(globalFlags.PreSleep) * time.Second) } if globalFlags.ReadStdin { reader := bufio.NewReader(os.Stdin) fmt.Printf("Enter text:\n") text, _ := reader.ReadString('\n') fmt.Printf("Received text: %s\n", text) } if globalFlags.CheckTty { fd := int(os.Stdin.Fd()) var termios syscall.Termios _, _, err := syscall.Syscall6(syscall.SYS_IOCTL, uintptr(fd), syscall.TCGETS, uintptr(unsafe.Pointer(&termios)), 0, 0, 0) if err == 0 { fmt.Printf("stdin is a terminal\n") } else { fmt.Printf("stdin is not a terminal\n") } } if globalFlags.PrintExec { fmt.Fprintf(os.Stdout, "inspect execed as: %s\n", os.Args[0]) } if globalFlags.PrintMsg != "" { fmt.Fprintf(os.Stdout, "%s\n", globalFlags.PrintMsg) messageLoopStr := os.Getenv("MESSAGE_LOOP") messageLoop, err := strconv.Atoi(messageLoopStr) if err == nil { for i := 0; i < messageLoop; i++ { time.Sleep(time.Second) fmt.Fprintf(os.Stdout, "%s\n", globalFlags.PrintMsg) } } } if globalFlags.PrintEnv != "" { fmt.Fprintf(os.Stdout, "%s=%s\n", globalFlags.PrintEnv, os.Getenv(globalFlags.PrintEnv)) } if globalFlags.PrintCapsPid >= 0 { caps, err := capability.NewPid(globalFlags.PrintCapsPid) if err != nil { fmt.Fprintf(os.Stderr, "Cannot get caps: %v\n", err) os.Exit(1) } fmt.Printf("Capability set: effective: %s\n", caps.StringCap(capability.EFFECTIVE)) fmt.Printf("Capability set: permitted: %s\n", caps.StringCap(capability.PERMITTED)) fmt.Printf("Capability set: inheritable: %s\n", caps.StringCap(capability.INHERITABLE)) fmt.Printf("Capability set: bounding: %s\n", caps.StringCap(capability.BOUNDING)) if capStr := os.Getenv("CAPABILITY"); capStr != "" { capInt, err := strconv.Atoi(capStr) if err != nil { fmt.Fprintf(os.Stderr, "Environment variable $CAPABILITY is not a valid capability number: %v\n", err) os.Exit(1) } c := capability.Cap(capInt) if caps.Get(capability.BOUNDING, c) { fmt.Printf("%v=enabled\n", c.String()) } else { fmt.Printf("%v=disabled\n", c.String()) } } } if globalFlags.PrintUser { fmt.Printf("User: uid=%d euid=%d gid=%d egid=%d\n", os.Getuid(), os.Geteuid(), os.Getgid(), os.Getegid()) } if globalFlags.PrintGroups { gids, err := os.Getgroups() if err != nil { fmt.Fprintf(os.Stderr, "Error getting groups: %v\n", err) os.Exit(1) } // getgroups(2): It is unspecified whether the effective group ID of // the calling process is included in the returned list. (Thus, an // application should also call getegid(2) and add or remove the // resulting value.) egid := os.Getegid() if !in(gids, egid) { gids = append(gids, egid) sort.Ints(gids) } var b bytes.Buffer for _, gid := range gids { b.WriteString(fmt.Sprintf("%d ", gid)) } fmt.Printf("Groups: %s\n", b.String()) } if globalFlags.WriteFile { fileName := os.Getenv("FILE") if globalFlags.FileName != "" { fileName = globalFlags.FileName } content := os.Getenv("CONTENT") if globalFlags.Content != "" { content = globalFlags.Content } err := ioutil.WriteFile(fileName, []byte(content), 0600) if err != nil { fmt.Fprintf(os.Stderr, "Cannot write to file %q: %v\n", fileName, err) os.Exit(1) } } if globalFlags.ReadFile { fileName := os.Getenv("FILE") if globalFlags.FileName != "" { fileName = globalFlags.FileName } dat, err := ioutil.ReadFile(fileName) if err != nil { fmt.Fprintf(os.Stderr, "Cannot read file %q: %v\n", fileName, err) os.Exit(1) } fmt.Print("<<<") fmt.Print(string(dat)) fmt.Print(">>>\n") } if globalFlags.StatFile { fileName := os.Getenv("FILE") if globalFlags.FileName != "" { fileName = globalFlags.FileName } fi, err := os.Stat(fileName) if err != nil { fmt.Fprintf(os.Stderr, "Cannot stat file %q: %v\n", fileName, err) os.Exit(1) } fmt.Printf("%s: mode: %s\n", fileName, fi.Mode().String()) fmt.Printf("%s: user: %v\n", fileName, fi.Sys().(*syscall.Stat_t).Uid) fmt.Printf("%s: group: %v\n", fileName, fi.Sys().(*syscall.Stat_t).Gid) } if globalFlags.CheckCwd != "" { wd, err := os.Getwd() if err != nil { fmt.Fprintf(os.Stderr, "Cannot get working directory: %v\n", err) os.Exit(1) } if wd != globalFlags.CheckCwd { fmt.Fprintf(os.Stderr, "Working directory: %q. Expected: %q.\n", wd, globalFlags.CheckCwd) os.Exit(1) } } if globalFlags.Sleep >= 0 { time.Sleep(time.Duration(globalFlags.Sleep) * time.Second) } if globalFlags.PrintMemoryLimit { memCgroupPath, err := cgroup.GetOwnCgroupPath("memory") if err != nil { fmt.Fprintf(os.Stderr, "Error getting own memory cgroup path: %v\n", err) os.Exit(1) } // we use /proc/1/root to escape the chroot we're in and read our // memory limit limitPath := filepath.Join("/proc/1/root/sys/fs/cgroup/memory", memCgroupPath, "memory.limit_in_bytes") limit, err := ioutil.ReadFile(limitPath) if err != nil { fmt.Fprintf(os.Stderr, "Can't read memory.limit_in_bytes\n") os.Exit(1) } fmt.Printf("Memory Limit: %s\n", string(limit)) } if globalFlags.PrintCPUQuota { cpuCgroupPath, err := cgroup.GetOwnCgroupPath("cpu") if err != nil { fmt.Fprintf(os.Stderr, "Error getting own cpu cgroup path: %v\n", err) os.Exit(1) } // we use /proc/1/root to escape the chroot we're in and read our // cpu quota periodPath := filepath.Join("/proc/1/root/sys/fs/cgroup/cpu", cpuCgroupPath, "cpu.cfs_period_us") periodBytes, err := ioutil.ReadFile(periodPath) if err != nil { fmt.Fprintf(os.Stderr, "Can't read cpu.cpu_period_us\n") os.Exit(1) } quotaPath := filepath.Join("/proc/1/root/sys/fs/cgroup/cpu", cpuCgroupPath, "cpu.cfs_quota_us") quotaBytes, err := ioutil.ReadFile(quotaPath) if err != nil { fmt.Fprintf(os.Stderr, "Can't read cpu.cpu_quota_us\n") os.Exit(1) } period, err := strconv.Atoi(strings.Trim(string(periodBytes), "\n")) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } quota, err := strconv.Atoi(strings.Trim(string(quotaBytes), "\n")) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } quotaMilliCores := quota * 1000 / period fmt.Printf("CPU Quota: %s\n", strconv.Itoa(quotaMilliCores)) } if globalFlags.CheckCgroupMounts { rootCgroupPath := "/proc/1/root/sys/fs/cgroup" testPaths := []string{rootCgroupPath} // test a couple of controllers if they're available if cgroup.IsIsolatorSupported("memory") { testPaths = append(testPaths, filepath.Join(rootCgroupPath, "memory")) } if cgroup.IsIsolatorSupported("cpu") { testPaths = append(testPaths, filepath.Join(rootCgroupPath, "cpu")) } for _, p := range testPaths { if err := syscall.Mkdir(filepath.Join(p, "test"), 0600); err == nil || err != syscall.EROFS { fmt.Println("check-cgroups: FAIL") os.Exit(1) } } fmt.Println("check-cgroups: SUCCESS") } if globalFlags.PrintNetNS { ns, err := os.Readlink("/proc/self/ns/net") if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("NetNS: %s\n", ns) } if globalFlags.PrintIPv4 != "" { iface := globalFlags.PrintIPv4 ips, err := testutils.GetIPsv4(iface) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("%v IPv4: %s\n", iface, ips[0]) } if globalFlags.PrintDefaultGWv4 { gw, err := testutils.GetDefaultGWv4() if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("DefaultGWv4: %s\n", gw) } if globalFlags.PrintDefaultGWv6 { gw, err := testutils.GetDefaultGWv6() if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("DefaultGWv6: %s\n", gw) } if globalFlags.PrintGWv4 != "" { // TODO: GetGW not implemented yet iface := globalFlags.PrintGWv4 gw, err := testutils.GetGWv4(iface) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("%v GWv4: %s\n", iface, gw) } if globalFlags.PrintIPv6 != "" { // TODO } if globalFlags.PrintGWv6 != "" { // TODO } if globalFlags.PrintHostname { hostname, err := os.Hostname() if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("Hostname: %s\n", hostname) } if globalFlags.ServeHTTP != "" { err := testutils.HTTPServe(globalFlags.ServeHTTP, globalFlags.ServeHTTPTimeout) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } } if globalFlags.GetHTTP != "" { body, err := testutils.HTTPGet(globalFlags.GetHTTP) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("HTTP-Get received: %s\n", body) } if globalFlags.PrintIfaceCount { ifaceCount, err := testutils.GetIfaceCount() if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("Interface count: %d\n", ifaceCount) } if globalFlags.PrintAppAnnotation != "" { mdsUrl, appName := os.Getenv("AC_METADATA_URL"), os.Getenv("AC_APP_NAME") body, err := testutils.HTTPGet(fmt.Sprintf("%s/acMetadata/v1/apps/%s/annotations/%s", mdsUrl, appName, globalFlags.PrintAppAnnotation)) if err != nil { fmt.Fprintf(os.Stderr, "%v\n", err) os.Exit(1) } fmt.Printf("Annotation %s=%s\n", globalFlags.PrintAppAnnotation, body) } os.Exit(globalFlags.ExitCode) }