package cgroups import ( "bufio" "fmt" "io" "io/ioutil" "os" "path/filepath" "strconv" "strings" "syscall" "golang.org/x/sys/unix" specs "github.com/opencontainers/runtime-spec/specs-go" ) func NewMemory(root string) *memoryController { return &memoryController{ root: filepath.Join(root, string(Memory)), } } type memoryController struct { root string } func (m *memoryController) Name() Name { return Memory } func (m *memoryController) Path(path string) string { return filepath.Join(m.root, path) } func (m *memoryController) Create(path string, resources *specs.LinuxResources) error { if err := os.MkdirAll(m.Path(path), defaultDirPerm); err != nil { return err } if resources.Memory == nil { return nil } if resources.Memory.Kernel != nil { // Check if kernel memory is enabled // We have to limit the kernel memory here as it won't be accounted at all // until a limit is set on the cgroup and limit cannot be set once the // cgroup has children, or if there are already tasks in the cgroup. for _, i := range []int64{1, -1} { if err := ioutil.WriteFile( filepath.Join(m.Path(path), "memory.kmem.limit_in_bytes"), []byte(strconv.FormatInt(i, 10)), defaultFilePerm, ); err != nil { return checkEBUSY(err) } } } return m.set(path, getMemorySettings(resources)) } func (m *memoryController) Update(path string, resources *specs.LinuxResources) error { if resources.Memory == nil { return nil } g := func(v *int64) bool { return v != nil && *v > 0 } settings := getMemorySettings(resources) if g(resources.Memory.Limit) && g(resources.Memory.Swap) { // if the updated swap value is larger than the current memory limit set the swap changes first // then set the memory limit as swap must always be larger than the current limit current, err := readUint(filepath.Join(m.Path(path), "memory.limit_in_bytes")) if err != nil { return err } if current < uint64(*resources.Memory.Swap) { settings[0], settings[1] = settings[1], settings[0] } } return m.set(path, settings) } func (m *memoryController) Stat(path string, stats *Stats) error { f, err := os.Open(filepath.Join(m.Path(path), "memory.stat")) if err != nil { return err } defer f.Close() stats.Memory = &MemoryStat{} if err := m.parseStats(f, stats.Memory); err != nil { return err } for _, t := range []struct { module string entry *MemoryEntry }{ { module: "", entry: &stats.Memory.Usage, }, { module: "memsw", entry: &stats.Memory.Swap, }, { module: "kmem", entry: &stats.Memory.Kernel, }, { module: "kmem.tcp", entry: &stats.Memory.KernelTCP, }, } { for _, tt := range []struct { name string value *uint64 }{ { name: "usage_in_bytes", value: &t.entry.Usage, }, { name: "max_usage_in_bytes", value: &t.entry.Max, }, { name: "failcnt", value: &t.entry.Failcnt, }, { name: "limit_in_bytes", value: &t.entry.Limit, }, } { parts := []string{"memory"} if t.module != "" { parts = append(parts, t.module) } parts = append(parts, tt.name) v, err := readUint(filepath.Join(m.Path(path), strings.Join(parts, "."))) if err != nil { return err } *tt.value = v } } return nil } func (m *memoryController) OOMEventFD(path string) (uintptr, error) { root := m.Path(path) f, err := os.Open(filepath.Join(root, "memory.oom_control")) if err != nil { return 0, err } defer f.Close() fd, _, serr := unix.RawSyscall(unix.SYS_EVENTFD2, 0, unix.FD_CLOEXEC, 0) if serr != 0 { return 0, serr } if err := writeEventFD(root, f.Fd(), fd); err != nil { unix.Close(int(fd)) return 0, err } return fd, nil } func writeEventFD(root string, cfd, efd uintptr) error { f, err := os.OpenFile(filepath.Join(root, "cgroup.event_control"), os.O_WRONLY, 0) if err != nil { return err } _, err = f.WriteString(fmt.Sprintf("%d %d", efd, cfd)) f.Close() return err } func (m *memoryController) parseStats(r io.Reader, stat *MemoryStat) error { var ( raw = make(map[string]uint64) sc = bufio.NewScanner(r) line int ) for sc.Scan() { if err := sc.Err(); err != nil { return err } key, v, err := parseKV(sc.Text()) if err != nil { return fmt.Errorf("%d: %v", line, err) } raw[key] = v line++ } stat.Cache = raw["cache"] stat.RSS = raw["rss"] stat.RSSHuge = raw["rss_huge"] stat.MappedFile = raw["mapped_file"] stat.Dirty = raw["dirty"] stat.Writeback = raw["writeback"] stat.PgPgIn = raw["pgpgin"] stat.PgPgOut = raw["pgpgout"] stat.PgFault = raw["pgfault"] stat.PgMajFault = raw["pgmajfault"] stat.InactiveAnon = raw["inactive_anon"] stat.ActiveAnon = raw["active_anon"] stat.InactiveFile = raw["inactive_file"] stat.ActiveFile = raw["active_file"] stat.Unevictable = raw["unevictable"] stat.HierarchicalMemoryLimit = raw["hierarchical_memory_limit"] stat.HierarchicalSwapLimit = raw["hierarchical_memsw_limit"] stat.TotalCache = raw["total_cache"] stat.TotalRSS = raw["total_rss"] stat.TotalRSSHuge = raw["total_rss_huge"] stat.TotalMappedFile = raw["total_mapped_file"] stat.TotalDirty = raw["total_dirty"] stat.TotalWriteback = raw["total_writeback"] stat.TotalPgPgIn = raw["total_pgpgin"] stat.TotalPgPgOut = raw["total_pgpgout"] stat.TotalPgFault = raw["total_pgfault"] stat.TotalPgMajFault = raw["total_pgmajfault"] stat.TotalInactiveAnon = raw["total_inactive_anon"] stat.TotalActiveAnon = raw["total_active_anon"] stat.TotalInactiveFile = raw["total_inactive_file"] stat.TotalActiveFile = raw["total_active_file"] stat.TotalUnevictable = raw["total_unevictable"] return nil } func (m *memoryController) set(path string, settings []memorySettings) error { for _, t := range settings { if t.value != nil { if err := ioutil.WriteFile( filepath.Join(m.Path(path), fmt.Sprintf("memory.%s", t.name)), []byte(strconv.FormatInt(*t.value, 10)), defaultFilePerm, ); err != nil { return err } } } return nil } type memorySettings struct { name string value *int64 } func getMemorySettings(resources *specs.LinuxResources) []memorySettings { mem := resources.Memory var swappiness *int64 if mem.Swappiness != nil { v := int64(*mem.Swappiness) swappiness = &v } return []memorySettings{ { name: "limit_in_bytes", value: mem.Limit, }, { name: "memsw.limit_in_bytes", value: mem.Swap, }, { name: "kmem.limit_in_bytes", value: mem.Kernel, }, { name: "kmem.tcp.limit_in_bytes", value: mem.KernelTCP, }, { name: "oom_control", value: getOomControlValue(mem), }, { name: "swappiness", value: swappiness, }, } } func checkEBUSY(err error) error { if pathErr, ok := err.(*os.PathError); ok { if errNo, ok := pathErr.Err.(syscall.Errno); ok { if errNo == unix.EBUSY { return fmt.Errorf( "failed to set memory.kmem.limit_in_bytes, because either tasks have already joined this cgroup or it has children") } } } return err } func getOomControlValue(mem *specs.LinuxMemory) *int64 { if mem.DisableOOMKiller != nil && *mem.DisableOOMKiller { i := int64(1) return &i } return nil }