// Copyright 2014 Google Inc. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package libcontainer import ( "bufio" "fmt" "io/ioutil" "os" "path" "strconv" "strings" "time" "github.com/google/cadvisor/container" info "github.com/google/cadvisor/info/v1" "github.com/golang/glog" "github.com/opencontainers/runc/libcontainer" "github.com/opencontainers/runc/libcontainer/cgroups" ) type CgroupSubsystems struct { // Cgroup subsystem mounts. // e.g.: "/sys/fs/cgroup/cpu" -> ["cpu", "cpuacct"] Mounts []cgroups.Mount // Cgroup subsystem to their mount location. // e.g.: "cpu" -> "/sys/fs/cgroup/cpu" MountPoints map[string]string } // Get information about the cgroup subsystems. func GetCgroupSubsystems() (CgroupSubsystems, error) { // Get all cgroup mounts. allCgroups, err := cgroups.GetCgroupMounts(true) if err != nil { return CgroupSubsystems{}, err } if len(allCgroups) == 0 { return CgroupSubsystems{}, fmt.Errorf("failed to find cgroup mounts") } // Trim the mounts to only the subsystems we care about. supportedCgroups := make([]cgroups.Mount, 0, len(allCgroups)) mountPoints := make(map[string]string, len(allCgroups)) for _, mount := range allCgroups { for _, subsystem := range mount.Subsystems { if _, ok := supportedSubsystems[subsystem]; ok { supportedCgroups = append(supportedCgroups, mount) mountPoints[subsystem] = mount.Mountpoint } } } return CgroupSubsystems{ Mounts: supportedCgroups, MountPoints: mountPoints, }, nil } // Cgroup subsystems we support listing (should be the minimal set we need stats from). var supportedSubsystems map[string]struct{} = map[string]struct{}{ "cpu": {}, "cpuacct": {}, "memory": {}, "cpuset": {}, "blkio": {}, } // Get cgroup and networking stats of the specified container func GetStats(cgroupManager cgroups.Manager, rootFs string, pid int, ignoreMetrics container.MetricSet) (*info.ContainerStats, error) { cgroupStats, err := cgroupManager.GetStats() if err != nil { return nil, err } libcontainerStats := &libcontainer.Stats{ CgroupStats: cgroupStats, } stats := newContainerStats(libcontainerStats) // If we know the pid then get network stats from /proc//net/dev if pid == 0 { return stats, nil } if !ignoreMetrics.Has(container.NetworkUsageMetrics) { netStats, err := networkStatsFromProc(rootFs, pid) if err != nil { glog.V(2).Infof("Unable to get network stats from pid %d: %v", pid, err) } else { stats.Network.Interfaces = append(stats.Network.Interfaces, netStats...) } } if !ignoreMetrics.Has(container.NetworkTcpUsageMetrics) { t, err := tcpStatsFromProc(rootFs, pid, "net/tcp") if err != nil { glog.V(2).Infof("Unable to get tcp stats from pid %d: %v", pid, err) } else { stats.Network.Tcp = t } t6, err := tcpStatsFromProc(rootFs, pid, "net/tcp6") if err != nil { glog.V(2).Infof("Unable to get tcp6 stats from pid %d: %v", pid, err) } else { stats.Network.Tcp6 = t6 } } // For backwards compatibility. if len(stats.Network.Interfaces) > 0 { stats.Network.InterfaceStats = stats.Network.Interfaces[0] } return stats, nil } func networkStatsFromProc(rootFs string, pid int) ([]info.InterfaceStats, error) { netStatsFile := path.Join(rootFs, "proc", strconv.Itoa(pid), "/net/dev") ifaceStats, err := scanInterfaceStats(netStatsFile) if err != nil { return []info.InterfaceStats{}, fmt.Errorf("couldn't read network stats: %v", err) } return ifaceStats, nil } var ( ignoredDevicePrefixes = []string{"lo", "veth", "docker"} ) func isIgnoredDevice(ifName string) bool { for _, prefix := range ignoredDevicePrefixes { if strings.HasPrefix(strings.ToLower(ifName), prefix) { return true } } return false } func scanInterfaceStats(netStatsFile string) ([]info.InterfaceStats, error) { file, err := os.Open(netStatsFile) if err != nil { return nil, fmt.Errorf("failure opening %s: %v", netStatsFile, err) } defer file.Close() scanner := bufio.NewScanner(file) // Discard header lines for i := 0; i < 2; i++ { if b := scanner.Scan(); !b { return nil, scanner.Err() } } stats := []info.InterfaceStats{} for scanner.Scan() { line := scanner.Text() line = strings.Replace(line, ":", "", -1) fields := strings.Fields(line) // If the format of the line is invalid then don't trust any of the stats // in this file. if len(fields) != 17 { return nil, fmt.Errorf("invalid interface stats line: %v", line) } devName := fields[0] if isIgnoredDevice(devName) { continue } i := info.InterfaceStats{ Name: devName, } statFields := append(fields[1:5], fields[9:13]...) statPointers := []*uint64{ &i.RxBytes, &i.RxPackets, &i.RxErrors, &i.RxDropped, &i.TxBytes, &i.TxPackets, &i.TxErrors, &i.TxDropped, } err := setInterfaceStatValues(statFields, statPointers) if err != nil { return nil, fmt.Errorf("cannot parse interface stats (%v): %v", err, line) } stats = append(stats, i) } return stats, nil } func setInterfaceStatValues(fields []string, pointers []*uint64) error { for i, v := range fields { val, err := strconv.ParseUint(v, 10, 64) if err != nil { return err } *pointers[i] = val } return nil } func tcpStatsFromProc(rootFs string, pid int, file string) (info.TcpStat, error) { tcpStatsFile := path.Join(rootFs, "proc", strconv.Itoa(pid), file) tcpStats, err := scanTcpStats(tcpStatsFile) if err != nil { return tcpStats, fmt.Errorf("couldn't read tcp stats: %v", err) } return tcpStats, nil } func scanTcpStats(tcpStatsFile string) (info.TcpStat, error) { var stats info.TcpStat data, err := ioutil.ReadFile(tcpStatsFile) if err != nil { return stats, fmt.Errorf("failure opening %s: %v", tcpStatsFile, err) } tcpStateMap := map[string]uint64{ "01": 0, //ESTABLISHED "02": 0, //SYN_SENT "03": 0, //SYN_RECV "04": 0, //FIN_WAIT1 "05": 0, //FIN_WAIT2 "06": 0, //TIME_WAIT "07": 0, //CLOSE "08": 0, //CLOSE_WAIT "09": 0, //LAST_ACK "0A": 0, //LISTEN "0B": 0, //CLOSING } reader := strings.NewReader(string(data)) scanner := bufio.NewScanner(reader) scanner.Split(bufio.ScanLines) // Discard header line if b := scanner.Scan(); !b { return stats, scanner.Err() } for scanner.Scan() { line := scanner.Text() state := strings.Fields(line) // TCP state is the 4th field. // Format: sl local_address rem_address st tx_queue rx_queue tr tm->when retrnsmt uid timeout inode tcpState := state[3] _, ok := tcpStateMap[tcpState] if !ok { return stats, fmt.Errorf("invalid TCP stats line: %v", line) } tcpStateMap[tcpState]++ } stats = info.TcpStat{ Established: tcpStateMap["01"], SynSent: tcpStateMap["02"], SynRecv: tcpStateMap["03"], FinWait1: tcpStateMap["04"], FinWait2: tcpStateMap["05"], TimeWait: tcpStateMap["06"], Close: tcpStateMap["07"], CloseWait: tcpStateMap["08"], LastAck: tcpStateMap["09"], Listen: tcpStateMap["0A"], Closing: tcpStateMap["0B"], } return stats, nil } func GetProcesses(cgroupManager cgroups.Manager) ([]int, error) { pids, err := cgroupManager.GetPids() if err != nil { return nil, err } return pids, nil } func DiskStatsCopy0(major, minor uint64) *info.PerDiskStats { disk := info.PerDiskStats{ Major: major, Minor: minor, } disk.Stats = make(map[string]uint64) return &disk } type DiskKey struct { Major uint64 Minor uint64 } func DiskStatsCopy1(disk_stat map[DiskKey]*info.PerDiskStats) []info.PerDiskStats { i := 0 stat := make([]info.PerDiskStats, len(disk_stat)) for _, disk := range disk_stat { stat[i] = *disk i++ } return stat } func DiskStatsCopy(blkio_stats []cgroups.BlkioStatEntry) (stat []info.PerDiskStats) { if len(blkio_stats) == 0 { return } disk_stat := make(map[DiskKey]*info.PerDiskStats) for i := range blkio_stats { major := blkio_stats[i].Major minor := blkio_stats[i].Minor disk_key := DiskKey{ Major: major, Minor: minor, } diskp, ok := disk_stat[disk_key] if !ok { diskp = DiskStatsCopy0(major, minor) disk_stat[disk_key] = diskp } op := blkio_stats[i].Op if op == "" { op = "Count" } diskp.Stats[op] = blkio_stats[i].Value } return DiskStatsCopy1(disk_stat) } // Convert libcontainer stats to info.ContainerStats. func setCpuStats(s *cgroups.Stats, ret *info.ContainerStats) { ret.Cpu.Usage.User = s.CpuStats.CpuUsage.UsageInUsermode ret.Cpu.Usage.System = s.CpuStats.CpuUsage.UsageInKernelmode n := len(s.CpuStats.CpuUsage.PercpuUsage) ret.Cpu.Usage.PerCpu = make([]uint64, n) ret.Cpu.Usage.Total = 0 for i := 0; i < n; i++ { ret.Cpu.Usage.PerCpu[i] = s.CpuStats.CpuUsage.PercpuUsage[i] ret.Cpu.Usage.Total += s.CpuStats.CpuUsage.PercpuUsage[i] } ret.Cpu.CFS.Periods = s.CpuStats.ThrottlingData.Periods ret.Cpu.CFS.ThrottledPeriods = s.CpuStats.ThrottlingData.ThrottledPeriods ret.Cpu.CFS.ThrottledTime = s.CpuStats.ThrottlingData.ThrottledTime } func setDiskIoStats(s *cgroups.Stats, ret *info.ContainerStats) { ret.DiskIo.IoServiceBytes = DiskStatsCopy(s.BlkioStats.IoServiceBytesRecursive) ret.DiskIo.IoServiced = DiskStatsCopy(s.BlkioStats.IoServicedRecursive) ret.DiskIo.IoQueued = DiskStatsCopy(s.BlkioStats.IoQueuedRecursive) ret.DiskIo.Sectors = DiskStatsCopy(s.BlkioStats.SectorsRecursive) ret.DiskIo.IoServiceTime = DiskStatsCopy(s.BlkioStats.IoServiceTimeRecursive) ret.DiskIo.IoWaitTime = DiskStatsCopy(s.BlkioStats.IoWaitTimeRecursive) ret.DiskIo.IoMerged = DiskStatsCopy(s.BlkioStats.IoMergedRecursive) ret.DiskIo.IoTime = DiskStatsCopy(s.BlkioStats.IoTimeRecursive) } func setMemoryStats(s *cgroups.Stats, ret *info.ContainerStats) { ret.Memory.Usage = s.MemoryStats.Usage.Usage ret.Memory.Failcnt = s.MemoryStats.Usage.Failcnt ret.Memory.Cache = s.MemoryStats.Stats["cache"] ret.Memory.RSS = s.MemoryStats.Stats["rss"] ret.Memory.Swap = s.MemoryStats.Stats["swap"] if v, ok := s.MemoryStats.Stats["pgfault"]; ok { ret.Memory.ContainerData.Pgfault = v ret.Memory.HierarchicalData.Pgfault = v } if v, ok := s.MemoryStats.Stats["pgmajfault"]; ok { ret.Memory.ContainerData.Pgmajfault = v ret.Memory.HierarchicalData.Pgmajfault = v } workingSet := ret.Memory.Usage if v, ok := s.MemoryStats.Stats["total_inactive_file"]; ok { if workingSet < v { workingSet = 0 } else { workingSet -= v } } ret.Memory.WorkingSet = workingSet } func setNetworkStats(libcontainerStats *libcontainer.Stats, ret *info.ContainerStats) { ret.Network.Interfaces = make([]info.InterfaceStats, len(libcontainerStats.Interfaces)) for i := range libcontainerStats.Interfaces { ret.Network.Interfaces[i] = info.InterfaceStats{ Name: libcontainerStats.Interfaces[i].Name, RxBytes: libcontainerStats.Interfaces[i].RxBytes, RxPackets: libcontainerStats.Interfaces[i].RxPackets, RxErrors: libcontainerStats.Interfaces[i].RxErrors, RxDropped: libcontainerStats.Interfaces[i].RxDropped, TxBytes: libcontainerStats.Interfaces[i].TxBytes, TxPackets: libcontainerStats.Interfaces[i].TxPackets, TxErrors: libcontainerStats.Interfaces[i].TxErrors, TxDropped: libcontainerStats.Interfaces[i].TxDropped, } } // Add to base struct for backwards compatibility. if len(ret.Network.Interfaces) > 0 { ret.Network.InterfaceStats = ret.Network.Interfaces[0] } } func newContainerStats(libcontainerStats *libcontainer.Stats) *info.ContainerStats { ret := &info.ContainerStats{ Timestamp: time.Now(), } if s := libcontainerStats.CgroupStats; s != nil { setCpuStats(s, ret) setDiskIoStats(s, ret) setMemoryStats(s, ret) } if len(libcontainerStats.Interfaces) > 0 { setNetworkStats(libcontainerStats, ret) } return ret }