// Collect reads cpu.stat for cgroups and per process cpu.stat
// entries for all processes in the cgroup
func (s *PerCgroupStat) Collect() {
file, err := os.Open(s.path + "/" + "cpu.stat")
defer file.Close()
if err != nil {
return
}
scanner := bufio.NewScanner(file)
for scanner.Scan() {
f := regexp.MustCompile("\\s+").Split(scanner.Text(), 2)
if f[0] == "nr_periods" {
s.NrPeriods.Set(misc.ParseUint(f[1]))
}
if f[0] == "nr_throttled" {
s.NrThrottled.Set(misc.ParseUint(f[1]))
}
if f[0] == "throttled_time" {
s.ThrottledTime.Set(misc.ParseUint(f[1]))
}
}
s.CfsPeriodUs.Set(
float64(misc.ReadUintFromFile(
s.path + "/" + "cpu.cfs_period_us")))
// negative values of quota indicate no quota.
// it is not possible for this variable to be zero
s.CfsQuotaUs.Set(
float64(misc.ReadUintFromFile(
s.path + "/" + "cpu.cfs_quota_us")))
// Calculate approximate cumulative CPU usage for all
// processes within this cgroup by calculating difference
// between sum number of ticks.
// We reset between loops because PIDs within cgroup can
// change and sum-counter from previous run can be
// unreliable
s.getCgroupCPUTimes()
time.Sleep(time.Millisecond * 1000)
s.getCgroupCPUTimes()
// Expose summary metrics for easy json access
s.UsageCount.Set(s.usage())
s.UserspaceCount.Set(s.userspace())
s.KernelCount.Set(s.kernel())
s.TotalCount.Set(s.Quota())
s.ThrottleCount.Set(s.Throttle())
// Reset counters
s.Utime.Reset()
s.Stime.Reset()
}
// Collect reads memory.stat and uses reflection to populate PerCgroupStat
func (s *PerCgroupStat) Collect() {
file, err := os.Open(s.path + "/" + "memory.stat")
if err != nil {
fmt.Println(err)
return
}
d := map[string]*metrics.Gauge{}
// Get all fields we care about
r := reflect.ValueOf(s).Elem()
typeOfT := r.Type()
for i := 0; i < r.NumField(); i++ {
f := r.Field(i)
if f.Kind().String() == "ptr" && f.Type().Elem() == reflect.TypeOf(metrics.Gauge{}) {
d[strings.ToLower(typeOfT.Field(i).Name)] =
f.Interface().(*metrics.Gauge)
}
}
scanner := bufio.NewScanner(file)
for scanner.Scan() {
f := regexp.MustCompile("[\\s]+").Split(scanner.Text(), 2)
g, ok := d[strings.ToLower(f[0])]
if ok {
parseCgroupMemLine(g, f)
}
}
s.Soft_Limit_In_Bytes.Set(
float64(misc.ReadUintFromFile(
s.path + "/" + "memory.soft_limit_in_bytes")))
s.UsageInBytes.Set(s.Usage())
}
// Collect reads /proc/net/dev to gather statistics for interfaces.
// Collect reads /sysfs to figure out interface capabilities.
// Collect is generally called directly when the package is initialized.
func (s *InterfaceStat) Collect() {
file, err := os.Open(root + "proc/net/dev")
defer file.Close()
if err != nil {
return
}
var rx [8]uint64
var tx [8]uint64
scanner := bufio.NewScanner(file)
scanner.Scan()
for scanner.Scan() {
f := strings.Split(scanner.Text(), ":")
if len(f) < 2 {
continue
}
dev := strings.TrimSpace(f[0])
rest := f[1]
fmt.Sscanf(rest,
"%d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d",
&rx[0], &rx[1], &rx[2], &rx[3], &rx[4], &rx[5], &rx[6], &rx[7],
&tx[0], &tx[1], &tx[2], &tx[3], &tx[4], &tx[5], &tx[6], &tx[7])
o, ok := s.Interfaces[dev]
if !ok {
o = NewPerInterfaceStat(s.m, dev)
s.Interfaces[dev] = o
}
d := o.Metrics
d.RXbytes.Set(rx[0])
d.RXpackets.Set(rx[1])
d.RXerrs.Set(rx[2])
d.RXdrop.Set(rx[3])
d.RXfifo.Set(rx[4])
d.RXframe.Set(rx[5])
d.RXcompressed.Set(rx[6])
d.RXmulticast.Set(rx[7])
d.TXbytes.Set(tx[0])
d.TXpackets.Set(tx[1])
d.TXerrs.Set(tx[2])
d.TXdrop.Set(tx[3])
d.TXfifo.Set(tx[4])
d.TXframe.Set(tx[5])
d.TXcompressed.Set(tx[6])
d.TXmulticast.Set(tx[7])
speed := misc.ReadUintFromFile(root + "sys/class/net/" + dev + "/speed")
if speed > 0 {
d.Speed.Set(float64(speed))
}
}
}
// Collect walks through /proc/diskstats and updates relevant metrics
func (s *DiskStat) Collect() {
file, err := os.Open(root + "proc/diskstats")
defer file.Close()
if err != nil {
return
}
var blkdev string
var major, minor uint64
var f [11]uint64
scanner := bufio.NewScanner(file)
for scanner.Scan() {
fmt.Sscanf(scanner.Text(),
"%d %d %s %d %d %d %d %d %d %d %d %d %d %d",
&major, &minor, &blkdev, &f[0], &f[1], &f[2], &f[3],
&f[4], &f[5], &f[6], &f[7], &f[8], &f[9], &f[10])
// skip loop/ram/dm drives
if major == 1 || major == 7 || major == 253 {
continue
}
// skip collecting for individual partitions
_, ok := s.blkdevs[blkdev]
if !ok {
continue
}
o, ok := s.Disks[blkdev]
if !ok {
o = NewPerDiskStat(s.m, blkdev)
s.Disks[blkdev] = o
}
sectorSize := misc.ReadUintFromFile(root + "sys/block/" + blkdev + "/queue/hw_sector_size")
o.ReadCompleted.Set(f[0])
o.ReadMerged.Set(f[1])
o.ReadSectors.Set(f[2])
o.ReadSpentMsecs.Set(f[3])
o.WriteCompleted.Set(f[4])
o.WriteMerged.Set(f[5])
o.WriteSectors.Set(f[6])
o.WriteSpentMsecs.Set(f[7])
o.IOInProgress.Set(float64(f[8]))
o.IOSpentMsecs.Set(f[9])
o.WeightedIOSpentMsecs.Set(f[10])
o.SectorSize.Set(float64(sectorSize))
}
}
