moby/pkg/sysinfo/sysinfo.go

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package sysinfo // import "github.com/docker/docker/pkg/sysinfo"
import "github.com/docker/docker/pkg/parsers"
// SysInfo stores information about which features a kernel supports.
// TODO Windows: Factor out platform specific capabilities.
type SysInfo struct {
// Whether the kernel supports AppArmor or not
AppArmor bool
// Whether the kernel supports Seccomp or not
Seccomp bool
cgroupMemInfo
cgroupCPUInfo
cgroupBlkioInfo
cgroupCpusetInfo
cgroupPids
// Whether IPv4 forwarding is supported or not, if this was disabled, networking will not work
IPv4ForwardingDisabled bool
// Whether bridge-nf-call-iptables is supported or not
BridgeNFCallIPTablesDisabled bool
// Whether bridge-nf-call-ip6tables is supported or not
BridgeNFCallIP6TablesDisabled bool
// Whether the cgroup has the mountpoint of "devices" or not
CgroupDevicesEnabled bool
}
type cgroupMemInfo struct {
// Whether memory limit is supported or not
MemoryLimit bool
// Whether swap limit is supported or not
SwapLimit bool
// Whether soft limit is supported or not
MemoryReservation bool
// Whether OOM killer disable is supported or not
OomKillDisable bool
// Whether memory swappiness is supported or not
MemorySwappiness bool
// Whether kernel memory limit is supported or not
KernelMemory bool
// Whether kernel memory TCP limit is supported or not
KernelMemoryTCP bool
}
type cgroupCPUInfo struct {
// Whether CPU shares is supported or not
CPUShares bool
// Whether CPU CFS(Completely Fair Scheduler) period is supported or not
CPUCfsPeriod bool
// Whether CPU CFS(Completely Fair Scheduler) quota is supported or not
CPUCfsQuota bool
// Whether CPU real-time period is supported or not
CPURealtimePeriod bool
// Whether CPU real-time runtime is supported or not
CPURealtimeRuntime bool
}
type cgroupBlkioInfo struct {
// Whether Block IO weight is supported or not
BlkioWeight bool
// Whether Block IO weight_device is supported or not
BlkioWeightDevice bool
// Whether Block IO read limit in bytes per second is supported or not
BlkioReadBpsDevice bool
// Whether Block IO write limit in bytes per second is supported or not
BlkioWriteBpsDevice bool
// Whether Block IO read limit in IO per second is supported or not
BlkioReadIOpsDevice bool
// Whether Block IO write limit in IO per second is supported or not
BlkioWriteIOpsDevice bool
}
type cgroupCpusetInfo struct {
// Whether Cpuset is supported or not
Cpuset bool
// Available Cpuset's cpus
Cpus string
// Available Cpuset's memory nodes
Mems string
}
type cgroupPids struct {
// Whether Pids Limit is supported or not
PidsLimit bool
}
// IsCpusetCpusAvailable returns `true` if the provided string set is contained
// in cgroup's cpuset.cpus set, `false` otherwise.
// If error is not nil a parsing error occurred.
func (c cgroupCpusetInfo) IsCpusetCpusAvailable(provided string) (bool, error) {
return isCpusetListAvailable(provided, c.Cpus)
}
// IsCpusetMemsAvailable returns `true` if the provided string set is contained
// in cgroup's cpuset.mems set, `false` otherwise.
// If error is not nil a parsing error occurred.
func (c cgroupCpusetInfo) IsCpusetMemsAvailable(provided string) (bool, error) {
return isCpusetListAvailable(provided, c.Mems)
}
func isCpusetListAvailable(provided, available string) (bool, error) {
parsedAvailable, err := parsers.ParseUintList(available)
if err != nil {
return false, err
}
// 8192 is the normal maximum number of CPUs in Linux, so accept numbers up to this
// or more if we actually have more CPUs.
max := 8192
for m := range parsedAvailable {
if m > max {
max = m
}
}
parsedProvided, err := parsers.ParseUintListMaximum(provided, max)
if err != nil {
return false, err
}
for k := range parsedProvided {
if !parsedAvailable[k] {
return false, nil
}
}
return true, nil
}
// Returns bit count of 1, used by NumCPU
func popcnt(x uint64) (n byte) {
x -= (x >> 1) & 0x5555555555555555
x = (x>>2)&0x3333333333333333 + x&0x3333333333333333
x += x >> 4
x &= 0x0f0f0f0f0f0f0f0f
x *= 0x0101010101010101
return byte(x >> 56)
}