procfs

package module
v0.15.1 Latest Latest
Warning

This package is not in the latest version of its module.

 Go to latest Published: May 31, 2024 License: Apache-2.0 Imports: 19 Imported by: 1,505

README

procfs

This package provides functions to retrieve system, kernel, and process metrics from the pseudo-filesystems /proc and /sys.

WARNING: This package is a work in progress. Its API may still break in backwards-incompatible ways without warnings. Use it at your own risk.

Go Reference CircleCI Go Report Card

Usage

The procfs library is organized by packages based on whether the gathered data is coming from /proc, /sys, or both. Each package contains an FS type which represents the path to either /proc, /sys, or both. For example, cpu statistics are gathered from /proc/stat and are available via the root procfs package. First, the proc filesystem mount point is initialized, and then the stat information is read.

fs, err := procfs.NewFS("/proc")
stats, err := fs.Stat()

Some sub-packages such as blockdevice, require access to both the proc and sys filesystems.

    fs, err := blockdevice.NewFS("/proc", "/sys")
    stats, err := fs.ProcDiskstats()

Package Organization

The packages in this project are organized according to (1) whether the data comes from the /proc or /sys filesystem and (2) the type of information being retrieved. For example, most process information can be gathered from the functions in the root procfs package. Information about block devices such as disk drives is available in the blockdevices sub-package.

Building and Testing

The procfs library is intended to be built as part of another application, so there are no distributable binaries.
However, most of the API includes unit tests which can be run with make test.

Updating Test Fixtures

The procfs library includes a set of test fixtures which include many example files from the /proc and /sys filesystems. These fixtures are included as a ttar file which is extracted automatically during testing. To add/update the test fixtures, first ensure the fixtures directory is up to date by removing the existing directory and then extracting the ttar file using make fixtures/.unpacked or just make test.

rm -rf testdata/fixtures
make test

Next, make the required changes to the extracted files in the fixtures directory. When the changes are complete, run make update_fixtures to create a new fixtures.ttar file based on the updated fixtures directory. And finally, verify the changes using git diff testdata/fixtures.ttar.

Documentation

Overview

Package procfs provides functions to retrieve system, kernel and process metrics from the pseudo-filesystem proc.

Example: 

package main

import (
	"fmt"
	"log"

	"github.com/prometheus/procfs"
)

func main() {
	p, err := procfs.Self()
	if err != nil {
		log.Fatalf("could not get process: %s", err)
	}

	stat, err := p.Stat()
	if err != nil {
		log.Fatalf("could not get process stat: %s", err)
	}

	fmt.Printf("command:  %s\n", stat.Comm)
	fmt.Printf("cpu time: %fs\n", stat.CPUTime())
	fmt.Printf("vsize:    %dB\n", stat.VirtualMemory())
	fmt.Printf("rss:      %dB\n", stat.ResidentMemory())
}

Index

Constants

View Source 
const (
	// completed entry (ha valid).
	ATFComplete = 0x02
	// permanent entry.
	ATFPermanent = 0x04
	// Publish entry.
	ATFPublish = 0x08
	// Has requested trailers.
	ATFUseTrailers = 0x10
	// Obsoleted: Want to use a netmask (only for proxy entries).
	ATFNetmask = 0x20
	// Don't answer this addresses.
	ATFDontPublish = 0x40
)

Learned from include/uapi/linux/if_arp.h.

View Source 
const DefaultMountPoint = fs.DefaultProcMountPoint

DefaultMountPoint is the common mount point of the proc filesystem.

Variables

View Source 
var (
	ErrFileParse  = errors.New("Error Parsing File")
	ErrFileRead   = errors.New("Error Reading File")
	ErrMountPoint = errors.New("Error Accessing Mount point")
)

Functions

This section is empty.

Types

type ARPEntry added in v0.0.4 

type ARPEntry struct {
	// IP address
	IPAddr net.IP
	// MAC address
	HWAddr net.HardwareAddr
	// Name of the device
	Device string
	// Flags
	Flags byte
}

ARPEntry contains a single row of the columnar data represented in /proc/net/arp.

func (*ARPEntry) IsComplete added in v0.8.0 

func (entry *ARPEntry) IsComplete() bool

IsComplete returns true if ARP entry is marked with complete flag.

type BuddyInfo 

type BuddyInfo struct {
	Node  string
	Zone  string
	Sizes []float64
}

A BuddyInfo is the details parsed from /proc/buddyinfo. The data is comprised of an array of free fragments of each size. The sizes are 2^n*PAGE_SIZE, where n is the array index.

type CPUInfo added in v0.0.5 

type CPUInfo struct {
	Processor       uint
	VendorID        string
	CPUFamily       string
	Model           string
	ModelName       string
	Stepping        string
	Microcode       string
	CPUMHz          float64
	CacheSize       string
	PhysicalID      string
	Siblings        uint
	CoreID          string
	CPUCores        uint
	APICID          string
	InitialAPICID   string
	FPU             string
	FPUException    string
	CPUIDLevel      uint
	WP              string
	Flags           []string
	Bugs            []string
	BogoMips        float64
	CLFlushSize     uint
	CacheAlignment  uint
	AddressSizes    string
	PowerManagement string
}

CPUInfo contains general information about a system CPU found in /proc/cpuinfo.

type CPUStat 

type CPUStat struct {
	User      float64
	Nice      float64
	System    float64
	Idle      float64
	Iowait    float64
	IRQ       float64
	SoftIRQ   float64
	Steal     float64
	Guest     float64
	GuestNice float64
}

CPUStat shows how much time the cpu spend in various stages.

type Cgroup added in v0.1.0 

type Cgroup struct {
	// HierarchyID that can be matched to a named hierarchy using /proc/cgroups. Cgroups V2 only has one
	// hierarchy, so HierarchyID is always 0. For cgroups v1 this is a unique ID number
	HierarchyID int
	// Controllers using this hierarchy of processes. Controllers are also known as subsystems. For
	// Cgroups V2 this may be empty, as all active controllers use the same hierarchy
	Controllers []string
	// Path of this control group, relative to the mount point of the cgroupfs representing this specific
	// hierarchy
	Path string
}

Cgroup models one line from /proc/[pid]/cgroup. Each Cgroup struct describes the placement of a PID inside a specific control hierarchy. The kernel has two cgroup APIs, v1 and v2. v1 has one hierarchy per available resource controller, while v2 has one unified hierarchy shared by all controllers. Regardless of v1 or v2, all hierarchies contain all running processes, so the question answerable with a Cgroup struct is 'where is this process in this hierarchy' (where==what path on the specific cgroupfs). By prefixing this path with the mount point of *this specific* hierarchy, you can locate the relevant pseudo-files needed to read/set the data for this PID in this hierarchy

Also see http://man7.org/linux/man-pages/man7/cgroups.7.html

type CgroupSummary added in v0.8.0 

type CgroupSummary struct {
	// The name of the controller. controller is also known as subsystem.
	SubsysName string
	// The unique ID of the cgroup hierarchy on which this controller is mounted.
	Hierarchy int
	// The number of control groups in this hierarchy using this controller.
	Cgroups int
	// This field contains the value 1 if this controller is enabled, or 0 if it has been disabled
	Enabled int
}

CgroupSummary models one line from /proc/cgroups. This file contains information about the controllers that are compiled into the kernel.

Also see http://man7.org/linux/man-pages/man7/cgroups.7.html

type ConntrackStatEntry added in v0.0.9 

type ConntrackStatEntry struct {
	Entries       uint64
	Searched      uint64
	Found         uint64
	New           uint64
	Invalid       uint64
	Ignore        uint64
	Delete        uint64
	DeleteList    uint64
	Insert        uint64
	InsertFailed  uint64
	Drop          uint64
	EarlyDrop     uint64
	SearchRestart uint64
}

A ConntrackStatEntry represents one line from net/stat/nf_conntrack and contains netfilter conntrack statistics at one CPU core.

type Crypto added in v0.0.4 

type Crypto struct {
	Alignmask   *uint64
	Async       bool
	Blocksize   *uint64
	Chunksize   *uint64
	Ctxsize     *uint64
	Digestsize  *uint64
	Driver      string
	Geniv       string
	Internal    string
	Ivsize      *uint64
	Maxauthsize *uint64
	MaxKeysize  *uint64
	MinKeysize  *uint64
	Module      string
	Name        string
	Priority    *int64
	Refcnt      *int64
	Seedsize    *uint64
	Selftest    string
	Type        string
	Walksize    *uint64
}

Crypto holds info parsed from /proc/crypto.

type FS 

type FS struct {
	// contains filtered or unexported fields
}

FS represents the pseudo-filesystem sys, which provides an interface to kernel data structures.

func NewDefaultFS added in v0.0.2 

func NewDefaultFS() (FS, error)

NewDefaultFS returns a new proc FS mounted under the default proc mountPoint. It will error if the mount point directory can't be read or is a file.

func NewFS 

func NewFS(mountPoint string) (FS, error)

NewFS returns a new proc FS mounted under the given proc mountPoint. It will error if the mount point directory can't be read or is a file.

func (FS) AllProcs 

func (fs FS) AllProcs() (Procs, error)

AllProcs returns a list of all currently available processes.

func (FS) AllThreads added in v0.9.0 

func (fs FS) AllThreads(pid int) (Procs, error)

AllThreads returns a list of all currently available threads for PID.

func (FS) BuddyInfo added in v0.0.2 

func (fs FS) BuddyInfo() ([]BuddyInfo, error)

BuddyInfo reads the buddyinfo statistics from the specified `proc` filesystem.

func (FS) CPUInfo added in v0.0.5 

func (fs FS) CPUInfo() ([]CPUInfo, error)

CPUInfo returns information about current system CPUs. See https://www.kernel.org/doc/Documentation/filesystems/proc.txt

func (FS) CgroupSummarys added in v0.8.0 

func (fs FS) CgroupSummarys() ([]CgroupSummary, error)

CgroupSummarys returns information about current /proc/cgroups.

func (FS) CmdLine added in v0.7.0 

func (fs FS) CmdLine() ([]string, error)

CmdLine returns the command line of the kernel.

func (FS) ConntrackStat added in v0.0.9 

func (fs FS) ConntrackStat() ([]ConntrackStatEntry, error)

ConntrackStat retrieves netfilter's conntrack statistics, split by CPU cores.

func (FS) Crypto added in v0.0.4 

func (fs FS) Crypto() ([]Crypto, error)

Crypto parses an crypto-file (/proc/crypto) and returns a slice of structs containing the relevant info. More information available here: https://kernel.readthedocs.io/en/sphinx-samples/crypto-API.html

func (FS) Fscacheinfo added in v0.1.0 

func (fs FS) Fscacheinfo() (Fscacheinfo, error)

Fscacheinfo returns information about current fscache statistics. See https://www.kernel.org/doc/Documentation/filesystems/caching/fscache.txt

func (FS) GatherARPEntries added in v0.0.4 

func (fs FS) GatherARPEntries() ([]ARPEntry, error)

GatherARPEntries retrieves all the ARP entries, parse the relevant columns, and then return a slice of ARPEntry's.

func (FS) IPVSBackendStatus added in v0.0.2 

func (fs FS) IPVSBackendStatus() ([]IPVSBackendStatus, error)

IPVSBackendStatus reads and returns the status of all (virtual,real) server pairs from the specified `proc` filesystem.

func (FS) IPVSStats added in v0.0.2 

func (fs FS) IPVSStats() (IPVSStats, error)

IPVSStats reads the IPVS statistics from the specified `proc` filesystem.

func (FS) KernelRandom added in v0.1.0 

func (fs FS) KernelRandom() (KernelRandom, error)

KernelRandom returns values from /proc/sys/kernel/random.

func (FS) LoadAvg added in v0.0.9 

func (fs FS) LoadAvg() (*LoadAvg, error)

LoadAvg returns loadavg from /proc.

func (FS) MDStat added in v0.0.2 

func (fs FS) MDStat() ([]MDStat, error)

MDStat parses an mdstat-file (/proc/mdstat) and returns a slice of structs containing the relevant info. More information available here: https://raid.wiki.kernel.org/index.php/Mdstat

func (FS) Meminfo added in v0.0.6 

func (fs FS) Meminfo() (Meminfo, error)

Meminfo returns an information about current kernel/system memory statistics. See https://www.kernel.org/doc/Documentation/filesystems/proc.txt

func (FS) NetDev added in v0.0.2 

func (fs FS) NetDev() (NetDev, error)

NetDev returns kernel/system statistics read from /proc/net/dev.

func (FS) NetProtocols added in v0.3.0 

func (fs FS) NetProtocols() (NetProtocolStats, error)

NetProtocols reads stats from /proc/net/protocols and returns a map of PortocolStatLine entries. As of this writing no official Linux Documentation exists, however the source is fairly self-explanatory and the format seems stable since its introduction in 2.6.12-rc2 Linux 2.6.12-rc2 - https://elixir.bootlin.com/linux/v2.6.12-rc2/source/net/core/sock.c#L1452 Linux 5.10 - https://elixir.bootlin.com/linux/v5.10.4/source/net/core/sock.c#L3586

func (FS) NetRoute added in v0.11.0 

func (fs FS) NetRoute() ([]NetRouteLine, error)

func (FS) NetSockstat added in v0.0.8 

func (fs FS) NetSockstat() (*NetSockstat, error)

NetSockstat retrieves IPv4 socket statistics.

func (FS) NetSockstat6 added in v0.0.8 

func (fs FS) NetSockstat6() (*NetSockstat, error)

NetSockstat6 retrieves IPv6 socket statistics.

If IPv6 is disabled on this kernel, the returned error can be checked with os.IsNotExist.

func (FS) NetSoftnetStat added in v0.0.9 

func (fs FS) NetSoftnetStat() ([]SoftnetStat, error)

NetSoftnetStat reads data from /proc/net/softnet_stat.

func (FS) NetStat added in v0.7.3 

func (fs FS) NetStat() ([]NetStat, error)

NetStat retrieves stats from `/proc/net/stat/`.

func (FS) NetTCP added in v0.4.0 

func (fs FS) NetTCP() (NetTCP, error)

NetTCP returns the IPv4 kernel/networking statistics for TCP datagrams read from /proc/net/tcp.

func (FS) NetTCP6 added in v0.4.0 

func (fs FS) NetTCP6() (NetTCP, error)

NetTCP6 returns the IPv6 kernel/networking statistics for TCP datagrams read from /proc/net/tcp6.

func (FS) NetTCP6Summary added in v0.4.0 

func (fs FS) NetTCP6Summary() (*NetTCPSummary, error)

NetTCP6Summary returns already computed statistics like the total queue lengths for TCP datagrams read from /proc/net/tcp6.

func (FS) NetTCPSummary added in v0.4.0 

func (fs FS) NetTCPSummary() (*NetTCPSummary, error)

NetTCPSummary returns already computed statistics like the total queue lengths for TCP datagrams read from /proc/net/tcp.

func (FS) NetUDP added in v0.0.9 

func (fs FS) NetUDP() (NetUDP, error)

NetUDP returns the IPv4 kernel/networking statistics for UDP datagrams read from /proc/net/udp.

func (FS) NetUDP6 added in v0.0.9 

func (fs FS) NetUDP6() (NetUDP, error)

NetUDP6 returns the IPv6 kernel/networking statistics for UDP datagrams read from /proc/net/udp6.

func (FS) NetUDP6Summary added in v0.0.9 

func (fs FS) NetUDP6Summary() (*NetUDPSummary, error)

NetUDP6Summary returns already computed statistics like the total queue lengths for UDP datagrams read from /proc/net/udp6.

func (FS) NetUDPSummary added in v0.0.9 

func (fs FS) NetUDPSummary() (*NetUDPSummary, error)

NetUDPSummary returns already computed statistics like the total queue lengths for UDP datagrams read from /proc/net/udp.

func (FS) NetUNIX added in v0.0.9 

func (fs FS) NetUNIX() (*NetUNIX, error)

NetUNIX returns data read from /proc/net/unix.

func (FS) NewProc deprecated 

func (fs FS) NewProc(pid int) (Proc, error)

NewProc returns a process for the given pid.

Deprecated: Use fs.Proc() instead.

func (FS) NewStat deprecated 

func (fs FS) NewStat() (Stat, error)

NewStat returns information about current cpu/process statistics. See: https://www.kernel.org/doc/Documentation/filesystems/proc.txt

Deprecated: Use fs.Stat() instead.

func (FS) NewTLSStat added in v0.13.0 

func (fs FS) NewTLSStat() (TLSStat, error)

NewTLSStat reads the tls_stat statistics.

func (FS) NewXfrmStat 

func (fs FS) NewXfrmStat() (XfrmStat, error)

NewXfrmStat reads the xfrm_stat statistics from the 'proc' filesystem.

func (FS) PSIStatsForResource added in v0.0.2 

func (fs FS) PSIStatsForResource(resource string) (PSIStats, error)

PSIStatsForResource reads pressure stall information for the specified resource from /proc/pressure/<resource>. At time of writing this can be either "cpu", "memory" or "io".

func (FS) Proc added in v0.0.2 

func (fs FS) Proc(pid int) (Proc, error)

Proc returns a process for the given pid.

func (FS) Schedstat added in v0.0.4 

func (fs FS) Schedstat() (*Schedstat, error)

Schedstat reads data from `/proc/schedstat`.

func (FS) Self 

func (fs FS) Self() (Proc, error)

Self returns a process for the current process.

func (FS) SlabInfo added in v0.5.0 

func (fs FS) SlabInfo() (SlabInfo, error)

SlabInfo reads data from `/proc/slabinfo`.

func (FS) Softirqs added in v0.8.0 

func (fs FS) Softirqs() (Softirqs, error)

func (FS) Stat added in v0.0.2 

func (fs FS) Stat() (Stat, error)

Stat returns information about current cpu/process statistics. See: https://www.kernel.org/doc/Documentation/filesystems/proc.txt

func (FS) Swaps added in v0.0.9 

func (fs FS) Swaps() ([]*Swap, error)

Swaps returns a slice of all configured swap devices on the system.

func (FS) SysctlInts added in v0.8.0 

func (fs FS) SysctlInts(sysctl string) ([]int, error)

func (FS) SysctlStrings added in v0.8.0 

func (fs FS) SysctlStrings(sysctl string) ([]string, error)

func (FS) Thread added in v0.9.0 

func (fs FS) Thread(pid, tid int) (Proc, error)

Thread returns a process for a given PID, TID.

func (FS) VM added in v0.0.4 

func (fs FS) VM() (*VM, error)

VM reads the VM statistics from the specified `proc` filesystem.

func (FS) Wireless added in v0.10.0 

func (fs FS) Wireless() ([]*Wireless, error)

Wireless returns kernel wireless statistics.

func (FS) Zoneinfo added in v0.0.4 

func (fs FS) Zoneinfo() ([]Zoneinfo, error)

Zoneinfo parses an zoneinfo-file (/proc/zoneinfo) and returns a slice of structs containing the relevant info. More information available here: https://www.kernel.org/doc/Documentation/sysctl/vm.txt

type Fscacheinfo added in v0.1.0 

type Fscacheinfo struct {
	// Number of index cookies allocated
	IndexCookiesAllocated uint64
	// data storage cookies allocated
	DataStorageCookiesAllocated uint64
	// Number of special cookies allocated
	SpecialCookiesAllocated uint64
	// Number of objects allocated
	ObjectsAllocated uint64
	// Number of object allocation failures
	ObjectAllocationsFailure uint64
	// Number of objects that reached the available state
	ObjectsAvailable uint64
	// Number of objects that reached the dead state
	ObjectsDead uint64
	// Number of objects that didn't have a coherency check
	ObjectsWithoutCoherencyCheck uint64
	// Number of objects that passed a coherency check
	ObjectsWithCoherencyCheck uint64
	// Number of objects that needed a coherency data update
	ObjectsNeedCoherencyCheckUpdate uint64
	// Number of objects that were declared obsolete
	ObjectsDeclaredObsolete uint64
	// Number of pages marked as being cached
	PagesMarkedAsBeingCached uint64
	// Number of uncache page requests seen
	UncachePagesRequestSeen uint64
	// Number of acquire cookie requests seen
	AcquireCookiesRequestSeen uint64
	// Number of acq reqs given a NULL parent
	AcquireRequestsWithNullParent uint64
	// Number of acq reqs rejected due to no cache available
	AcquireRequestsRejectedNoCacheAvailable uint64
	// Number of acq reqs succeeded
	AcquireRequestsSucceeded uint64
	// Number of acq reqs rejected due to error
	AcquireRequestsRejectedDueToError uint64
	// Number of acq reqs failed on ENOMEM
	AcquireRequestsFailedDueToEnomem uint64
	// Number of lookup calls made on cache backends
	LookupsNumber uint64
	// Number of negative lookups made
	LookupsNegative uint64
	// Number of positive lookups made
	LookupsPositive uint64
	// Number of objects created by lookup
	ObjectsCreatedByLookup uint64
	// Number of lookups timed out and requeued
	LookupsTimedOutAndRequed uint64
	InvalidationsNumber      uint64
	InvalidationsRunning     uint64
	// Number of update cookie requests seen
	UpdateCookieRequestSeen uint64
	// Number of upd reqs given a NULL parent
	UpdateRequestsWithNullParent uint64
	// Number of upd reqs granted CPU time
	UpdateRequestsRunning uint64
	// Number of relinquish cookie requests seen
	RelinquishCookiesRequestSeen uint64
	// Number of rlq reqs given a NULL parent
	RelinquishCookiesWithNullParent uint64
	// Number of rlq reqs waited on completion of creation
	RelinquishRequestsWaitingCompleteCreation uint64
	// Relinqs rtr
	RelinquishRetries uint64
	// Number of attribute changed requests seen
	AttributeChangedRequestsSeen uint64
	// Number of attr changed requests queued
	AttributeChangedRequestsQueued uint64
	// Number of attr changed rejected -ENOBUFS
	AttributeChangedRejectDueToEnobufs uint64
	// Number of attr changed failed -ENOMEM
	AttributeChangedFailedDueToEnomem uint64
	// Number of attr changed ops given CPU time
	AttributeChangedOps uint64
	// Number of allocation requests seen
	AllocationRequestsSeen uint64
	// Number of successful alloc reqs
	AllocationOkRequests uint64
	// Number of alloc reqs that waited on lookup completion
	AllocationWaitingOnLookup uint64
	// Number of alloc reqs rejected -ENOBUFS
	AllocationsRejectedDueToEnobufs uint64
	// Number of alloc reqs aborted -ERESTARTSYS
	AllocationsAbortedDueToErestartsys uint64
	// Number of alloc reqs submitted
	AllocationOperationsSubmitted uint64
	// Number of alloc reqs waited for CPU time
	AllocationsWaitedForCPU uint64
	// Number of alloc reqs aborted due to object death
	AllocationsAbortedDueToObjectDeath uint64
	// Number of retrieval (read) requests seen
	RetrievalsReadRequests uint64
	// Number of successful retr reqs
	RetrievalsOk uint64
	// Number of retr reqs that waited on lookup completion
	RetrievalsWaitingLookupCompletion uint64
	// Number of retr reqs returned -ENODATA
	RetrievalsReturnedEnodata uint64
	// Number of retr reqs rejected -ENOBUFS
	RetrievalsRejectedDueToEnobufs uint64
	// Number of retr reqs aborted -ERESTARTSYS
	RetrievalsAbortedDueToErestartsys uint64
	// Number of retr reqs failed -ENOMEM
	RetrievalsFailedDueToEnomem uint64
	// Number of retr reqs submitted
	RetrievalsRequests uint64
	// Number of retr reqs waited for CPU time
	RetrievalsWaitingCPU uint64
	// Number of retr reqs aborted due to object death
	RetrievalsAbortedDueToObjectDeath uint64
	// Number of storage (write) requests seen
	StoreWriteRequests uint64
	// Number of successful store reqs
	StoreSuccessfulRequests uint64
	// Number of store reqs on a page already pending storage
	StoreRequestsOnPendingStorage uint64
	// Number of store reqs rejected -ENOBUFS
	StoreRequestsRejectedDueToEnobufs uint64
	// Number of store reqs failed -ENOMEM
	StoreRequestsFailedDueToEnomem uint64
	// Number of store reqs submitted
	StoreRequestsSubmitted uint64
	// Number of store reqs granted CPU time
	StoreRequestsRunning uint64
	// Number of pages given store req processing time
	StorePagesWithRequestsProcessing uint64
	// Number of store reqs deleted from tracking tree
	StoreRequestsDeleted uint64
	// Number of store reqs over store limit
	StoreRequestsOverStoreLimit uint64
	// Number of release reqs against pages with no pending store
	ReleaseRequestsAgainstPagesWithNoPendingStorage uint64
	// Number of release reqs against pages stored by time lock granted
	ReleaseRequestsAgainstPagesStoredByTimeLockGranted uint64
	// Number of release reqs ignored due to in-progress store
	ReleaseRequestsIgnoredDueToInProgressStore uint64
	// Number of page stores cancelled due to release req
	PageStoresCancelledByReleaseRequests uint64
	VmscanWaiting                        uint64
	// Number of times async ops added to pending queues
	OpsPending uint64
	// Number of times async ops given CPU time
	OpsRunning uint64
	// Number of times async ops queued for processing
	OpsEnqueued uint64
	// Number of async ops cancelled
	OpsCancelled uint64
	// Number of async ops rejected due to object lookup/create failure
	OpsRejected uint64
	// Number of async ops initialised
	OpsInitialised uint64
	// Number of async ops queued for deferred release
	OpsDeferred uint64
	// Number of async ops released (should equal ini=N when idle)
	OpsReleased uint64
	// Number of deferred-release async ops garbage collected
	OpsGarbageCollected uint64
	// Number of in-progress alloc_object() cache ops
	CacheopAllocationsinProgress uint64
	// Number of in-progress lookup_object() cache ops
	CacheopLookupObjectInProgress uint64
	// Number of in-progress lookup_complete() cache ops
	CacheopLookupCompleteInPorgress uint64
	// Number of in-progress grab_object() cache ops
	CacheopGrabObjectInProgress uint64
	CacheopInvalidations        uint64
	// Number of in-progress update_object() cache ops
	CacheopUpdateObjectInProgress uint64
	// Number of in-progress drop_object() cache ops
	CacheopDropObjectInProgress uint64
	// Number of in-progress put_object() cache ops
	CacheopPutObjectInProgress uint64
	// Number of in-progress attr_changed() cache ops
	CacheopAttributeChangeInProgress uint64
	// Number of in-progress sync_cache() cache ops
	CacheopSyncCacheInProgress uint64
	// Number of in-progress read_or_alloc_page() cache ops
	CacheopReadOrAllocPageInProgress uint64
	// Number of in-progress read_or_alloc_pages() cache ops
	CacheopReadOrAllocPagesInProgress uint64
	// Number of in-progress allocate_page() cache ops
	CacheopAllocatePageInProgress uint64
	// Number of in-progress allocate_pages() cache ops
	CacheopAllocatePagesInProgress uint64
	// Number of in-progress write_page() cache ops
	CacheopWritePagesInProgress uint64
	// Number of in-progress uncache_page() cache ops
	CacheopUncachePagesInProgress uint64
	// Number of in-progress dissociate_pages() cache ops
	CacheopDissociatePagesInProgress uint64
	// Number of object lookups/creations rejected due to lack of space
	CacheevLookupsAndCreationsRejectedLackSpace uint64
	// Number of stale objects deleted
	CacheevStaleObjectsDeleted uint64
	// Number of objects retired when relinquished
	CacheevRetiredWhenReliquished uint64
	// Number of objects culled
	CacheevObjectsCulled uint64
}

Fscacheinfo represents fscache statistics.

type IPVSBackendStatus 

type IPVSBackendStatus struct {
	// The local (virtual) IP address.
	LocalAddress net.IP
	// The remote (real) IP address.
	RemoteAddress net.IP
	// The local (virtual) port.
	LocalPort uint16
	// The remote (real) port.
	RemotePort uint16
	// The local firewall mark
	LocalMark string
	// The transport protocol (TCP, UDP).
	Proto string
	// The current number of active connections for this virtual/real address pair.
	ActiveConn uint64
	// The current number of inactive connections for this virtual/real address pair.
	InactConn uint64
	// The current weight of this virtual/real address pair.
	Weight uint64
}

IPVSBackendStatus holds current metrics of one virtual / real address pair.

type IPVSStats 

type IPVSStats struct {
	// Total count of connections.
	Connections uint64
	// Total incoming packages processed.
	IncomingPackets uint64
	// Total outgoing packages processed.
	OutgoingPackets uint64
	// Total incoming traffic.
	IncomingBytes uint64
	// Total outgoing traffic.
	OutgoingBytes uint64
}

IPVSStats holds IPVS statistics, as exposed by the kernel in `/proc/net/ip_vs_stats`.

type Icmp added in v0.8.0 

type Icmp struct {
	InMsgs           *float64
	InErrors         *float64
	InCsumErrors     *float64
	InDestUnreachs   *float64
	InTimeExcds      *float64
	InParmProbs      *float64
	InSrcQuenchs     *float64
	InRedirects      *float64
	InEchos          *float64
	InEchoReps       *float64
	InTimestamps     *float64
	InTimestampReps  *float64
	InAddrMasks      *float64
	InAddrMaskReps   *float64
	OutMsgs          *float64
	OutErrors        *float64
	OutDestUnreachs  *float64
	OutTimeExcds     *float64
	OutParmProbs     *float64
	OutSrcQuenchs    *float64
	OutRedirects     *float64
	OutEchos         *float64
	OutEchoReps      *float64
	OutTimestamps    *float64
	OutTimestampReps *float64
	OutAddrMasks     *float64
	OutAddrMaskReps  *float64
}

type Icmp6 added in v0.8.0 

type Icmp6 struct {
	InMsgs                    *float64
	InErrors                  *float64
	OutMsgs                   *float64
	OutErrors                 *float64
	InCsumErrors              *float64
	InDestUnreachs            *float64
	InPktTooBigs              *float64
	InTimeExcds               *float64
	InParmProblems            *float64
	InEchos                   *float64
	InEchoReplies             *float64
	InGroupMembQueries        *float64
	InGroupMembResponses      *float64
	InGroupMembReductions     *float64
	InRouterSolicits          *float64
	InRouterAdvertisements    *float64
	InNeighborSolicits        *float64
	InNeighborAdvertisements  *float64
	InRedirects               *float64
	InMLDv2Reports            *float64
	OutDestUnreachs           *float64
	OutPktTooBigs             *float64
	OutTimeExcds              *float64
	OutParmProblems           *float64
	OutEchos                  *float64
	OutEchoReplies            *float64
	OutGroupMembQueries       *float64
	OutGroupMembResponses     *float64
	OutGroupMembReductions    *float64
	OutRouterSolicits         *float64
	OutRouterAdvertisements   *float64
	OutNeighborSolicits       *float64
	OutNeighborAdvertisements *float64
	OutRedirects              *float64
	OutMLDv2Reports           *float64
	InType1                   *float64
	InType134                 *float64
	InType135                 *float64
	InType136                 *float64
	InType143                 *float64
	OutType133                *float64
	OutType135                *float64
	OutType136                *float64
	OutType143                *float64
}

type IcmpMsg added in v0.8.0 

type IcmpMsg struct {
	InType3  *float64
	OutType3 *float64
}

type InotifyInfo added in v0.0.4 

type InotifyInfo struct {
	// Watch descriptor number
	WD string
	// Inode number
	Ino string
	// Device ID
	Sdev string
	// Mask of events being monitored
	Mask string
}

InotifyInfo represents a single inotify line in the fdinfo file.

type Interrupt added in v0.9.0 

type Interrupt struct {
	// Info is the type of interrupt.
	Info string
	// Devices is the name of the device that is located at that IRQ
	Devices string
	// Values is the number of interrupts per CPU.
	Values []string
}

Interrupt represents a single interrupt line.

type Interrupts added in v0.9.0 

type Interrupts map[string]Interrupt

Interrupts models the content of /proc/interrupts. Key is the IRQ number. - https://access.redhat.com/documentation/en-us/red_hat_enterprise_linux/6/html/deployment_guide/s2-proc-interrupts - https://raspberrypi.stackexchange.com/questions/105802/explanation-of-proc-interrupts-output

type Ip added in v0.8.0 

type Ip struct {
	Forwarding      *float64
	DefaultTTL      *float64
	InReceives      *float64
	InHdrErrors     *float64
	InAddrErrors    *float64
	ForwDatagrams   *float64
	InUnknownProtos *float64
	InDiscards      *float64
	InDelivers      *float64
	OutRequests     *float64
	OutDiscards     *float64
	OutNoRoutes     *float64
	ReasmTimeout    *float64
	ReasmReqds      *float64
	ReasmOKs        *float64
	ReasmFails      *float64
	FragOKs         *float64
	FragFails       *float64
	FragCreates     *float64
}

type Ip6 added in v0.8.0 

type Ip6 struct {
	InReceives       *float64
	InHdrErrors      *float64
	InTooBigErrors   *float64
	InNoRoutes       *float64
	InAddrErrors     *float64
	InUnknownProtos  *float64
	InTruncatedPkts  *float64
	InDiscards       *float64
	InDelivers       *float64
	OutForwDatagrams *float64
	OutRequests      *float64
	OutDiscards      *float64
	OutNoRoutes      *float64
	ReasmTimeout     *float64
	ReasmReqds       *float64
	ReasmOKs         *float64
	ReasmFails       *float64
	FragOKs          *float64
	FragFails        *float64
	FragCreates      *float64
	InMcastPkts      *float64
	OutMcastPkts     *float64
	InOctets         *float64
	OutOctets        *float64
	InMcastOctets    *float64
	OutMcastOctets   *float64
	InBcastOctets    *float64
	OutBcastOctets   *float64
	InNoECTPkts      *float64
	InECT1Pkts       *float64
	InECT0Pkts       *float64
	InCEPkts         *float64
}

type IpExt added in v0.8.0 

type IpExt struct {
	InNoRoutes      *float64
	InTruncatedPkts *float64
	InMcastPkts     *float64
	OutMcastPkts    *float64
	InBcastPkts     *float64
	OutBcastPkts    *float64
	InOctets        *float64
	OutOctets       *float64
	InMcastOctets   *float64
	OutMcastOctets  *float64
	InBcastOctets   *float64
	OutBcastOctets  *float64
	InCsumErrors    *float64
	InNoECTPkts     *float64
	InECT1Pkts      *float64
	InECT0Pkts      *float64
	InCEPkts        *float64
	ReasmOverlaps   *float64
}

type KernelRandom added in v0.1.0 

type KernelRandom struct {
	// EntropyAvaliable gives the available entropy, in bits.
	EntropyAvaliable *uint64
	// PoolSize gives the size of the entropy pool, in bits.
	PoolSize *uint64
	// URandomMinReseedSeconds is the number of seconds after which the DRNG will be reseeded.
	URandomMinReseedSeconds *uint64
	// WriteWakeupThreshold the number of bits of entropy below which we wake up processes
	// that do a select(2) or poll(2) for write access to /dev/random.
	WriteWakeupThreshold *uint64
	// ReadWakeupThreshold is the number of bits of entropy required for waking up processes that sleep
	// waiting for entropy from /dev/random.
	ReadWakeupThreshold *uint64
}

KernelRandom contains information about to the kernel's random number generator.

type LoadAvg added in v0.0.9 

type LoadAvg struct {
	Load1  float64
	Load5  float64
	Load15 float64
}

LoadAvg represents an entry in /proc/loadavg.

type MDStat 

type MDStat struct {
	// Name of the device.
	Name string
	// activity-state of the device.
	ActivityState string
	// Number of active disks.
	DisksActive int64
	// Total number of disks the device requires.
	DisksTotal int64
	// Number of failed disks.
	DisksFailed int64
	// Number of "down" disks. (the _ indicator in the status line)
	DisksDown int64
	// Spare disks in the device.
	DisksSpare int64
	// Number of blocks the device holds.
	BlocksTotal int64
	// Number of blocks on the device that are in sync.
	BlocksSynced int64
	// Number of blocks on the device that need to be synced.
	BlocksToBeSynced int64
	// progress percentage of current sync
	BlocksSyncedPct float64
	// estimated finishing time for current sync (in minutes)
	BlocksSyncedFinishTime float64
	// current sync speed (in Kilobytes/sec)
	BlocksSyncedSpeed float64
	// Name of md component devices
	Devices []string
}

MDStat holds info parsed from /proc/mdstat.

type Meminfo added in v0.0.6 

type Meminfo struct {
	// Total usable ram (i.e. physical ram minus a few reserved
	// bits and the kernel binary code)
	MemTotal *uint64
	// The sum of LowFree+HighFree
	MemFree *uint64
	// An estimate of how much memory is available for starting
	// new applications, without swapping. Calculated from
	// MemFree, SReclaimable, the size of the file LRU lists, and
	// the low watermarks in each zone.  The estimate takes into
	// account that the system needs some page cache to function
	// well, and that not all reclaimable slab will be
	// reclaimable, due to items being in use. The impact of those
	// factors will vary from system to system.
	MemAvailable *uint64
	// Relatively temporary storage for raw disk blocks shouldn't
	// get tremendously large (20MB or so)
	Buffers *uint64
	Cached  *uint64
	// Memory that once was swapped out, is swapped back in but
	// still also is in the swapfile (if memory is needed it
	// doesn't need to be swapped out AGAIN because it is already
	// in the swapfile. This saves I/O)
	SwapCached *uint64
	// Memory that has been used more recently and usually not
	// reclaimed unless absolutely necessary.
	Active *uint64
	// Memory which has been less recently used.  It is more
	// eligible to be reclaimed for other purposes
	Inactive     *uint64
	ActiveAnon   *uint64
	InactiveAnon *uint64
	ActiveFile   *uint64
	InactiveFile *uint64
	Unevictable  *uint64
	Mlocked      *uint64
	// total amount of swap space available
	SwapTotal *uint64
	// Memory which has been evicted from RAM, and is temporarily
	// on the disk
	SwapFree *uint64
	// Memory which is waiting to get written back to the disk
	Dirty *uint64
	// Memory which is actively being written back to the disk
	Writeback *uint64
	// Non-file backed pages mapped into userspace page tables
	AnonPages *uint64
	// files which have been mapped, such as libraries
	Mapped *uint64
	Shmem  *uint64
	// in-kernel data structures cache
	Slab *uint64
	// Part of Slab, that might be reclaimed, such as caches
	SReclaimable *uint64
	// Part of Slab, that cannot be reclaimed on memory pressure
	SUnreclaim  *uint64
	KernelStack *uint64
	// amount of memory dedicated to the lowest level of page
	// tables.
	PageTables *uint64
	// NFS pages sent to the server, but not yet committed to
	// stable storage
	NFSUnstable *uint64
	// Memory used for block device "bounce buffers"
	Bounce *uint64
	// Memory used by FUSE for temporary writeback buffers
	WritebackTmp *uint64
	// Based on the overcommit ratio ('vm.overcommit_ratio'),
	// this is the total amount of  memory currently available to
	// be allocated on the system. This limit is only adhered to
	// if strict overcommit accounting is enabled (mode 2 in
	// 'vm.overcommit_memory').
	// The CommitLimit is calculated with the following formula:
	// CommitLimit = ([total RAM pages] - [total huge TLB pages]) *
	//                overcommit_ratio / 100 + [total swap pages]
	// For example, on a system with 1G of physical RAM and 7G
	// of swap with a `vm.overcommit_ratio` of 30 it would
	// yield a CommitLimit of 7.3G.
	// For more details, see the memory overcommit documentation
	// in vm/overcommit-accounting.
	CommitLimit *uint64
	// The amount of memory presently allocated on the system.
	// The committed memory is a sum of all of the memory which
	// has been allocated by processes, even if it has not been
	// "used" by them as of yet. A process which malloc()'s 1G
	// of memory, but only touches 300M of it will show up as
	// using 1G. This 1G is memory which has been "committed" to
	// by the VM and can be used at any time by the allocating
	// application. With strict overcommit enabled on the system
	// (mode 2 in 'vm.overcommit_memory'),allocations which would
	// exceed the CommitLimit (detailed above) will not be permitted.
	// This is useful if one needs to guarantee that processes will
	// not fail due to lack of memory once that memory has been
	// successfully allocated.
	CommittedAS *uint64
	// total size of vmalloc memory area
	VmallocTotal *uint64
	// amount of vmalloc area which is used
	VmallocUsed *uint64
	// largest contiguous block of vmalloc area which is free
	VmallocChunk      *uint64
	Percpu            *uint64
	HardwareCorrupted *uint64
	AnonHugePages     *uint64
	ShmemHugePages    *uint64
	ShmemPmdMapped    *uint64
	CmaTotal          *uint64
	CmaFree           *uint64
	HugePagesTotal    *uint64
	HugePagesFree     *uint64
	HugePagesRsvd     *uint64
	HugePagesSurp     *uint64
	Hugepagesize      *uint64
	DirectMap4k       *uint64
	DirectMap2M       *uint64
	DirectMap1G       *uint64

	// The struct fields below are the byte-normalized counterparts to the
	// existing struct fields. Values are normalized using the optional
	// unit field in the meminfo line.
	MemTotalBytes          *uint64
	MemFreeBytes           *uint64
	MemAvailableBytes      *uint64
	BuffersBytes           *uint64
	CachedBytes            *uint64
	SwapCachedBytes        *uint64
	ActiveBytes            *uint64
	InactiveBytes          *uint64
	ActiveAnonBytes        *uint64
	InactiveAnonBytes      *uint64
	ActiveFileBytes        *uint64
	InactiveFileBytes      *uint64
	UnevictableBytes       *uint64
	MlockedBytes           *uint64
	SwapTotalBytes         *uint64
	SwapFreeBytes          *uint64
	DirtyBytes             *uint64
	WritebackBytes         *uint64
	AnonPagesBytes         *uint64
	MappedBytes            *uint64
	ShmemBytes             *uint64
	SlabBytes              *uint64
	SReclaimableBytes      *uint64
	SUnreclaimBytes        *uint64
	KernelStackBytes       *uint64
	PageTablesBytes        *uint64
	NFSUnstableBytes       *uint64
	BounceBytes            *uint64
	WritebackTmpBytes      *uint64
	CommitLimitBytes       *uint64
	CommittedASBytes       *uint64
	VmallocTotalBytes      *uint64
	VmallocUsedBytes       *uint64
	VmallocChunkBytes      *uint64
	PercpuBytes            *uint64
	HardwareCorruptedBytes *uint64
	AnonHugePagesBytes     *uint64
	ShmemHugePagesBytes    *uint64
	ShmemPmdMappedBytes    *uint64
	CmaTotalBytes          *uint64
	CmaFreeBytes           *uint64
	HugepagesizeBytes      *uint64
	DirectMap4kBytes       *uint64
	DirectMap2MBytes       *uint64
	DirectMap1GBytes       *uint64
}

Meminfo represents memory statistics.

type Mount 

type Mount struct {
	// Name of the device.
	Device string
	// The mount point of the device.
	Mount string
	// The filesystem type used by the device.
	Type string
	// If available additional statistics related to this Mount.
	// Use a type assertion to determine if additional statistics are available.
	Stats MountStats
}

A Mount is a device mount parsed from /proc/[pid]/mountstats.

type MountInfo added in v0.0.3 

type MountInfo struct {
	// Unique ID for the mount
	MountID int
	// The ID of the parent mount
	ParentID int
	// The value of `st_dev` for the files on this FS
	MajorMinorVer string
	// The pathname of the directory in the FS that forms
	// the root for this mount
	Root string
	// The pathname of the mount point relative to the root
	MountPoint string
	// Mount options
	Options map[string]string
	// Zero or more optional fields
	OptionalFields map[string]string
	// The Filesystem type
	FSType string
	// FS specific information or "none"
	Source string
	// Superblock options
	SuperOptions map[string]string
}

A MountInfo is a type that describes the details, options for each mount, parsed from /proc/self/mountinfo. The fields described in each entry of /proc/self/mountinfo is described in the following man page. http://man7.org/linux/man-pages/man5/proc.5.html

func GetMounts added in v0.0.3 

func GetMounts() ([]*MountInfo, error)

GetMounts retrieves mountinfo information from `/proc/self/mountinfo`.

func GetProcMounts added in v0.0.3 

func GetProcMounts(pid int) ([]*MountInfo, error)

GetProcMounts retrieves mountinfo information from a processes' `/proc/<pid>/mountinfo`.

type MountStats 

type MountStats interface {
	// contains filtered or unexported methods
}

A MountStats is a type which contains detailed statistics for a specific type of Mount.

type MountStatsNFS 

type MountStatsNFS struct {
	// The version of statistics provided.
	StatVersion string
	// The mount options of the NFS mount.
	Opts map[string]string
	// The age of the NFS mount.
	Age time.Duration
	// Statistics related to byte counters for various operations.
	Bytes NFSBytesStats
	// Statistics related to various NFS event occurrences.
	Events NFSEventsStats
	// Statistics broken down by filesystem operation.
	Operations []NFSOperationStats
	// Statistics about the NFS RPC transport.
	Transport []NFSTransportStats
}

A MountStatsNFS is a MountStats implementation for NFSv3 and v4 mounts.

type NFSBytesStats 

type NFSBytesStats struct {
	// Number of bytes read using the read() syscall.
	Read uint64
	// Number of bytes written using the write() syscall.
	Write uint64
	// Number of bytes read using the read() syscall in O_DIRECT mode.
	DirectRead uint64
	// Number of bytes written using the write() syscall in O_DIRECT mode.
	DirectWrite uint64
	// Number of bytes read from the NFS server, in total.
	ReadTotal uint64
	// Number of bytes written to the NFS server, in total.
	WriteTotal uint64
	// Number of pages read directly via mmap()'d files.
	ReadPages uint64
	// Number of pages written directly via mmap()'d files.
	WritePages uint64
}

A NFSBytesStats contains statistics about the number of bytes read and written by an NFS client to and from an NFS server.

type NFSEventsStats 

type NFSEventsStats struct {
	// Number of times cached inode attributes are re-validated from the server.
	InodeRevalidate uint64
	// Number of times cached dentry nodes are re-validated from the server.
	DnodeRevalidate uint64
	// Number of times an inode cache is cleared.
	DataInvalidate uint64
	// Number of times cached inode attributes are invalidated.
	AttributeInvalidate uint64
	// Number of times files or directories have been open()'d.
	VFSOpen uint64
	// Number of times a directory lookup has occurred.
	VFSLookup uint64
	// Number of times permissions have been checked.
	VFSAccess uint64
	// Number of updates (and potential writes) to pages.
	VFSUpdatePage uint64
	// Number of pages read directly via mmap()'d files.
	VFSReadPage uint64
	// Number of times a group of pages have been read.
	VFSReadPages uint64
	// Number of pages written directly via mmap()'d files.
	VFSWritePage uint64
	// Number of times a group of pages have been written.
	VFSWritePages uint64
	// Number of times directory entries have been read with getdents().
	VFSGetdents uint64
	// Number of times attributes have been set on inodes.
	VFSSetattr uint64
	// Number of pending writes that have been forcefully flushed to the server.
	VFSFlush uint64
	// Number of times fsync() has been called on directories and files.
	VFSFsync uint64
	// Number of times locking has been attempted on a file.
	VFSLock uint64
	// Number of times files have been closed and released.
	VFSFileRelease uint64
	// Unknown.  Possibly unused.
	CongestionWait uint64
	// Number of times files have been truncated.
	Truncation uint64
	// Number of times a file has been grown due to writes beyond its existing end.
	WriteExtension uint64
	// Number of times a file was removed while still open by another process.
	SillyRename uint64
	// Number of times the NFS server gave less data than expected while reading.
	ShortRead uint64
	// Number of times the NFS server wrote less data than expected while writing.
	ShortWrite uint64
	// Number of times the NFS server indicated EJUKEBOX; retrieving data from
	// offline storage.
	JukeboxDelay uint64
	// Number of NFS v4.1+ pNFS reads.
	PNFSRead uint64
	// Number of NFS v4.1+ pNFS writes.
	PNFSWrite uint64
}

A NFSEventsStats contains statistics about NFS event occurrences.

type NFSOperationStats 

type NFSOperationStats struct {
	// The name of the operation.
	Operation string
	// Number of requests performed for this operation.
	Requests uint64
	// Number of times an actual RPC request has been transmitted for this operation.
	Transmissions uint64
	// Number of times a request has had a major timeout.
	MajorTimeouts uint64
	// Number of bytes sent for this operation, including RPC headers and payload.
	BytesSent uint64
	// Number of bytes received for this operation, including RPC headers and payload.
	BytesReceived uint64
	// Duration all requests spent queued for transmission before they were sent.
	CumulativeQueueMilliseconds uint64
	// Duration it took to get a reply back after the request was transmitted.
	CumulativeTotalResponseMilliseconds uint64
	// Duration from when a request was enqueued to when it was completely handled.
	CumulativeTotalRequestMilliseconds uint64
	// The count of operations that complete with tk_status < 0.  These statuses usually indicate error conditions.
	Errors uint64
}

A NFSOperationStats contains statistics for a single operation.

type NFSTransportStats 

type NFSTransportStats struct {
	// The transport protocol used for the NFS mount.
	Protocol string
	// The local port used for the NFS mount.
	Port uint64
	// Number of times the client has had to establish a connection from scratch
	// to the NFS server.
	Bind uint64
	// Number of times the client has made a TCP connection to the NFS server.
	Connect uint64
	// Duration (in jiffies, a kernel internal unit of time) the NFS mount has
	// spent waiting for connections to the server to be established.
	ConnectIdleTime uint64
	// Duration since the NFS mount last saw any RPC traffic.
	IdleTimeSeconds uint64
	// Number of RPC requests for this mount sent to the NFS server.
	Sends uint64
	// Number of RPC responses for this mount received from the NFS server.
	Receives uint64
	// Number of times the NFS server sent a response with a transaction ID
	// unknown to this client.
	BadTransactionIDs uint64
	// A running counter, incremented on each request as the current difference
	// ebetween sends and receives.
	CumulativeActiveRequests uint64
	// A running counter, incremented on each request by the current backlog
	// queue size.
	CumulativeBacklog uint64

	// Maximum number of simultaneously active RPC requests ever used.
	MaximumRPCSlotsUsed uint64
	// A running counter, incremented on each request as the current size of the
	// sending queue.
	CumulativeSendingQueue uint64
	// A running counter, incremented on each request as the current size of the
	// pending queue.
	CumulativePendingQueue uint64

	// accessed when sending a call
	ReadChunkCount   uint64
	WriteChunkCount  uint64
	ReplyChunkCount  uint64
	TotalRdmaRequest uint64

	// rarely accessed error counters
	PullupCopyCount      uint64
	HardwayRegisterCount uint64
	FailedMarshalCount   uint64
	BadReplyCount        uint64
	MrsRecovered         uint64
	MrsOrphaned          uint64
	MrsAllocated         uint64
	EmptySendctxQ        uint64

	// accessed when receiving a reply
	TotalRdmaReply    uint64
	FixupCopyCount    uint64
	ReplyWaitsForSend uint64
	LocalInvNeeded    uint64
	NomsgCallCount    uint64
	BcallCount        uint64
}

A NFSTransportStats contains statistics for the NFS mount RPC requests and responses.

type Namespace 

type Namespace struct {
	Type  string // Namespace type.
	Inode uint32 // Inode number of the namespace. If two processes are in the same namespace their inodes will match.
}

Namespace represents a single namespace of a process.

type Namespaces 

type Namespaces map[string]Namespace

Namespaces contains all of the namespaces that the process is contained in.

type NetDev 

type NetDev map[string]NetDevLine

NetDev is parsed from /proc/net/dev or /proc/[pid]/net/dev. The map keys are interface names.

func (NetDev) Total 

func (netDev NetDev) Total() NetDevLine

Total aggregates the values across interfaces and returns a new NetDevLine. The Name field will be a sorted comma separated list of interface names.

type NetDevLine 

type NetDevLine struct {
	Name         string `json:"name"`          // The name of the interface.
	RxBytes      uint64 `json:"rx_bytes"`      // Cumulative count of bytes received.
	RxPackets    uint64 `json:"rx_packets"`    // Cumulative count of packets received.
	RxErrors     uint64 `json:"rx_errors"`     // Cumulative count of receive errors encountered.
	RxDropped    uint64 `json:"rx_dropped"`    // Cumulative count of packets dropped while receiving.
	RxFIFO       uint64 `json:"rx_fifo"`       // Cumulative count of FIFO buffer errors.
	RxFrame      uint64 `json:"rx_frame"`      // Cumulative count of packet framing errors.
	RxCompressed uint64 `json:"rx_compressed"` // Cumulative count of compressed packets received by the device driver.
	RxMulticast  uint64 `json:"rx_multicast"`  // Cumulative count of multicast frames received by the device driver.
	TxBytes      uint64 `json:"tx_bytes"`      // Cumulative count of bytes transmitted.
	TxPackets    uint64 `json:"tx_packets"`    // Cumulative count of packets transmitted.
	TxErrors     uint64 `json:"tx_errors"`     // Cumulative count of transmit errors encountered.
	TxDropped    uint64 `json:"tx_dropped"`    // Cumulative count of packets dropped while transmitting.
	TxFIFO       uint64 `json:"tx_fifo"`       // Cumulative count of FIFO buffer errors.
	TxCollisions uint64 `json:"tx_collisions"` // Cumulative count of collisions detected on the interface.
	TxCarrier    uint64 `json:"tx_carrier"`    // Cumulative count of carrier losses detected by the device driver.
	TxCompressed uint64 `json:"tx_compressed"` // Cumulative count of compressed packets transmitted by the device driver.
}

NetDevLine is single line parsed from /proc/net/dev or /proc/[pid]/net/dev.

type NetIPSocket added in v0.4.0 

type NetIPSocket []*netIPSocketLine

NetIPSocket represents the contents of /proc/net/{t,u}dp{,6} file without the header.

type NetIPSocketSummary added in v0.4.0 

type NetIPSocketSummary struct {
	// TxQueueLength shows the total queue length of all parsed tx_queue lengths.
	TxQueueLength uint64
	// RxQueueLength shows the total queue length of all parsed rx_queue lengths.
	RxQueueLength uint64
	// UsedSockets shows the total number of parsed lines representing the
	// number of used sockets.
	UsedSockets uint64
	// Drops shows the total number of dropped packets of all UPD sockets.
	Drops *uint64
}

NetIPSocketSummary provides already computed values like the total queue lengths or the total number of used sockets. In contrast to NetIPSocket it does not collect the parsed lines into a slice.

type NetProtocolCapabilities added in v0.3.0 

type NetProtocolCapabilities struct {
	Close               bool // 8
	Connect             bool // 9
	Disconnect          bool // 10
	Accept              bool // 11
	IoCtl               bool // 12
	Init                bool // 13
	Destroy             bool // 14
	Shutdown            bool // 15
	SetSockOpt          bool // 16
	GetSockOpt          bool // 17
	SendMsg             bool // 18
	RecvMsg             bool // 19
	SendPage            bool // 20
	Bind                bool // 21
	BacklogRcv          bool // 22
	Hash                bool // 23
	UnHash              bool // 24
	GetPort             bool // 25
	EnterMemoryPressure bool // 26
}

NetProtocolCapabilities contains a list of capabilities for each protocol.

type NetProtocolStatLine added in v0.3.0 

type NetProtocolStatLine struct {
	Name         string // 0 The name of the protocol
	Size         uint64 // 1 The size, in bytes, of a given protocol structure. e.g. sizeof(struct tcp_sock) or sizeof(struct unix_sock)
	Sockets      int64  // 2 Number of sockets in use by this protocol
	Memory       int64  // 3 Number of 4KB pages allocated by all sockets of this protocol
	Pressure     int    // 4 This is either yes, no, or NI (not implemented). For the sake of simplicity we treat NI as not experiencing memory pressure.
	MaxHeader    uint64 // 5 Protocol specific max header size
	Slab         bool   // 6 Indicates whether or not memory is allocated from the SLAB
	ModuleName   string // 7 The name of the module that implemented this protocol or "kernel" if not from a module
	Capabilities NetProtocolCapabilities
}

NetProtocolStatLine contains a single line parsed from /proc/net/protocols. We only care about the first six columns as the rest are not likely to change and only serve to provide a set of capabilities for each protocol.

type NetProtocolStats added in v0.3.0 

type NetProtocolStats map[string]NetProtocolStatLine

NetProtocolStats stores the contents from /proc/net/protocols.

type NetRouteLine added in v0.11.0 

type NetRouteLine struct {
	Iface       string
	Destination uint32
	Gateway     uint32
	Flags       uint32
	RefCnt      uint32
	Use         uint32
	Metric      uint32
	Mask        uint32
	MTU         uint32
	Window      uint32
	IRTT        uint32
}

A NetRouteLine represents one line from net/route.

type NetSockstat added in v0.0.8 

type NetSockstat struct {
	// Used is non-nil for IPv4 sockstat results, but nil for IPv6.
	Used      *int
	Protocols []NetSockstatProtocol
}

A NetSockstat contains the output of /proc/net/sockstat{,6} for IPv4 or IPv6, respectively.

type NetSockstatProtocol added in v0.0.8 

type NetSockstatProtocol struct {
	Protocol string
	InUse    int
	Orphan   *int
	TW       *int
	Alloc    *int
	Mem      *int
	Memory   *int
}

A NetSockstatProtocol contains statistics about a given socket protocol. Pointer fields indicate that the value may or may not be present on any given protocol.

type NetStat added in v0.7.3 

type NetStat struct {
	Stats    map[string][]uint64
	Filename string
}

NetStat contains statistics for all the counters from one file.

type NetTCP added in v0.4.0 

type NetTCP []*netIPSocketLine

NetTCP represents the contents of /proc/net/tcp{,6} file without the header.

type NetTCPSummary added in v0.4.0 

type NetTCPSummary NetIPSocketSummary

NetTCPSummary provides already computed values like the total queue lengths or the total number of used sockets. In contrast to NetTCP it does not collect the parsed lines into a slice.

type NetUDP added in v0.0.9 

type NetUDP []*netIPSocketLine

NetUDP represents the contents of /proc/net/udp{,6} file without the header.

type NetUDPSummary added in v0.0.9 

type NetUDPSummary NetIPSocketSummary

NetUDPSummary provides already computed values like the total queue lengths or the total number of used sockets. In contrast to NetUDP it does not collect the parsed lines into a slice.

type NetUNIX added in v0.0.9 

type NetUNIX struct {
	Rows []*NetUNIXLine
}

NetUNIX holds the data read from /proc/net/unix.

type NetUNIXFlags added in v0.0.9 

type NetUNIXFlags uint64

NetUNIXFlags is the type of the flags field.

func (NetUNIXFlags) String added in v0.0.9 

func (f NetUNIXFlags) String() string

type NetUNIXLine added in v0.0.9 

type NetUNIXLine struct {
	KernelPtr string
	RefCount  uint64
	Protocol  uint64
	Flags     NetUNIXFlags
	Type      NetUNIXType
	State     NetUNIXState
	Inode     uint64
	Path      string
}

NetUNIXLine represents a line of /proc/net/unix.

type NetUNIXState added in v0.0.9 

type NetUNIXState uint64

NetUNIXState is the type of the state field.

func (NetUNIXState) String added in v0.0.9 

func (s NetUNIXState) String() string

type NetUNIXType added in v0.0.9 

type NetUNIXType uint64

NetUNIXType is the type of the type field.

func (NetUNIXType) String added in v0.0.9 

func (t NetUNIXType) String() string

type PSILine 

type PSILine struct {
	Avg10  float64
	Avg60  float64
	Avg300 float64
	Total  uint64
}

PSILine is a single line of values as returned by `/proc/pressure/*`.

The Avg entries are averages over n seconds, as a percentage. The Total line is in microseconds.

type PSIStats 

type PSIStats struct {
	Some *PSILine
	Full *PSILine
}

PSIStats represent pressure stall information from /proc/pressure/*

"Some" indicates the share of time in which at least some tasks are stalled. "Full" indicates the share of time in which all non-idle tasks are stalled simultaneously.

type Proc 

type Proc struct {
	// The process ID.
	PID int
	// contains filtered or unexported fields
}

Proc provides information about a running process.

func NewProc 

func NewProc(pid int) (Proc, error)

NewProc returns a process for the given pid under /proc.

func Self 

func Self() (Proc, error)

Self returns a process for the current process read via /proc/self.

func (Proc) Cgroups added in v0.1.0 

func (p Proc) Cgroups() ([]Cgroup, error)

Cgroups reads from /proc/<pid>/cgroups and returns a []*Cgroup struct locating this PID in each process control hierarchy running on this system. On every system (v1 and v2), all hierarchies contain all processes, so the len of the returned struct is equal to the number of active hierarchies on this system.

func (Proc) CmdLine 

func (p Proc) CmdLine() ([]string, error)

CmdLine returns the command line of a process.

func (Proc) Comm 

func (p Proc) Comm() (string, error)

Comm returns the command name of a process.

func (Proc) Cwd 

func (p Proc) Cwd() (string, error)

Cwd returns the absolute path to the current working directory of the process.

func (Proc) Environ added in v0.0.3 

func (p Proc) Environ() ([]string, error)

Environ reads process environments from `/proc/<pid>/environ`.

func (Proc) Executable 

func (p Proc) Executable() (string, error)

Executable returns the absolute path of the executable command of a process.

func (Proc) FDInfo added in v0.0.4 

func (p Proc) FDInfo(fd string) (*ProcFDInfo, error)

FDInfo constructor. On kernels older than 3.8, InotifyInfos will always be empty.

func (Proc) FileDescriptorTargets 

func (p Proc) FileDescriptorTargets() ([]string, error)

FileDescriptorTargets returns the targets of all file descriptors of a process. If a file descriptor is not a symlink to a file (like a socket), that value will be the empty string.

func (Proc) FileDescriptors 

func (p Proc) FileDescriptors() ([]uintptr, error)

FileDescriptors returns the currently open file descriptors of a process.

func (Proc) FileDescriptorsInfo added in v0.0.4 

func (p Proc) FileDescriptorsInfo() (ProcFDInfos, error)

FileDescriptorsInfo retrieves information about all file descriptors of the process.

func (Proc) FileDescriptorsLen 

func (p Proc) FileDescriptorsLen() (int, error)

FileDescriptorsLen returns the number of currently open file descriptors of a process.

func (Proc) IO added in v0.0.2 

func (p Proc) IO() (ProcIO, error)

IO creates a new ProcIO instance from a given Proc instance.

func (Proc) Interrupts added in v0.9.0 

func (p Proc) Interrupts() (Interrupts, error)

Interrupts creates a new instance from a given Proc instance.

func (Proc) Limits added in v0.0.2 

func (p Proc) Limits() (ProcLimits, error)

Limits returns the current soft limits of the process.

func (Proc) MountInfo added in v0.0.3 

func (p Proc) MountInfo() ([]*MountInfo, error)

MountInfo retrieves mount information for mount points in a process's namespace. It supplies information missing in `/proc/self/mounts` and fixes various other problems with that file too.

func (Proc) MountStats 

func (p Proc) MountStats() ([]*Mount, error)

MountStats retrieves statistics and configuration for mount points in a process's namespace.

func (Proc) Namespaces added in v0.0.2 

func (p Proc) Namespaces() (Namespaces, error)

Namespaces reads from /proc/<pid>/ns/* to get the namespaces of which the process is a member.

func (Proc) NetDev added in v0.0.2 

func (p Proc) NetDev() (NetDev, error)

NetDev returns kernel/system statistics read from /proc/[pid]/net/dev.

func (Proc) Netstat added in v0.8.0 

func (p Proc) Netstat() (ProcNetstat, error)

func (Proc) NewLimits deprecated 

func (p Proc) NewLimits() (ProcLimits, error)

NewLimits returns the current soft limits of the process.

Deprecated: Use p.Limits() instead.

func (Proc) NewStat deprecated 

func (p Proc) NewStat() (ProcStat, error)

NewStat returns the current status information of the process.

Deprecated: Use p.Stat() instead.

func (Proc) NewStatus 

func (p Proc) NewStatus() (ProcStatus, error)

NewStatus returns the current status information of the process.

func (Proc) ProcMaps added in v0.0.11 

func (p Proc) ProcMaps() ([]*ProcMap, error)

ProcMaps reads from /proc/[pid]/maps to get the memory-mappings of the process.

func (Proc) ProcSMapsRollup added in v0.1.0 

func (p Proc) ProcSMapsRollup() (ProcSMapsRollup, error)

ProcSMapsRollup reads from /proc/[pid]/smaps_rollup to get summed memory information of the process.

If smaps_rollup does not exists (require kernel >= 4.15), the content of /proc/pid/smaps will we read and summed.

func (Proc) RootDir 

func (p Proc) RootDir() (string, error)

RootDir returns the absolute path to the process's root directory (as set by chroot).

func (Proc) Schedstat added in v0.0.4 

func (p Proc) Schedstat() (ProcSchedstat, error)

Schedstat returns task scheduling information for the process.

func (Proc) Snmp added in v0.8.0 

func (p Proc) Snmp() (ProcSnmp, error)

func (Proc) Snmp6 added in v0.8.0 

func (p Proc) Snmp6() (ProcSnmp6, error)

func (Proc) Stat added in v0.0.2 

func (p Proc) Stat() (ProcStat, error)

Stat returns the current status information of the process.

func (Proc) Thread added in v0.9.0 

func (proc Proc) Thread(tid int) (Proc, error)

Thread returns a process for a given TID of Proc.

func (Proc) Wchan added in v0.1.0 

func (p Proc) Wchan() (string, error)

Wchan returns the wchan (wait channel) of a process.

type ProcFDInfo added in v0.0.4 

type ProcFDInfo struct {
	// File descriptor
	FD string
	// File offset
	Pos string
	// File access mode and status flags
	Flags string
	// Mount point ID
	MntID string
	// Inode number
	Ino string
	// List of inotify lines (structured) in the fdinfo file (kernel 3.8+ only)
	InotifyInfos []InotifyInfo
}

ProcFDInfo contains represents file descriptor information.

type ProcFDInfos added in v0.0.4 

type ProcFDInfos []ProcFDInfo

ProcFDInfos represents a list of ProcFDInfo structs.

func (ProcFDInfos) InotifyWatchLen added in v0.0.4 

func (p ProcFDInfos) InotifyWatchLen() (int, error)

InotifyWatchLen returns the total number of inotify watches.

func (ProcFDInfos) Len added in v0.0.4 

func (p ProcFDInfos) Len() int

func (ProcFDInfos) Less added in v0.0.4 

func (p ProcFDInfos) Less(i, j int) bool

func (ProcFDInfos) Swap added in v0.0.4 

func (p ProcFDInfos) Swap(i, j int)

type ProcIO 

type ProcIO struct {
	// Chars read.
	RChar uint64
	// Chars written.
	WChar uint64
	// Read syscalls.
	SyscR uint64
	// Write syscalls.
	SyscW uint64
	// Bytes read.
	ReadBytes uint64
	// Bytes written.
	WriteBytes uint64
	// Bytes written, but taking into account truncation. See
	// Documentation/filesystems/proc.txt in the kernel sources for
	// detailed explanation.
	CancelledWriteBytes int64
}

ProcIO models the content of /proc/<pid>/io.

type ProcLimits 

type ProcLimits struct {
	// CPU time limit in seconds.
	CPUTime uint64
	// Maximum size of files that the process may create.
	FileSize uint64
	// Maximum size of the process's data segment (initialized data,
	// uninitialized data, and heap).
	DataSize uint64
	// Maximum size of the process stack in bytes.
	StackSize uint64
	// Maximum size of a core file.
	CoreFileSize uint64
	// Limit of the process's resident set in pages.
	ResidentSet uint64
	// Maximum number of processes that can be created for the real user ID of
	// the calling process.
	Processes uint64
	// Value one greater than the maximum file descriptor number that can be
	// opened by this process.
	OpenFiles uint64
	// Maximum number of bytes of memory that may be locked into RAM.
	LockedMemory uint64
	// Maximum size of the process's virtual memory address space in bytes.
	AddressSpace uint64
	// Limit on the combined number of flock(2) locks and fcntl(2) leases that
	// this process may establish.
	FileLocks uint64
	// Limit of signals that may be queued for the real user ID of the calling
	// process.
	PendingSignals uint64
	// Limit on the number of bytes that can be allocated for POSIX message
	// queues for the real user ID of the calling process.
	MsqqueueSize uint64
	// Limit of the nice priority set using setpriority(2) or nice(2).
	NicePriority uint64
	// Limit of the real-time priority set using sched_setscheduler(2) or
	// sched_setparam(2).
	RealtimePriority uint64
	// Limit (in microseconds) on the amount of CPU time that a process
	// scheduled under a real-time scheduling policy may consume without making
	// a blocking system call.
	RealtimeTimeout uint64
}

ProcLimits represents the soft limits for each of the process's resource limits. For more information see getrlimit(2): http://man7.org/linux/man-pages/man2/getrlimit.2.html.

type ProcMap added in v0.0.11 

type ProcMap struct {
	// The start address of current mapping.
	StartAddr uintptr
	// The end address of the current mapping
	EndAddr uintptr
	// The permissions for this mapping
	Perms *ProcMapPermissions
	// The current offset into the file/fd (e.g., shared libs)
	Offset int64
	// Device owner of this mapping (major:minor) in Mkdev format.
	Dev uint64
	// The inode of the device above
	Inode uint64
	// The file or psuedofile (or empty==anonymous)
	Pathname string
}

ProcMap contains the process memory-mappings of the process read from `/proc/[pid]/maps`.

type ProcMapPermissions added in v0.0.11 

type ProcMapPermissions struct {
	// mapping has the [R]ead flag set
	Read bool
	// mapping has the [W]rite flag set
	Write bool
	// mapping has the [X]ecutable flag set
	Execute bool
	// mapping has the [S]hared flag set
	Shared bool
	// mapping is marked as [P]rivate (copy on write)
	Private bool
}

ProcMapPermissions contains permission settings read from `/proc/[pid]/maps`.

type ProcNetstat added in v0.8.0 

type ProcNetstat struct {
	// The process ID.
	PID int
	TcpExt
	IpExt
}

ProcNetstat models the content of /proc/<pid>/net/netstat.

type ProcSMapsRollup added in v0.1.0 

type ProcSMapsRollup struct {
	// Amount of the mapping that is currently resident in RAM.
	Rss uint64
	// Process's proportional share of this mapping.
	Pss uint64
	// Size in bytes of clean shared pages.
	SharedClean uint64
	// Size in bytes of dirty shared pages.
	SharedDirty uint64
	// Size in bytes of clean private pages.
	PrivateClean uint64
	// Size in bytes of dirty private pages.
	PrivateDirty uint64
	// Amount of memory currently marked as referenced or accessed.
	Referenced uint64
	// Amount of memory that does not belong to any file.
	Anonymous uint64
	// Amount would-be-anonymous memory currently on swap.
	Swap uint64
	// Process's proportional memory on swap.
	SwapPss uint64
}

type ProcSchedstat added in v0.0.4 

type ProcSchedstat struct {
	RunningNanoseconds uint64
	WaitingNanoseconds uint64
	RunTimeslices      uint64
}

ProcSchedstat contains the values from `/proc/<pid>/schedstat`.

type ProcSnmp added in v0.8.0 

type ProcSnmp struct {
	// The process ID.
	PID int
	Ip
	Icmp
	IcmpMsg
	Tcp
	Udp
	UdpLite
}

ProcSnmp models the content of /proc/<pid>/net/snmp.

type ProcSnmp6 added in v0.8.0 

type ProcSnmp6 struct {
	// The process ID.
	PID int
	Ip6
	Icmp6
	Udp6
	UdpLite6
}

ProcSnmp6 models the content of /proc/<pid>/net/snmp6.

type ProcStat 

type ProcStat struct {
	// The process ID.
	PID int
	// The filename of the executable.
	Comm string
	// The process state.
	State string
	// The PID of the parent of this process.
	PPID int
	// The process group ID of the process.
	PGRP int
	// The session ID of the process.
	Session int
	// The controlling terminal of the process.
	TTY int
	// The ID of the foreground process group of the controlling terminal of
	// the process.
	TPGID int
	// The kernel flags word of the process.
	Flags uint
	// The number of minor faults the process has made which have not required
	// loading a memory page from disk.
	MinFlt uint
	// The number of minor faults that the process's waited-for children have
	// made.
	CMinFlt uint
	// The number of major faults the process has made which have required
	// loading a memory page from disk.
	MajFlt uint
	// The number of major faults that the process's waited-for children have
	// made.
	CMajFlt uint
	// Amount of time that this process has been scheduled in user mode,
	// measured in clock ticks.
	UTime uint
	// Amount of time that this process has been scheduled in kernel mode,
	// measured in clock ticks.
	STime uint
	// Amount of time that this process's waited-for children have been
	// scheduled in user mode, measured in clock ticks.
	CUTime int
	// Amount of time that this process's waited-for children have been
	// scheduled in kernel mode, measured in clock ticks.
	CSTime int
	// For processes running a real-time scheduling policy, this is the negated
	// scheduling priority, minus one.
	Priority int
	// The nice value, a value in the range 19 (low priority) to -20 (high
	// priority).
	Nice int
	// Number of threads in this process.
	NumThreads int
	// The time the process started after system boot, the value is expressed
	// in clock ticks.
	Starttime uint64
	// Virtual memory size in bytes.
	VSize uint
	// Resident set size in pages.
	RSS int
	// Soft limit in bytes on the rss of the process.
	RSSLimit uint64
	// CPU number last executed on.
	Processor uint
	// Real-time scheduling priority, a number in the range 1 to 99 for processes
	// scheduled under a real-time policy, or 0, for non-real-time processes.
	RTPriority uint
	// Scheduling policy.
	Policy uint
	// Aggregated block I/O delays, measured in clock ticks (centiseconds).
	DelayAcctBlkIOTicks uint64
	// Guest time of the process (time spent running a virtual CPU for a guest
	// operating system), measured in clock ticks.
	GuestTime int
	// Guest time of the process's children, measured in clock ticks.
	CGuestTime int
	// contains filtered or unexported fields
}

ProcStat provides status information about the process, read from /proc/[pid]/stat.

func (ProcStat) CPUTime 

func (s ProcStat) CPUTime() float64

CPUTime returns the total CPU user and system time in seconds.

func (ProcStat) ResidentMemory 

func (s ProcStat) ResidentMemory() int

ResidentMemory returns the resident memory size in bytes.

func (ProcStat) StartTime 

func (s ProcStat) StartTime() (float64, error)

StartTime returns the unix timestamp of the process in seconds.

func (ProcStat) VirtualMemory 

func (s ProcStat) VirtualMemory() uint

VirtualMemory returns the virtual memory size in bytes.

type ProcStatus 

type ProcStatus struct {
	// The process ID.
	PID int
	// The process name.
	Name string

	// Thread group ID.
	TGID int
	// List of Pid namespace.
	NSpids []uint64

	// Peak virtual memory size.
	VmPeak uint64 // nolint:revive
	// Virtual memory size.
	VmSize uint64 // nolint:revive
	// Locked memory size.
	VmLck uint64 // nolint:revive
	// Pinned memory size.
	VmPin uint64 // nolint:revive
	// Peak resident set size.
	VmHWM uint64 // nolint:revive
	// Resident set size (sum of RssAnnon RssFile and RssShmem).
	VmRSS uint64 // nolint:revive
	// Size of resident anonymous memory.
	RssAnon uint64 // nolint:revive
	// Size of resident file mappings.
	RssFile uint64 // nolint:revive
	// Size of resident shared memory.
	RssShmem uint64 // nolint:revive
	// Size of data segments.
	VmData uint64 // nolint:revive
	// Size of stack segments.
	VmStk uint64 // nolint:revive
	// Size of text segments.
	VmExe uint64 // nolint:revive
	// Shared library code size.
	VmLib uint64 // nolint:revive
	// Page table entries size.
	VmPTE uint64 // nolint:revive
	// Size of second-level page tables.
	VmPMD uint64 // nolint:revive
	// Swapped-out virtual memory size by anonymous private.
	VmSwap uint64 // nolint:revive
	// Size of hugetlb memory portions
	HugetlbPages uint64

	// Number of voluntary context switches.
	VoluntaryCtxtSwitches uint64
	// Number of involuntary context switches.
	NonVoluntaryCtxtSwitches uint64

	// UIDs of the process (Real, effective, saved set, and filesystem UIDs)
	UIDs [4]uint64
	// GIDs of the process (Real, effective, saved set, and filesystem GIDs)
	GIDs [4]uint64

	// CpusAllowedList: List of cpu cores processes are allowed to run on.
	CpusAllowedList []uint64
}

ProcStatus provides status information about the process, read from /proc/[pid]/status.

func (ProcStatus) TotalCtxtSwitches 

func (s ProcStatus) TotalCtxtSwitches() uint64

TotalCtxtSwitches returns the total context switch.

type Procs 

type Procs []Proc

Procs represents a list of Proc structs.

func AllProcs 

func AllProcs() (Procs, error)

AllProcs returns a list of all currently available processes under /proc.

func AllThreads added in v0.9.0 

func AllThreads(pid int) (Procs, error)

AllThreads returns a list of all currently available threads under /proc/PID.

func (Procs) Len 

func (p Procs) Len() int

func (Procs) Less 

func (p Procs) Less(i, j int) bool

func (Procs) Swap 

func (p Procs) Swap(i, j int)

type Schedstat added in v0.0.4 

type Schedstat struct {
	CPUs []*SchedstatCPU
}

Schedstat contains scheduler statistics from /proc/schedstat

See https://www.kernel.org/doc/Documentation/scheduler/sched-stats.txt for a detailed description of what these numbers mean.

Note the current kernel documentation claims some of the time units are in jiffies when they are actually in nanoseconds since 2.6.23 with the introduction of CFS. A fix to the documentation is pending. See https://lore.kernel.org/patchwork/project/lkml/list/?series=403473

type SchedstatCPU added in v0.0.4 

type SchedstatCPU struct {
	CPUNum string

	RunningNanoseconds uint64
	WaitingNanoseconds uint64
	RunTimeslices      uint64
}

SchedstatCPU contains the values from one "cpu<N>" line.

type Slab added in v0.5.0 

type Slab struct {
	Name         string
	ObjActive    int64
	ObjNum       int64
	ObjSize      int64
	ObjPerSlab   int64
	PagesPerSlab int64
	// tunables
	Limit        int64
	Batch        int64
	SharedFactor int64
	SlabActive   int64
	SlabNum      int64
	SharedAvail  int64
}

Slab represents a slab pool in the kernel.

type SlabInfo added in v0.5.0 

type SlabInfo struct {
	Slabs []*Slab
}

SlabInfo represents info for all slabs.

type SoftIRQStat 

type SoftIRQStat struct {
	Hi          uint64
	Timer       uint64
	NetTx       uint64
	NetRx       uint64
	Block       uint64
	BlockIoPoll uint64
	Tasklet     uint64
	Sched       uint64
	Hrtimer     uint64
	Rcu         uint64
}

SoftIRQStat represent the softirq statistics as exported in the procfs stat file. A nice introduction can be found at https://0xax.gitbooks.io/linux-insides/content/interrupts/interrupts-9.html It is possible to get per-cpu stats by reading `/proc/softirqs`.

type Softirqs added in v0.8.0 

type Softirqs struct {
	Hi      []uint64
	Timer   []uint64
	NetTx   []uint64
	NetRx   []uint64
	Block   []uint64
	IRQPoll []uint64
	Tasklet []uint64
	Sched   []uint64
	HRTimer []uint64
	RCU     []uint64
}

Softirqs represents the softirq statistics.

type SoftnetStat added in v0.0.9 

type SoftnetStat struct {
	// Number of processed packets.
	Processed uint32
	// Number of dropped packets.
	Dropped uint32
	// Number of times processing packets ran out of quota.
	TimeSqueezed uint32
	// Number of collision occur while obtaining device lock while transmitting.
	CPUCollision uint32
	// Number of times cpu woken up received_rps.
	ReceivedRps uint32
	// number of times flow limit has been reached.
	FlowLimitCount uint32
	// Softnet backlog status.
	SoftnetBacklogLen uint32
	// CPU id owning this softnet_data.
	Index uint32
	// softnet_data's Width.
	Width int
}

SoftnetStat contains a single row of data from /proc/net/softnet_stat.

type Stat 

type Stat struct {
	// Boot time in seconds since the Epoch.
	BootTime uint64
	// Summed up cpu statistics.
	CPUTotal CPUStat
	// Per-CPU statistics.
	CPU map[int64]CPUStat
	// Number of times interrupts were handled, which contains numbered and unnumbered IRQs.
	IRQTotal uint64
	// Number of times a numbered IRQ was triggered.
	IRQ []uint64
	// Number of times a context switch happened.
	ContextSwitches uint64
	// Number of times a process was created.
	ProcessCreated uint64
	// Number of processes currently running.
	ProcessesRunning uint64
	// Number of processes currently blocked (waiting for IO).
	ProcessesBlocked uint64
	// Number of times a softirq was scheduled.
	SoftIRQTotal uint64
	// Detailed softirq statistics.
	SoftIRQ SoftIRQStat
}

Stat represents kernel/system statistics.

func NewStat deprecated 

func NewStat() (Stat, error)

NewStat returns information about current cpu/process statistics. See https://www.kernel.org/doc/Documentation/filesystems/proc.txt

Deprecated: Use fs.Stat() instead.

type Swap added in v0.0.9 

type Swap struct {
	Filename string
	Type     string
	Size     int
	Used     int
	Priority int
}

Swap represents an entry in /proc/swaps.

type TLSStat added in v0.13.0 

type TLSStat struct {
	// number of TX sessions currently installed where host handles cryptography
	TLSCurrTxSw int
	// number of RX sessions currently installed where host handles cryptography
	TLSCurrRxSw int
	// number of TX sessions currently installed where NIC handles cryptography
	TLSCurrTxDevice int
	// number of RX sessions currently installed where NIC handles cryptography
	TLSCurrRxDevice int
	//number of TX sessions opened with host cryptography
	TLSTxSw int
	//number of RX sessions opened with host cryptography
	TLSRxSw int
	// number of TX sessions opened with NIC cryptography
	TLSTxDevice int
	// number of RX sessions opened with NIC cryptography
	TLSRxDevice int
	// record decryption failed (e.g. due to incorrect authentication tag)
	TLSDecryptError int
	//  number of RX resyncs sent to NICs handling cryptography
	TLSRxDeviceResync int
	// number of RX records which had to be re-decrypted due to TLS_RX_EXPECT_NO_PAD mis-prediction. Note that this counter will also increment for non-data records.
	TLSDecryptRetry int
	// number of data RX records which had to be re-decrypted due to TLS_RX_EXPECT_NO_PAD mis-prediction.
	TLSRxNoPadViolation int
}

TLSStat struct represents data in /proc/net/tls_stat. See https://docs.kernel.org/networking/tls.html#statistics

func NewTLSStat added in v0.13.0 

func NewTLSStat() (TLSStat, error)

NewTLSStat reads the tls_stat statistics.

type Tcp added in v0.8.0 

type Tcp struct {
	RtoAlgorithm *float64
	RtoMin       *float64
	RtoMax       *float64
	MaxConn      *float64
	ActiveOpens  *float64
	PassiveOpens *float64
	AttemptFails *float64
	EstabResets  *float64
	CurrEstab    *float64
	InSegs       *float64
	OutSegs      *float64
	RetransSegs  *float64
	InErrs       *float64
	OutRsts      *float64
	InCsumErrors *float64
}

type TcpExt added in v0.8.0 

type TcpExt struct {
	SyncookiesSent            *float64
	SyncookiesRecv            *float64
	SyncookiesFailed          *float64
	EmbryonicRsts             *float64
	PruneCalled               *float64
	RcvPruned                 *float64
	OfoPruned                 *float64
	OutOfWindowIcmps          *float64
	LockDroppedIcmps          *float64
	ArpFilter                 *float64
	TW                        *float64
	TWRecycled                *float64
	TWKilled                  *float64
	PAWSActive                *float64
	PAWSEstab                 *float64
	DelayedACKs               *float64
	DelayedACKLocked          *float64
	DelayedACKLost            *float64
	ListenOverflows           *float64
	ListenDrops               *float64
	TCPHPHits                 *float64
	TCPPureAcks               *float64
	TCPHPAcks                 *float64
	TCPRenoRecovery           *float64
	TCPSackRecovery           *float64
	TCPSACKReneging           *float64
	TCPSACKReorder            *float64
	TCPRenoReorder            *float64
	TCPTSReorder              *float64
	TCPFullUndo               *float64
	TCPPartialUndo            *float64
	TCPDSACKUndo              *float64
	TCPLossUndo               *float64
	TCPLostRetransmit         *float64
	TCPRenoFailures           *float64
	TCPSackFailures           *float64
	TCPLossFailures           *float64
	TCPFastRetrans            *float64
	TCPSlowStartRetrans       *float64
	TCPTimeouts               *float64
	TCPLossProbes             *float64
	TCPLossProbeRecovery      *float64
	TCPRenoRecoveryFail       *float64
	TCPSackRecoveryFail       *float64
	TCPRcvCollapsed           *float64
	TCPDSACKOldSent           *float64
	TCPDSACKOfoSent           *float64
	TCPDSACKRecv              *float64
	TCPDSACKOfoRecv           *float64
	TCPAbortOnData            *float64
	TCPAbortOnClose           *float64
	TCPAbortOnMemory          *float64
	TCPAbortOnTimeout         *float64
	TCPAbortOnLinger          *float64
	TCPAbortFailed            *float64
	TCPMemoryPressures        *float64
	TCPMemoryPressuresChrono  *float64
	TCPSACKDiscard            *float64
	TCPDSACKIgnoredOld        *float64
	TCPDSACKIgnoredNoUndo     *float64
	TCPSpuriousRTOs           *float64
	TCPMD5NotFound            *float64
	TCPMD5Unexpected          *float64
	TCPMD5Failure             *float64
	TCPSackShifted            *float64
	TCPSackMerged             *float64
	TCPSackShiftFallback      *float64
	TCPBacklogDrop            *float64
	PFMemallocDrop            *float64
	TCPMinTTLDrop             *float64
	TCPDeferAcceptDrop        *float64
	IPReversePathFilter       *float64
	TCPTimeWaitOverflow       *float64
	TCPReqQFullDoCookies      *float64
	TCPReqQFullDrop           *float64
	TCPRetransFail            *float64
	TCPRcvCoalesce            *float64
	TCPRcvQDrop               *float64
	TCPOFOQueue               *float64
	TCPOFODrop                *float64
	TCPOFOMerge               *float64
	TCPChallengeACK           *float64
	TCPSYNChallenge           *float64
	TCPFastOpenActive         *float64
	TCPFastOpenActiveFail     *float64
	TCPFastOpenPassive        *float64
	TCPFastOpenPassiveFail    *float64
	TCPFastOpenListenOverflow *float64
	TCPFastOpenCookieReqd     *float64
	TCPFastOpenBlackhole      *float64
	TCPSpuriousRtxHostQueues  *float64
	BusyPollRxPackets         *float64
	TCPAutoCorking            *float64
	TCPFromZeroWindowAdv      *float64
	TCPToZeroWindowAdv        *float64
	TCPWantZeroWindowAdv      *float64
	TCPSynRetrans             *float64
	TCPOrigDataSent           *float64
	TCPHystartTrainDetect     *float64
	TCPHystartTrainCwnd       *float64
	TCPHystartDelayDetect     *float64
	TCPHystartDelayCwnd       *float64
	TCPACKSkippedSynRecv      *float64
	TCPACKSkippedPAWS         *float64
	TCPACKSkippedSeq          *float64
	TCPACKSkippedFinWait2     *float64
	TCPACKSkippedTimeWait     *float64
	TCPACKSkippedChallenge    *float64
	TCPWinProbe               *float64
	TCPKeepAlive              *float64
	TCPMTUPFail               *float64
	TCPMTUPSuccess            *float64
	TCPWqueueTooBig           *float64
}

type Udp added in v0.8.0 

type Udp struct {
	InDatagrams  *float64
	NoPorts      *float64
	InErrors     *float64
	OutDatagrams *float64
	RcvbufErrors *float64
	SndbufErrors *float64
	InCsumErrors *float64
	IgnoredMulti *float64
}

type Udp6 added in v0.8.0 

type Udp6 struct {
	InDatagrams  *float64
	NoPorts      *float64
	InErrors     *float64
	OutDatagrams *float64
	RcvbufErrors *float64
	SndbufErrors *float64
	InCsumErrors *float64
	IgnoredMulti *float64
}

type UdpLite added in v0.8.0 

type UdpLite struct {
	InDatagrams  *float64
	NoPorts      *float64
	InErrors     *float64
	OutDatagrams *float64
	RcvbufErrors *float64
	SndbufErrors *float64
	InCsumErrors *float64
	IgnoredMulti *float64
}

type UdpLite6 added in v0.8.0 

type UdpLite6 struct {
	InDatagrams  *float64
	NoPorts      *float64
	InErrors     *float64
	OutDatagrams *float64
	RcvbufErrors *float64
	SndbufErrors *float64
	InCsumErrors *float64
}

type VM added in v0.0.4 

type VM struct {
	AdminReserveKbytes        *int64   // /proc/sys/vm/admin_reserve_kbytes
	BlockDump                 *int64   // /proc/sys/vm/block_dump
	CompactUnevictableAllowed *int64   // /proc/sys/vm/compact_unevictable_allowed
	DirtyBackgroundBytes      *int64   // /proc/sys/vm/dirty_background_bytes
	DirtyBackgroundRatio      *int64   // /proc/sys/vm/dirty_background_ratio
	DirtyBytes                *int64   // /proc/sys/vm/dirty_bytes
	DirtyExpireCentisecs      *int64   // /proc/sys/vm/dirty_expire_centisecs
	DirtyRatio                *int64   // /proc/sys/vm/dirty_ratio
	DirtytimeExpireSeconds    *int64   // /proc/sys/vm/dirtytime_expire_seconds
	DirtyWritebackCentisecs   *int64   // /proc/sys/vm/dirty_writeback_centisecs
	DropCaches                *int64   // /proc/sys/vm/drop_caches
	ExtfragThreshold          *int64   // /proc/sys/vm/extfrag_threshold
	HugetlbShmGroup           *int64   // /proc/sys/vm/hugetlb_shm_group
	LaptopMode                *int64   // /proc/sys/vm/laptop_mode
	LegacyVaLayout            *int64   // /proc/sys/vm/legacy_va_layout
	LowmemReserveRatio        []*int64 // /proc/sys/vm/lowmem_reserve_ratio
	MaxMapCount               *int64   // /proc/sys/vm/max_map_count
	MemoryFailureEarlyKill    *int64   // /proc/sys/vm/memory_failure_early_kill
	MemoryFailureRecovery     *int64   // /proc/sys/vm/memory_failure_recovery
	MinFreeKbytes             *int64   // /proc/sys/vm/min_free_kbytes
	MinSlabRatio              *int64   // /proc/sys/vm/min_slab_ratio
	MinUnmappedRatio          *int64   // /proc/sys/vm/min_unmapped_ratio
	MmapMinAddr               *int64   // /proc/sys/vm/mmap_min_addr
	NrHugepages               *int64   // /proc/sys/vm/nr_hugepages
	NrHugepagesMempolicy      *int64   // /proc/sys/vm/nr_hugepages_mempolicy
	NrOvercommitHugepages     *int64   // /proc/sys/vm/nr_overcommit_hugepages
	NumaStat                  *int64   // /proc/sys/vm/numa_stat
	NumaZonelistOrder         string   // /proc/sys/vm/numa_zonelist_order
	OomDumpTasks              *int64   // /proc/sys/vm/oom_dump_tasks
	OomKillAllocatingTask     *int64   // /proc/sys/vm/oom_kill_allocating_task
	OvercommitKbytes          *int64   // /proc/sys/vm/overcommit_kbytes
	OvercommitMemory          *int64   // /proc/sys/vm/overcommit_memory
	OvercommitRatio           *int64   // /proc/sys/vm/overcommit_ratio
	PageCluster               *int64   // /proc/sys/vm/page-cluster
	PanicOnOom                *int64   // /proc/sys/vm/panic_on_oom
	PercpuPagelistFraction    *int64   // /proc/sys/vm/percpu_pagelist_fraction
	StatInterval              *int64   // /proc/sys/vm/stat_interval
	Swappiness                *int64   // /proc/sys/vm/swappiness
	UserReserveKbytes         *int64   // /proc/sys/vm/user_reserve_kbytes
	VfsCachePressure          *int64   // /proc/sys/vm/vfs_cache_pressure
	WatermarkBoostFactor      *int64   // /proc/sys/vm/watermark_boost_factor
	WatermarkScaleFactor      *int64   // /proc/sys/vm/watermark_scale_factor
	ZoneReclaimMode           *int64   // /proc/sys/vm/zone_reclaim_mode
}

The VM interface is described at 

https://www.kernel.org/doc/Documentation/sysctl/vm.txt

Each setting is exposed as a single file. Each file contains one line with a single numerical value, except lowmem_reserve_ratio which holds an array and numa_zonelist_order (deprecated) which is a string.

type Wireless added in v0.10.0 

type Wireless struct {
	Name string

	// Status is the current 4-digit hex value status of the interface.
	Status uint64

	// QualityLink is the link quality.
	QualityLink int

	// QualityLevel is the signal gain (dBm).
	QualityLevel int

	// QualityNoise is the signal noise baseline (dBm).
	QualityNoise int

	// DiscardedNwid is the number of discarded packets with wrong nwid/essid.
	DiscardedNwid int

	// DiscardedCrypt is the number of discarded packets with wrong code/decode (WEP).
	DiscardedCrypt int

	// DiscardedFrag is the number of discarded packets that can't perform MAC reassembly.
	DiscardedFrag int

	// DiscardedRetry is the number of discarded packets that reached max MAC retries.
	DiscardedRetry int

	// DiscardedMisc is the number of discarded packets for other reasons.
	DiscardedMisc int

	// MissedBeacon is the number of missed beacons/superframe.
	MissedBeacon int
}

Wireless models the content of /proc/net/wireless.

type XfrmStat 

type XfrmStat struct {
	// All errors which are not matched by other
	XfrmInError int
	// No buffer is left
	XfrmInBufferError int
	// Header Error
	XfrmInHdrError int
	// No state found
	// i.e. either inbound SPI, address, or IPSEC protocol at SA is wrong
	XfrmInNoStates int
	// Transformation protocol specific error
	// e.g. SA Key is wrong
	XfrmInStateProtoError int
	// Transformation mode specific error
	XfrmInStateModeError int
	// Sequence error
	// e.g. sequence number is out of window
	XfrmInStateSeqError int
	// State is expired
	XfrmInStateExpired int
	// State has mismatch option
	// e.g. UDP encapsulation type is mismatched
	XfrmInStateMismatch int
	// State is invalid
	XfrmInStateInvalid int
	// No matching template for states
	// e.g. Inbound SAs are correct but SP rule is wrong
	XfrmInTmplMismatch int
	// No policy is found for states
	// e.g. Inbound SAs are correct but no SP is found
	XfrmInNoPols int
	// Policy discards
	XfrmInPolBlock int
	// Policy error
	XfrmInPolError int
	// All errors which are not matched by others
	XfrmOutError int
	// Bundle generation error
	XfrmOutBundleGenError int
	// Bundle check error
	XfrmOutBundleCheckError int
	// No state was found
	XfrmOutNoStates int
	// Transformation protocol specific error
	XfrmOutStateProtoError int
	// Transportation mode specific error
	XfrmOutStateModeError int
	// Sequence error
	// i.e sequence number overflow
	XfrmOutStateSeqError int
	// State is expired
	XfrmOutStateExpired int
	// Policy discads
	XfrmOutPolBlock int
	// Policy is dead
	XfrmOutPolDead int
	// Policy Error
	XfrmOutPolError int
	// Forward routing of a packet is not allowed
	XfrmFwdHdrError int
	// State is invalid, perhaps expired
	XfrmOutStateInvalid int
	// State hasn’t been fully acquired before use
	XfrmAcquireError int
}

XfrmStat models the contents of /proc/net/xfrm_stat.

func NewXfrmStat 

func NewXfrmStat() (XfrmStat, error)

NewXfrmStat reads the xfrm_stat statistics.

type Zoneinfo added in v0.0.4 

type Zoneinfo struct {
	Node                       string
	Zone                       string
	NrFreePages                *int64
	Min                        *int64
	Low                        *int64
	High                       *int64
	Scanned                    *int64
	Spanned                    *int64
	Present                    *int64
	Managed                    *int64
	NrActiveAnon               *int64
	NrInactiveAnon             *int64
	NrIsolatedAnon             *int64
	NrAnonPages                *int64
	NrAnonTransparentHugepages *int64
	NrActiveFile               *int64
	NrInactiveFile             *int64
	NrIsolatedFile             *int64
	NrFilePages                *int64
	NrSlabReclaimable          *int64
	NrSlabUnreclaimable        *int64
	NrMlockStack               *int64
	NrKernelStack              *int64
	NrMapped                   *int64
	NrDirty                    *int64
	NrWriteback                *int64
	NrUnevictable              *int64
	NrShmem                    *int64
	NrDirtied                  *int64
	NrWritten                  *int64
	NumaHit                    *int64
	NumaMiss                   *int64
	NumaForeign                *int64
	NumaInterleave             *int64
	NumaLocal                  *int64
	NumaOther                  *int64
	Protection                 []*int64
}

Zoneinfo holds info parsed from /proc/zoneinfo.

Source Files

View all Source files

Directories

Path Synopsis
Package bcache provides access to statistics exposed by the bcache (Linux block cache).
 Package bcache provides access to statistics exposed by the bcache (Linux block cache).
Package btrfs provides access to statistics exposed by Btrfs filesystems.
 Package btrfs provides access to statistics exposed by Btrfs filesystems.
internal
fs
util
Package nfs implements parsing of /proc/net/rpc/nfsd.
 Package nfs implements parsing of /proc/net/rpc/nfsd.
Package sysfs provides functions to retrieve system and kernel metrics from the pseudo-filesystem sys.
 Package sysfs provides functions to retrieve system and kernel metrics from the pseudo-filesystem sys.
Package xfs provides access to statistics exposed by the XFS filesystem.
 Package xfs provides access to statistics exposed by the XFS filesystem.

Jump to

Keyboard shortcuts

? : This menu
/ : Search site
f or F : Jump to
y or Y : Canonical URL
go.dev uses cookies from Google to deliver and enhance the quality of its services and to analyze traffic. Learn more.