consul/vendor/github.com/shirou/gopsutil/net/net_linux.go

885 lines
22 KiB
Go

// +build linux
package net
import (
"bytes"
"context"
"encoding/hex"
"errors"
"fmt"
"io"
"io/ioutil"
"net"
"os"
"strconv"
"strings"
"syscall"
"github.com/shirou/gopsutil/internal/common"
)
const ( // Conntrack Column numbers
CT_ENTRIES = iota
CT_SEARCHED
CT_FOUND
CT_NEW
CT_INVALID
CT_IGNORE
CT_DELETE
CT_DELETE_LIST
CT_INSERT
CT_INSERT_FAILED
CT_DROP
CT_EARLY_DROP
CT_ICMP_ERROR
CT_EXPECT_NEW
CT_EXPECT_CREATE
CT_EXPECT_DELETE
CT_SEARCH_RESTART
)
// NetIOCounters returnes network I/O statistics for every network
// interface installed on the system. If pernic argument is false,
// return only sum of all information (which name is 'all'). If true,
// every network interface installed on the system is returned
// separately.
func IOCounters(pernic bool) ([]IOCountersStat, error) {
return IOCountersWithContext(context.Background(), pernic)
}
func IOCountersWithContext(ctx context.Context, pernic bool) ([]IOCountersStat, error) {
filename := common.HostProc("net/dev")
return IOCountersByFileWithContext(ctx, pernic, filename)
}
func IOCountersByFile(pernic bool, filename string) ([]IOCountersStat, error) {
return IOCountersByFileWithContext(context.Background(), pernic, filename)
}
func IOCountersByFileWithContext(ctx context.Context, pernic bool, filename string) ([]IOCountersStat, error) {
lines, err := common.ReadLines(filename)
if err != nil {
return nil, err
}
parts := make([]string, 2)
statlen := len(lines) - 1
ret := make([]IOCountersStat, 0, statlen)
for _, line := range lines[2:] {
separatorPos := strings.LastIndex(line, ":")
if separatorPos == -1 {
continue
}
parts[0] = line[0:separatorPos]
parts[1] = line[separatorPos+1:]
interfaceName := strings.TrimSpace(parts[0])
if interfaceName == "" {
continue
}
fields := strings.Fields(strings.TrimSpace(parts[1]))
bytesRecv, err := strconv.ParseUint(fields[0], 10, 64)
if err != nil {
return ret, err
}
packetsRecv, err := strconv.ParseUint(fields[1], 10, 64)
if err != nil {
return ret, err
}
errIn, err := strconv.ParseUint(fields[2], 10, 64)
if err != nil {
return ret, err
}
dropIn, err := strconv.ParseUint(fields[3], 10, 64)
if err != nil {
return ret, err
}
fifoIn, err := strconv.ParseUint(fields[4], 10, 64)
if err != nil {
return ret, err
}
bytesSent, err := strconv.ParseUint(fields[8], 10, 64)
if err != nil {
return ret, err
}
packetsSent, err := strconv.ParseUint(fields[9], 10, 64)
if err != nil {
return ret, err
}
errOut, err := strconv.ParseUint(fields[10], 10, 64)
if err != nil {
return ret, err
}
dropOut, err := strconv.ParseUint(fields[11], 10, 64)
if err != nil {
return ret, err
}
fifoOut, err := strconv.ParseUint(fields[12], 10, 64)
if err != nil {
return ret, err
}
nic := IOCountersStat{
Name: interfaceName,
BytesRecv: bytesRecv,
PacketsRecv: packetsRecv,
Errin: errIn,
Dropin: dropIn,
Fifoin: fifoIn,
BytesSent: bytesSent,
PacketsSent: packetsSent,
Errout: errOut,
Dropout: dropOut,
Fifoout: fifoOut,
}
ret = append(ret, nic)
}
if pernic == false {
return getIOCountersAll(ret)
}
return ret, nil
}
var netProtocols = []string{
"ip",
"icmp",
"icmpmsg",
"tcp",
"udp",
"udplite",
}
// NetProtoCounters returns network statistics for the entire system
// If protocols is empty then all protocols are returned, otherwise
// just the protocols in the list are returned.
// Available protocols:
// ip,icmp,icmpmsg,tcp,udp,udplite
func ProtoCounters(protocols []string) ([]ProtoCountersStat, error) {
return ProtoCountersWithContext(context.Background(), protocols)
}
func ProtoCountersWithContext(ctx context.Context, protocols []string) ([]ProtoCountersStat, error) {
if len(protocols) == 0 {
protocols = netProtocols
}
stats := make([]ProtoCountersStat, 0, len(protocols))
protos := make(map[string]bool, len(protocols))
for _, p := range protocols {
protos[p] = true
}
filename := common.HostProc("net/snmp")
lines, err := common.ReadLines(filename)
if err != nil {
return nil, err
}
linecount := len(lines)
for i := 0; i < linecount; i++ {
line := lines[i]
r := strings.IndexRune(line, ':')
if r == -1 {
return nil, errors.New(filename + " is not fomatted correctly, expected ':'.")
}
proto := strings.ToLower(line[:r])
if !protos[proto] {
// skip protocol and data line
i++
continue
}
// Read header line
statNames := strings.Split(line[r+2:], " ")
// Read data line
i++
statValues := strings.Split(lines[i][r+2:], " ")
if len(statNames) != len(statValues) {
return nil, errors.New(filename + " is not fomatted correctly, expected same number of columns.")
}
stat := ProtoCountersStat{
Protocol: proto,
Stats: make(map[string]int64, len(statNames)),
}
for j := range statNames {
value, err := strconv.ParseInt(statValues[j], 10, 64)
if err != nil {
return nil, err
}
stat.Stats[statNames[j]] = value
}
stats = append(stats, stat)
}
return stats, nil
}
// NetFilterCounters returns iptables conntrack statistics
// the currently in use conntrack count and the max.
// If the file does not exist or is invalid it will return nil.
func FilterCounters() ([]FilterStat, error) {
return FilterCountersWithContext(context.Background())
}
func FilterCountersWithContext(ctx context.Context) ([]FilterStat, error) {
countfile := common.HostProc("sys/net/netfilter/nf_conntrack_count")
maxfile := common.HostProc("sys/net/netfilter/nf_conntrack_max")
count, err := common.ReadInts(countfile)
if err != nil {
return nil, err
}
stats := make([]FilterStat, 0, 1)
max, err := common.ReadInts(maxfile)
if err != nil {
return nil, err
}
payload := FilterStat{
ConnTrackCount: count[0],
ConnTrackMax: max[0],
}
stats = append(stats, payload)
return stats, nil
}
// ConntrackStats returns more detailed info about the conntrack table
func ConntrackStats(percpu bool) ([]ConntrackStat, error) {
return ConntrackStatsWithContext(context.Background(), percpu)
}
// ConntrackStatsWithContext returns more detailed info about the conntrack table
func ConntrackStatsWithContext(ctx context.Context, percpu bool) ([]ConntrackStat, error) {
return conntrackStatsFromFile(common.HostProc("net/stat/nf_conntrack"), percpu)
}
// conntrackStatsFromFile returns more detailed info about the conntrack table
// from `filename`
// If 'percpu' is false, the result will contain exactly one item with totals/summary
func conntrackStatsFromFile(filename string, percpu bool) ([]ConntrackStat, error) {
lines, err := common.ReadLines(filename)
if err != nil {
return nil, err
}
statlist := NewConntrackStatList()
for _, line := range lines {
fields := strings.Fields(line)
if len(fields) == 17 && fields[0] != "entries" {
statlist.Append(NewConntrackStat(
common.HexToUint32(fields[CT_ENTRIES]),
common.HexToUint32(fields[CT_SEARCHED]),
common.HexToUint32(fields[CT_FOUND]),
common.HexToUint32(fields[CT_NEW]),
common.HexToUint32(fields[CT_INVALID]),
common.HexToUint32(fields[CT_IGNORE]),
common.HexToUint32(fields[CT_DELETE]),
common.HexToUint32(fields[CT_DELETE_LIST]),
common.HexToUint32(fields[CT_INSERT]),
common.HexToUint32(fields[CT_INSERT_FAILED]),
common.HexToUint32(fields[CT_DROP]),
common.HexToUint32(fields[CT_EARLY_DROP]),
common.HexToUint32(fields[CT_ICMP_ERROR]),
common.HexToUint32(fields[CT_EXPECT_NEW]),
common.HexToUint32(fields[CT_EXPECT_CREATE]),
common.HexToUint32(fields[CT_EXPECT_DELETE]),
common.HexToUint32(fields[CT_SEARCH_RESTART]),
))
}
}
if percpu {
return statlist.Items(), nil
}
return statlist.Summary(), nil
}
// http://students.mimuw.edu.pl/lxr/source/include/net/tcp_states.h
var TCPStatuses = map[string]string{
"01": "ESTABLISHED",
"02": "SYN_SENT",
"03": "SYN_RECV",
"04": "FIN_WAIT1",
"05": "FIN_WAIT2",
"06": "TIME_WAIT",
"07": "CLOSE",
"08": "CLOSE_WAIT",
"09": "LAST_ACK",
"0A": "LISTEN",
"0B": "CLOSING",
}
type netConnectionKindType struct {
family uint32
sockType uint32
filename string
}
var kindTCP4 = netConnectionKindType{
family: syscall.AF_INET,
sockType: syscall.SOCK_STREAM,
filename: "tcp",
}
var kindTCP6 = netConnectionKindType{
family: syscall.AF_INET6,
sockType: syscall.SOCK_STREAM,
filename: "tcp6",
}
var kindUDP4 = netConnectionKindType{
family: syscall.AF_INET,
sockType: syscall.SOCK_DGRAM,
filename: "udp",
}
var kindUDP6 = netConnectionKindType{
family: syscall.AF_INET6,
sockType: syscall.SOCK_DGRAM,
filename: "udp6",
}
var kindUNIX = netConnectionKindType{
family: syscall.AF_UNIX,
filename: "unix",
}
var netConnectionKindMap = map[string][]netConnectionKindType{
"all": {kindTCP4, kindTCP6, kindUDP4, kindUDP6, kindUNIX},
"tcp": {kindTCP4, kindTCP6},
"tcp4": {kindTCP4},
"tcp6": {kindTCP6},
"udp": {kindUDP4, kindUDP6},
"udp4": {kindUDP4},
"udp6": {kindUDP6},
"unix": {kindUNIX},
"inet": {kindTCP4, kindTCP6, kindUDP4, kindUDP6},
"inet4": {kindTCP4, kindUDP4},
"inet6": {kindTCP6, kindUDP6},
}
type inodeMap struct {
pid int32
fd uint32
}
type connTmp struct {
fd uint32
family uint32
sockType uint32
laddr Addr
raddr Addr
status string
pid int32
boundPid int32
path string
}
// Return a list of network connections opened.
func Connections(kind string) ([]ConnectionStat, error) {
return ConnectionsWithContext(context.Background(), kind)
}
func ConnectionsWithContext(ctx context.Context, kind string) ([]ConnectionStat, error) {
return ConnectionsPid(kind, 0)
}
// Return a list of network connections opened returning at most `max`
// connections for each running process.
func ConnectionsMax(kind string, max int) ([]ConnectionStat, error) {
return ConnectionsMaxWithContext(context.Background(), kind, max)
}
func ConnectionsMaxWithContext(ctx context.Context, kind string, max int) ([]ConnectionStat, error) {
return ConnectionsPidMax(kind, 0, max)
}
// Return a list of network connections opened, omitting `Uids`.
// WithoutUids functions are reliant on implementation details. They may be altered to be an alias for Connections or be
// removed from the API in the future.
func ConnectionsWithoutUids(kind string) ([]ConnectionStat, error) {
return ConnectionsWithoutUidsWithContext(context.Background(), kind)
}
func ConnectionsWithoutUidsWithContext(ctx context.Context, kind string) ([]ConnectionStat, error) {
return ConnectionsMaxWithoutUidsWithContext(ctx, kind, 0)
}
func ConnectionsMaxWithoutUidsWithContext(ctx context.Context, kind string, max int) ([]ConnectionStat, error) {
return ConnectionsPidMaxWithoutUidsWithContext(ctx, kind, 0, max)
}
// Return a list of network connections opened by a process.
func ConnectionsPid(kind string, pid int32) ([]ConnectionStat, error) {
return ConnectionsPidWithContext(context.Background(), kind, pid)
}
func ConnectionsPidWithoutUids(kind string, pid int32) ([]ConnectionStat, error) {
return ConnectionsPidWithoutUidsWithContext(context.Background(), kind, pid)
}
func ConnectionsPidWithContext(ctx context.Context, kind string, pid int32) ([]ConnectionStat, error) {
return ConnectionsPidMaxWithContext(ctx, kind, pid, 0)
}
func ConnectionsPidWithoutUidsWithContext(ctx context.Context, kind string, pid int32) ([]ConnectionStat, error) {
return ConnectionsPidMaxWithoutUidsWithContext(ctx, kind, pid, 0)
}
// Return up to `max` network connections opened by a process.
func ConnectionsPidMax(kind string, pid int32, max int) ([]ConnectionStat, error) {
return ConnectionsPidMaxWithContext(context.Background(), kind, pid, max)
}
func ConnectionsPidMaxWithoutUids(kind string, pid int32, max int) ([]ConnectionStat, error) {
return ConnectionsPidMaxWithoutUidsWithContext(context.Background(), kind, pid, max)
}
func ConnectionsPidMaxWithContext(ctx context.Context, kind string, pid int32, max int) ([]ConnectionStat, error) {
return connectionsPidMaxWithoutUidsWithContext(ctx, kind, pid, max, false)
}
func ConnectionsPidMaxWithoutUidsWithContext(ctx context.Context, kind string, pid int32, max int) ([]ConnectionStat, error) {
return connectionsPidMaxWithoutUidsWithContext(ctx, kind, pid, max, true)
}
func connectionsPidMaxWithoutUidsWithContext(ctx context.Context, kind string, pid int32, max int, skipUids bool) ([]ConnectionStat, error) {
tmap, ok := netConnectionKindMap[kind]
if !ok {
return nil, fmt.Errorf("invalid kind, %s", kind)
}
root := common.HostProc()
var err error
var inodes map[string][]inodeMap
if pid == 0 {
inodes, err = getProcInodesAll(root, max)
} else {
inodes, err = getProcInodes(root, pid, max)
if len(inodes) == 0 {
// no connection for the pid
return []ConnectionStat{}, nil
}
}
if err != nil {
return nil, fmt.Errorf("cound not get pid(s), %d: %s", pid, err)
}
return statsFromInodes(root, pid, tmap, inodes, skipUids)
}
func statsFromInodes(root string, pid int32, tmap []netConnectionKindType, inodes map[string][]inodeMap, skipUids bool) ([]ConnectionStat, error) {
dupCheckMap := make(map[string]struct{})
var ret []ConnectionStat
var err error
for _, t := range tmap {
var path string
var connKey string
var ls []connTmp
if pid == 0 {
path = fmt.Sprintf("%s/net/%s", root, t.filename)
} else {
path = fmt.Sprintf("%s/%d/net/%s", root, pid, t.filename)
}
switch t.family {
case syscall.AF_INET, syscall.AF_INET6:
ls, err = processInet(path, t, inodes, pid)
case syscall.AF_UNIX:
ls, err = processUnix(path, t, inodes, pid)
}
if err != nil {
return nil, err
}
for _, c := range ls {
// Build TCP key to id the connection uniquely
// socket type, src ip, src port, dst ip, dst port and state should be enough
// to prevent duplications.
connKey = fmt.Sprintf("%d-%s:%d-%s:%d-%s", c.sockType, c.laddr.IP, c.laddr.Port, c.raddr.IP, c.raddr.Port, c.status)
if _, ok := dupCheckMap[connKey]; ok {
continue
}
conn := ConnectionStat{
Fd: c.fd,
Family: c.family,
Type: c.sockType,
Laddr: c.laddr,
Raddr: c.raddr,
Status: c.status,
Pid: c.pid,
}
if c.pid == 0 {
conn.Pid = c.boundPid
} else {
conn.Pid = c.pid
}
if !skipUids {
// fetch process owner Real, effective, saved set, and filesystem UIDs
proc := process{Pid: conn.Pid}
conn.Uids, _ = proc.getUids()
}
ret = append(ret, conn)
dupCheckMap[connKey] = struct{}{}
}
}
return ret, nil
}
// getProcInodes returnes fd of the pid.
func getProcInodes(root string, pid int32, max int) (map[string][]inodeMap, error) {
ret := make(map[string][]inodeMap)
dir := fmt.Sprintf("%s/%d/fd", root, pid)
f, err := os.Open(dir)
if err != nil {
return ret, err
}
defer f.Close()
files, err := f.Readdir(max)
if err != nil {
return ret, err
}
for _, fd := range files {
inodePath := fmt.Sprintf("%s/%d/fd/%s", root, pid, fd.Name())
inode, err := os.Readlink(inodePath)
if err != nil {
continue
}
if !strings.HasPrefix(inode, "socket:[") {
continue
}
// the process is using a socket
l := len(inode)
inode = inode[8 : l-1]
_, ok := ret[inode]
if !ok {
ret[inode] = make([]inodeMap, 0)
}
fd, err := strconv.Atoi(fd.Name())
if err != nil {
continue
}
i := inodeMap{
pid: pid,
fd: uint32(fd),
}
ret[inode] = append(ret[inode], i)
}
return ret, nil
}
// Pids retunres all pids.
// Note: this is a copy of process_linux.Pids()
// FIXME: Import process occures import cycle.
// move to common made other platform breaking. Need consider.
func Pids() ([]int32, error) {
return PidsWithContext(context.Background())
}
func PidsWithContext(ctx context.Context) ([]int32, error) {
var ret []int32
d, err := os.Open(common.HostProc())
if err != nil {
return nil, err
}
defer d.Close()
fnames, err := d.Readdirnames(-1)
if err != nil {
return nil, err
}
for _, fname := range fnames {
pid, err := strconv.ParseInt(fname, 10, 32)
if err != nil {
// if not numeric name, just skip
continue
}
ret = append(ret, int32(pid))
}
return ret, nil
}
// Note: the following is based off process_linux structs and methods
// we need these to fetch the owner of a process ID
// FIXME: Import process occures import cycle.
// see remarks on pids()
type process struct {
Pid int32 `json:"pid"`
uids []int32
}
// Uids returns user ids of the process as a slice of the int
func (p *process) getUids() ([]int32, error) {
err := p.fillFromStatus()
if err != nil {
return []int32{}, err
}
return p.uids, nil
}
// Get status from /proc/(pid)/status
func (p *process) fillFromStatus() error {
pid := p.Pid
statPath := common.HostProc(strconv.Itoa(int(pid)), "status")
contents, err := ioutil.ReadFile(statPath)
if err != nil {
return err
}
lines := strings.Split(string(contents), "\n")
for _, line := range lines {
tabParts := strings.SplitN(line, "\t", 2)
if len(tabParts) < 2 {
continue
}
value := tabParts[1]
switch strings.TrimRight(tabParts[0], ":") {
case "Uid":
p.uids = make([]int32, 0, 4)
for _, i := range strings.Split(value, "\t") {
v, err := strconv.ParseInt(i, 10, 32)
if err != nil {
return err
}
p.uids = append(p.uids, int32(v))
}
}
}
return nil
}
func getProcInodesAll(root string, max int) (map[string][]inodeMap, error) {
pids, err := Pids()
if err != nil {
return nil, err
}
ret := make(map[string][]inodeMap)
for _, pid := range pids {
t, err := getProcInodes(root, pid, max)
if err != nil {
// skip if permission error or no longer exists
if os.IsPermission(err) || os.IsNotExist(err) || err == io.EOF {
continue
}
return ret, err
}
if len(t) == 0 {
continue
}
// TODO: update ret.
ret = updateMap(ret, t)
}
return ret, nil
}
// decodeAddress decode addresse represents addr in proc/net/*
// ex:
// "0500000A:0016" -> "10.0.0.5", 22
// "0085002452100113070057A13F025401:0035" -> "2400:8500:1301:1052:a157:7:154:23f", 53
func decodeAddress(family uint32, src string) (Addr, error) {
t := strings.Split(src, ":")
if len(t) != 2 {
return Addr{}, fmt.Errorf("does not contain port, %s", src)
}
addr := t[0]
port, err := strconv.ParseUint(t[1], 16, 16)
if err != nil {
return Addr{}, fmt.Errorf("invalid port, %s", src)
}
decoded, err := hex.DecodeString(addr)
if err != nil {
return Addr{}, fmt.Errorf("decode error, %s", err)
}
var ip net.IP
// Assumes this is little_endian
if family == syscall.AF_INET {
ip = net.IP(Reverse(decoded))
} else { // IPv6
ip, err = parseIPv6HexString(decoded)
if err != nil {
return Addr{}, err
}
}
return Addr{
IP: ip.String(),
Port: uint32(port),
}, nil
}
// Reverse reverses array of bytes.
func Reverse(s []byte) []byte {
return ReverseWithContext(context.Background(), s)
}
func ReverseWithContext(ctx context.Context, s []byte) []byte {
for i, j := 0, len(s)-1; i < j; i, j = i+1, j-1 {
s[i], s[j] = s[j], s[i]
}
return s
}
// parseIPv6HexString parse array of bytes to IPv6 string
func parseIPv6HexString(src []byte) (net.IP, error) {
if len(src) != 16 {
return nil, fmt.Errorf("invalid IPv6 string")
}
buf := make([]byte, 0, 16)
for i := 0; i < len(src); i += 4 {
r := Reverse(src[i : i+4])
buf = append(buf, r...)
}
return net.IP(buf), nil
}
func processInet(file string, kind netConnectionKindType, inodes map[string][]inodeMap, filterPid int32) ([]connTmp, error) {
if strings.HasSuffix(file, "6") && !common.PathExists(file) {
// IPv6 not supported, return empty.
return []connTmp{}, nil
}
// Read the contents of the /proc file with a single read sys call.
// This minimizes duplicates in the returned connections
// For more info:
// https://github.com/shirou/gopsutil/pull/361
contents, err := ioutil.ReadFile(file)
if err != nil {
return nil, err
}
lines := bytes.Split(contents, []byte("\n"))
var ret []connTmp
// skip first line
for _, line := range lines[1:] {
l := strings.Fields(string(line))
if len(l) < 10 {
continue
}
laddr := l[1]
raddr := l[2]
status := l[3]
inode := l[9]
pid := int32(0)
fd := uint32(0)
i, exists := inodes[inode]
if exists {
pid = i[0].pid
fd = i[0].fd
}
if filterPid > 0 && filterPid != pid {
continue
}
if kind.sockType == syscall.SOCK_STREAM {
status = TCPStatuses[status]
} else {
status = "NONE"
}
la, err := decodeAddress(kind.family, laddr)
if err != nil {
continue
}
ra, err := decodeAddress(kind.family, raddr)
if err != nil {
continue
}
ret = append(ret, connTmp{
fd: fd,
family: kind.family,
sockType: kind.sockType,
laddr: la,
raddr: ra,
status: status,
pid: pid,
})
}
return ret, nil
}
func processUnix(file string, kind netConnectionKindType, inodes map[string][]inodeMap, filterPid int32) ([]connTmp, error) {
// Read the contents of the /proc file with a single read sys call.
// This minimizes duplicates in the returned connections
// For more info:
// https://github.com/shirou/gopsutil/pull/361
contents, err := ioutil.ReadFile(file)
if err != nil {
return nil, err
}
lines := bytes.Split(contents, []byte("\n"))
var ret []connTmp
// skip first line
for _, line := range lines[1:] {
tokens := strings.Fields(string(line))
if len(tokens) < 6 {
continue
}
st, err := strconv.Atoi(tokens[4])
if err != nil {
return nil, err
}
inode := tokens[6]
var pairs []inodeMap
pairs, exists := inodes[inode]
if !exists {
pairs = []inodeMap{
{},
}
}
for _, pair := range pairs {
if filterPid > 0 && filterPid != pair.pid {
continue
}
var path string
if len(tokens) == 8 {
path = tokens[len(tokens)-1]
}
ret = append(ret, connTmp{
fd: pair.fd,
family: kind.family,
sockType: uint32(st),
laddr: Addr{
IP: path,
},
pid: pair.pid,
status: "NONE",
path: path,
})
}
}
return ret, nil
}
func updateMap(src map[string][]inodeMap, add map[string][]inodeMap) map[string][]inodeMap {
for key, value := range add {
a, exists := src[key]
if !exists {
src[key] = value
continue
}
src[key] = append(a, value...)
}
return src
}