open-consul/vendor/github.com/shirou/gopsutil/v3/net/net_windows.go

// +build windows

package net

import (
	"context"
	"fmt"
	"net"
	"os"
	"syscall"
	"unsafe"

	"github.com/shirou/gopsutil/v3/internal/common"
	"golang.org/x/sys/windows"
)

var (
	modiphlpapi             = windows.NewLazySystemDLL("iphlpapi.dll")
	procGetExtendedTCPTable = modiphlpapi.NewProc("GetExtendedTcpTable")
	procGetExtendedUDPTable = modiphlpapi.NewProc("GetExtendedUdpTable")
	procGetIfEntry2         = modiphlpapi.NewProc("GetIfEntry2")
)

const (
	TCPTableBasicListener = iota
	TCPTableBasicConnections
	TCPTableBasicAll
	TCPTableOwnerPIDListener
	TCPTableOwnerPIDConnections
	TCPTableOwnerPIDAll
	TCPTableOwnerModuleListener
	TCPTableOwnerModuleConnections
	TCPTableOwnerModuleAll
)

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 netConnectionKindMap = map[string][]netConnectionKindType{
	"all":   {kindTCP4, kindTCP6, kindUDP4, kindUDP6},
	"tcp":   {kindTCP4, kindTCP6},
	"tcp4":  {kindTCP4},
	"tcp6":  {kindTCP6},
	"udp":   {kindUDP4, kindUDP6},
	"udp4":  {kindUDP4},
	"udp6":  {kindUDP6},
	"inet":  {kindTCP4, kindTCP6, kindUDP4, kindUDP6},
	"inet4": {kindTCP4, kindUDP4},
	"inet6": {kindTCP6, kindUDP6},
}

// https://github.com/microsoft/ethr/blob/aecdaf923970e5a9b4c461b4e2e3963d781ad2cc/plt_windows.go#L114-L170
type guid struct {
	Data1 uint32
	Data2 uint16
	Data3 uint16
	Data4 [8]byte
}

const (
	maxStringSize        = 256
	maxPhysAddressLength = 32
	pad0for64_4for32     = 0
)

type mibIfRow2 struct {
	InterfaceLuid               uint64
	InterfaceIndex              uint32
	InterfaceGuid               guid
	Alias                       [maxStringSize + 1]uint16
	Description                 [maxStringSize + 1]uint16
	PhysicalAddressLength       uint32
	PhysicalAddress             [maxPhysAddressLength]uint8
	PermanentPhysicalAddress    [maxPhysAddressLength]uint8
	Mtu                         uint32
	Type                        uint32
	TunnelType                  uint32
	MediaType                   uint32
	PhysicalMediumType          uint32
	AccessType                  uint32
	DirectionType               uint32
	InterfaceAndOperStatusFlags uint32
	OperStatus                  uint32
	AdminStatus                 uint32
	MediaConnectState           uint32
	NetworkGuid                 guid
	ConnectionType              uint32
	padding1                    [pad0for64_4for32]byte
	TransmitLinkSpeed           uint64
	ReceiveLinkSpeed            uint64
	InOctets                    uint64
	InUcastPkts                 uint64
	InNUcastPkts                uint64
	InDiscards                  uint64
	InErrors                    uint64
	InUnknownProtos             uint64
	InUcastOctets               uint64
	InMulticastOctets           uint64
	InBroadcastOctets           uint64
	OutOctets                   uint64
	OutUcastPkts                uint64
	OutNUcastPkts               uint64
	OutDiscards                 uint64
	OutErrors                   uint64
	OutUcastOctets              uint64
	OutMulticastOctets          uint64
	OutBroadcastOctets          uint64
	OutQLen                     uint64
}

func IOCounters(pernic bool) ([]IOCountersStat, error) {
	return IOCountersWithContext(context.Background(), pernic)
}

func IOCountersWithContext(ctx context.Context, pernic bool) ([]IOCountersStat, error) {
	ifs, err := net.Interfaces()
	if err != nil {
		return nil, err
	}
	var counters []IOCountersStat

	err = procGetIfEntry2.Find()
	if err == nil { // Vista+, uint64 values (issue#693)
		for _, ifi := range ifs {
			c := IOCountersStat{
				Name: ifi.Name,
			}

			row := mibIfRow2{InterfaceIndex: uint32(ifi.Index)}
			ret, _, err := procGetIfEntry2.Call(uintptr(unsafe.Pointer(&row)))
			if ret != 0 {
				return nil, os.NewSyscallError("GetIfEntry2", err)
			}
			c.BytesSent = uint64(row.OutOctets)
			c.BytesRecv = uint64(row.InOctets)
			c.PacketsSent = uint64(row.OutUcastPkts)
			c.PacketsRecv = uint64(row.InUcastPkts)
			c.Errin = uint64(row.InErrors)
			c.Errout = uint64(row.OutErrors)
			c.Dropin = uint64(row.InDiscards)
			c.Dropout = uint64(row.OutDiscards)

			counters = append(counters, c)
		}
	} else { // WinXP fallback, uint32 values
		for _, ifi := range ifs {
			c := IOCountersStat{
				Name: ifi.Name,
			}

			row := windows.MibIfRow{Index: uint32(ifi.Index)}
			err = windows.GetIfEntry(&row)
			if err != nil {
				return nil, os.NewSyscallError("GetIfEntry", err)
			}
			c.BytesSent = uint64(row.OutOctets)
			c.BytesRecv = uint64(row.InOctets)
			c.PacketsSent = uint64(row.OutUcastPkts)
			c.PacketsRecv = uint64(row.InUcastPkts)
			c.Errin = uint64(row.InErrors)
			c.Errout = uint64(row.OutErrors)
			c.Dropin = uint64(row.InDiscards)
			c.Dropout = uint64(row.OutDiscards)

			counters = append(counters, c)
		}
	}

	if !pernic {
		return getIOCountersAll(counters)
	}
	return counters, nil
}

// NetIOCountersByFile is an method which is added just a compatibility for linux.
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) {
	return IOCounters(pernic)
}

// Return a list of network connections
// Available kind:
//   reference to netConnectionKindMap
func Connections(kind string) ([]ConnectionStat, error) {
	return ConnectionsWithContext(context.Background(), kind)
}

func ConnectionsWithContext(ctx context.Context, kind string) ([]ConnectionStat, error) {
	return ConnectionsPidWithContext(ctx, kind, 0)
}

// ConnectionsPid 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 ConnectionsPidWithContext(ctx context.Context, kind string, pid int32) ([]ConnectionStat, error) {
	tmap, ok := netConnectionKindMap[kind]
	if !ok {
		return nil, fmt.Errorf("invalid kind, %s", kind)
	}
	return getProcInet(tmap, pid)
}

func getProcInet(kinds []netConnectionKindType, pid int32) ([]ConnectionStat, error) {
	stats := make([]ConnectionStat, 0)

	for _, kind := range kinds {
		s, err := getNetStatWithKind(kind)
		if err != nil {
			continue
		}

		if pid == 0 {
			stats = append(stats, s...)
		} else {
			for _, ns := range s {
				if ns.Pid != pid {
					continue
				}
				stats = append(stats, ns)
			}
		}
	}

	return stats, nil
}

func getNetStatWithKind(kindType netConnectionKindType) ([]ConnectionStat, error) {
	if kindType.filename == "" {
		return nil, fmt.Errorf("kind filename must be required")
	}

	switch kindType.filename {
	case kindTCP4.filename:
		return getTCPConnections(kindTCP4.family)
	case kindTCP6.filename:
		return getTCPConnections(kindTCP6.family)
	case kindUDP4.filename:
		return getUDPConnections(kindUDP4.family)
	case kindUDP6.filename:
		return getUDPConnections(kindUDP6.family)
	}

	return nil, fmt.Errorf("invalid kind filename, %s", kindType.filename)
}

// 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 []ConnectionStat{}, common.ErrNotImplementedError
}

// 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)
}

func ConnectionsPidWithoutUids(kind string, pid int32) ([]ConnectionStat, error) {
	return ConnectionsPidWithoutUidsWithContext(context.Background(), kind, pid)
}

func ConnectionsPidWithoutUidsWithContext(ctx context.Context, kind string, pid int32) ([]ConnectionStat, error) {
	return ConnectionsPidMaxWithoutUidsWithContext(ctx, kind, pid, 0)
}

func ConnectionsPidMaxWithoutUids(kind string, pid int32, max int) ([]ConnectionStat, error) {
	return ConnectionsPidMaxWithoutUidsWithContext(context.Background(), kind, pid, max)
}

func ConnectionsPidMaxWithoutUidsWithContext(ctx context.Context, kind string, pid int32, max int) ([]ConnectionStat, error) {
	return connectionsPidMaxWithoutUidsWithContext(ctx, kind, pid, max)
}

func connectionsPidMaxWithoutUidsWithContext(ctx context.Context, kind string, pid int32, max int) ([]ConnectionStat, error) {
	return []ConnectionStat{}, common.ErrNotImplementedError
}

func FilterCounters() ([]FilterStat, error) {
	return FilterCountersWithContext(context.Background())
}

func FilterCountersWithContext(ctx context.Context) ([]FilterStat, error) {
	return nil, common.ErrNotImplementedError
}

func ConntrackStats(percpu bool) ([]ConntrackStat, error) {
	return ConntrackStatsWithContext(context.Background(), percpu)
}

func ConntrackStatsWithContext(ctx context.Context, percpu bool) ([]ConntrackStat, error) {
	return nil, common.ErrNotImplementedError
}


// 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.
// Not Implemented for Windows
func ProtoCounters(protocols []string) ([]ProtoCountersStat, error) {
	return ProtoCountersWithContext(context.Background(), protocols)
}

func ProtoCountersWithContext(ctx context.Context, protocols []string) ([]ProtoCountersStat, error) {
	return nil, common.ErrNotImplementedError
}

func getTableUintptr(family uint32, buf []byte) uintptr {
	var (
		pmibTCPTable  pmibTCPTableOwnerPidAll
		pmibTCP6Table pmibTCP6TableOwnerPidAll

		p uintptr
	)
	switch family {
	case kindTCP4.family:
		if len(buf) > 0 {
			pmibTCPTable = (*mibTCPTableOwnerPid)(unsafe.Pointer(&buf[0]))
			p = uintptr(unsafe.Pointer(pmibTCPTable))
		} else {
			p = uintptr(unsafe.Pointer(pmibTCPTable))
		}
	case kindTCP6.family:
		if len(buf) > 0 {
			pmibTCP6Table = (*mibTCP6TableOwnerPid)(unsafe.Pointer(&buf[0]))
			p = uintptr(unsafe.Pointer(pmibTCP6Table))
		} else {
			p = uintptr(unsafe.Pointer(pmibTCP6Table))
		}
	}
	return p
}

func getTableInfo(filename string, table interface{}) (index, step, length int) {
	switch filename {
	case kindTCP4.filename:
		index = int(unsafe.Sizeof(table.(pmibTCPTableOwnerPidAll).DwNumEntries))
		step = int(unsafe.Sizeof(table.(pmibTCPTableOwnerPidAll).Table))
		length = int(table.(pmibTCPTableOwnerPidAll).DwNumEntries)
	case kindTCP6.filename:
		index = int(unsafe.Sizeof(table.(pmibTCP6TableOwnerPidAll).DwNumEntries))
		step = int(unsafe.Sizeof(table.(pmibTCP6TableOwnerPidAll).Table))
		length = int(table.(pmibTCP6TableOwnerPidAll).DwNumEntries)
	case kindUDP4.filename:
		index = int(unsafe.Sizeof(table.(pmibUDPTableOwnerPid).DwNumEntries))
		step = int(unsafe.Sizeof(table.(pmibUDPTableOwnerPid).Table))
		length = int(table.(pmibUDPTableOwnerPid).DwNumEntries)
	case kindUDP6.filename:
		index = int(unsafe.Sizeof(table.(pmibUDP6TableOwnerPid).DwNumEntries))
		step = int(unsafe.Sizeof(table.(pmibUDP6TableOwnerPid).Table))
		length = int(table.(pmibUDP6TableOwnerPid).DwNumEntries)
	}

	return
}

func getTCPConnections(family uint32) ([]ConnectionStat, error) {
	var (
		p    uintptr
		buf  []byte
		size uint32

		pmibTCPTable  pmibTCPTableOwnerPidAll
		pmibTCP6Table pmibTCP6TableOwnerPidAll
	)

	if family == 0 {
		return nil, fmt.Errorf("faimly must be required")
	}

	for {
		switch family {
		case kindTCP4.family:
			if len(buf) > 0 {
				pmibTCPTable = (*mibTCPTableOwnerPid)(unsafe.Pointer(&buf[0]))
				p = uintptr(unsafe.Pointer(pmibTCPTable))
			} else {
				p = uintptr(unsafe.Pointer(pmibTCPTable))
			}
		case kindTCP6.family:
			if len(buf) > 0 {
				pmibTCP6Table = (*mibTCP6TableOwnerPid)(unsafe.Pointer(&buf[0]))
				p = uintptr(unsafe.Pointer(pmibTCP6Table))
			} else {
				p = uintptr(unsafe.Pointer(pmibTCP6Table))
			}
		}

		err := getExtendedTcpTable(p,
			&size,
			true,
			family,
			tcpTableOwnerPidAll,
			0)
		if err == nil {
			break
		}
		if err != windows.ERROR_INSUFFICIENT_BUFFER {
			return nil, err
		}
		buf = make([]byte, size)
	}

	var (
		index, step int
		length      int
	)

	stats := make([]ConnectionStat, 0)
	switch family {
	case kindTCP4.family:
		index, step, length = getTableInfo(kindTCP4.filename, pmibTCPTable)
	case kindTCP6.family:
		index, step, length = getTableInfo(kindTCP6.filename, pmibTCP6Table)
	}

	if length == 0 {
		return nil, nil
	}

	for i := 0; i < length; i++ {
		switch family {
		case kindTCP4.family:
			mibs := (*mibTCPRowOwnerPid)(unsafe.Pointer(&buf[index]))
			ns := mibs.convertToConnectionStat()
			stats = append(stats, ns)
		case kindTCP6.family:
			mibs := (*mibTCP6RowOwnerPid)(unsafe.Pointer(&buf[index]))
			ns := mibs.convertToConnectionStat()
			stats = append(stats, ns)
		}

		index += step
	}
	return stats, nil
}

func getUDPConnections(family uint32) ([]ConnectionStat, error) {
	var (
		p    uintptr
		buf  []byte
		size uint32

		pmibUDPTable  pmibUDPTableOwnerPid
		pmibUDP6Table pmibUDP6TableOwnerPid
	)

	if family == 0 {
		return nil, fmt.Errorf("faimly must be required")
	}

	for {
		switch family {
		case kindUDP4.family:
			if len(buf) > 0 {
				pmibUDPTable = (*mibUDPTableOwnerPid)(unsafe.Pointer(&buf[0]))
				p = uintptr(unsafe.Pointer(pmibUDPTable))
			} else {
				p = uintptr(unsafe.Pointer(pmibUDPTable))
			}
		case kindUDP6.family:
			if len(buf) > 0 {
				pmibUDP6Table = (*mibUDP6TableOwnerPid)(unsafe.Pointer(&buf[0]))
				p = uintptr(unsafe.Pointer(pmibUDP6Table))
			} else {
				p = uintptr(unsafe.Pointer(pmibUDP6Table))
			}
		}

		err := getExtendedUdpTable(
			p,
			&size,
			true,
			family,
			udpTableOwnerPid,
			0,
		)
		if err == nil {
			break
		}
		if err != windows.ERROR_INSUFFICIENT_BUFFER {
			return nil, err
		}
		buf = make([]byte, size)
	}

	var (
		index, step, length int
	)

	stats := make([]ConnectionStat, 0)
	switch family {
	case kindUDP4.family:
		index, step, length = getTableInfo(kindUDP4.filename, pmibUDPTable)
	case kindUDP6.family:
		index, step, length = getTableInfo(kindUDP6.filename, pmibUDP6Table)
	}

	if length == 0 {
		return nil, nil
	}

	for i := 0; i < length; i++ {
		switch family {
		case kindUDP4.family:
			mibs := (*mibUDPRowOwnerPid)(unsafe.Pointer(&buf[index]))
			ns := mibs.convertToConnectionStat()
			stats = append(stats, ns)
		case kindUDP4.family:
			mibs := (*mibUDP6RowOwnerPid)(unsafe.Pointer(&buf[index]))
			ns := mibs.convertToConnectionStat()
			stats = append(stats, ns)
		}

		index += step
	}
	return stats, nil
}

// tcpStatuses https://msdn.microsoft.com/en-us/library/windows/desktop/bb485761(v=vs.85).aspx
var tcpStatuses = map[mibTCPState]string{
	1:  "CLOSED",
	2:  "LISTEN",
	3:  "SYN_SENT",
	4:  "SYN_RECEIVED",
	5:  "ESTABLISHED",
	6:  "FIN_WAIT_1",
	7:  "FIN_WAIT_2",
	8:  "CLOSE_WAIT",
	9:  "CLOSING",
	10: "LAST_ACK",
	11: "TIME_WAIT",
	12: "DELETE",
}

func getExtendedTcpTable(pTcpTable uintptr, pdwSize *uint32, bOrder bool, ulAf uint32, tableClass tcpTableClass, reserved uint32) (errcode error) {
	r1, _, _ := syscall.Syscall6(procGetExtendedTCPTable.Addr(), 6, pTcpTable, uintptr(unsafe.Pointer(pdwSize)), getUintptrFromBool(bOrder), uintptr(ulAf), uintptr(tableClass), uintptr(reserved))
	if r1 != 0 {
		errcode = syscall.Errno(r1)
	}
	return
}

func getExtendedUdpTable(pUdpTable uintptr, pdwSize *uint32, bOrder bool, ulAf uint32, tableClass udpTableClass, reserved uint32) (errcode error) {
	r1, _, _ := syscall.Syscall6(procGetExtendedUDPTable.Addr(), 6, pUdpTable, uintptr(unsafe.Pointer(pdwSize)), getUintptrFromBool(bOrder), uintptr(ulAf), uintptr(tableClass), uintptr(reserved))
	if r1 != 0 {
		errcode = syscall.Errno(r1)
	}
	return
}

func getUintptrFromBool(b bool) uintptr {
	if b {
		return 1
	}
	return 0
}

const anySize = 1

// type MIB_TCP_STATE int32
type mibTCPState int32

type tcpTableClass int32

const (
	tcpTableBasicListener tcpTableClass = iota
	tcpTableBasicConnections
	tcpTableBasicAll
	tcpTableOwnerPidListener
	tcpTableOwnerPidConnections
	tcpTableOwnerPidAll
	tcpTableOwnerModuleListener
	tcpTableOwnerModuleConnections
	tcpTableOwnerModuleAll
)

type udpTableClass int32

const (
	udpTableBasic udpTableClass = iota
	udpTableOwnerPid
	udpTableOwnerModule
)

// TCP

type mibTCPRowOwnerPid struct {
	DwState      uint32
	DwLocalAddr  uint32
	DwLocalPort  uint32
	DwRemoteAddr uint32
	DwRemotePort uint32
	DwOwningPid  uint32
}

func (m *mibTCPRowOwnerPid) convertToConnectionStat() ConnectionStat {
	ns := ConnectionStat{
		Family: kindTCP4.family,
		Type:   kindTCP4.sockType,
		Laddr: Addr{
			IP:   parseIPv4HexString(m.DwLocalAddr),
			Port: uint32(decodePort(m.DwLocalPort)),
		},
		Raddr: Addr{
			IP:   parseIPv4HexString(m.DwRemoteAddr),
			Port: uint32(decodePort(m.DwRemotePort)),
		},
		Pid:    int32(m.DwOwningPid),
		Status: tcpStatuses[mibTCPState(m.DwState)],
	}

	return ns
}

type mibTCPTableOwnerPid struct {
	DwNumEntries uint32
	Table        [anySize]mibTCPRowOwnerPid
}

type mibTCP6RowOwnerPid struct {
	UcLocalAddr     [16]byte
	DwLocalScopeId  uint32
	DwLocalPort     uint32
	UcRemoteAddr    [16]byte
	DwRemoteScopeId uint32
	DwRemotePort    uint32
	DwState         uint32
	DwOwningPid     uint32
}

func (m *mibTCP6RowOwnerPid) convertToConnectionStat() ConnectionStat {
	ns := ConnectionStat{
		Family: kindTCP6.family,
		Type:   kindTCP6.sockType,
		Laddr: Addr{
			IP:   parseIPv6HexString(m.UcLocalAddr),
			Port: uint32(decodePort(m.DwLocalPort)),
		},
		Raddr: Addr{
			IP:   parseIPv6HexString(m.UcRemoteAddr),
			Port: uint32(decodePort(m.DwRemotePort)),
		},
		Pid:    int32(m.DwOwningPid),
		Status: tcpStatuses[mibTCPState(m.DwState)],
	}

	return ns
}

type mibTCP6TableOwnerPid struct {
	DwNumEntries uint32
	Table        [anySize]mibTCP6RowOwnerPid
}

type pmibTCPTableOwnerPidAll *mibTCPTableOwnerPid
type pmibTCP6TableOwnerPidAll *mibTCP6TableOwnerPid

// UDP

type mibUDPRowOwnerPid struct {
	DwLocalAddr uint32
	DwLocalPort uint32
	DwOwningPid uint32
}

func (m *mibUDPRowOwnerPid) convertToConnectionStat() ConnectionStat {
	ns := ConnectionStat{
		Family: kindUDP4.family,
		Type:   kindUDP4.sockType,
		Laddr: Addr{
			IP:   parseIPv4HexString(m.DwLocalAddr),
			Port: uint32(decodePort(m.DwLocalPort)),
		},
		Pid: int32(m.DwOwningPid),
	}

	return ns
}

type mibUDPTableOwnerPid struct {
	DwNumEntries uint32
	Table        [anySize]mibUDPRowOwnerPid
}

type mibUDP6RowOwnerPid struct {
	UcLocalAddr    [16]byte
	DwLocalScopeId uint32
	DwLocalPort    uint32
	DwOwningPid    uint32
}

func (m *mibUDP6RowOwnerPid) convertToConnectionStat() ConnectionStat {
	ns := ConnectionStat{
		Family: kindUDP6.family,
		Type:   kindUDP6.sockType,
		Laddr: Addr{
			IP:   parseIPv6HexString(m.UcLocalAddr),
			Port: uint32(decodePort(m.DwLocalPort)),
		},
		Pid: int32(m.DwOwningPid),
	}

	return ns
}

type mibUDP6TableOwnerPid struct {
	DwNumEntries uint32
	Table        [anySize]mibUDP6RowOwnerPid
}

type pmibUDPTableOwnerPid *mibUDPTableOwnerPid
type pmibUDP6TableOwnerPid *mibUDP6TableOwnerPid

func decodePort(port uint32) uint16 {
	return syscall.Ntohs(uint16(port))
}

func parseIPv4HexString(addr uint32) string {
	return fmt.Sprintf("%d.%d.%d.%d", addr&255, addr>>8&255, addr>>16&255, addr>>24&255)
}

func parseIPv6HexString(addr [16]byte) string {
	var ret [16]byte
	for i := 0; i < 16; i++ {
		ret[i] = uint8(addr[i])
	}

	// convert []byte to net.IP
	ip := net.IP(ret[:])
	return ip.String()
}