2019-02-04 16:29:52 +00:00
/ * SPDX - License - Identifier : MIT
*
* Copyright ( C ) 2018 - 2019 WireGuard LLC . All Rights Reserved .
* /
package tun
2019-02-06 21:30:14 +00:00
//go:generate go run $GOROOT/src/syscall/mksyscall_windows.go -output ztun_windows.go tun_windows.go
2019-02-04 16:29:52 +00:00
import (
"errors"
"fmt"
"os"
2019-02-06 21:30:14 +00:00
"strings"
"syscall"
"time"
2019-02-04 16:29:52 +00:00
"unsafe"
2019-02-06 21:30:14 +00:00
"git.zx2c4.com/wireguard-go/setupapi"
2019-02-04 16:29:52 +00:00
"golang.org/x/sys/windows"
2019-02-06 21:30:14 +00:00
"golang.org/x/sys/windows/registry"
2019-02-04 16:29:52 +00:00
)
const (
TUN_MAX_PACKET_SIZE = 1600
TUN_MAX_PACKET_EXCHANGE = 256 // Number of packets that can be exchanged at a time
TUN_EXCHANGE_BUFFER_SIZE = 410632
)
const (
TUN_SIGNAL_DATA_AVAIL = 0
TUN_SIGNAL_CLOSE = 1
TUN_SIGNAL_MAX = 2
)
2019-02-06 21:30:14 +00:00
var deviceClassNetGUID = windows . GUID { 0x4d36e972 , 0xe325 , 0x11ce , [ 8 ] byte { 0xbf , 0xc1 , 0x08 , 0x00 , 0x2b , 0xe1 , 0x03 , 0x18 } }
const TUN_HWID = "Wintun"
2019-02-04 16:29:52 +00:00
type TunPacket struct {
size uint32
data [ TUN_MAX_PACKET_SIZE ] byte
}
type TunRWQueue struct {
numPackets uint32
packets [ TUN_MAX_PACKET_EXCHANGE ] TunPacket
left uint32
}
type nativeTun struct {
2019-02-06 21:30:14 +00:00
ifid * windows . GUID
2019-02-04 16:29:52 +00:00
tunName string
signalName * uint16
tunFile * os . File
wrBuff TunRWQueue
rdBuff TunRWQueue
signals [ TUN_SIGNAL_MAX ] windows . Handle
rdNextPacket uint32
events chan TUNEvent
errors chan error
}
func CreateTUN ( ifname string ) ( TUNDevice , error ) {
2019-02-06 21:30:14 +00:00
// Does an interface with this name already exist?
ifid , err := getInterface ( ifname , 0 )
if ifid == nil || err != nil {
// Interface does not exist or an error occured. Create one.
ifid , _ , err = createInterface ( "" , 0 )
if err != nil {
return nil , err
}
// Set interface name. (Ignore errors.)
setInterfaceName ( ifid , ifname )
}
ifidStr := guidToString ( ifid )
signalNameUTF16 , err := windows . UTF16PtrFromString ( fmt . Sprintf ( "Global\\WINTUN_EVENT_%s" , ifidStr ) )
2019-02-04 16:29:52 +00:00
if err != nil {
2019-02-06 21:30:14 +00:00
deleteInterface ( ifid , 0 )
2019-02-04 16:29:52 +00:00
return nil , err
}
// Create instance.
tun := & nativeTun {
2019-02-06 21:30:14 +00:00
ifid : ifid ,
tunName : fmt . Sprintf ( "\\\\.\\Global\\WINTUN_DEVICE_%s" , ifidStr ) ,
2019-02-04 16:29:52 +00:00
signalName : signalNameUTF16 ,
events : make ( chan TUNEvent , 10 ) ,
errors : make ( chan error , 1 ) ,
}
// Create close event.
tun . signals [ TUN_SIGNAL_CLOSE ] , err = windows . CreateEvent ( nil , 1 /*TRUE*/ , 0 /*FALSE*/ , nil )
if err != nil {
2019-02-06 21:30:14 +00:00
deleteInterface ( ifid , 0 )
2019-02-04 16:29:52 +00:00
return nil , err
}
return tun , nil
}
func ( tun * nativeTun ) openTUN ( ) error {
for {
// Open interface data pipe.
// Data pipe must be opened first, as the interface data available event is created when somebody actually connects to the data pipe.
file , err := os . OpenFile ( tun . tunName , os . O_RDWR | os . O_SYNC , 0600 )
if err != nil {
// After examining possible error conditions, many arose that were only temporary: windows.ERROR_FILE_NOT_FOUND, "read <filename> closed", etc.
// To simplify, we will enter a retry-loop on _any_ error until session is closed by user.
switch evt , e := windows . WaitForSingleObject ( tun . signals [ TUN_SIGNAL_CLOSE ] , 1000 ) ; evt {
case windows . WAIT_OBJECT_0 , windows . WAIT_ABANDONED :
return errors . New ( "TUN closed" )
case windows . WAIT_TIMEOUT :
continue
default :
2019-02-05 13:06:25 +00:00
return errors . New ( "Unexpected result from WaitForSingleObject: " + e . Error ( ) )
2019-02-04 16:29:52 +00:00
}
}
// Open interface data available event.
event , err := windows . OpenEvent ( windows . SYNCHRONIZE , false , tun . signalName )
if err != nil {
file . Close ( )
2019-02-05 13:06:25 +00:00
return errors . New ( "Opening interface data ready event failed: " + err . Error ( ) )
2019-02-04 16:29:52 +00:00
}
tun . tunFile = file
tun . signals [ TUN_SIGNAL_DATA_AVAIL ] = event
return nil
}
}
func ( tun * nativeTun ) closeTUN ( ) ( err error ) {
if tun . signals [ TUN_SIGNAL_DATA_AVAIL ] != 0 {
// Close interface data ready event.
e := windows . CloseHandle ( tun . signals [ TUN_SIGNAL_DATA_AVAIL ] )
if err != nil {
err = e
}
tun . signals [ TUN_SIGNAL_DATA_AVAIL ] = 0
}
if tun . tunFile != nil {
// Close interface data pipe.
e := tun . tunFile . Close ( )
if err != nil {
err = e
}
tun . tunFile = nil
}
return
}
func ( tun * nativeTun ) Name ( ) ( string , error ) {
2019-02-06 21:30:14 +00:00
return getInterfaceName ( tun . ifid )
2019-02-04 16:29:52 +00:00
}
func ( tun * nativeTun ) File ( ) * os . File {
return nil
}
func ( tun * nativeTun ) Events ( ) chan TUNEvent {
return tun . events
}
func ( tun * nativeTun ) Close ( ) error {
windows . SetEvent ( tun . signals [ TUN_SIGNAL_CLOSE ] )
err := windows . CloseHandle ( tun . signals [ TUN_SIGNAL_CLOSE ] )
e := tun . closeTUN ( )
if err == nil {
err = e
}
if tun . events != nil {
close ( tun . events )
}
2019-02-06 21:30:14 +00:00
_ , _ , e = deleteInterface ( tun . ifid , 0 )
if err == nil {
err = e
}
2019-02-04 16:29:52 +00:00
return err
}
func ( tun * nativeTun ) MTU ( ) ( int , error ) {
return 1500 , nil
}
func ( tun * nativeTun ) Read ( buff [ ] byte , offset int ) ( int , error ) {
select {
case err := <- tun . errors :
return 0 , err
default :
for {
if tun . rdNextPacket < tun . rdBuff . numPackets {
// Get packet from the queue.
tunPacket := & tun . rdBuff . packets [ tun . rdNextPacket ]
tun . rdNextPacket ++
2019-02-06 19:22:04 +00:00
if TUN_MAX_PACKET_SIZE < tunPacket . size {
2019-02-04 16:29:52 +00:00
// Invalid packet size.
continue
}
// Copy data.
copy ( buff [ offset : ] , tunPacket . data [ : tunPacket . size ] )
return int ( tunPacket . size ) , nil
}
if tun . signals [ TUN_SIGNAL_DATA_AVAIL ] == 0 {
// Data pipe and interface data available event are not open (yet).
err := tun . openTUN ( )
if err != nil {
return 0 , err
}
}
if tun . rdBuff . numPackets < TUN_MAX_PACKET_EXCHANGE || tun . rdBuff . left == 0 {
// Buffer was not full. Wait for the interface data or user close.
r , err := windows . WaitForMultipleObjects ( tun . signals [ : ] , false , windows . INFINITE )
if err != nil {
2019-02-05 13:06:25 +00:00
return 0 , errors . New ( "Waiting for data failed: " + err . Error ( ) )
2019-02-04 16:29:52 +00:00
}
switch r {
case windows . WAIT_OBJECT_0 + TUN_SIGNAL_DATA_AVAIL :
// Data is available.
case windows . WAIT_ABANDONED + TUN_SIGNAL_DATA_AVAIL :
// TUN stopped. Reopen it.
tun . closeTUN ( )
continue
case windows . WAIT_OBJECT_0 + TUN_SIGNAL_CLOSE , windows . WAIT_ABANDONED + TUN_SIGNAL_CLOSE :
return 0 , errors . New ( "TUN closed" )
case windows . WAIT_TIMEOUT :
// Congratulations, we reached infinity. Let's do it again! :)
continue
default :
return 0 , errors . New ( "unexpected result from WaitForMultipleObjects" )
}
}
// Fill queue.
data := ( * [ TUN_EXCHANGE_BUFFER_SIZE ] byte ) ( unsafe . Pointer ( & tun . rdBuff ) )
n , err := tun . tunFile . Read ( data [ : ] )
tun . rdNextPacket = 0
if n != TUN_EXCHANGE_BUFFER_SIZE || err != nil {
// TUN interface stopped, returned incomplete data, etc.
// Retry.
tun . rdBuff . numPackets = 0
tun . closeTUN ( )
continue
}
}
}
}
func ( tun * nativeTun ) flush ( ) error {
// Flush write buffer.
data := ( * [ TUN_EXCHANGE_BUFFER_SIZE ] byte ) ( unsafe . Pointer ( & tun . wrBuff ) )
n , err := tun . tunFile . Write ( data [ : ] )
tun . wrBuff . numPackets = 0
if err != nil {
return err
}
if n != TUN_EXCHANGE_BUFFER_SIZE {
return fmt . Errorf ( "%d byte(s) written, %d byte(s) expected" , n , TUN_EXCHANGE_BUFFER_SIZE )
}
return nil
}
func ( tun * nativeTun ) putTunPacket ( buff [ ] byte ) error {
size := len ( buff )
if size == 0 {
2019-02-05 13:06:25 +00:00
return errors . New ( "Empty packet" )
2019-02-04 16:29:52 +00:00
}
if size > TUN_MAX_PACKET_SIZE {
2019-02-05 13:06:25 +00:00
return errors . New ( "Packet too big" )
2019-02-04 16:29:52 +00:00
}
if tun . wrBuff . numPackets >= TUN_MAX_PACKET_EXCHANGE {
// Queue is full -> flush first.
err := tun . flush ( )
if err != nil {
return err
}
}
// Push packet to the buffer.
tunPacket := & tun . wrBuff . packets [ tun . wrBuff . numPackets ]
tunPacket . size = uint32 ( size )
copy ( tunPacket . data [ : size ] , buff )
tun . wrBuff . numPackets ++
return nil
}
func ( tun * nativeTun ) Write ( buff [ ] byte , offset int ) ( int , error ) {
err := tun . putTunPacket ( buff [ offset : ] )
if err != nil {
return 0 , err
}
// Flush write buffer.
return len ( buff ) - offset , tun . flush ( )
}
2019-02-06 21:30:14 +00:00
//
// getInterface finds interface ID by name.
//
// hwndParent is a handle to the top-level window to use for any user
// interface that is related to non-device-specific actions (such as a select-
// device dialog box that uses the global class driver list). This handle is
// optional and can be 0. If a specific top-level window is not required, set
// hwndParent to 0.
//
// Function returns interface ID when the interface was found, or nil
// otherwise.
//
func getInterface ( ifname string , hwndParent uintptr ) ( * windows . GUID , error ) {
// Create a list of network devices.
devInfoList , err := setupapi . SetupDiGetClassDevsEx ( & deviceClassNetGUID , "" , hwndParent , setupapi . DIGCF_PRESENT , setupapi . DevInfo ( 0 ) , "" )
if err != nil {
return nil , err
}
defer devInfoList . Close ( )
// Retrieve information associated with a device information set.
// TODO: Is this really necessary?
_ , err = devInfoList . GetDeviceInfoListDetail ( )
if err != nil {
return nil , err
}
ifname = strings . ToLower ( ifname )
// Iterate.
for index := 0 ; ; index ++ {
// Get the device from the list.
deviceData , err := devInfoList . EnumDeviceInfo ( index )
if err != nil {
if errWin , ok := err . ( syscall . Errno ) ; ok && errWin == 259 /*ERROR_NO_MORE_ITEMS*/ {
break
}
// Something is wrong with this device. Skip it.
continue
}
// Get interface ID.
ifid , err := getInterfaceId ( devInfoList , deviceData , 1 )
if err != nil {
// Something is wrong with this device. Skip it.
continue
}
// Get interface name.
ifname2 , err := getInterfaceName ( ifid )
if err != nil {
// Something is wrong with this device. Skip it.
continue
}
if ifname == strings . ToLower ( ifname2 ) {
// Interface name found.
return ifid , nil
}
}
return nil , nil
}
//
// createInterface creates a TUN interface.
//
// description is a string that supplies the text description of the device.
// Description is optional and can be "".
//
// hwndParent is a handle to the top-level window to use for any user
// interface that is related to non-device-specific actions (such as a select-
// device dialog box that uses the global class driver list). This handle is
// optional and can be 0. If a specific top-level window is not required, set
// hwndParent to 0.
//
// Function returns the network interface ID and a flag if reboot is required.
//
func createInterface ( description string , hwndParent uintptr ) ( * windows . GUID , bool , error ) {
// Create an empty device info set for network adapter device class.
devInfoList , err := setupapi . SetupDiCreateDeviceInfoListEx ( & deviceClassNetGUID , hwndParent , "" )
if err != nil {
return nil , false , err
}
// Get the device class name from GUID.
className , err := setupapi . SetupDiClassNameFromGuidEx ( & deviceClassNetGUID , "" )
if err != nil {
return nil , false , err
}
// Create a new device info element and add it to the device info set.
deviceData , err := devInfoList . CreateDeviceInfo ( className , & deviceClassNetGUID , description , hwndParent , setupapi . DICD_GENERATE_ID )
if err != nil {
return nil , false , err
}
// Set a device information element as the selected member of a device information set.
err = devInfoList . SetSelectedDevice ( deviceData )
if err != nil {
return nil , false , err
}
// Set Plug&Play device hardware ID property.
hwid , err := syscall . UTF16FromString ( TUN_HWID )
if err != nil {
return nil , false , err
}
err = devInfoList . SetDeviceRegistryProperty ( deviceData , setupapi . SPDRP_HARDWAREID , setupapi . UTF16ToBuf ( append ( hwid , 0 ) ) )
if err != nil {
return nil , false , err
}
// Search for the driver.
const driverType = setupapi . SPDIT_CLASSDRIVER
err = devInfoList . BuildDriverInfoList ( deviceData , driverType )
if err != nil {
return nil , false , err
}
defer devInfoList . DestroyDriverInfoList ( deviceData , driverType )
driverDate := windows . Filetime { }
driverVersion := uint64 ( 0 )
for index := 0 ; ; index ++ {
// Get a driver from the list.
driverData , err := devInfoList . EnumDriverInfo ( deviceData , driverType , index )
if err != nil {
if errWin , ok := err . ( syscall . Errno ) ; ok && errWin == 259 /*ERROR_NO_MORE_ITEMS*/ {
break
}
// Something is wrong with this driver. Skip it.
continue
}
// Check the driver version first, since the check is trivial and will save us iterating over hardware IDs for any driver versioned prior our best match.
if driverData . IsNewer ( driverDate , driverVersion ) {
// Get driver info details.
driverDetailData , err := devInfoList . GetDriverInfoDetail ( deviceData , driverData )
if err != nil {
// Something is wrong with this driver. Skip it.
continue
}
if driverDetailData . IsCompatible ( TUN_HWID ) {
// Matching hardware ID found. Select the driver.
err := devInfoList . SetSelectedDriver ( deviceData , driverData )
if err != nil {
// Something is wrong with this driver. Skip it.
continue
}
driverDate = driverData . DriverDate
driverVersion = driverData . DriverVersion
}
}
}
if driverVersion == 0 {
return nil , false , fmt . Errorf ( "No driver for device \"%v\" installed" , TUN_HWID )
}
// Call appropriate class installer.
err = devInfoList . CallClassInstaller ( setupapi . DIF_REGISTERDEVICE , deviceData )
if err != nil {
return nil , false , err
}
// Register device co-installers if any.
devInfoList . CallClassInstaller ( setupapi . DIF_REGISTER_COINSTALLERS , deviceData )
// Install interfaces if any.
devInfoList . CallClassInstaller ( setupapi . DIF_INSTALLINTERFACES , deviceData )
var ifid * windows . GUID
var rebootRequired bool
// Install the device.
err = devInfoList . CallClassInstaller ( setupapi . DIF_INSTALLDEVICE , deviceData )
if err == nil {
// Check if a system reboot is required. (Ignore errors)
if ret , _ := checkReboot ( devInfoList , deviceData ) ; ret {
rebootRequired = true
}
// Get network interface ID from registry. Retry for max 30sec.
ifid , err = getInterfaceId ( devInfoList , deviceData , 30 )
}
if err == nil {
return ifid , rebootRequired , nil
}
// The interface failed to install, or the interface ID was unobtainable. Clean-up.
removeDeviceParams := setupapi . SP_REMOVEDEVICE_PARAMS {
ClassInstallHeader : setupapi . SP_CLASSINSTALL_HEADER {
InstallFunction : setupapi . DIF_REMOVE ,
} ,
Scope : setupapi . DI_REMOVEDEVICE_GLOBAL ,
}
removeDeviceParams . ClassInstallHeader . Size = uint32 ( unsafe . Sizeof ( removeDeviceParams . ClassInstallHeader ) )
// Set class installer parameters for DIF_REMOVE.
if devInfoList . SetClassInstallParams ( deviceData , & removeDeviceParams . ClassInstallHeader , uint32 ( unsafe . Sizeof ( removeDeviceParams ) ) ) == nil {
// Call appropriate class installer.
if devInfoList . CallClassInstaller ( setupapi . DIF_REMOVE , deviceData ) == nil {
// Check if a system reboot is required. (Ignore errors)
if ret , _ := checkReboot ( devInfoList , deviceData ) ; ret {
rebootRequired = true
}
}
}
return nil , false , err
}
//
// deleteInterface deletes a TUN interface.
//
// hwndParent is a handle to the top-level window to use for any user
// interface that is related to non-device-specific actions (such as a select-
// device dialog box that uses the global class driver list). This handle is
// optional and can be 0. If a specific top-level window is not required, set
// hwndParent to 0.
//
// Function returns true if the interface was found and deleted and a flag if
// reboot is required.
//
func deleteInterface ( ifid * windows . GUID , hwndParent uintptr ) ( bool , bool , error ) {
// Create a list of network devices.
devInfoList , err := setupapi . SetupDiGetClassDevsEx ( & deviceClassNetGUID , "" , hwndParent , setupapi . DIGCF_PRESENT , setupapi . DevInfo ( 0 ) , "" )
if err != nil {
return false , false , err
}
defer devInfoList . Close ( )
// Retrieve information associated with a device information set.
// TODO: Is this really necessary?
_ , err = devInfoList . GetDeviceInfoListDetail ( )
if err != nil {
return false , false , err
}
// Iterate.
for index := 0 ; ; index ++ {
// Get the device from the list.
deviceData , err := devInfoList . EnumDeviceInfo ( index )
if err != nil {
if errWin , ok := err . ( syscall . Errno ) ; ok && errWin == 259 /*ERROR_NO_MORE_ITEMS*/ {
break
}
// Something is wrong with this device. Skip it.
continue
}
// Get interface ID.
ifid2 , err := getInterfaceId ( devInfoList , deviceData , 1 )
if err != nil {
// Something is wrong with this device. Skip it.
continue
}
if ifid == ifid2 {
// Remove the device.
removeDeviceParams := setupapi . SP_REMOVEDEVICE_PARAMS {
ClassInstallHeader : setupapi . SP_CLASSINSTALL_HEADER {
InstallFunction : setupapi . DIF_REMOVE ,
} ,
Scope : setupapi . DI_REMOVEDEVICE_GLOBAL ,
}
removeDeviceParams . ClassInstallHeader . Size = uint32 ( unsafe . Sizeof ( removeDeviceParams . ClassInstallHeader ) )
// Set class installer parameters for DIF_REMOVE.
err = devInfoList . SetClassInstallParams ( deviceData , & removeDeviceParams . ClassInstallHeader , uint32 ( unsafe . Sizeof ( removeDeviceParams ) ) )
if err != nil {
return false , false , err
}
// Call appropriate class installer.
err = devInfoList . CallClassInstaller ( setupapi . DIF_REMOVE , deviceData )
if err != nil {
return false , false , err
}
// Check if a system reboot is required. (Ignore errors)
if ret , _ := checkReboot ( devInfoList , deviceData ) ; ret {
return true , true , nil
}
return true , false , nil
}
}
return false , false , nil
}
///
/// checkReboot checks device install parameters if a system reboot is required.
///
func checkReboot ( DeviceInfoSet setupapi . DevInfo , DeviceInfoData * setupapi . SP_DEVINFO_DATA ) ( bool , error ) {
devInstallParams , err := DeviceInfoSet . GetDeviceInstallParams ( DeviceInfoData )
if err != nil {
return false , err
}
if ( devInstallParams . Flags & ( setupapi . DI_NEEDREBOOT | setupapi . DI_NEEDRESTART ) ) != 0 {
return true , nil
}
return false , nil
}
// getInterfaceId returns network interface ID.
//
// After the device is created, it might take some time before the registry
// key is populated. numAttempts parameter specifies the number of attempts
// to read NetCfgInstanceId value from registry. A 1sec sleep is inserted
// between retry attempts.
//
// Function returns the network interface ID.
//
func getInterfaceId ( DeviceInfoSet setupapi . DevInfo , DeviceInfoData * setupapi . SP_DEVINFO_DATA , numAttempts int ) ( * windows . GUID , error ) {
if numAttempts < 1 {
return nil , fmt . Errorf ( "Invalid numAttempts (expected: >=1, provided: %v)" , numAttempts )
}
// Open HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Control\Class\<class>\<id> registry key.
key , err := DeviceInfoSet . OpenDevRegKey ( DeviceInfoData , setupapi . DICS_FLAG_GLOBAL , 0 , setupapi . DIREG_DRV , registry . READ )
if err != nil {
return nil , errors . New ( "Device-specific registry key open failed: " + err . Error ( ) )
}
defer key . Close ( )
for {
// Query the NetCfgInstanceId value. Using get_reg_string() right on might clutter the output with error messages while the registry is still being populated.
_ , _ , err = key . GetValue ( "NetCfgInstanceId" , nil )
if err != nil {
if errWin , ok := err . ( syscall . Errno ) ; ok && errWin == windows . ERROR_FILE_NOT_FOUND {
numAttempts --
if numAttempts > 0 {
// Wait and retry.
// TODO: Wait for a cancellable event instead.
time . Sleep ( 1000 * time . Millisecond )
continue
}
}
return nil , errors . New ( "RegQueryValueEx(\"NetCfgInstanceId\") failed: " + err . Error ( ) )
}
// Read the NetCfgInstanceId value now.
value , err := getRegStringValue ( key , "NetCfgInstanceId" )
if err != nil {
return nil , errors . New ( "RegQueryStringValue(\"NetCfgInstanceId\") failed: " + err . Error ( ) )
}
// Convert to windows.GUID.
ifid , err := stringToGUID ( value )
if err != nil {
return nil , fmt . Errorf ( "NetCfgInstanceId registry value is not a GUID (expected: \"{...}\", provided: \"%v\")" , value )
}
return ifid , err
}
}
//
// getInterfaceName returns network interface name.
//
func getInterfaceName ( ifid * windows . GUID ) ( string , error ) {
// Open network interface registry key.
key , err := registry . OpenKey ( registry . LOCAL_MACHINE , fmt . Sprintf ( "SYSTEM\\CurrentControlSet\\Control\\Network\\%v\\%v\\Connection" , guidToString ( & deviceClassNetGUID ) , guidToString ( ifid ) ) , registry . QUERY_VALUE )
if err != nil {
return "" , errors . New ( "Network-specific registry key open failed: " + err . Error ( ) )
}
defer key . Close ( )
// Get the interface name.
return getRegStringValue ( key , "Name" )
}
//
// setInterfaceName sets network interface name.
//
func setInterfaceName ( ifid * windows . GUID , ifname string ) error {
// Open network interface registry key.
key , err := registry . OpenKey ( registry . LOCAL_MACHINE , fmt . Sprintf ( "SYSTEM\\CurrentControlSet\\Control\\Network\\%v\\%v\\Connection" , guidToString ( & deviceClassNetGUID ) , guidToString ( ifid ) ) , registry . SET_VALUE )
if err != nil {
return errors . New ( "Network-specific registry key open failed: " + err . Error ( ) )
}
defer key . Close ( )
// Set the interface name.
return key . SetStringValue ( "Name" , ifname )
}
//sys clsidFromString(lpsz *uint16, pclsid *windows.GUID) (hr int32) = ole32.CLSIDFromString
//
// stringToGUID parses "{XXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX}" string to GUID.
//
func stringToGUID ( str string ) ( * windows . GUID , error ) {
strUTF16 , err := syscall . UTF16PtrFromString ( str )
if err != nil {
return nil , err
}
guid := & windows . GUID { }
hr := clsidFromString ( strUTF16 , guid )
if hr < 0 {
return nil , syscall . Errno ( hr )
}
return guid , nil
}
//
// guidToString function converts GUID to string
// "{XXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX}".
//
// The resulting string is uppercase.
//
func guidToString ( guid * windows . GUID ) string {
return fmt . Sprintf ( "{%06X-%04X-%04X-%04X-%012X}" , guid . Data1 , guid . Data2 , guid . Data3 , guid . Data4 [ : 2 ] , guid . Data4 [ 2 : ] )
}
//
// getRegStringValue function reads a string value from registry.
//
// If the value type is REG_EXPAND_SZ the environment variables are expanded.
// Should expanding fail, original string value and nil error are returned.
//
func getRegStringValue ( key registry . Key , name string ) ( string , error ) {
// Read string value.
value , valueType , err := key . GetStringValue ( name )
if err != nil {
return "" , err
}
if valueType != registry . EXPAND_SZ {
// Value does not require expansion.
return value , nil
}
valueExp , err := registry . ExpandString ( value )
if err != nil {
// Expanding failed: return original sting value.
return value , nil
}
// Return expanded value.
return valueExp , nil
}