/* SPDX-License-Identifier: MIT * * Copyright (C) 2019 WireGuard LLC. All Rights Reserved. */ package wintun import ( "errors" "fmt" "strings" "time" "unsafe" "golang.org/x/sys/windows" "golang.org/x/sys/windows/registry" "golang.zx2c4.com/wireguard/tun/wintun/iphlpapi" "golang.zx2c4.com/wireguard/tun/wintun/nci" registryEx "golang.zx2c4.com/wireguard/tun/wintun/registry" "golang.zx2c4.com/wireguard/tun/wintun/setupapi" ) type Pool string type Interface struct { cfgInstanceID windows.GUID devInstanceID string luidIndex uint32 ifType uint32 pool Pool } var deviceClassNetGUID = windows.GUID{Data1: 0x4d36e972, Data2: 0xe325, Data3: 0x11ce, Data4: [8]byte{0xbf, 0xc1, 0x08, 0x00, 0x2b, 0xe1, 0x03, 0x18}} var deviceInterfaceNetGUID = windows.GUID{Data1: 0xcac88484, Data2: 0x7515, Data3: 0x4c03, Data4: [8]byte{0x82, 0xe6, 0x71, 0xa8, 0x7a, 0xba, 0xc3, 0x61}} const ( hardwareID = "Wintun" waitForRegistryTimeout = time.Second * 10 ) // makeWintun creates a Wintun interface handle and populates it from the device's registry key. func makeWintun(deviceInfoSet setupapi.DevInfo, deviceInfoData *setupapi.DevInfoData, pool Pool) (*Interface, error) { // Open HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Control\Class\\ registry key. key, err := deviceInfoSet.OpenDevRegKey(deviceInfoData, setupapi.DICS_FLAG_GLOBAL, 0, setupapi.DIREG_DRV, registry.QUERY_VALUE) if err != nil { return nil, fmt.Errorf("Device-specific registry key open failed: %v", err) } defer key.Close() // Read the NetCfgInstanceId value. valueStr, err := registryEx.GetStringValue(key, "NetCfgInstanceId") if err != nil { return nil, fmt.Errorf("RegQueryStringValue(\"NetCfgInstanceId\") failed: %v", err) } // Convert to GUID. ifid, err := windows.GUIDFromString(valueStr) if err != nil { return nil, fmt.Errorf("NetCfgInstanceId registry value is not a GUID (expected: \"{...}\", provided: %q)", valueStr) } // Read the NetLuidIndex value. luidIdx, _, err := key.GetIntegerValue("NetLuidIndex") if err != nil { return nil, fmt.Errorf("RegQueryValue(\"NetLuidIndex\") failed: %v", err) } // Read the NetLuidIndex value. ifType, _, err := key.GetIntegerValue("*IfType") if err != nil { return nil, fmt.Errorf("RegQueryValue(\"*IfType\") failed: %v", err) } instanceID, err := deviceInfoSet.DeviceInstanceID(deviceInfoData) if err != nil { return nil, fmt.Errorf("DeviceInstanceID failed: %v", err) } return &Interface{ cfgInstanceID: ifid, devInstanceID: instanceID, luidIndex: uint32(luidIdx), ifType: uint32(ifType), pool: pool, }, nil } func removeNumberedSuffix(ifname string) string { removed := strings.TrimRight(ifname, "0123456789") if removed != ifname && len(removed) > 1 && removed[len(removed)-1] == ' ' { return removed[:len(removed)-1] } return ifname } // GetInterface finds a Wintun interface by its name. This function returns // the interface if found, or windows.ERROR_OBJECT_NOT_FOUND otherwise. If // the interface is found but not a Wintun-class or a member of the pool, // this function returns windows.ERROR_ALREADY_EXISTS. func (pool Pool) GetInterface(ifname string) (*Interface, error) { mutex, err := pool.takeNameMutex() if err != nil { return nil, err } defer func() { windows.ReleaseMutex(mutex) windows.CloseHandle(mutex) }() // Create a list of network devices. devInfoList, err := setupapi.SetupDiGetClassDevsEx(&deviceClassNetGUID, "", 0, setupapi.DIGCF_PRESENT, setupapi.DevInfo(0), "") if err != nil { return nil, fmt.Errorf("SetupDiGetClassDevsEx(%v) failed: %v", deviceClassNetGUID, err) } defer devInfoList.Close() // Windows requires each interface to have a different name. When // enforcing this, Windows treats interface names case-insensitive. If an // interface "FooBar" exists and this function reports there is no // interface "foobar", an attempt to create a new interface and name it // "foobar" would cause conflict with "FooBar". ifname = strings.ToLower(ifname) for index := 0; ; index++ { deviceData, err := devInfoList.EnumDeviceInfo(index) if err != nil { if err == windows.ERROR_NO_MORE_ITEMS { break } continue } wintun, err := makeWintun(devInfoList, deviceData, pool) if err != nil { continue } // TODO: is there a better way than comparing ifnames? ifname2, err := wintun.Name() if err != nil { continue } ifname2 = strings.ToLower(ifname2) ifname3 := removeNumberedSuffix(ifname2) if ifname == ifname2 || ifname == ifname3 { err = devInfoList.BuildDriverInfoList(deviceData, setupapi.SPDIT_COMPATDRIVER) if err != nil { return nil, fmt.Errorf("SetupDiBuildDriverInfoList failed: %v", err) } defer devInfoList.DestroyDriverInfoList(deviceData, setupapi.SPDIT_COMPATDRIVER) for index := 0; ; index++ { driverData, err := devInfoList.EnumDriverInfo(deviceData, setupapi.SPDIT_COMPATDRIVER, index) if err != nil { if err == windows.ERROR_NO_MORE_ITEMS { break } continue } // Get driver info details. driverDetailData, err := devInfoList.DriverInfoDetail(deviceData, driverData) if err != nil { continue } if driverDetailData.IsCompatible(hardwareID) { isMember, err := pool.isMember(devInfoList, deviceData) if err != nil { return nil, err } if !isMember { return nil, windows.ERROR_ALREADY_EXISTS } return wintun, nil } } // This interface is not using Wintun driver. return nil, windows.ERROR_ALREADY_EXISTS } } return nil, windows.ERROR_OBJECT_NOT_FOUND } // CreateInterface creates a Wintun interface. ifname is the requested name of // the interface, while requestedGUID is the GUID of the created network // interface, which then influences NLA generation deterministically. If it is // set to nil, the GUID is chosen by the system at random, and hence a new NLA // entry is created for each new interface. It is called "requested" GUID // because the API it uses is completely undocumented, and so there could be minor // interesting complications with its usage. This function returns the network // interface ID and a flag if reboot is required. func (pool Pool) CreateInterface(ifname string, requestedGUID *windows.GUID) (wintun *Interface, rebootRequired bool, err error) { mutex, err := pool.takeNameMutex() if err != nil { return } defer func() { windows.ReleaseMutex(mutex) windows.CloseHandle(mutex) }() // Create an empty device info set for network adapter device class. devInfoList, err := setupapi.SetupDiCreateDeviceInfoListEx(&deviceClassNetGUID, 0, "") if err != nil { err = fmt.Errorf("SetupDiCreateDeviceInfoListEx(%v) failed: %v", deviceClassNetGUID, err) return } defer devInfoList.Close() // Get the device class name from GUID. className, err := setupapi.SetupDiClassNameFromGuidEx(&deviceClassNetGUID, "") if err != nil { err = fmt.Errorf("SetupDiClassNameFromGuidEx(%v) failed: %v", deviceClassNetGUID, err) return } // Create a new device info element and add it to the device info set. deviceTypeName := pool.deviceTypeName() deviceData, err := devInfoList.CreateDeviceInfo(className, &deviceClassNetGUID, deviceTypeName, 0, setupapi.DICD_GENERATE_ID) if err != nil { err = fmt.Errorf("SetupDiCreateDeviceInfo failed: %v", err) return } err = setQuietInstall(devInfoList, deviceData) if err != nil { err = fmt.Errorf("Setting quiet installation failed: %v", err) return } // Set a device information element as the selected member of a device information set. err = devInfoList.SetSelectedDevice(deviceData) if err != nil { err = fmt.Errorf("SetupDiSetSelectedDevice failed: %v", err) return } // Set Plug&Play device hardware ID property. err = devInfoList.SetDeviceRegistryPropertyString(deviceData, setupapi.SPDRP_HARDWAREID, hardwareID) if err != nil { err = fmt.Errorf("SetupDiSetDeviceRegistryProperty(SPDRP_HARDWAREID) failed: %v", err) return } err = devInfoList.BuildDriverInfoList(deviceData, setupapi.SPDIT_COMPATDRIVER) // TODO: This takes ~510ms if err != nil { err = fmt.Errorf("SetupDiBuildDriverInfoList failed: %v", err) return } defer devInfoList.DestroyDriverInfoList(deviceData, setupapi.SPDIT_COMPATDRIVER) driverDate := windows.Filetime{} driverVersion := uint64(0) for index := 0; ; index++ { // TODO: This loop takes ~600ms driverData, err := devInfoList.EnumDriverInfo(deviceData, setupapi.SPDIT_COMPATDRIVER, index) if err != nil { if err == windows.ERROR_NO_MORE_ITEMS { break } 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) { driverDetailData, err := devInfoList.DriverInfoDetail(deviceData, driverData) if err != nil { continue } if driverDetailData.IsCompatible(hardwareID) { err := devInfoList.SetSelectedDriver(deviceData, driverData) if err != nil { continue } driverDate = driverData.DriverDate driverVersion = driverData.DriverVersion } } } if driverVersion == 0 { err = fmt.Errorf("No driver for device %q installed", hardwareID) return } defer func() { if err != nil { // The interface failed to install, or the interface ID was unobtainable. Clean-up. removeDeviceParams := setupapi.RemoveDeviceParams{ ClassInstallHeader: *setupapi.MakeClassInstallHeader(setupapi.DIF_REMOVE), Scope: setupapi.DI_REMOVEDEVICE_GLOBAL, } // 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 { rebootRequired = rebootRequired || checkReboot(devInfoList, deviceData) } } wintun = nil } }() // Call appropriate class installer. err = devInfoList.CallClassInstaller(setupapi.DIF_REGISTERDEVICE, deviceData) if err != nil { err = fmt.Errorf("SetupDiCallClassInstaller(DIF_REGISTERDEVICE) failed: %v", err) return } // Register device co-installers if any. (Ignore errors) devInfoList.CallClassInstaller(setupapi.DIF_REGISTER_COINSTALLERS, deviceData) var netDevRegKey registry.Key const pollTimeout = time.Millisecond * 50 for i := 0; i < int(waitForRegistryTimeout/pollTimeout); i++ { if i != 0 { time.Sleep(pollTimeout) } netDevRegKey, err = devInfoList.OpenDevRegKey(deviceData, setupapi.DICS_FLAG_GLOBAL, 0, setupapi.DIREG_DRV, registry.SET_VALUE|registry.QUERY_VALUE|registry.NOTIFY) if err == nil { break } } if err != nil { err = fmt.Errorf("SetupDiOpenDevRegKey failed: %v", err) return } defer netDevRegKey.Close() if requestedGUID != nil { err = netDevRegKey.SetStringValue("NetSetupAnticipatedInstanceId", requestedGUID.String()) if err != nil { err = fmt.Errorf("SetStringValue(NetSetupAnticipatedInstanceId) failed: %v", err) return } } // Install interfaces if any. (Ignore errors) devInfoList.CallClassInstaller(setupapi.DIF_INSTALLINTERFACES, deviceData) // Install the device. err = devInfoList.CallClassInstaller(setupapi.DIF_INSTALLDEVICE, deviceData) if err != nil { err = fmt.Errorf("SetupDiCallClassInstaller(DIF_INSTALLDEVICE) failed: %v", err) return } rebootRequired = checkReboot(devInfoList, deviceData) err = devInfoList.SetDeviceRegistryPropertyString(deviceData, setupapi.SPDRP_DEVICEDESC, deviceTypeName) if err != nil { err = fmt.Errorf("SetDeviceRegistryPropertyString(SPDRP_DEVICEDESC) failed: %v", err) return } // DIF_INSTALLDEVICE returns almost immediately, while the device installation // continues in the background. It might take a while, before all registry // keys and values are populated. _, err = registryEx.GetStringValueWait(netDevRegKey, "NetCfgInstanceId", waitForRegistryTimeout) if err != nil { err = fmt.Errorf("GetStringValueWait(NetCfgInstanceId) failed: %v", err) return } _, err = registryEx.GetIntegerValueWait(netDevRegKey, "NetLuidIndex", waitForRegistryTimeout) if err != nil { err = fmt.Errorf("GetIntegerValueWait(NetLuidIndex) failed: %v", err) return } _, err = registryEx.GetIntegerValueWait(netDevRegKey, "*IfType", waitForRegistryTimeout) if err != nil { err = fmt.Errorf("GetIntegerValueWait(*IfType) failed: %v", err) return } // Get network interface. wintun, err = makeWintun(devInfoList, deviceData, pool) if err != nil { err = fmt.Errorf("makeWintun failed: %v", err) return } // Wait for TCP/IP adapter registry key to emerge and populate. tcpipAdapterRegKey, err := registryEx.OpenKeyWait( registry.LOCAL_MACHINE, wintun.tcpipAdapterRegKeyName(), registry.QUERY_VALUE|registry.NOTIFY, waitForRegistryTimeout) if err != nil { err = fmt.Errorf("OpenKeyWait(HKLM\\%s) failed: %v", wintun.tcpipAdapterRegKeyName(), err) return } defer tcpipAdapterRegKey.Close() _, err = registryEx.GetStringValueWait(tcpipAdapterRegKey, "IpConfig", waitForRegistryTimeout) if err != nil { err = fmt.Errorf("GetStringValueWait(IpConfig) failed: %v", err) return } tcpipInterfaceRegKeyName, err := wintun.tcpipInterfaceRegKeyName() if err != nil { err = fmt.Errorf("tcpipInterfaceRegKeyName failed: %v", err) return } // Wait for TCP/IP interface registry key to emerge. tcpipInterfaceRegKey, err := registryEx.OpenKeyWait( registry.LOCAL_MACHINE, tcpipInterfaceRegKeyName, registry.QUERY_VALUE|registry.SET_VALUE, waitForRegistryTimeout) if err != nil { err = fmt.Errorf("OpenKeyWait(HKLM\\%s) failed: %v", tcpipInterfaceRegKeyName, err) return } defer tcpipInterfaceRegKey.Close() // Disable dead gateway detection on our interface. tcpipInterfaceRegKey.SetDWordValue("EnableDeadGWDetect", 0) err = wintun.SetName(ifname) if err != nil { err = fmt.Errorf("Unable to set name of Wintun interface: %v", err) return } return } // DeleteInterface deletes a Wintun interface. This function succeeds // if the interface was not found. It returns a bool indicating whether // a reboot is required. func (wintun *Interface) DeleteInterface() (rebootRequired bool, err error) { devInfoList, deviceData, err := wintun.deviceData() if err == windows.ERROR_OBJECT_NOT_FOUND { return false, nil } if err != nil { return false, err } defer devInfoList.Close() // Remove the device. removeDeviceParams := setupapi.RemoveDeviceParams{ ClassInstallHeader: *setupapi.MakeClassInstallHeader(setupapi.DIF_REMOVE), Scope: setupapi.DI_REMOVEDEVICE_GLOBAL, } // Set class installer parameters for DIF_REMOVE. err = devInfoList.SetClassInstallParams(deviceData, &removeDeviceParams.ClassInstallHeader, uint32(unsafe.Sizeof(removeDeviceParams))) if err != nil { return false, fmt.Errorf("SetupDiSetClassInstallParams failed: %v", err) } // Call appropriate class installer. err = devInfoList.CallClassInstaller(setupapi.DIF_REMOVE, deviceData) if err != nil { return false, fmt.Errorf("SetupDiCallClassInstaller failed: %v", err) } return checkReboot(devInfoList, deviceData), nil } // DeleteMatchingInterfaces deletes all Wintun interfaces, which match // given criteria, and returns which ones it deleted, whether a reboot // is required after, and which errors occurred during the process. func (pool Pool) DeleteMatchingInterfaces(matches func(wintun *Interface) bool) (deviceInstancesDeleted []uint32, rebootRequired bool, errors []error) { mutex, err := pool.takeNameMutex() if err != nil { errors = append(errors, err) return } defer func() { windows.ReleaseMutex(mutex) windows.CloseHandle(mutex) }() devInfoList, err := setupapi.SetupDiGetClassDevsEx(&deviceClassNetGUID, "", 0, setupapi.DIGCF_PRESENT, setupapi.DevInfo(0), "") if err != nil { return nil, false, []error{fmt.Errorf("SetupDiGetClassDevsEx(%v) failed: %v", deviceClassNetGUID, err.Error())} } defer devInfoList.Close() for i := 0; ; i++ { deviceData, err := devInfoList.EnumDeviceInfo(i) if err != nil { if err == windows.ERROR_NO_MORE_ITEMS { break } continue } err = devInfoList.BuildDriverInfoList(deviceData, setupapi.SPDIT_COMPATDRIVER) if err != nil { continue } defer devInfoList.DestroyDriverInfoList(deviceData, setupapi.SPDIT_COMPATDRIVER) isWintun := false for j := 0; ; j++ { driverData, err := devInfoList.EnumDriverInfo(deviceData, setupapi.SPDIT_COMPATDRIVER, j) if err != nil { if err == windows.ERROR_NO_MORE_ITEMS { break } continue } driverDetailData, err := devInfoList.DriverInfoDetail(deviceData, driverData) if err != nil { continue } if driverDetailData.IsCompatible(hardwareID) { isWintun = true break } } if !isWintun { continue } isMember, err := pool.isMember(devInfoList, deviceData) if err != nil { errors = append(errors, err) continue } if !isMember { continue } wintun, err := makeWintun(devInfoList, deviceData, pool) if err != nil { errors = append(errors, fmt.Errorf("Unable to make Wintun interface object: %v", err)) continue } if !matches(wintun) { continue } err = setQuietInstall(devInfoList, deviceData) if err != nil { errors = append(errors, err) continue } inst := deviceData.DevInst removeDeviceParams := setupapi.RemoveDeviceParams{ ClassInstallHeader: *setupapi.MakeClassInstallHeader(setupapi.DIF_REMOVE), Scope: setupapi.DI_REMOVEDEVICE_GLOBAL, } err = devInfoList.SetClassInstallParams(deviceData, &removeDeviceParams.ClassInstallHeader, uint32(unsafe.Sizeof(removeDeviceParams))) if err != nil { errors = append(errors, err) continue } err = devInfoList.CallClassInstaller(setupapi.DIF_REMOVE, deviceData) if err != nil { errors = append(errors, err) continue } rebootRequired = rebootRequired || checkReboot(devInfoList, deviceData) deviceInstancesDeleted = append(deviceInstancesDeleted, inst) } return } // isMember checks if SPDRP_DEVICEDESC or SPDRP_FRIENDLYNAME match device type name. func (pool Pool) isMember(deviceInfoSet setupapi.DevInfo, deviceInfoData *setupapi.DevInfoData) (bool, error) { deviceDescVal, err := deviceInfoSet.DeviceRegistryProperty(deviceInfoData, setupapi.SPDRP_DEVICEDESC) if err != nil { return false, fmt.Errorf("DeviceRegistryPropertyString(SPDRP_DEVICEDESC) failed: %v", err) } deviceDesc, _ := deviceDescVal.(string) friendlyNameVal, err := deviceInfoSet.DeviceRegistryProperty(deviceInfoData, setupapi.SPDRP_FRIENDLYNAME) if err != nil { return false, fmt.Errorf("DeviceRegistryPropertyString(SPDRP_FRIENDLYNAME) failed: %v", err) } friendlyName, _ := friendlyNameVal.(string) deviceTypeName := pool.deviceTypeName() return friendlyName == deviceTypeName || deviceDesc == deviceTypeName || removeNumberedSuffix(friendlyName) == deviceTypeName || removeNumberedSuffix(deviceDesc) == deviceTypeName, nil } // checkReboot checks device install parameters if a system reboot is required. func checkReboot(deviceInfoSet setupapi.DevInfo, deviceInfoData *setupapi.DevInfoData) bool { devInstallParams, err := deviceInfoSet.DeviceInstallParams(deviceInfoData) if err != nil { return false } return (devInstallParams.Flags & (setupapi.DI_NEEDREBOOT | setupapi.DI_NEEDRESTART)) != 0 } // setQuietInstall sets device install parameters for a quiet installation func setQuietInstall(deviceInfoSet setupapi.DevInfo, deviceInfoData *setupapi.DevInfoData) error { devInstallParams, err := deviceInfoSet.DeviceInstallParams(deviceInfoData) if err != nil { return err } devInstallParams.Flags |= setupapi.DI_QUIETINSTALL return deviceInfoSet.SetDeviceInstallParams(deviceInfoData, devInstallParams) } // deviceTypeName returns pool-specific device type name. func (pool Pool) deviceTypeName() string { return fmt.Sprintf("%s Tunnel", pool) } // Name returns the name of the Wintun interface. func (wintun *Interface) Name() (string, error) { return nci.ConnectionName(&wintun.cfgInstanceID) } // SetName sets name of the Wintun interface. func (wintun *Interface) SetName(ifname string) error { const maxSuffix = 1000 availableIfname := ifname for i := 0; ; i++ { err := nci.SetConnectionName(&wintun.cfgInstanceID, availableIfname) if err == windows.ERROR_DUP_NAME { duplicateGuid, err2 := iphlpapi.InterfaceGUIDFromAlias(availableIfname) if err2 == nil { for j := 0; j < maxSuffix; j++ { proposal := fmt.Sprintf("%s %d", ifname, j+1) if proposal == availableIfname { continue } err2 = nci.SetConnectionName(duplicateGuid, proposal) if err2 == windows.ERROR_DUP_NAME { continue } if err2 == nil { err = nci.SetConnectionName(&wintun.cfgInstanceID, availableIfname) if err == nil { break } } break } } } if err == nil { break } if i > maxSuffix || err != windows.ERROR_DUP_NAME { return fmt.Errorf("NciSetConnectionName failed: %v", err) } availableIfname = fmt.Sprintf("%s %d", ifname, i+1) } // TODO: This should use NetSetup2 so that it doesn't get unset. deviceRegKey, err := registry.OpenKey(registry.LOCAL_MACHINE, wintun.deviceRegKeyName(), registry.SET_VALUE) if err != nil { return fmt.Errorf("Device-level registry key open failed: %v", err) } defer deviceRegKey.Close() err = deviceRegKey.SetStringValue("FriendlyName", wintun.pool.deviceTypeName()) if err != nil { return fmt.Errorf("SetStringValue(FriendlyName) failed: %v", err) } return nil } // tcpipAdapterRegKeyName returns the adapter-specific TCP/IP network registry key name. func (wintun *Interface) tcpipAdapterRegKeyName() string { return fmt.Sprintf("SYSTEM\\CurrentControlSet\\Services\\Tcpip\\Parameters\\Adapters\\%v", wintun.cfgInstanceID) } // deviceRegKeyName returns the device-level registry key name. func (wintun *Interface) deviceRegKeyName() string { return fmt.Sprintf("SYSTEM\\CurrentControlSet\\Enum\\%v", wintun.devInstanceID) } // Version returns the version of the Wintun driver and NDIS system currently loaded. func (wintun *Interface) Version() (driverVersion string, ndisVersion string, err error) { key, err := registry.OpenKey(registry.LOCAL_MACHINE, "SYSTEM\\CurrentControlSet\\Services\\Wintun", registry.QUERY_VALUE) if err != nil { return } defer key.Close() driverMajor, _, err := key.GetIntegerValue("DriverMajorVersion") if err != nil { return } driverMinor, _, err := key.GetIntegerValue("DriverMinorVersion") if err != nil { return } ndisMajor, _, err := key.GetIntegerValue("NdisMajorVersion") if err != nil { return } ndisMinor, _, err := key.GetIntegerValue("NdisMinorVersion") if err != nil { return } driverVersion = fmt.Sprintf("%d.%d", driverMajor, driverMinor) ndisVersion = fmt.Sprintf("%d.%d", ndisMajor, ndisMinor) return } // tcpipInterfaceRegKeyName returns the interface-specific TCP/IP network registry key name. func (wintun *Interface) tcpipInterfaceRegKeyName() (path string, err error) { key, err := registry.OpenKey(registry.LOCAL_MACHINE, wintun.tcpipAdapterRegKeyName(), registry.QUERY_VALUE) if err != nil { return "", fmt.Errorf("Error opening adapter-specific TCP/IP network registry key: %v", err) } paths, _, err := key.GetStringsValue("IpConfig") key.Close() if err != nil { return "", fmt.Errorf("Error reading IpConfig registry key: %v", err) } if len(paths) == 0 { return "", errors.New("No TCP/IP interfaces found on adapter") } return fmt.Sprintf("SYSTEM\\CurrentControlSet\\Services\\%s", paths[0]), nil } // deviceData returns TUN device info list handle and interface device info // data. The device info list handle must be closed after use. In case the // device is not found, windows.ERROR_OBJECT_NOT_FOUND is returned. func (wintun *Interface) deviceData() (setupapi.DevInfo, *setupapi.DevInfoData, error) { // Create a list of network devices. devInfoList, err := setupapi.SetupDiGetClassDevsEx(&deviceClassNetGUID, "", 0, setupapi.DIGCF_PRESENT, setupapi.DevInfo(0), "") if err != nil { return 0, nil, fmt.Errorf("SetupDiGetClassDevsEx(%v) failed: %v", deviceClassNetGUID, err.Error()) } for index := 0; ; index++ { deviceData, err := devInfoList.EnumDeviceInfo(index) if err != nil { if err == windows.ERROR_NO_MORE_ITEMS { break } continue } // Get interface ID. // TODO: Store some ID in the Wintun object such that this call isn't required. wintun2, err := makeWintun(devInfoList, deviceData, wintun.pool) if err != nil { continue } if wintun.cfgInstanceID == wintun2.cfgInstanceID { err = setQuietInstall(devInfoList, deviceData) if err != nil { devInfoList.Close() return 0, nil, fmt.Errorf("Setting quiet installation failed: %v", err) } return devInfoList, deviceData, nil } } devInfoList.Close() return 0, nil, windows.ERROR_OBJECT_NOT_FOUND } // handle returns a handle to the interface device object. func (wintun *Interface) handle() (windows.Handle, error) { interfaces, err := setupapi.CM_Get_Device_Interface_List(wintun.devInstanceID, &deviceInterfaceNetGUID, setupapi.CM_GET_DEVICE_INTERFACE_LIST_PRESENT) if err != nil { return windows.InvalidHandle, fmt.Errorf("Error listing NDIS interfaces: %v", err) } handle, err := windows.CreateFile(windows.StringToUTF16Ptr(interfaces[0]), windows.GENERIC_READ|windows.GENERIC_WRITE, windows.FILE_SHARE_READ|windows.FILE_SHARE_WRITE|windows.FILE_SHARE_DELETE, nil, windows.OPEN_EXISTING, 0, 0) if err != nil { return windows.InvalidHandle, fmt.Errorf("Error opening NDIS device: %v", err) } return handle, nil } // GUID returns the GUID of the interface. func (wintun *Interface) GUID() windows.GUID { return wintun.cfgInstanceID } // LUID returns the LUID of the interface. func (wintun *Interface) LUID() uint64 { return ((uint64(wintun.luidIndex) & ((1 << 24) - 1)) << 24) | ((uint64(wintun.ifType) & ((1 << 16) - 1)) << 48) }