/* SPDX-License-Identifier: GPL-2.0 * * Copyright (C) 2018-2020 WireGuard LLC. All Rights Reserved. */ #include "pch.h" #pragma warning(disable : 4221) /* nonstandard: address of automatic in initializer */ #define WAIT_FOR_REGISTRY_TIMEOUT 10000 /* ms */ #define MAX_POOL_DEVICE_TYPE (MAX_POOL + 8) /* Should accommodate a pool name with " Tunnel" appended */ #if defined(_M_IX86) # define IMAGE_FILE_PROCESS IMAGE_FILE_MACHINE_I386 #elif defined(_M_AMD64) # define IMAGE_FILE_PROCESS IMAGE_FILE_MACHINE_AMD64 #elif defined(_M_ARM) # define IMAGE_FILE_PROCESS IMAGE_FILE_MACHINE_ARMNT #elif defined(_M_ARM64) # define IMAGE_FILE_PROCESS IMAGE_FILE_MACHINE_ARM64 #else # error Unsupported architecture #endif static USHORT NativeMachine = IMAGE_FILE_PROCESS; WINTUN_STATUS AdapterGetDrvInfoDetail( _In_ HDEVINFO DevInfo, _In_opt_ SP_DEVINFO_DATA *DevInfoData, _In_ SP_DRVINFO_DATA_W *DrvInfoData, _Out_ SP_DRVINFO_DETAIL_DATA_W **DrvInfoDetailData) { DWORD Size = sizeof(SP_DRVINFO_DETAIL_DATA_W) + 0x100; for (;;) { *DrvInfoDetailData = HeapAlloc(ModuleHeap, 0, Size); if (!*DrvInfoDetailData) return LOG(WINTUN_LOG_ERR, L"Out of memory"), ERROR_OUTOFMEMORY; (*DrvInfoDetailData)->cbSize = sizeof(SP_DRVINFO_DETAIL_DATA_W); if (SetupDiGetDriverInfoDetailW(DevInfo, DevInfoData, DrvInfoData, *DrvInfoDetailData, Size, &Size)) return ERROR_SUCCESS; DWORD Result = GetLastError(); HeapFree(ModuleHeap, 0, *DrvInfoDetailData); if (Result != ERROR_INSUFFICIENT_BUFFER) return LOG_ERROR(L"Failed", Result); } } static WINTUN_STATUS GetDeviceRegistryProperty( _In_ HDEVINFO DevInfo, _In_ SP_DEVINFO_DATA *DevInfoData, _In_ DWORD Property, _Out_opt_ DWORD *ValueType, _Out_ void **Buf, _Inout_ DWORD *BufLen) { for (;;) { *Buf = HeapAlloc(ModuleHeap, 0, *BufLen); if (!*Buf) return LOG(WINTUN_LOG_ERR, L"Out of memory"), ERROR_OUTOFMEMORY; if (SetupDiGetDeviceRegistryPropertyW(DevInfo, DevInfoData, Property, ValueType, *Buf, *BufLen, BufLen)) return ERROR_SUCCESS; DWORD Result = GetLastError(); HeapFree(ModuleHeap, 0, *Buf); if (Result != ERROR_INSUFFICIENT_BUFFER) return LOG_ERROR(L"Querying property failed", Result); } } static WINTUN_STATUS GetDeviceRegistryString( _In_ HDEVINFO DevInfo, _In_ SP_DEVINFO_DATA *DevInfoData, _In_ DWORD Property, _Out_ WCHAR **Buf) { DWORD Result, ValueType, Size = 256 * sizeof(WCHAR); Result = GetDeviceRegistryProperty(DevInfo, DevInfoData, Property, &ValueType, Buf, &Size); if (Result != ERROR_SUCCESS) return Result; switch (ValueType) { case REG_SZ: case REG_EXPAND_SZ: case REG_MULTI_SZ: Result = RegistryGetString(Buf, Size / sizeof(WCHAR), ValueType); if (Result != ERROR_SUCCESS) HeapFree(ModuleHeap, 0, *Buf); return Result; default: LOG(WINTUN_LOG_ERR, L"Property is not a string"); HeapFree(ModuleHeap, 0, *Buf); return ERROR_INVALID_DATATYPE; } } static WINTUN_STATUS GetDeviceRegistryMultiString( _In_ HDEVINFO DevInfo, _In_ SP_DEVINFO_DATA *DevInfoData, _In_ DWORD Property, _Out_ WCHAR **Buf) { DWORD Result, ValueType, Size = 256 * sizeof(WCHAR); Result = GetDeviceRegistryProperty(DevInfo, DevInfoData, Property, &ValueType, Buf, &Size); if (Result != ERROR_SUCCESS) return Result; switch (ValueType) { case REG_SZ: case REG_EXPAND_SZ: case REG_MULTI_SZ: Result = RegistryGetMultiString(Buf, Size / sizeof(WCHAR), ValueType); if (Result != ERROR_SUCCESS) HeapFree(ModuleHeap, 0, *Buf); return Result; default: LOG(WINTUN_LOG_ERR, L"Property is not a string"); HeapFree(ModuleHeap, 0, *Buf); return ERROR_INVALID_DATATYPE; } } static BOOL IsOurHardwareID(_In_z_ const WCHAR *Hwids) { for (; Hwids[0]; Hwids += wcslen(Hwids) + 1) if (!_wcsicmp(Hwids, WINTUN_HWID)) return TRUE; return FALSE; } static WINTUN_STATUS IsOurAdapter(_In_ HDEVINFO DevInfo, _In_ SP_DEVINFO_DATA *DevInfoData, _Out_ BOOL *IsOurs) { WCHAR *Hwids; DWORD Result = GetDeviceRegistryMultiString(DevInfo, DevInfoData, SPDRP_HARDWAREID, &Hwids); if (Result != ERROR_SUCCESS) return LOG(WINTUN_LOG_ERR, L"Failed to query hardware ID"), Result; *IsOurs = IsOurHardwareID(Hwids); return ERROR_SUCCESS; } static WINTUN_STATUS GetDeviceObject(_In_opt_z_ const WCHAR *InstanceId, _Out_ HANDLE *Handle) { ULONG InterfacesLen; DWORD Result = CM_Get_Device_Interface_List_SizeW( &InterfacesLen, (GUID *)&GUID_DEVINTERFACE_NET, (DEVINSTID_W)InstanceId, CM_GET_DEVICE_INTERFACE_LIST_PRESENT); if (Result != CR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to get device associated device instances size"); return ERROR_GEN_FAILURE; } WCHAR *Interfaces = HeapAlloc(ModuleHeap, 0, InterfacesLen * sizeof(WCHAR)); if (!Interfaces) return LOG(WINTUN_LOG_ERR, L"Out of memory"), ERROR_OUTOFMEMORY; Result = CM_Get_Device_Interface_ListW( (GUID *)&GUID_DEVINTERFACE_NET, (DEVINSTID_W)InstanceId, Interfaces, InterfacesLen, CM_GET_DEVICE_INTERFACE_LIST_PRESENT); if (Result != CR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to get device associated device instances"); Result = ERROR_GEN_FAILURE; goto cleanupBuf; } *Handle = CreateFileW( Interfaces, GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, NULL, OPEN_EXISTING, 0, NULL); Result = *Handle != INVALID_HANDLE_VALUE ? ERROR_SUCCESS : LOG_LAST_ERROR(L"Failed to connect to device"); cleanupBuf: HeapFree(ModuleHeap, 0, Interfaces); return Result; } #define TUN_IOCTL_FORCE_CLOSE_HANDLES CTL_CODE(51820U, 0x971U, METHOD_NEITHER, FILE_READ_DATA | FILE_WRITE_DATA) static WINTUN_STATUS ForceCloseWintunAdapterHandle(_In_ HDEVINFO DevInfo, _In_ SP_DEVINFO_DATA *DevInfoData) { DWORD Result = ERROR_SUCCESS; DWORD RequiredBytes; if (SetupDiGetDeviceInstanceIdW(DevInfo, DevInfoData, NULL, 0, &RequiredBytes) || (Result = GetLastError()) != ERROR_INSUFFICIENT_BUFFER) return LOG_ERROR(L"Failed to query device instance ID size", Result); WCHAR *InstanceId = HeapAlloc(ModuleHeap, HEAP_ZERO_MEMORY, sizeof(*InstanceId) * RequiredBytes); if (!InstanceId) return LOG(WINTUN_LOG_ERR, L"Out of memory"), ERROR_OUTOFMEMORY; if (!SetupDiGetDeviceInstanceIdW(DevInfo, DevInfoData, InstanceId, RequiredBytes, &RequiredBytes)) { Result = LOG_LAST_ERROR(L"Failed to get device instance ID"); goto out; } HANDLE NdisHandle; Result = GetDeviceObject(InstanceId, &NdisHandle); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to get adapter device object"); goto out; } Result = DeviceIoControl(NdisHandle, TUN_IOCTL_FORCE_CLOSE_HANDLES, NULL, 0, NULL, 0, &RequiredBytes, NULL) ? ERROR_SUCCESS : LOG_LAST_ERROR(L"Failed to perform ioctl"); CloseHandle(NdisHandle); out: HeapFree(ModuleHeap, 0, InstanceId); return Result; } WINTUN_STATUS AdapterDisableAllOurs(_In_ HDEVINFO DevInfo, _Inout_ SP_DEVINFO_DATA_LIST **DisabledAdapters) { SP_PROPCHANGE_PARAMS Params = { .ClassInstallHeader = { .cbSize = sizeof(SP_CLASSINSTALL_HEADER), .InstallFunction = DIF_PROPERTYCHANGE }, .StateChange = DICS_DISABLE, .Scope = DICS_FLAG_GLOBAL }; DWORD Result = ERROR_SUCCESS; for (DWORD EnumIndex = 0;; ++EnumIndex) { SP_DEVINFO_DATA_LIST *DeviceNode = HeapAlloc(ModuleHeap, 0, sizeof(SP_DEVINFO_DATA_LIST)); if (!DeviceNode) return LOG(WINTUN_LOG_ERR, L"Out of memory"), ERROR_OUTOFMEMORY; DeviceNode->Data.cbSize = sizeof(SP_DEVINFO_DATA); if (!SetupDiEnumDeviceInfo(DevInfo, EnumIndex, &DeviceNode->Data)) { if (GetLastError() == ERROR_NO_MORE_ITEMS) { HeapFree(ModuleHeap, 0, DeviceNode); break; } goto cleanupDeviceInfoData; } BOOL IsOurs; if (IsOurAdapter(DevInfo, &DeviceNode->Data, &IsOurs) != ERROR_SUCCESS || !IsOurs) goto cleanupDeviceInfoData; ULONG Status, ProblemCode; if (CM_Get_DevNode_Status(&Status, &ProblemCode, DeviceNode->Data.DevInst, 0) != CR_SUCCESS || ((Status & DN_HAS_PROBLEM) && ProblemCode == CM_PROB_DISABLED)) goto cleanupDeviceInfoData; LOG(WINTUN_LOG_INFO, L"Force closing all open handles for existing adapter"); if (ForceCloseWintunAdapterHandle(DevInfo, &DeviceNode->Data) != ERROR_SUCCESS) LOG(WINTUN_LOG_WARN, L"Failed to force close adapter handles"); Sleep(200); LOG(WINTUN_LOG_INFO, L"Disabling existing adapter"); if (!SetupDiSetClassInstallParamsW(DevInfo, &DeviceNode->Data, &Params.ClassInstallHeader, sizeof(Params)) || !SetupDiCallClassInstaller(DIF_PROPERTYCHANGE, DevInfo, &DeviceNode->Data)) { LOG_LAST_ERROR(L"Unable to disable existing adapter"); Result = Result != ERROR_SUCCESS ? Result : GetLastError(); goto cleanupDeviceInfoData; } DeviceNode->Next = *DisabledAdapters; *DisabledAdapters = DeviceNode; continue; cleanupDeviceInfoData: HeapFree(ModuleHeap, 0, &DeviceNode->Data); } return Result; } WINTUN_STATUS AdapterEnableAll(_In_ HDEVINFO DevInfo, _In_ SP_DEVINFO_DATA_LIST *AdaptersToEnable) { SP_PROPCHANGE_PARAMS Params = { .ClassInstallHeader = { .cbSize = sizeof(SP_CLASSINSTALL_HEADER), .InstallFunction = DIF_PROPERTYCHANGE }, .StateChange = DICS_ENABLE, .Scope = DICS_FLAG_GLOBAL }; DWORD Result = ERROR_SUCCESS; for (SP_DEVINFO_DATA_LIST *DeviceNode = AdaptersToEnable; DeviceNode; DeviceNode = DeviceNode->Next) { LOG(WINTUN_LOG_INFO, L"Enabling existing adapter"); if (!SetupDiSetClassInstallParamsW(DevInfo, &DeviceNode->Data, &Params.ClassInstallHeader, sizeof(Params)) || !SetupDiCallClassInstaller(DIF_PROPERTYCHANGE, DevInfo, &DeviceNode->Data)) { LOG_LAST_ERROR(L"Unable to enable existing adapter"); Result = Result != ERROR_SUCCESS ? Result : GetLastError(); } } return Result; } WINTUN_STATUS AdapterDeleteAllOurs(void) { DWORD Result = ERROR_SUCCESS; HDEVINFO DevInfo = SetupDiGetClassDevsExW(&GUID_DEVCLASS_NET, NULL, NULL, DIGCF_PRESENT, NULL, NULL, NULL); if (DevInfo == INVALID_HANDLE_VALUE) return LOG_LAST_ERROR(L"Failed to get present class devices"); SP_REMOVEDEVICE_PARAMS Params = { .ClassInstallHeader = { .cbSize = sizeof(SP_CLASSINSTALL_HEADER), .InstallFunction = DIF_REMOVE }, .Scope = DI_REMOVEDEVICE_GLOBAL }; for (DWORD EnumIndex = 0;; ++EnumIndex) { SP_DEVINFO_DATA DevInfoData = { .cbSize = sizeof(SP_DEVINFO_DATA) }; if (!SetupDiEnumDeviceInfo(DevInfo, EnumIndex, &DevInfoData)) { if (GetLastError() == ERROR_NO_MORE_ITEMS) break; continue; } BOOL IsOurs; if (IsOurAdapter(DevInfo, &DevInfoData, &IsOurs) != ERROR_SUCCESS || !IsOurs) continue; LOG(WINTUN_LOG_INFO, L"Force closing all open handles for existing adapter"); if (ForceCloseWintunAdapterHandle(DevInfo, &DevInfoData) != ERROR_SUCCESS) LOG(WINTUN_LOG_WARN, L"Failed to force close adapter handles"); Sleep(200); LOG(WINTUN_LOG_INFO, L"Removing existing adapter"); if (!SetupDiSetClassInstallParamsW(DevInfo, &DevInfoData, &Params.ClassInstallHeader, sizeof(Params)) || !SetupDiCallClassInstaller(DIF_REMOVE, DevInfo, &DevInfoData)) { LOG_LAST_ERROR(L"Unable to remove existing adapter"); Result = Result != ERROR_SUCCESS ? Result : GetLastError(); } } SetupDiDestroyDeviceInfoList(DevInfo); return Result; } void AdapterInit(void) { #ifdef MAYBE_WOW64 typedef BOOL(WINAPI * IsWow64Process2_t)( _In_ HANDLE hProcess, _Out_ USHORT * pProcessMachine, _Out_opt_ USHORT * pNativeMachine); HANDLE Kernel32; IsWow64Process2_t IsWow64Process2; USHORT ProcessMachine; if ((Kernel32 = GetModuleHandleW(L"kernel32.dll")) == NULL || (IsWow64Process2 = (IsWow64Process2_t)GetProcAddress(Kernel32, "IsWow64Process2")) == NULL || !IsWow64Process2(GetCurrentProcess(), &ProcessMachine, &NativeMachine)) { BOOL IsWoW64; NativeMachine = IsWow64Process(GetCurrentProcess(), &IsWoW64) && IsWoW64 ? IMAGE_FILE_MACHINE_AMD64 : IMAGE_FILE_PROCESS; } #endif } static BOOL CheckReboot(_In_ HDEVINFO DevInfo, _In_ SP_DEVINFO_DATA *DevInfoData) { SP_DEVINSTALL_PARAMS_W DevInstallParams = { .cbSize = sizeof(SP_DEVINSTALL_PARAMS_W) }; if (!SetupDiGetDeviceInstallParamsW(DevInfo, DevInfoData, &DevInstallParams)) { LOG_LAST_ERROR(L"Retrieving device installation parameters failed"); return FALSE; } return (DevInstallParams.Flags & (DI_NEEDREBOOT | DI_NEEDRESTART)) != 0; } static WINTUN_STATUS SetQuietInstall(_In_ HDEVINFO DevInfo, _In_ SP_DEVINFO_DATA *DevInfoData) { SP_DEVINSTALL_PARAMS_W DevInstallParams = { .cbSize = sizeof(SP_DEVINSTALL_PARAMS_W) }; if (!SetupDiGetDeviceInstallParamsW(DevInfo, DevInfoData, &DevInstallParams)) return LOG_LAST_ERROR(L"Retrieving device installation parameters failed"); DevInstallParams.Flags |= DI_QUIETINSTALL; if (!SetupDiSetDeviceInstallParamsW(DevInfo, DevInfoData, &DevInstallParams)) return LOG_LAST_ERROR(L"Setting device installation parameters failed"); return ERROR_SUCCESS; } static WINTUN_STATUS GetNetCfgInstanceId(_In_ HDEVINFO DevInfo, _In_ SP_DEVINFO_DATA *DevInfoData, _Out_ GUID *CfgInstanceID) { HKEY Key = SetupDiOpenDevRegKey(DevInfo, DevInfoData, DICS_FLAG_GLOBAL, 0, DIREG_DRV, KEY_QUERY_VALUE); if (Key == INVALID_HANDLE_VALUE) return LOG_LAST_ERROR(L"Opening device registry key failed"); WCHAR *ValueStr; DWORD Result = RegistryQueryString(Key, L"NetCfgInstanceId", &ValueStr, TRUE); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to query NetCfgInstanceId value"); goto cleanupKey; } if (FAILED(CLSIDFromString(ValueStr, CfgInstanceID))) { LOG(WINTUN_LOG_ERR, L"NetCfgInstanceId is not a GUID"); Result = ERROR_INVALID_DATA; } else Result = ERROR_SUCCESS; HeapFree(ModuleHeap, 0, ValueStr); cleanupKey: RegCloseKey(Key); return Result; } static WINTUN_STATUS GetDevInfoData(_In_ const GUID *CfgInstanceID, _Out_ HDEVINFO *DevInfo, _Out_ SP_DEVINFO_DATA *DevInfoData) { *DevInfo = SetupDiGetClassDevsExW(&GUID_DEVCLASS_NET, NULL, NULL, DIGCF_PRESENT, NULL, NULL, NULL); if (!*DevInfo) return LOG_LAST_ERROR(L"Failed to get present class devices"); for (DWORD EnumIndex = 0;; ++EnumIndex) { DevInfoData->cbSize = sizeof(SP_DEVINFO_DATA); if (!SetupDiEnumDeviceInfo(*DevInfo, EnumIndex, DevInfoData)) { if (GetLastError() == ERROR_NO_MORE_ITEMS) break; continue; } GUID CfgInstanceID2; if (GetNetCfgInstanceId(*DevInfo, DevInfoData, &CfgInstanceID2) == ERROR_SUCCESS && !memcmp(CfgInstanceID, &CfgInstanceID2, sizeof(GUID))) return ERROR_SUCCESS; } SetupDiDestroyDeviceInfoList(*DevInfo); return ERROR_FILE_NOT_FOUND; } static void RemoveNumberedSuffix(_Inout_z_ WCHAR *Name) { for (size_t i = wcslen(Name); i--;) { if ((Name[i] < L'0' || Name[i] > L'9') && !iswspace(Name[i])) return; Name[i] = 0; } } static WINTUN_STATUS GetPoolDeviceTypeName(_In_z_count_c_(MAX_POOL) const WCHAR *Pool, _Out_cap_c_(MAX_POOL_DEVICE_TYPE) WCHAR *Name) { if (_snwprintf_s(Name, MAX_POOL_DEVICE_TYPE, _TRUNCATE, L"%.*s Tunnel", MAX_POOL, Pool) == -1) return LOG(WINTUN_LOG_ERR, L"Pool name too long"), ERROR_INVALID_PARAMETER; return ERROR_SUCCESS; } static WINTUN_STATUS IsPoolMember( _In_z_count_c_(MAX_POOL) const WCHAR *Pool, _In_ HDEVINFO DevInfo, _In_ SP_DEVINFO_DATA *DevInfoData, _Out_ BOOL *IsMember) { WCHAR *DeviceDesc, *FriendlyName; DWORD Result = GetDeviceRegistryString(DevInfo, DevInfoData, SPDRP_DEVICEDESC, &DeviceDesc); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to query device description property"); return Result; } Result = GetDeviceRegistryString(DevInfo, DevInfoData, SPDRP_FRIENDLYNAME, &FriendlyName); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to query friendly name property"); goto cleanupDeviceDesc; } WCHAR PoolDeviceTypeName[MAX_POOL_DEVICE_TYPE]; Result = GetPoolDeviceTypeName(Pool, PoolDeviceTypeName); if (Result != ERROR_SUCCESS) goto cleanupFriendlyName; if (!_wcsicmp(FriendlyName, PoolDeviceTypeName) || !_wcsicmp(DeviceDesc, PoolDeviceTypeName)) { *IsMember = TRUE; goto cleanupFriendlyName; } RemoveNumberedSuffix(FriendlyName); RemoveNumberedSuffix(DeviceDesc); if (!_wcsicmp(FriendlyName, PoolDeviceTypeName) || !_wcsicmp(DeviceDesc, PoolDeviceTypeName)) { *IsMember = TRUE; goto cleanupFriendlyName; } *IsMember = FALSE; cleanupFriendlyName: HeapFree(ModuleHeap, 0, FriendlyName); cleanupDeviceDesc: HeapFree(ModuleHeap, 0, DeviceDesc); return Result; } static WINTUN_STATUS CreateAdapterData( _In_z_count_c_(MAX_POOL) const WCHAR *Pool, _In_ HDEVINFO DevInfo, _In_ SP_DEVINFO_DATA *DevInfoData, _Out_ WINTUN_ADAPTER **Adapter) { DWORD Result; /* Open HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Control\Class\\ registry key. */ HKEY Key = SetupDiOpenDevRegKey(DevInfo, DevInfoData, DICS_FLAG_GLOBAL, 0, DIREG_DRV, KEY_QUERY_VALUE); if (Key == INVALID_HANDLE_VALUE) return LOG_LAST_ERROR(L"Opening device registry key failed"); *Adapter = HeapAlloc(ModuleHeap, 0, sizeof(WINTUN_ADAPTER)); if (!*Adapter) { LOG(WINTUN_LOG_ERR, L"Out of memory"); Result = ERROR_OUTOFMEMORY; goto cleanupKey; } /* Read the NetCfgInstanceId value and convert to GUID. */ WCHAR *ValueStr; Result = RegistryQueryString(Key, L"NetCfgInstanceId", &ValueStr, TRUE); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to query NetCfgInstanceId value"); goto cleanupAdapter; } if (FAILED(CLSIDFromString(ValueStr, &(*Adapter)->CfgInstanceID))) { LOG(WINTUN_LOG_ERR, L"NetCfgInstanceId is not a GUID"); HeapFree(ModuleHeap, 0, ValueStr); Result = ERROR_INVALID_DATA; goto cleanupAdapter; } HeapFree(ModuleHeap, 0, ValueStr); /* Read the NetLuidIndex value. */ Result = RegistryQueryDWORD(Key, L"NetLuidIndex", &(*Adapter)->LuidIndex, TRUE); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to query NetLuidIndex value"); goto cleanupAdapter; } /* Read the NetLuidIndex value. */ Result = RegistryQueryDWORD(Key, L"*IfType", &(*Adapter)->IfType, TRUE); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to query *IfType value"); goto cleanupAdapter; } DWORD Size; if (!SetupDiGetDeviceInstanceIdW( DevInfo, DevInfoData, (*Adapter)->DevInstanceID, _countof((*Adapter)->DevInstanceID), &Size)) { Result = LOG_LAST_ERROR(L"Failed to get device instance ID"); goto cleanupAdapter; } if (wcsncpy_s((*Adapter)->Pool, _countof((*Adapter)->Pool), Pool, _TRUNCATE) == STRUNCATE) { LOG(WINTUN_LOG_ERR, L"Pool name too long"); Result = ERROR_INVALID_PARAMETER; goto cleanupAdapter; } Result = ERROR_SUCCESS; cleanupAdapter: if (Result != ERROR_SUCCESS) HeapFree(ModuleHeap, 0, *Adapter); cleanupKey: RegCloseKey(Key); return Result; } static WINTUN_STATUS GetDeviceRegPath(_In_ const WINTUN_ADAPTER *Adapter, _Out_cap_c_(MAX_REG_PATH) WCHAR *Path) { if (_snwprintf_s( Path, MAX_REG_PATH, _TRUNCATE, L"SYSTEM\\CurrentControlSet\\Enum\\%.*s", MAX_INSTANCE_ID, Adapter->DevInstanceID) == -1) return LOG(WINTUN_LOG_ERR, L"Registry path too long"), ERROR_INVALID_PARAMETER; return ERROR_SUCCESS; } void WINAPI WintunFreeAdapter(_In_ WINTUN_ADAPTER *Adapter) { HeapFree(ModuleHeap, 0, Adapter); } WINTUN_STATUS WINAPI WintunGetAdapter( _In_z_count_c_(MAX_POOL) const WCHAR *Pool, _In_z_count_c_(MAX_ADAPTER_NAME) const WCHAR *Name, _Out_ WINTUN_ADAPTER **Adapter) { DWORD Result; HANDLE Mutex = NamespaceTakeMutex(Pool); if (!Mutex) return ERROR_INVALID_HANDLE; HDEVINFO DevInfo = SetupDiGetClassDevsExW(&GUID_DEVCLASS_NET, NULL, NULL, DIGCF_PRESENT, NULL, NULL, NULL); if (DevInfo == INVALID_HANDLE_VALUE) { Result = LOG_LAST_ERROR(L"Failed to get present class devices"); goto cleanupMutex; } for (DWORD EnumIndex = 0;; ++EnumIndex) { SP_DEVINFO_DATA DevInfoData = { .cbSize = sizeof(SP_DEVINFO_DATA) }; if (!SetupDiEnumDeviceInfo(DevInfo, EnumIndex, &DevInfoData)) { if (GetLastError() == ERROR_NO_MORE_ITEMS) break; continue; } GUID CfgInstanceID; if (GetNetCfgInstanceId(DevInfo, &DevInfoData, &CfgInstanceID) != ERROR_SUCCESS) continue; /* TODO: is there a better way than comparing ifnames? */ WCHAR Name2[MAX_ADAPTER_NAME]; if (NciGetConnectionName(&CfgInstanceID, Name2, sizeof(Name2), NULL) != ERROR_SUCCESS) continue; Name2[_countof(Name2) - 1] = 0; if (_wcsicmp(Name, Name2)) { RemoveNumberedSuffix(Name2); if (_wcsicmp(Name, Name2)) continue; } /* Check the Hardware ID to make sure it's a real Wintun device. */ BOOL IsOurs; Result = IsOurAdapter(DevInfo, &DevInfoData, &IsOurs); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to determine hardware ID"); goto cleanupDevInfo; } if (!IsOurs) { LOG(WINTUN_LOG_ERR, L"Foreign adapter with the same name exists"); Result = ERROR_ALREADY_EXISTS; goto cleanupDevInfo; } BOOL IsMember; Result = IsPoolMember(Pool, DevInfo, &DevInfoData, &IsMember); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to determine pool membership"); goto cleanupDevInfo; } if (!IsMember) { LOG(WINTUN_LOG_ERR, L"Wintun adapter with the same name exists in another pool"); Result = ERROR_ALREADY_EXISTS; goto cleanupDevInfo; } Result = CreateAdapterData(Pool, DevInfo, &DevInfoData, Adapter); if (Result != ERROR_SUCCESS) LOG(WINTUN_LOG_ERR, L"Failed to create adapter data"); goto cleanupDevInfo; } Result = ERROR_FILE_NOT_FOUND; cleanupDevInfo: SetupDiDestroyDeviceInfoList(DevInfo); cleanupMutex: NamespaceReleaseMutex(Mutex); return Result; } WINTUN_STATUS WINAPI WintunGetAdapterName(_In_ const WINTUN_ADAPTER *Adapter, _Out_cap_c_(MAX_ADAPTER_NAME) WCHAR *Name) { return NciGetConnectionName(&Adapter->CfgInstanceID, Name, MAX_ADAPTER_NAME * sizeof(WCHAR), NULL); } static WINTUN_STATUS ConvertInterfaceAliasToGuid(_In_z_ const WCHAR *Name, _Out_ GUID *Guid) { NET_LUID Luid; DWORD Result = ConvertInterfaceAliasToLuid(Name, &Luid); if (Result != NO_ERROR) return LOG_ERROR(L"Failed convert interface alias name to the locally unique identifier", Result); return ConvertInterfaceLuidToGuid(&Luid, Guid); } WINTUN_STATUS WINAPI WintunSetAdapterName(_In_ const WINTUN_ADAPTER *Adapter, _In_z_count_c_(MAX_ADAPTER_NAME) const WCHAR *Name) { DWORD Result; const int MaxSuffix = 1000; WCHAR AvailableName[MAX_ADAPTER_NAME]; if (wcsncpy_s(AvailableName, _countof(AvailableName), Name, _TRUNCATE) == STRUNCATE) return LOG(WINTUN_LOG_ERR, L"Pool name too long"), ERROR_INVALID_PARAMETER; for (int i = 0;; ++i) { Result = NciSetConnectionName(&Adapter->CfgInstanceID, AvailableName); if (Result == ERROR_DUP_NAME) { GUID Guid2; DWORD Result2 = ConvertInterfaceAliasToGuid(AvailableName, &Guid2); if (Result2 == ERROR_SUCCESS) { for (int j = 0; j < MaxSuffix; ++j) { WCHAR Proposal[MAX_ADAPTER_NAME]; if (_snwprintf_s( Proposal, _countof(Proposal), _TRUNCATE, L"%.*s %d", MAX_ADAPTER_NAME, Name, j + 1) == -1) return LOG(WINTUN_LOG_ERR, L"Pool name too long"), ERROR_INVALID_PARAMETER; if (_wcsnicmp(Proposal, AvailableName, MAX_ADAPTER_NAME) == 0) continue; Result2 = NciSetConnectionName(&Guid2, Proposal); if (Result2 == ERROR_DUP_NAME) continue; if (Result2 == ERROR_SUCCESS) { Result = NciSetConnectionName(&Adapter->CfgInstanceID, AvailableName); if (Result == ERROR_SUCCESS) break; } break; } } } if (Result == ERROR_SUCCESS) break; if (i >= MaxSuffix || Result != ERROR_DUP_NAME) return LOG_ERROR(L"Setting adapter name failed", Result); if (_snwprintf_s( AvailableName, _countof(AvailableName), _TRUNCATE, L"%.*s %d", MAX_ADAPTER_NAME, Name, i + 1) == -1) return LOG(WINTUN_LOG_ERR, L"Pool name too long"), ERROR_INVALID_PARAMETER; } /* TODO: This should use NetSetup2 so that it doesn't get unset. */ HKEY DeviceRegKey; WCHAR DeviceRegPath[MAX_REG_PATH]; Result = GetDeviceRegPath(Adapter, DeviceRegPath); if (Result != ERROR_SUCCESS) return Result; Result = RegOpenKeyExW(HKEY_LOCAL_MACHINE, DeviceRegPath, 0, KEY_SET_VALUE, &DeviceRegKey); if (Result != ERROR_SUCCESS) return LOG_ERROR(L"Failed to open registry key", Result); WCHAR PoolDeviceTypeName[MAX_POOL_DEVICE_TYPE]; Result = GetPoolDeviceTypeName(Adapter->Pool, PoolDeviceTypeName); if (Result != ERROR_SUCCESS) goto cleanupDeviceRegKey; Result = RegSetKeyValueW( DeviceRegKey, NULL, L"FriendlyName", REG_SZ, PoolDeviceTypeName, (DWORD)((wcslen(PoolDeviceTypeName) + 1) * sizeof(WCHAR))); cleanupDeviceRegKey: RegCloseKey(DeviceRegKey); return Result; } void WINAPI WintunGetAdapterGUID(_In_ const WINTUN_ADAPTER *Adapter, _Out_ GUID *Guid) { memcpy(Guid, &Adapter->CfgInstanceID, sizeof(GUID)); } void WINAPI WintunGetAdapterLUID(_In_ const WINTUN_ADAPTER *Adapter, _Out_ LUID *Luid) { *(LONGLONG *)Luid = (((LONGLONG)Adapter->LuidIndex & ((1 << 24) - 1)) << 24) | (((LONGLONG)Adapter->IfType & ((1 << 16) - 1)) << 48); } WINTUN_STATUS WINAPI WintunGetAdapterDeviceObject(_In_ const WINTUN_ADAPTER *Adapter, _Out_ HANDLE *Handle) { return GetDeviceObject(Adapter->DevInstanceID, Handle); } /* We can't use RtlGetVersion, because appcompat's aclayers.dll shims it to report Vista * when run from legacy contexts. So, we instead use the undocumented RtlGetNtVersionNumbers. * * Another way would be reading from the PEB directly: * ((DWORD *)NtCurrentTeb()->ProcessEnvironmentBlock)[sizeof(void *) == 8 ? 70 : 41] * Or just read from KUSER_SHARED_DATA the same way on 32-bit and 64-bit: * *(DWORD *)0x7FFE026C */ extern VOID NTAPI RtlGetNtVersionNumbers(_Out_opt_ DWORD *MajorVersion, _Out_opt_ DWORD *MinorVersion, _Out_opt_ DWORD *BuildNumber); static BOOL HaveWHQL(void) { #if defined(HAVE_WHQL) DWORD MajorVersion; RtlGetNtVersionNumbers(&MajorVersion, NULL, NULL); return MajorVersion >= 10; #else return FALSE; #endif } static WINTUN_STATUS InstallCertificate(_In_z_ const WCHAR *SignedResource) { LOG(WINTUN_LOG_INFO, L"Trusting code signing certificate"); const void *LockedResource; DWORD SizeResource; DWORD Result = ResourceGetAddress(SignedResource, &LockedResource, &SizeResource); if (Result != ERROR_SUCCESS) return LOG(WINTUN_LOG_ERR, L"Failed to locate resource"), Result; const CERT_BLOB CertBlob = { .cbData = SizeResource, .pbData = (BYTE *)LockedResource }; HCERTSTORE QueriedStore; if (!CryptQueryObject( CERT_QUERY_OBJECT_BLOB, &CertBlob, CERT_QUERY_CONTENT_FLAG_PKCS7_SIGNED_EMBED, CERT_QUERY_FORMAT_FLAG_ALL, 0, 0, 0, 0, &QueriedStore, 0, NULL)) return LOG_LAST_ERROR(L"Failed to find certificate"); HCERTSTORE TrustedStore = CertOpenStore(CERT_STORE_PROV_SYSTEM, 0, 0, CERT_SYSTEM_STORE_LOCAL_MACHINE, L"TrustedPublisher"); if (!TrustedStore) { Result = LOG_LAST_ERROR(L"Failed to open store"); goto cleanupQueriedStore; } LPSTR CodeSigningOid[] = { szOID_PKIX_KP_CODE_SIGNING }; CERT_ENHKEY_USAGE EnhancedUsage = { .cUsageIdentifier = 1, .rgpszUsageIdentifier = CodeSigningOid }; for (const CERT_CONTEXT *CertContext = NULL; (CertContext = CertFindCertificateInStore( QueriedStore, X509_ASN_ENCODING | PKCS_7_ASN_ENCODING, CERT_FIND_EXT_ONLY_ENHKEY_USAGE_FLAG, CERT_FIND_ENHKEY_USAGE, &EnhancedUsage, CertContext)) != NULL;) { CERT_EXTENSION *Ext = CertFindExtension( szOID_BASIC_CONSTRAINTS2, CertContext->pCertInfo->cExtension, CertContext->pCertInfo->rgExtension); CERT_BASIC_CONSTRAINTS2_INFO Constraints; DWORD Size = sizeof(Constraints); if (Ext && CryptDecodeObjectEx( X509_ASN_ENCODING | PKCS_7_ASN_ENCODING, szOID_BASIC_CONSTRAINTS2, Ext->Value.pbData, Ext->Value.cbData, 0, NULL, &Constraints, &Size) && !Constraints.fCA) if (!CertAddCertificateContextToStore(TrustedStore, CertContext, CERT_STORE_ADD_REPLACE_EXISTING, NULL)) { LOG_LAST_ERROR(L"Failed to add certificate to store"); Result = Result != ERROR_SUCCESS ? Result : GetLastError(); } } CertCloseStore(TrustedStore, 0); cleanupQueriedStore: CertCloseStore(QueriedStore, 0); return Result; } static BOOL IsOurDrvInfoDetail(_In_ const SP_DRVINFO_DETAIL_DATA_W *DrvInfoDetailData) { return DrvInfoDetailData->CompatIDsOffset > 1 && !_wcsicmp(DrvInfoDetailData->HardwareID, WINTUN_HWID) || DrvInfoDetailData->CompatIDsLength && IsOurHardwareID(DrvInfoDetailData->HardwareID + DrvInfoDetailData->CompatIDsOffset); } static BOOL IsNewer(_In_ const SP_DRVINFO_DATA_W *DrvInfoData, _In_ const FILETIME *DriverDate, _In_ DWORDLONG DriverVersion) { if (DrvInfoData->DriverDate.dwHighDateTime > DriverDate->dwHighDateTime) return TRUE; if (DrvInfoData->DriverDate.dwHighDateTime < DriverDate->dwHighDateTime) return FALSE; if (DrvInfoData->DriverDate.dwLowDateTime > DriverDate->dwLowDateTime) return TRUE; if (DrvInfoData->DriverDate.dwLowDateTime < DriverDate->dwLowDateTime) return FALSE; if (DrvInfoData->DriverVersion > DriverVersion) return TRUE; if (DrvInfoData->DriverVersion < DriverVersion) return FALSE; return FALSE; } static DWORD GetTcpipAdapterRegPath(_In_ const WINTUN_ADAPTER *Adapter, _Out_cap_c_(MAX_REG_PATH) WCHAR *Path) { WCHAR Guid[MAX_GUID_STRING_LEN]; if (_snwprintf_s( Path, MAX_REG_PATH, _TRUNCATE, L"SYSTEM\\CurrentControlSet\\Services\\Tcpip\\Parameters\\Adapters\\%.*s", StringFromGUID2(&Adapter->CfgInstanceID, Guid, _countof(Guid)), Guid) == -1) return LOG(WINTUN_LOG_ERR, L"Registry path too long"), ERROR_INVALID_PARAMETER; return ERROR_SUCCESS; } static WINTUN_STATUS GetTcpipInterfaceRegPath(_In_ const WINTUN_ADAPTER *Adapter, _Out_cap_c_(MAX_REG_PATH) WCHAR *Path) { DWORD Result; HKEY TcpipAdapterRegKey; WCHAR TcpipAdapterRegPath[MAX_REG_PATH]; Result = GetTcpipAdapterRegPath(Adapter, TcpipAdapterRegPath); if (Result != ERROR_SUCCESS) return Result; Result = RegOpenKeyExW(HKEY_LOCAL_MACHINE, TcpipAdapterRegPath, 0, KEY_QUERY_VALUE, &TcpipAdapterRegKey); if (Result != ERROR_SUCCESS) return LOG_ERROR(L"Failed to open registry key", Result); WCHAR *Paths; Result = RegistryQueryString(TcpipAdapterRegKey, L"IpConfig", &Paths, TRUE); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to query IpConfig value"); goto cleanupTcpipAdapterRegKey; } if (!Paths[0]) { LOG(WINTUN_LOG_ERR, L"IpConfig is empty"); Result = ERROR_INVALID_DATA; goto cleanupPaths; } if (_snwprintf_s(Path, MAX_REG_PATH, _TRUNCATE, L"SYSTEM\\CurrentControlSet\\Services\\%s", Paths) == -1) { LOG(WINTUN_LOG_ERR, L"Registry path too long"); Result = ERROR_INVALID_PARAMETER; goto cleanupPaths; } Result = ERROR_SUCCESS; cleanupPaths: HeapFree(ModuleHeap, 0, Paths); cleanupTcpipAdapterRegKey: RegCloseKey(TcpipAdapterRegKey); return Result; } static WINTUN_STATUS CreateAdapter( _In_z_count_c_(MAX_PATH) const WCHAR *InfPath, _In_z_count_c_(MAX_POOL) const WCHAR *Pool, _In_z_count_c_(MAX_ADAPTER_NAME) const WCHAR *Name, _In_opt_ const GUID *RequestedGUID, _Out_ WINTUN_ADAPTER **Adapter, _Inout_ BOOL *RebootRequired) { DWORD Result; HANDLE Mutex = NamespaceTakeMutex(Pool); if (!Mutex) return ERROR_INVALID_HANDLE; HDEVINFO DevInfo = SetupDiCreateDeviceInfoListExW(&GUID_DEVCLASS_NET, NULL, NULL, NULL); if (DevInfo == INVALID_HANDLE_VALUE) { Result = LOG_LAST_ERROR(L"Creating empty device information set failed"); goto cleanupMutex; } WCHAR ClassName[MAX_CLASS_NAME_LEN]; if (!SetupDiClassNameFromGuidExW(&GUID_DEVCLASS_NET, ClassName, _countof(ClassName), NULL, NULL, NULL)) { Result = LOG_LAST_ERROR(L"Retrieving class name associated with class GUID failed"); goto cleanupDevInfo; } WCHAR PoolDeviceTypeName[MAX_POOL_DEVICE_TYPE]; Result = GetPoolDeviceTypeName(Pool, PoolDeviceTypeName); if (Result != ERROR_SUCCESS) goto cleanupDevInfo; SP_DEVINFO_DATA DevInfoData = { .cbSize = sizeof(SP_DEVINFO_DATA) }; if (!SetupDiCreateDeviceInfoW( DevInfo, ClassName, &GUID_DEVCLASS_NET, PoolDeviceTypeName, NULL, DICD_GENERATE_ID, &DevInfoData)) { Result = LOG_LAST_ERROR(L"Creating new device information element failed"); goto cleanupDevInfo; } SP_DEVINSTALL_PARAMS_W DevInstallParams = { .cbSize = sizeof(SP_DEVINSTALL_PARAMS_W) }; if (!SetupDiGetDeviceInstallParamsW(DevInfo, &DevInfoData, &DevInstallParams)) { Result = LOG_LAST_ERROR(L"Retrieving device installation parameters failed"); goto cleanupDevInfo; } DevInstallParams.Flags |= DI_QUIETINSTALL | DI_ENUMSINGLEINF; wcscpy_s(DevInstallParams.DriverPath, _countof(DevInstallParams.DriverPath), InfPath); if (!SetupDiSetDeviceInstallParamsW(DevInfo, &DevInfoData, &DevInstallParams)) { Result = LOG_LAST_ERROR(L"Setting device installation parameters failed"); goto cleanupDevInfo; } if (!SetupDiSetSelectedDevice(DevInfo, &DevInfoData)) { Result = LOG_LAST_ERROR(L"Failed selecting device"); goto cleanupDevInfo; } static const WCHAR Hwids[_countof(WINTUN_HWID) + 1 /*Multi-string terminator*/] = WINTUN_HWID; if (!SetupDiSetDeviceRegistryPropertyW(DevInfo, &DevInfoData, SPDRP_HARDWAREID, (const BYTE *)Hwids, sizeof(Hwids))) { Result = LOG_LAST_ERROR(L"Failed setting hardware ID"); goto cleanupDevInfo; } if (!SetupDiBuildDriverInfoList(DevInfo, &DevInfoData, SPDIT_COMPATDRIVER)) /* TODO: This takes ~510ms */ { Result = LOG_LAST_ERROR(L"Failed building driver info list"); goto cleanupDevInfo; } FILETIME DriverDate = { 0, 0 }; DWORDLONG DriverVersion = 0; for (DWORD EnumIndex = 0;; ++EnumIndex) /* TODO: This loop takes ~600ms */ { SP_DRVINFO_DATA_W DrvInfoData = { .cbSize = sizeof(SP_DRVINFO_DATA_W) }; if (!SetupDiEnumDriverInfoW(DevInfo, &DevInfoData, SPDIT_COMPATDRIVER, EnumIndex, &DrvInfoData)) { if (GetLastError() == 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 (!IsNewer(&DrvInfoData, &DriverDate, DriverVersion)) continue; SP_DRVINFO_DETAIL_DATA_W *DrvInfoDetailData; if (AdapterGetDrvInfoDetail(DevInfo, &DevInfoData, &DrvInfoData, &DrvInfoDetailData) != ERROR_SUCCESS) { LOG(WINTUN_LOG_WARN, L"Failed getting driver info detail"); continue; } if (!IsOurDrvInfoDetail(DrvInfoDetailData)) { HeapFree(ModuleHeap, 0, DrvInfoDetailData); continue; } HeapFree(ModuleHeap, 0, DrvInfoDetailData); if (!SetupDiSetSelectedDriverW(DevInfo, &DevInfoData, &DrvInfoData)) continue; DriverDate = DrvInfoData.DriverDate; DriverVersion = DrvInfoData.DriverVersion; } if (!DriverVersion) { LOG(WINTUN_LOG_ERR, L"No appropriate drivers found"); Result = ERROR_FILE_NOT_FOUND; goto cleanupDriverInfoList; } if (!SetupDiCallClassInstaller(DIF_REGISTERDEVICE, DevInfo, &DevInfoData)) { Result = LOG_LAST_ERROR(L"Registering device failed"); goto cleanupDevice; } if (!SetupDiCallClassInstaller(DIF_REGISTER_COINSTALLERS, DevInfo, &DevInfoData)) LOG_LAST_ERROR(L"Registering coinstallers failed"); HKEY NetDevRegKey = INVALID_HANDLE_VALUE; const int PollTimeout = 50 /* ms */; for (int i = 0; NetDevRegKey == INVALID_HANDLE_VALUE && i < WAIT_FOR_REGISTRY_TIMEOUT / PollTimeout; ++i) { if (i) Sleep(PollTimeout); NetDevRegKey = SetupDiOpenDevRegKey( DevInfo, &DevInfoData, DICS_FLAG_GLOBAL, 0, DIREG_DRV, KEY_SET_VALUE | KEY_QUERY_VALUE | KEY_NOTIFY); } if (NetDevRegKey == INVALID_HANDLE_VALUE) { Result = LOG_LAST_ERROR(L"Failed to open device-specific registry key"); goto cleanupDevice; } if (RequestedGUID) { WCHAR RequestedGUIDStr[MAX_GUID_STRING_LEN]; Result = RegSetValueExW( NetDevRegKey, L"NetSetupAnticipatedInstanceId", 0, REG_SZ, (const BYTE *)RequestedGUIDStr, StringFromGUID2(RequestedGUID, RequestedGUIDStr, _countof(RequestedGUIDStr)) * sizeof(WCHAR)); if (Result != ERROR_SUCCESS) { LOG_LAST_ERROR(L"Failed to set NetSetupAnticipatedInstanceId"); goto cleanupNetDevRegKey; } } if (!SetupDiCallClassInstaller(DIF_INSTALLINTERFACES, DevInfo, &DevInfoData)) LOG_LAST_ERROR(L"Installing interfaces failed"); if (!SetupDiCallClassInstaller(DIF_INSTALLDEVICE, DevInfo, &DevInfoData)) { Result = LOG_LAST_ERROR(L"Installing device failed"); goto cleanupNetDevRegKey; } *RebootRequired = *RebootRequired || CheckReboot(DevInfo, &DevInfoData); if (!SetupDiSetDeviceRegistryPropertyW( DevInfo, &DevInfoData, SPDRP_DEVICEDESC, (const BYTE *)PoolDeviceTypeName, (DWORD)((wcslen(PoolDeviceTypeName) + 1) * sizeof(WCHAR)))) { Result = LOG_LAST_ERROR(L"Failed to set device description"); goto cleanupNetDevRegKey; } /* 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. */ WCHAR *DummyStr; Result = RegistryQueryStringWait(NetDevRegKey, L"NetCfgInstanceId", WAIT_FOR_REGISTRY_TIMEOUT, &DummyStr); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to query NetCfgInstanceId value"); goto cleanupNetDevRegKey; } HeapFree(ModuleHeap, 0, DummyStr); DWORD DummyDWORD; Result = RegistryQueryDWORDWait(NetDevRegKey, L"NetLuidIndex", WAIT_FOR_REGISTRY_TIMEOUT, &DummyDWORD); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to query NetLuidIndex value"); goto cleanupNetDevRegKey; } Result = RegistryQueryDWORDWait(NetDevRegKey, L"*IfType", WAIT_FOR_REGISTRY_TIMEOUT, &DummyDWORD); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to query *IfType value"); goto cleanupNetDevRegKey; } Result = CreateAdapterData(Pool, DevInfo, &DevInfoData, Adapter); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to create adapter data"); goto cleanupNetDevRegKey; } HKEY TcpipAdapterRegKey; WCHAR TcpipAdapterRegPath[MAX_REG_PATH]; Result = GetTcpipAdapterRegPath(*Adapter, TcpipAdapterRegPath); if (Result != ERROR_SUCCESS) goto cleanupAdapter; Result = RegistryOpenKeyWait( HKEY_LOCAL_MACHINE, TcpipAdapterRegPath, KEY_QUERY_VALUE | KEY_NOTIFY, WAIT_FOR_REGISTRY_TIMEOUT, &TcpipAdapterRegKey); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to open adapter-specific TCP/IP adapter registry key"); goto cleanupAdapter; } Result = RegistryQueryStringWait(TcpipAdapterRegKey, L"IpConfig", WAIT_FOR_REGISTRY_TIMEOUT, &DummyStr); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to query IpConfig value"); goto cleanupTcpipAdapterRegKey; } HeapFree(ModuleHeap, 0, DummyStr); HKEY TcpipInterfaceRegKey; WCHAR TcpipInterfaceRegPath[MAX_REG_PATH]; Result = GetTcpipInterfaceRegPath(*Adapter, TcpipInterfaceRegPath); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to determine interface-specific TCP/IP network registry key path"); goto cleanupTcpipAdapterRegKey; } Result = RegistryOpenKeyWait( HKEY_LOCAL_MACHINE, TcpipInterfaceRegPath, KEY_QUERY_VALUE | KEY_SET_VALUE, WAIT_FOR_REGISTRY_TIMEOUT, &TcpipInterfaceRegKey); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to open interface-specific TCP/IP network registry key"); goto cleanupTcpipAdapterRegKey; } static const DWORD EnableDeadGWDetect = 0; Result = RegSetKeyValueW( TcpipInterfaceRegKey, NULL, L"EnableDeadGWDetect", REG_DWORD, &EnableDeadGWDetect, sizeof(EnableDeadGWDetect)); if (Result != ERROR_SUCCESS) LOG_ERROR(L"Failed to set EnableDeadGWDetect", Result); Result = WintunSetAdapterName(*Adapter, Name); if (Result != ERROR_SUCCESS) LOG_ERROR(L"Failed to set adapter name", Result); RegCloseKey(TcpipInterfaceRegKey); cleanupTcpipAdapterRegKey: RegCloseKey(TcpipAdapterRegKey); cleanupAdapter: if (Result != ERROR_SUCCESS) HeapFree(ModuleHeap, 0, *Adapter); cleanupNetDevRegKey: RegCloseKey(NetDevRegKey); cleanupDevice: if (Result != ERROR_SUCCESS) { /* The adapter failed to install, or the adapter ID was unobtainable. Clean-up. */ SP_REMOVEDEVICE_PARAMS RemoveDeviceParams = { .ClassInstallHeader = { .cbSize = sizeof(SP_CLASSINSTALL_HEADER), .InstallFunction = DIF_REMOVE }, .Scope = DI_REMOVEDEVICE_GLOBAL }; if (SetupDiSetClassInstallParamsW( DevInfo, &DevInfoData, &RemoveDeviceParams.ClassInstallHeader, sizeof(RemoveDeviceParams)) && SetupDiCallClassInstaller(DIF_REMOVE, DevInfo, &DevInfoData)) *RebootRequired = *RebootRequired || CheckReboot(DevInfo, &DevInfoData); } cleanupDriverInfoList: SetupDiDestroyDriverInfoList(DevInfo, &DevInfoData, SPDIT_COMPATDRIVER); cleanupDevInfo: SetupDiDestroyDeviceInfoList(DevInfo); cleanupMutex: NamespaceReleaseMutex(Mutex); return Result; } static WINTUN_STATUS CreateTemporaryDirectory(_Out_cap_c_(MAX_PATH) WCHAR *RandomTempSubDirectory) { WCHAR WindowsDirectory[MAX_PATH]; if (!GetWindowsDirectoryW(WindowsDirectory, _countof(WindowsDirectory))) return LOG_LAST_ERROR(L"Failed to get Windows folder"); WCHAR WindowsTempDirectory[MAX_PATH]; if (!PathCombineW(WindowsTempDirectory, WindowsDirectory, L"Temp")) return ERROR_BUFFER_OVERFLOW; UCHAR RandomBytes[32] = { 0 }; #pragma warning(suppress : 6387) if (!RtlGenRandom(RandomBytes, sizeof(RandomBytes))) return LOG_LAST_ERROR(L"Failed to generate random"); WCHAR RandomSubDirectory[sizeof(RandomBytes) * 2 + 1]; for (int i = 0; i < sizeof(RandomBytes); ++i) swprintf_s(&RandomSubDirectory[i * 2], 3, L"%02x", RandomBytes[i]); if (!PathCombineW(RandomTempSubDirectory, WindowsTempDirectory, RandomSubDirectory)) return ERROR_BUFFER_OVERFLOW; if (!CreateDirectoryW(RandomTempSubDirectory, SecurityAttributes)) return LOG_LAST_ERROR(L"Failed to create temporary folder"); return ERROR_SUCCESS; } #ifdef MAYBE_WOW64 typedef struct _PROCESS_STDOUT_STATE { HANDLE Stdout; WCHAR *Response; DWORD ResponseCapacity; } PROCESS_STDOUT_STATE; static DWORD WINAPI ProcessStdout(_Inout_ PROCESS_STDOUT_STATE *State) { for (DWORD Offset = 0, MaxLen = State->ResponseCapacity - 1; Offset < MaxLen;) { DWORD SizeRead; if (!ReadFile(State->Stdout, State->Response + Offset, sizeof(WCHAR) * (MaxLen - Offset), &SizeRead, NULL)) return ERROR_SUCCESS; if (SizeRead % sizeof(WCHAR)) return ERROR_INVALID_DATA; Offset += SizeRead / sizeof(WCHAR); State->Response[Offset] = 0; } return ERROR_BUFFER_OVERFLOW; } static DWORD WINAPI ProcessStderr(_In_ HANDLE Stderr) { enum { OnNone, OnLevelStart, OnLevel, OnLevelEnd, OnSpace, OnMsg } State = OnNone; WCHAR Msg[0x200]; DWORD Count = 0; WINTUN_LOGGER_LEVEL Level = WINTUN_LOG_INFO; for (;;) { WCHAR Buf[0x200]; DWORD SizeRead; if (!ReadFile(Stderr, Buf, sizeof(Buf), &SizeRead, NULL)) return ERROR_SUCCESS; if (SizeRead % sizeof(WCHAR)) return ERROR_INVALID_DATA; SizeRead /= sizeof(WCHAR); for (DWORD i = 0; i < SizeRead; ++i) { WCHAR c = Buf[i]; if (State == OnNone && c == L'[') State = OnLevelStart; else if ( State == OnLevelStart && ((Level = WINTUN_LOG_INFO, c == L'+') || (Level = WINTUN_LOG_WARN, c == L'-') || (Level = WINTUN_LOG_ERR, c == L'!'))) State = OnLevelEnd; else if (State == OnLevelEnd && c == L']') State = OnSpace; else if (State == OnSpace && !iswspace(c) || State == OnMsg && c != L'\r' && c != L'\n') { if (Count < _countof(Msg) - 1) Msg[Count++] = c; State = OnMsg; } else if (State == OnMsg && c == L'\n') { Msg[Count] = 0; Logger(Level, Msg); State = OnNone; Count = 0; } } } } static WINTUN_STATUS ExecuteRunDll32( _In_z_ const WCHAR *Arguments, _Out_z_cap_c_(ResponseCapacity) WCHAR *Response, _In_ DWORD ResponseCapacity) { WCHAR WindowsDirectory[MAX_PATH]; if (!GetWindowsDirectoryW(WindowsDirectory, _countof(WindowsDirectory))) return LOG_LAST_ERROR(L"Failed to get Windows folder"); WCHAR RunDll32Path[MAX_PATH]; if (!PathCombineW(RunDll32Path, WindowsDirectory, L"Sysnative\\rundll32.exe")) return ERROR_BUFFER_OVERFLOW; DWORD Result; WCHAR RandomTempSubDirectory[MAX_PATH]; if ((Result = CreateTemporaryDirectory(RandomTempSubDirectory)) != ERROR_SUCCESS) return LOG(WINTUN_LOG_ERR, L"Failed to create temporary folder"), Result; WCHAR DllPath[MAX_PATH] = { 0 }; if (!PathCombineW(DllPath, RandomTempSubDirectory, L"wintun.dll")) { Result = ERROR_BUFFER_OVERFLOW; goto cleanupDirectory; } const WCHAR *WintunDllResourceName; switch (NativeMachine) { case IMAGE_FILE_MACHINE_AMD64: WintunDllResourceName = L"wintun-amd64.dll"; break; case IMAGE_FILE_MACHINE_ARM64: WintunDllResourceName = L"wintun-arm64.dll"; break; default: LOG(WINTUN_LOG_ERR, L"Failed to copy resource"); Result = ERROR_NOT_SUPPORTED; goto cleanupDirectory; } if ((Result = ResourceCopyToFile(DllPath, WintunDllResourceName)) != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to copy resource"); goto cleanupDelete; } size_t CommandLineLen = 10 + MAX_PATH + 2 + wcslen(Arguments) + 1; WCHAR *CommandLine = HeapAlloc(ModuleHeap, 0, CommandLineLen * sizeof(WCHAR)); if (!CommandLine) { LOG(WINTUN_LOG_ERR, L"Out of memory"); Result = ERROR_OUTOFMEMORY; goto cleanupDelete; } if (_snwprintf_s(CommandLine, CommandLineLen, _TRUNCATE, L"rundll32 \"%.*s\",%s", MAX_PATH, DllPath, Arguments) == -1) { LOG(WINTUN_LOG_ERR, L"Command line too long"); Result = ERROR_INVALID_PARAMETER; goto cleanupDelete; } HANDLE StreamRStdout = INVALID_HANDLE_VALUE, StreamRStderr = INVALID_HANDLE_VALUE, StreamWStdout = INVALID_HANDLE_VALUE, StreamWStderr = INVALID_HANDLE_VALUE; if (!CreatePipe(&StreamRStdout, &StreamWStdout, SecurityAttributes, 0) || !CreatePipe(&StreamRStderr, &StreamWStderr, SecurityAttributes, 0)) { Result = LOG_LAST_ERROR(L"Failed to create pipes"); goto cleanupPipes; } if (!SetHandleInformation(StreamWStdout, HANDLE_FLAG_INHERIT, HANDLE_FLAG_INHERIT) || !SetHandleInformation(StreamWStderr, HANDLE_FLAG_INHERIT, HANDLE_FLAG_INHERIT)) { Result = LOG_LAST_ERROR(L"Failed to set handle info"); goto cleanupPipes; } if (ResponseCapacity) Response[0] = 0; PROCESS_STDOUT_STATE ProcessStdoutState = { .Stdout = StreamRStdout, .Response = Response, .ResponseCapacity = ResponseCapacity }; HANDLE ThreadStdout = NULL, ThreadStderr = NULL; if ((ThreadStdout = CreateThread(SecurityAttributes, 0, ProcessStdout, &ProcessStdoutState, 0, NULL)) == NULL || (ThreadStderr = CreateThread(SecurityAttributes, 0, ProcessStderr, StreamRStderr, 0, NULL)) == NULL) { Result = LOG_LAST_ERROR(L"Failed to spawn reader threads"); goto cleanupThreads; } STARTUPINFOW si = { .cb = sizeof(STARTUPINFO), .dwFlags = STARTF_USESHOWWINDOW | STARTF_USESTDHANDLES, .wShowWindow = SW_HIDE, .hStdOutput = StreamWStdout, .hStdError = StreamWStderr }; PROCESS_INFORMATION pi; if (!CreateProcessW(RunDll32Path, CommandLine, NULL, NULL, TRUE, 0, NULL, NULL, &si, &pi)) { Result = LOG_LAST_ERROR(L"Creating process failed"); goto cleanupThreads; } WaitForSingleObject(pi.hProcess, INFINITE); CloseHandle(pi.hProcess); CloseHandle(pi.hThread); cleanupThreads: if (ThreadStderr) { CloseHandle(StreamWStderr); StreamWStderr = INVALID_HANDLE_VALUE; WaitForSingleObject(ThreadStderr, INFINITE); CloseHandle(ThreadStderr); } if (ThreadStdout) { CloseHandle(StreamWStdout); StreamWStdout = INVALID_HANDLE_VALUE; WaitForSingleObject(ThreadStdout, INFINITE); if (!GetExitCodeThread(ThreadStdout, &Result)) Result = LOG_LAST_ERROR(L"Failed to retrieve thread result"); else if (Result != ERROR_SUCCESS) LOG_ERROR(L"Failed to read process output", Result); CloseHandle(ThreadStdout); } cleanupPipes: CloseHandle(StreamRStderr); CloseHandle(StreamWStderr); CloseHandle(StreamRStdout); CloseHandle(StreamWStdout); HeapFree(ModuleHeap, 0, CommandLine); cleanupDelete: DeleteFileW(DllPath); cleanupDirectory: RemoveDirectoryW(RandomTempSubDirectory); return Result; } static WINTUN_STATUS GetAdapter(_In_z_count_c_(MAX_POOL) const WCHAR *Pool, _In_ const GUID *CfgInstanceID, _Out_ WINTUN_ADAPTER **Adapter) { HANDLE Mutex = NamespaceTakeMutex(Pool); if (!Mutex) return ERROR_INVALID_HANDLE; HDEVINFO DevInfo; SP_DEVINFO_DATA DevInfoData; DWORD Result = GetDevInfoData(CfgInstanceID, &DevInfo, &DevInfoData); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to locate adapter"); goto cleanupMutex; } Result = CreateAdapterData(Pool, DevInfo, &DevInfoData, Adapter); if (Result != ERROR_SUCCESS) LOG(WINTUN_LOG_ERR, L"Failed to create adapter data"); SetupDiDestroyDeviceInfoList(DevInfo); cleanupMutex: NamespaceReleaseMutex(Mutex); return Result; } static WINTUN_STATUS CreateAdapterNatively( _In_z_count_c_(MAX_POOL) const WCHAR *Pool, _In_z_count_c_(MAX_ADAPTER_NAME) const WCHAR *Name, _In_opt_ const GUID *RequestedGUID, _Out_ WINTUN_ADAPTER **Adapter, _Inout_ BOOL *RebootRequired) { LOG(WINTUN_LOG_INFO, L"Spawning native process"); WCHAR RequestedGUIDStr[MAX_GUID_STRING_LEN]; WCHAR Arguments[15 + MAX_POOL + 3 + MAX_ADAPTER_NAME + 2 + MAX_GUID_STRING_LEN + 1]; if (_snwprintf_s( Arguments, _countof(Arguments), _TRUNCATE, RequestedGUID ? L"CreateAdapter \"%.*s\" \"%.*s\" %.*s" : L"CreateAdapter \"%.*s\" \"%.*s\"", MAX_POOL, Pool, MAX_ADAPTER_NAME, Name, RequestedGUID ? StringFromGUID2(RequestedGUID, RequestedGUIDStr, _countof(RequestedGUIDStr)) : 0, RequestedGUIDStr) == -1) return LOG(WINTUN_LOG_ERR, L"Command line too long"), ERROR_INVALID_PARAMETER; WCHAR Response[8 + 1 + MAX_GUID_STRING_LEN + 1 + 8 + 1]; DWORD Result = ExecuteRunDll32(Arguments, Response, _countof(Response)); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Error executing worker process"); return Result; } int Argc; WCHAR **Argv = CommandLineToArgvW(Response, &Argc); GUID CfgInstanceID; if (Argc < 3 || FAILED(CLSIDFromString(Argv[1], &CfgInstanceID))) { LOG(WINTUN_LOG_ERR, L"Incomplete or invalid response"); Result = ERROR_INVALID_PARAMETER; goto cleanupArgv; } Result = wcstoul(Argv[0], NULL, 16); if (Result == ERROR_SUCCESS && GetAdapter(Pool, &CfgInstanceID, Adapter) != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to get adapter"); Result = ERROR_FILE_NOT_FOUND; } if (wcstoul(Argv[2], NULL, 16)) *RebootRequired = TRUE; cleanupArgv: LocalFree(Argv); return Result; } #endif WINTUN_STATUS WINAPI WintunCreateAdapter( _In_z_count_c_(MAX_POOL) const WCHAR *Pool, _In_z_count_c_(MAX_ADAPTER_NAME) const WCHAR *Name, _In_opt_ const GUID *RequestedGUID, _Out_ WINTUN_ADAPTER **Adapter, _Inout_ BOOL *RebootRequired) { #ifdef MAYBE_WOW64 if (NativeMachine != IMAGE_FILE_PROCESS) return CreateAdapterNatively(Pool, Name, RequestedGUID, Adapter, RebootRequired); #endif DWORD Result = ERROR_SUCCESS; WCHAR RandomTempSubDirectory[MAX_PATH]; if ((Result = CreateTemporaryDirectory(RandomTempSubDirectory)) != ERROR_SUCCESS) return LOG(WINTUN_LOG_ERR, L"Failed to create temporary folder"), Result; WCHAR CatPath[MAX_PATH] = { 0 }; WCHAR SysPath[MAX_PATH] = { 0 }; WCHAR InfPath[MAX_PATH] = { 0 }; if (!PathCombineW(CatPath, RandomTempSubDirectory, L"wintun.cat") || !PathCombineW(SysPath, RandomTempSubDirectory, L"wintun.sys") || !PathCombineW(InfPath, RandomTempSubDirectory, L"wintun.inf")) { Result = ERROR_BUFFER_OVERFLOW; goto cleanupDirectory; } BOOL UseWHQL = HaveWHQL(); if (!UseWHQL && (Result = InstallCertificate(L"wintun.cat")) != ERROR_SUCCESS) LOG(WINTUN_LOG_WARN, L"Unable to install code signing certificate"); LOG(WINTUN_LOG_INFO, L"Copying resources to temporary path"); if ((Result = ResourceCopyToFile(CatPath, UseWHQL ? L"wintun-whql.cat" : L"wintun.cat")) != ERROR_SUCCESS || (Result = ResourceCopyToFile(SysPath, UseWHQL ? L"wintun-whql.sys" : L"wintun.sys")) != ERROR_SUCCESS || (Result = ResourceCopyToFile(InfPath, UseWHQL ? L"wintun-whql.inf" : L"wintun.inf")) != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to copy resources"); goto cleanupDelete; } LOG(WINTUN_LOG_INFO, L"Installing driver"); WCHAR InfStorePath[MAX_PATH]; WCHAR *InfStoreFilename; if (!SetupCopyOEMInfW(InfPath, NULL, SPOST_PATH, 0, InfStorePath, _countof(InfStorePath), NULL, &InfStoreFilename)) { Result = LOG_LAST_ERROR(L"Could not install driver to store"); goto cleanupDelete; } Result = CreateAdapter(InfPath, Pool, Name, RequestedGUID, Adapter, RebootRequired); LOG(WINTUN_LOG_INFO, L"Removing driver"); if (!SetupUninstallOEMInfW(InfStoreFilename, SUOI_FORCEDELETE, NULL)) { LOG_LAST_ERROR(L"Unable to remove existing driver"); Result = Result != ERROR_SUCCESS ? Result : GetLastError(); } cleanupDelete: DeleteFileW(CatPath); DeleteFileW(SysPath); DeleteFileW(InfPath); cleanupDirectory: RemoveDirectoryW(RandomTempSubDirectory); return Result; } #ifdef MAYBE_WOW64 static WINTUN_STATUS DeleteAdapterNatively(_In_ const WINTUN_ADAPTER *Adapter, _Inout_ BOOL *RebootRequired) { LOG(WINTUN_LOG_INFO, L"Spawning native process"); WCHAR GuidStr[MAX_GUID_STRING_LEN]; WCHAR Arguments[14 + MAX_GUID_STRING_LEN + 1]; if (_snwprintf_s( Arguments, _countof(Arguments), _TRUNCATE, L"DeleteAdapter %.*s", StringFromGUID2(&Adapter->CfgInstanceID, GuidStr, _countof(GuidStr)), GuidStr) == -1) return LOG(WINTUN_LOG_ERR, L"Command line too long"), ERROR_INVALID_PARAMETER; WCHAR Response[8 + 1 + 8 + 1]; DWORD Result = ExecuteRunDll32(Arguments, Response, _countof(Response)); if (Result != ERROR_SUCCESS) LOG(WINTUN_LOG_ERR, L"Error executing worker process"); int Argc; WCHAR **Argv = CommandLineToArgvW(Response, &Argc); if (Argc < 2) { LOG(WINTUN_LOG_ERR, L"Incomplete or invalid response"); Result = ERROR_INVALID_PARAMETER; goto cleanupArgv; } Result = wcstoul(Argv[0], NULL, 16); if (wcstoul(Argv[1], NULL, 16)) *RebootRequired = TRUE; cleanupArgv: LocalFree(Argv); return Result; } #endif WINTUN_STATUS WINAPI WintunDeleteAdapter(_In_ const WINTUN_ADAPTER *Adapter, _Inout_ BOOL *RebootRequired) { #ifdef MAYBE_WOW64 if (NativeMachine != IMAGE_FILE_PROCESS) return DeleteAdapterNatively(Adapter, RebootRequired); #endif HDEVINFO DevInfo; SP_DEVINFO_DATA DevInfoData; DWORD Result = GetDevInfoData(&Adapter->CfgInstanceID, &DevInfo, &DevInfoData); if (Result == ERROR_FILE_NOT_FOUND) return ERROR_SUCCESS; if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to get device info data"); return Result; } SetQuietInstall(DevInfo, &DevInfoData); SP_REMOVEDEVICE_PARAMS RemoveDeviceParams = { .ClassInstallHeader = { .cbSize = sizeof(SP_CLASSINSTALL_HEADER), .InstallFunction = DIF_REMOVE }, .Scope = DI_REMOVEDEVICE_GLOBAL }; if (SetupDiSetClassInstallParamsW( DevInfo, &DevInfoData, &RemoveDeviceParams.ClassInstallHeader, sizeof(RemoveDeviceParams)) && SetupDiCallClassInstaller(DIF_REMOVE, DevInfo, &DevInfoData)) *RebootRequired = *RebootRequired || CheckReboot(DevInfo, &DevInfoData); else Result = LOG_LAST_ERROR(L"Unable to remove existing adapter"); SetupDiDestroyDeviceInfoList(DevInfo); return Result; } WINTUN_STATUS WINAPI WintunEnumAdapters(_In_z_count_c_(MAX_POOL) const WCHAR *Pool, _In_ WINTUN_ENUM_FUNC Func, _In_ LPARAM Param) { HANDLE Mutex = NamespaceTakeMutex(Pool); if (!Mutex) return ERROR_INVALID_HANDLE; DWORD Result = ERROR_SUCCESS; HDEVINFO DevInfo = SetupDiGetClassDevsExW(&GUID_DEVCLASS_NET, NULL, NULL, DIGCF_PRESENT, NULL, NULL, NULL); if (DevInfo == INVALID_HANDLE_VALUE) { Result = LOG_LAST_ERROR(L"Failed to get present class devices"); goto cleanupMutex; } BOOL Continue = TRUE; for (DWORD EnumIndex = 0; Continue; ++EnumIndex) { SP_DEVINFO_DATA DevInfoData = { .cbSize = sizeof(SP_DEVINFO_DATA) }; if (!SetupDiEnumDeviceInfo(DevInfo, EnumIndex, &DevInfoData)) { if (GetLastError() == ERROR_NO_MORE_ITEMS) break; continue; } BOOL IsOurs; if (IsOurAdapter(DevInfo, &DevInfoData, &IsOurs) != ERROR_SUCCESS || !IsOurs) continue; BOOL IsMember; Result = IsPoolMember(Pool, DevInfo, &DevInfoData, &IsMember); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to determine pool membership"); break; } if (!IsMember) continue; WINTUN_ADAPTER *Adapter; Result = CreateAdapterData(Pool, DevInfo, &DevInfoData, &Adapter); if (Result != ERROR_SUCCESS) { LOG(WINTUN_LOG_ERR, L"Failed to create adapter data"); break; } Continue = Func(Adapter, Param); HeapFree(ModuleHeap, 0, Adapter); } SetupDiDestroyDeviceInfoList(DevInfo); cleanupMutex: NamespaceReleaseMutex(Mutex); return Result; }