int __cdecl wmain(int argc, const wchar_t* const argv[]) { DWORD result = ERROR_SUCCESS; UINT32 mins = 0; UINT32 num = 0; ADDRESS_FAMILY version; SOCKADDR_STORAGE remoteAddr = {0}; FWPM_NET_EVENT0** matchedEvents; BOOL stop = FALSE; WSADATA wsaData; //----------------------------------------- // Initialize Winsock if (WSAStartup(MAKEWORD(2,2), &wsaData)) { wprintf(L"Winsock library initialization failed\n"); result = E_UNEXPECTED; CHECK_RESULT(result); } //----------------------------------------- // Parse and Validate the command line arguments result = ParseArguments( argc, argv, &mins, &version, &remoteAddr, &stop ); CHECK_RESULT(result); if (stop) { goto cleanup; } //----------------------------------------- // Get events matching the arguments result = GetMatchingEvents( mins, version, &remoteAddr, &matchedEvents, &num); CHECK_RESULT(result); if (num == 0) { wprintf(L"No events matching criterion\n"); goto cleanup; } if (matchedEvents == NULL) { wprintf(L"Number of events is not zero. But event pointer NULL\n"); result = ERROR_INVALID_DATA; goto cleanup; } //----------------------------------------- // Print event details of all events matching criterion PrintEvents(matchedEvents, num); //----------------------------------------- // Free memory allocated by engine for enumerated events FwpmFreeMemory0((VOID**)&matchedEvents); cleanup: WSACleanup(); return result; }
DWORD add_block_dns_filters(HANDLE *engine_handle, int index, const WCHAR *exe_path, block_dns_msg_handler_t msg_handler ) { FWPM_SESSION0 session = {0}; FWPM_SUBLAYER0 *sublayer_ptr = NULL; NET_LUID tapluid; UINT64 filterid; FWP_BYTE_BLOB *openvpnblob = NULL; FWPM_FILTER0 Filter = {0}; FWPM_FILTER_CONDITION0 Condition[2] = {0}; DWORD err = 0; if (!msg_handler) { msg_handler = default_msg_handler; } /* Add temporary filters which don't survive reboots or crashes. */ session.flags = FWPM_SESSION_FLAG_DYNAMIC; *engine_handle = NULL; err = FwpmEngineOpen0(NULL, RPC_C_AUTHN_WINNT, NULL, &session, engine_handle); CHECK_ERROR(err, "FwpEngineOpen: open fwp session failed"); msg_handler(0, "Block_DNS: WFP engine opened"); /* Check sublayer exists and add one if it does not. */ if (FwpmSubLayerGetByKey0(*engine_handle, &OPENVPN_BLOCK_OUTSIDE_DNS_SUBLAYER, &sublayer_ptr) == ERROR_SUCCESS) { msg_handler(0, "Block_DNS: Using existing sublayer"); FwpmFreeMemory0((void **)&sublayer_ptr); } else { /* Add a new sublayer -- as another process may add it in the meantime, * do not treat "already exists" as an error */ err = add_sublayer(OPENVPN_BLOCK_OUTSIDE_DNS_SUBLAYER); if (err == FWP_E_ALREADY_EXISTS || err == ERROR_SUCCESS) { msg_handler(0, "Block_DNS: Added a persistent sublayer with pre-defined UUID"); } else { CHECK_ERROR(err, "add_sublayer: failed to add persistent sublayer"); } } err = ConvertInterfaceIndexToLuid(index, &tapluid); CHECK_ERROR(err, "Convert interface index to luid failed"); err = FwpmGetAppIdFromFileName0(exe_path, &openvpnblob); CHECK_ERROR(err, "Get byte blob for openvpn executable name failed"); /* Prepare filter. */ Filter.subLayerKey = OPENVPN_BLOCK_OUTSIDE_DNS_SUBLAYER; Filter.displayData.name = FIREWALL_NAME; Filter.weight.type = FWP_UINT8; Filter.weight.uint8 = 0xF; Filter.filterCondition = Condition; Filter.numFilterConditions = 2; /* First filter. Permit IPv4 DNS queries from OpenVPN itself. */ Filter.layerKey = FWPM_LAYER_ALE_AUTH_CONNECT_V4; Filter.action.type = FWP_ACTION_PERMIT; Condition[0].fieldKey = FWPM_CONDITION_IP_REMOTE_PORT; Condition[0].matchType = FWP_MATCH_EQUAL; Condition[0].conditionValue.type = FWP_UINT16; Condition[0].conditionValue.uint16 = 53; Condition[1].fieldKey = FWPM_CONDITION_ALE_APP_ID; Condition[1].matchType = FWP_MATCH_EQUAL; Condition[1].conditionValue.type = FWP_BYTE_BLOB_TYPE; Condition[1].conditionValue.byteBlob = openvpnblob; err = FwpmFilterAdd0(*engine_handle, &Filter, NULL, &filterid); CHECK_ERROR(err, "Add filter to permit IPv4 port 53 traffic from OpenVPN failed"); /* Second filter. Permit IPv6 DNS queries from OpenVPN itself. */ Filter.layerKey = FWPM_LAYER_ALE_AUTH_CONNECT_V6; err = FwpmFilterAdd0(*engine_handle, &Filter, NULL, &filterid); CHECK_ERROR(err, "Add filter to permit IPv6 port 53 traffic from OpenVPN failed"); msg_handler(0, "Block_DNS: Added permit filters for exe_path"); /* Third filter. Block all IPv4 DNS queries. */ Filter.layerKey = FWPM_LAYER_ALE_AUTH_CONNECT_V4; Filter.action.type = FWP_ACTION_BLOCK; Filter.weight.type = FWP_EMPTY; Filter.numFilterConditions = 1; err = FwpmFilterAdd0(*engine_handle, &Filter, NULL, &filterid); CHECK_ERROR(err, "Add filter to block IPv4 DNS traffic failed"); /* Forth filter. Block all IPv6 DNS queries. */ Filter.layerKey = FWPM_LAYER_ALE_AUTH_CONNECT_V6; err = FwpmFilterAdd0(*engine_handle, &Filter, NULL, &filterid); CHECK_ERROR(err, "Add filter to block IPv6 DNS traffic failed"); msg_handler(0, "Block_DNS: Added block filters for all interfaces"); /* Fifth filter. Permit IPv4 DNS queries from TAP. * Use a non-zero weight so that the permit filters get higher priority * over the block filter added with automatic weighting */ Filter.weight.type = FWP_UINT8; Filter.weight.uint8 = 0xE; Filter.layerKey = FWPM_LAYER_ALE_AUTH_CONNECT_V4; Filter.action.type = FWP_ACTION_PERMIT; Filter.numFilterConditions = 2; Condition[1].fieldKey = FWPM_CONDITION_IP_LOCAL_INTERFACE; Condition[1].matchType = FWP_MATCH_EQUAL; Condition[1].conditionValue.type = FWP_UINT64; Condition[1].conditionValue.uint64 = &tapluid.Value; err = FwpmFilterAdd0(*engine_handle, &Filter, NULL, &filterid); CHECK_ERROR(err, "Add filter to permit IPv4 DNS traffic through TAP failed"); /* Sixth filter. Permit IPv6 DNS queries from TAP. * Use same weight as IPv4 filter */ Filter.layerKey = FWPM_LAYER_ALE_AUTH_CONNECT_V6; err = FwpmFilterAdd0(*engine_handle, &Filter, NULL, &filterid); CHECK_ERROR(err, "Add filter to permit IPv6 DNS traffic through TAP failed"); msg_handler(0, "Block_DNS: Added permit filters for TAP interface"); out: if (openvpnblob) { FwpmFreeMemory0((void **)&openvpnblob); } if (err && *engine_handle) { FwpmEngineClose0(*engine_handle); *engine_handle = NULL; } return err; }