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tunsafe-clang15/network_win32_dnsblock.cpp
Ludvig Strigeus cf92ac7a0c Updates for TunSafe 1.4-rc1 
1.Subfolders in the Config/ directory now show up as submenus.
2.Added a way to run TunSafe as a Windows Service.
  Foreground Mode: The service will disconnect when TunSafe closes.
  Background Mode: The service will stay connected in the background.
  No longer required to run the TunSafe client as Admin as long as
  the service is running.
3.New config setting [Interface].ExcludedIPs to configure IPs that
  should not be routed through TunSafe.
4.Can now automatically start TunSafe when Windows starts
5.New UI with tabs and graphs
6.Cache DNS queries to ensure DNS will succeed if connection fails
7.Recreate tray icon when explorer.exe restarts
8.Renamed window title to TunSafe instead of TunSafe VPN Client
9.Main window is now resizable
10.Disallow roaming endpoint when using AllowedIPs=0.0.0.0/0
   Only the original endpoint is added in the routing table so
   this would result in an endless loop of packets.
11.Display approximate Wireguard framing overhead in stats
12.Preparations for protocol handling with multiple threads
13.Delete the routes we made when disconnecting
14.Fix error message about unable to delete a route when connecting
2018-08-12 03:30:06 +02:00

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// SPDX-License-Identifier: AGPL-1.0-only
// Copyright (C) 2018 Ludvig Strigeus <info@tunsafe.com>. All Rights Reserved.
#include "stdafx.h"
#include "tunsafe_types.h"
#include "network_win32_dnsblock.h"
#include <fwpmu.h>
#include <fwpmtypes.h>
#include <string.h>
#pragma comment (lib, "Fwpuclnt.lib")
static const GUID TUNSAFE_DNS_SUBLAYER = {0x1ce6cce2, 0xcc8f, 0x4175, { 0xac, 0x7b, 0x95, 0xfd, 0xe8, 0x95, 0x80, 0x92}};
static const GUID TUNSAFE_GLOBAL_BLOCK_SUBLAYER = {0x1ce6cce2, 0xcc8f, 0x4175,{0xac, 0x7b, 0x95, 0xfd, 0xe8, 0x95, 0x80, 0x93}};
static bool GetFwpmAppIdFromCurrentProcess(FWP_BYTE_BLOB **appid) {
wchar_t module_filename[MAX_PATH];
DWORD err = GetModuleFileNameW(NULL, module_filename, ARRAYSIZE(module_filename));
if (err == 0 || err == ARRAYSIZE(module_filename))
return false;
err = FwpmGetAppIdFromFileName0(module_filename, appid);
if (err != 0)
return false;
return true;
}
static uint8 internet_fw_blocking_state;
static inline bool FwpmFilterAddCheckedAleConnect(HANDLE handle, FWPM_FILTER0 *filter, bool also_ipv6, int idx) {
DWORD err;
UINT64 dummy;
filter->layerKey = FWPM_LAYER_ALE_AUTH_CONNECT_V4;
err = FwpmFilterAdd0(handle, filter, NULL, &dummy);
if (err != 0) {
RERROR("FwpmFilterAdd0 #%d failed (%s): %d", idx, "ipv4", err);
return false;
}
if (also_ipv6) {
filter->layerKey = FWPM_LAYER_ALE_AUTH_CONNECT_V6;
err = FwpmFilterAdd0(handle, filter, NULL, &dummy);
if (err != 0) {
RERROR("FwpmFilterAdd0 #%d failed (%s): %d", idx, "ipv6", err);
return false;
}
}
return true;
}
DnsBlocker::DnsBlocker() {
also_ipv6_ = false;
handle_ = NULL;
}
DnsBlocker::~DnsBlocker() {
RestoreDns();
}
bool DnsBlocker::BlockDnsExceptOnAdapter(const NET_LUID &luid, bool also_ipv6) {
FWPM_SUBLAYER0 *sublayer = NULL;
FWP_BYTE_BLOB *fwp_appid = NULL;
FWPM_FILTER0 filter;
FWPM_FILTER_CONDITION0 filter_condition[2];
DWORD err;
HANDLE handle = NULL;
// Check if it already matches
if (handle_ != NULL) {
if (memcmp(&luid, &luid_, sizeof(luid)) == 0 && also_ipv6_)
return true;
FwpmEngineClose0(handle_);
handle_ = NULL;
}
{
FWPM_SESSION0 session = {0};
session.flags = FWPM_SESSION_FLAG_DYNAMIC;
err = FwpmEngineOpen0(NULL, RPC_C_AUTHN_WINNT, NULL, &session, &handle);
if (err != 0) {
RERROR("FwpmEngineOpen0 failed: %d", err);
goto getout;
}
}
{
FWPM_SUBLAYER0 sublayer = {0};
sublayer.subLayerKey = TUNSAFE_DNS_SUBLAYER;
sublayer.displayData.name = L"TunSafe DNS Block";
sublayer.weight = 0x100;
err = FwpmSubLayerAdd0(handle, &sublayer, NULL);
if (err != 0) {
RERROR("FwpmSubLayerAdd0 failed: %d", err);
goto getout;
}
}
if (!GetFwpmAppIdFromCurrentProcess(&fwp_appid)) {
RERROR("GetFwpmAppIdFromCurrentProcess failed");
goto getout;
}
// Allow all queries to port 53 from our process
memset(&filter, 0, sizeof(filter));
filter_condition[0].fieldKey = FWPM_CONDITION_IP_REMOTE_PORT;
filter_condition[0].matchType = FWP_MATCH_EQUAL;
filter_condition[0].conditionValue.type = FWP_UINT16;
filter_condition[0].conditionValue.uint16 = 53;
filter_condition[1].fieldKey = FWPM_CONDITION_ALE_APP_ID;
filter_condition[1].matchType = FWP_MATCH_EQUAL;
filter_condition[1].conditionValue.type = FWP_BYTE_BLOB_TYPE;
filter_condition[1].conditionValue.byteBlob = fwp_appid;
filter.filterCondition = filter_condition;
filter.numFilterConditions = 2;
filter.subLayerKey = TUNSAFE_DNS_SUBLAYER;
filter.displayData.name = L"TunSafe DNS Block";
filter.weight.type = FWP_UINT8;
filter.weight.uint8 = 15;
filter.action.type = FWP_ACTION_PERMIT;
if (!FwpmFilterAddCheckedAleConnect(handle, &filter, also_ipv6, 1))
goto getout;
// Allow DNS queries from TAP
filter_condition[1].fieldKey = FWPM_CONDITION_IP_LOCAL_INTERFACE;
filter_condition[1].conditionValue.type = FWP_UINT64;
filter_condition[1].conditionValue.uint64 = (uint64*)&luid.Value;
filter.weight.uint8 = 14;
if (!FwpmFilterAddCheckedAleConnect(handle, &filter, also_ipv6, 2))
goto getout;
// Block all IPv4 and IPv6
filter.numFilterConditions = 1;
filter.weight.type = FWP_EMPTY;
filter.action.type = FWP_ACTION_BLOCK;
if (!FwpmFilterAddCheckedAleConnect(handle, &filter, also_ipv6, 3))
goto getout;
goto success;
getout:
if (handle != NULL) {
FwpmEngineClose0(handle);
handle = NULL;
}
success:
if (fwp_appid)
FwpmFreeMemory0((void **)&fwp_appid);
handle_ = handle;
also_ipv6_ = also_ipv6;
luid_ = luid;
return handle != NULL;
}
void DnsBlocker::RestoreDns() {
HANDLE h = handle_;
if (h) {
handle_ = NULL;
FwpmEngineClose0(h);
}
}
static bool RemovePersistentInternetBlockingInner(HANDLE handle) {
FWPM_FILTER_ENUM_TEMPLATE0 enum_template = {0};
HANDLE enum_handle = NULL;
DWORD err;
UINT32 num_returned;
FWPM_FILTER0 **filter = NULL;
for (int iptype = 0; iptype < 2; iptype++) {
enum_template.layerKey = iptype == 0 ? FWPM_LAYER_ALE_AUTH_CONNECT_V4 : FWPM_LAYER_ALE_AUTH_CONNECT_V6;
enum_template.actionMask = 0xffffffff;
err = FwpmFilterCreateEnumHandle0(handle, &enum_template, &enum_handle);
if (err != 0) {
RERROR("FwpmFilterCreateEnumHandle0 failed: %d", err);
goto getout;
}
do {
err = FwpmFilterEnum0(handle, enum_handle, 256, &filter, &num_returned);
if (err != 0) {
RERROR("FwpmFilterEnum0 failed: %d", err);
goto getout;
}
for (UINT32 i = 0; i < num_returned; i++) {
FWPM_FILTER0 *cur_filter = filter[i];
if (memcmp(&cur_filter->subLayerKey, &TUNSAFE_GLOBAL_BLOCK_SUBLAYER, sizeof(GUID)) == 0) {
err = FwpmFilterDeleteById0(handle, cur_filter->filterId);
if (err != 0)
RERROR("FwpmFilterDeleteById0 failed: %d", err);
}
}
FwpmFreeMemory0((void**)&filter);
} while (num_returned == 256);
FwpmFilterDestroyEnumHandle0(handle, enum_handle);
enum_handle = NULL;
}
err = FwpmSubLayerDeleteByKey0(handle, &TUNSAFE_GLOBAL_BLOCK_SUBLAYER);
if (err != 0 && err != FWP_E_SUBLAYER_NOT_FOUND) {
RERROR("FwpmSubLayerDeleteByKey0 failed: %d", err);
goto getout;
}
internet_fw_blocking_state = IBS_INACTIVE;
getout:
if (enum_handle != NULL) {
FwpmFilterDestroyEnumHandle0(handle, enum_handle);
}
return false;
}
bool AddPersistentInternetBlocking(const NET_LUID *default_interface, const NET_LUID &luid_to_allow, bool also_ipv6) {
FWPM_SUBLAYER0 *sublayer_p = NULL;
FWP_BYTE_BLOB *fwp_appid = NULL;
FWPM_FILTER0 filter;
FWPM_FILTER_CONDITION0 filter_condition[3];
DWORD err;
HANDLE handle = NULL;
bool success = false;
{
FWPM_SESSION0 session = {0};
err = FwpmEngineOpen0(NULL, RPC_C_AUTHN_WINNT, NULL, &session, &handle);
if (err != 0) {
RERROR("FwpmEngineOpen0 failed: %d", err);
goto getout;
}
}
if (FwpmSubLayerGetByKey0(handle, &TUNSAFE_GLOBAL_BLOCK_SUBLAYER, &sublayer_p) == 0) {
// The sublayer already exists
FwpmFreeMemory0((void **)&sublayer_p);
} else {
// Add new sublayer
FWPM_SUBLAYER0 sublayer = {0};
sublayer.subLayerKey = TUNSAFE_GLOBAL_BLOCK_SUBLAYER;
sublayer.displayData.name = L"TunSafe Global Block";
sublayer.weight = 0x101;
err = FwpmSubLayerAdd0(handle, &sublayer, NULL);
if (err != 0) {
RERROR("FwpmSubLayerAdd0 failed: %d", err);
goto getout;
}
}
if (!GetFwpmAppIdFromCurrentProcess(&fwp_appid)) {
RERROR("GetFwpmAppIdFromCurrentProcess failed");
goto getout;
}
// Allow all outgoing queries from our process
memset(&filter, 0, sizeof(filter));
filter_condition[0].fieldKey = FWPM_CONDITION_ALE_APP_ID;
filter_condition[0].matchType = FWP_MATCH_EQUAL;
filter_condition[0].conditionValue.type = FWP_BYTE_BLOB_TYPE;
filter_condition[0].conditionValue.byteBlob = fwp_appid;
filter.numFilterConditions = 1;
filter.filterCondition = filter_condition;
filter.subLayerKey = TUNSAFE_GLOBAL_BLOCK_SUBLAYER;
filter.displayData.name = L"TunSafe Global Block";
filter.weight.type = FWP_UINT8;
filter.weight.uint8 = 15;
filter.action.type = FWP_ACTION_PERMIT;
if (!FwpmFilterAddCheckedAleConnect(handle, &filter, also_ipv6, 1))
goto getout;
// Permit all queries going out on TUN
filter_condition[0].fieldKey = FWPM_CONDITION_IP_LOCAL_INTERFACE;
filter_condition[0].conditionValue.type = FWP_UINT64;
filter_condition[0].conditionValue.uint64 = (uint64*)&luid_to_allow.Value;
filter_condition[0].matchType = FWP_MATCH_EQUAL;
filter.weight.uint8 = 14;
if (!FwpmFilterAddCheckedAleConnect(handle, &filter, also_ipv6, 2))
goto getout;
// Permit everything that's loopback
filter_condition[0].fieldKey = FWPM_CONDITION_INTERFACE_TYPE;
filter_condition[0].conditionValue.type = FWP_UINT32;
filter_condition[0].conditionValue.uint32 = 24;
filter_condition[0].matchType = FWP_MATCH_EQUAL;
filter.weight.uint8 = 13;
if (!FwpmFilterAddCheckedAleConnect(handle, &filter, also_ipv6, 2))
goto getout;
// Permit all queries on the DHCP port (It uses 68 on the local side and 67 on the remote side)
if (default_interface) {
filter_condition[2].fieldKey = FWPM_CONDITION_IP_LOCAL_PORT;
filter_condition[2].matchType = FWP_MATCH_EQUAL;
filter_condition[2].conditionValue.type = FWP_UINT16;
filter_condition[2].conditionValue.uint16 = 68;
filter_condition[1].fieldKey = FWPM_CONDITION_IP_REMOTE_PORT;
filter_condition[1].matchType = FWP_MATCH_EQUAL;
filter_condition[1].conditionValue.type = FWP_UINT16;
filter_condition[1].conditionValue.uint16 = 67;
filter.numFilterConditions = 3;
filter_condition[0].fieldKey = FWPM_CONDITION_IP_LOCAL_INTERFACE;
filter_condition[0].conditionValue.type = FWP_UINT64;
filter_condition[0].conditionValue.uint64 = (uint64*)&default_interface->Value;
filter_condition[0].matchType = FWP_MATCH_EQUAL;
filter.weight.uint8 = 12;
if (!FwpmFilterAddCheckedAleConnect(handle, &filter, also_ipv6, 2))
goto getout;
}
// Block the rest
filter.numFilterConditions = 0;
filter.weight.type = FWP_EMPTY;
filter.action.type = FWP_ACTION_BLOCK;
if (!FwpmFilterAddCheckedAleConnect(handle, &filter, also_ipv6, 3))
goto getout;
success = true;
internet_fw_blocking_state = IBS_ACTIVE;
getout:
if (handle != NULL) {
// delete the layer on failure
if (!success)
RemovePersistentInternetBlockingInner(handle);
FwpmEngineClose0(handle);
handle = NULL;
}
if (fwp_appid)
FwpmFreeMemory0((void **)&fwp_appid);
return success;
}
static bool RemovePersistentInternetBlocking() {
DWORD err;
HANDLE handle = NULL;
FWPM_SUBLAYER0 *sublayer_p = NULL;
{
FWPM_SESSION0 session = {0};
err = FwpmEngineOpen0(NULL, RPC_C_AUTHN_WINNT, NULL, &session, &handle);
if (err != 0) {
RERROR("FwpmEngineOpen0 failed: %d", err);
goto getout;
}
}
if (FwpmSubLayerGetByKey0(handle, &TUNSAFE_GLOBAL_BLOCK_SUBLAYER, &sublayer_p) == 0) {
// The sublayer exists
FwpmFreeMemory0((void **)&sublayer_p);
} else {
// Sublayer does not exist
internet_fw_blocking_state = IBS_INACTIVE;
goto getout;
}
RemovePersistentInternetBlockingInner(handle);
getout:
if (handle != NULL) {
FwpmEngineClose0(handle);
handle = NULL;
}
return false;
}
void ClearInternetFwBlockingStateCache() {
internet_fw_blocking_state = 0;
}
uint8 GetInternetFwBlockingState() {
if (internet_fw_blocking_state != 0)
return internet_fw_blocking_state;
DWORD err;
HANDLE handle = NULL;
FWPM_SUBLAYER0 *sublayer_p = NULL;
bool result;
{
FWPM_SESSION0 session = {0};
err = FwpmEngineOpen0(NULL, RPC_C_AUTHN_WINNT, NULL, &session, &handle);
if (err != 0) {
RERROR("FwpmEngineOpen0 failed: %d", err);
goto getout;
}
}
if (FwpmSubLayerGetByKey0(handle, &TUNSAFE_GLOBAL_BLOCK_SUBLAYER, &sublayer_p) == 0) {
// The sublayer already exists
FwpmFreeMemory0((void **)&sublayer_p);
result = true;
} else {
result = false;
}
getout:
if (handle != NULL) {
FwpmEngineClose0(handle);
handle = NULL;
}
return internet_fw_blocking_state = result + IBS_INACTIVE;
}
void SetInternetFwBlockingState(bool want) {
uint8 old_state = GetInternetFwBlockingState();
if ((old_state >= IBS_ACTIVE) != want) {
if (!want) {
RemovePersistentInternetBlocking();
} else {
internet_fw_blocking_state = IBS_PENDING;
}
}
}
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