tunsafe-clang15/network_win32.h
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

297 lines
7.3 KiB
C++

// SPDX-License-Identifier: AGPL-1.0-only
// Copyright (C) 2018 Ludvig Strigeus <info@tunsafe.com>. All Rights Reserved.
#pragma once
#include "stdafx.h"
#include "tunsafe_types.h"
#include "netapi.h"
#include "network_win32_api.h"
#include "network_win32_dnsblock.h"
#include "wireguard_config.h"
#include "tunsafe_threading.h"
#include <functional>
struct Packet;
class WireguardProcessor;
class TunsafeBackendWin32;
class ThreadedPacketQueue {
public:
explicit ThreadedPacketQueue(WireguardProcessor *wg, TunsafeBackendWin32 *backend);
~ThreadedPacketQueue();
enum {
TARGET_PROCESSOR_UDP = 0,
TARGET_PROCESSOR_TUN = 1,
TARGET_UDP_DEVICE = 2,
TARGET_TUN_DEVICE = 3,
};
void Start();
void Stop();
void Post(Packet *packet, Packet **end, int count);
void AbortingDriver();
private:
void PostTimerInterrupt();
static void CALLBACK TimerRoutine(LPVOID lpArgToCompletionRoutine, DWORD dwTimerLowValue, DWORD dwTimerHighValue);
DWORD ThreadMain();
static DWORD WINAPI ThreadedPacketQueueLauncher(VOID *x);
Packet *first_;
Packet **last_ptr_;
uint32 packets_in_queue_;
uint32 need_notify_;
Mutex mutex_;
HANDLE event_;
HANDLE timer_handle_;
HANDLE handle_;
WireguardProcessor *wg_;
bool exit_flag_;
bool timer_interrupt_;
TunsafeBackendWin32 *backend_;
};
// Encapsulates a UDP socket, optionally listening for incoming packets
// on a specific port.
class UdpSocketWin32 : public UdpInterface {
public:
explicit UdpSocketWin32();
~UdpSocketWin32();
void SetPacketHandler(ThreadedPacketQueue *packet_handler) { packet_handler_ = packet_handler; }
void StartThread();
void StopThread();
// -- from UdpInterface
virtual bool Initialize(int listen_on_port) override;
virtual void WriteUdpPacket(Packet *packet) override;
private:
void ThreadMain();
static DWORD WINAPI UdpThread(void *x);
// All packets queued for writing. Locked by |mutex_|
Packet *wqueue_, **wqueue_end_;
Mutex mutex_;
ThreadedPacketQueue *packet_handler_;
SOCKET socket_;
SOCKET socket_ipv6_;
HANDLE completion_port_handle_;
HANDLE thread_;
bool exit_thread_;
};
class DnsBlocker;
class TunWin32Adapter {
public:
TunWin32Adapter(DnsBlocker *dns_blocker);
~TunWin32Adapter();
bool OpenAdapter(unsigned int *exit_thread, DWORD open_flags);
bool InitAdapter(const TunInterface::TunConfig &&config, TunInterface::TunConfigOut *out);
void CloseAdapter();
HANDLE handle() { return handle_; }
void DisassociateDnsBlocker() { dns_blocker_ = NULL; }
private:
bool RunPrePostCommand(const std::vector<std::string> &vec);
HANDLE handle_;
DnsBlocker *dns_blocker_;
std::vector<MIB_IPFORWARD_ROW2> routes_to_undo_;
uint8 mac_adress_[6];
int mtu_;
char guid_[64];
std::vector<std::string> pre_down_, post_down_;
};
// Implementation of TUN interface handling using IO Completion Ports
class TunWin32Iocp : public TunInterface {
public:
explicit TunWin32Iocp(DnsBlocker *blocker, TunsafeBackendWin32 *backend);
~TunWin32Iocp();
void SetPacketHandler(ThreadedPacketQueue *packet_handler) { packet_handler_ = packet_handler; }
void StartThread();
void StopThread();
// -- from TunInterface
virtual bool Initialize(const TunConfig &&config, TunConfigOut *out) override;
virtual void WriteTunPacket(Packet *packet) override;
TunWin32Adapter &adapter() { return adapter_; }
private:
void CloseTun();
void ThreadMain();
static DWORD WINAPI TunThread(void *x);
ThreadedPacketQueue *packet_handler_;
HANDLE completion_port_handle_;
HANDLE thread_;
Mutex mutex_;
bool exit_thread_;
// All packets queued for writing
Packet *wqueue_, **wqueue_end_;
TunsafeBackendWin32 *backend_;
TunWin32Adapter adapter_;
};
// Implementation of TUN interface handling using Overlapped IO
class TunWin32Overlapped : public TunInterface {
public:
explicit TunWin32Overlapped(DnsBlocker *blocker, TunsafeBackendWin32 *backend);
~TunWin32Overlapped();
void SetPacketHandler(ThreadedPacketQueue *packet_handler) { packet_handler_ = packet_handler; }
void StartThread();
void StopThread();
// -- from TunInterface
virtual bool Initialize(const TunConfig &&config, TunConfigOut *out) override;
virtual void WriteTunPacket(Packet *packet) override;
private:
void CloseTun();
void ThreadMain();
static DWORD WINAPI TunThread(void *x);
ThreadedPacketQueue *packet_handler_;
HANDLE thread_;
Mutex mutex_;
HANDLE read_event_, write_event_, wake_event_;
bool exit_thread_;
Packet *wqueue_, **wqueue_end_;
TunWin32Adapter adapter_;
TunsafeBackendWin32 *backend_;
};
class TunsafeBackendWin32 : public TunsafeBackend, public ProcessorDelegate {
friend class ThreadedPacketQueue;
friend class TunWin32Iocp;
friend class TunWin32Overlapped;
public:
TunsafeBackendWin32(Delegate *delegate);
~TunsafeBackendWin32();
// -- from TunsafeBackend
virtual bool Initialize() override;
virtual void Teardown() override;
virtual void Start(const char *config_file) override;
virtual void Stop() override;
virtual void RequestStats(bool enable) override;
virtual void ResetStats() override;
virtual InternetBlockState GetInternetBlockState(bool *is_activated) override;
virtual void SetInternetBlockState(InternetBlockState s) override;
virtual void SetServiceStartupFlags(uint32 flags) override;
virtual LinearizedGraph *GetGraph(int type) override;
virtual std::string GetConfigFileName() override;
// -- from ProcessorDelegate
virtual void OnConnected() override;
virtual void OnConnectionRetry(uint32 attempts) override;
void SetPublicKey(const uint8 key[32]);
void TunAdapterFailed();
private:
void StopInner(bool is_restart);
static DWORD WINAPI WorkerThread(void *x);
void PushStats();
HANDLE worker_thread_;
enum {
MODE_NONE = 0,
MODE_EXIT = 1,
MODE_RESTART = 2,
MODE_TUN_FAILED = 3,
};
bool want_periodic_stats_;
unsigned int stop_mode_;
Delegate *delegate_;
char *config_file_;
DnsBlocker dns_blocker_;
DnsResolver dns_resolver_;
WireguardProcessor *wg_processor_;
uint32 last_tun_adapter_failed_;
StatsCollector stats_collector_;
Mutex stats_mutex_;
WgProcessorStats stats_;
};
// This class ensures that all callbacks get rescheduled to another thread
class TunsafeBackendDelegateThreaded : public TunsafeBackend::Delegate {
public:
TunsafeBackendDelegateThreaded(TunsafeBackend::Delegate *delegate, const std::function<void(void)> &callback);
~TunsafeBackendDelegateThreaded();
private:
virtual void OnGetStats(const WgProcessorStats &stats);
virtual void OnGraphAvailable();
virtual void OnStateChanged();
virtual void OnClearLog();
virtual void OnLogLine(const char **s);
virtual void OnStatusCode(TunsafeBackend::StatusCode status);
virtual void DoWork();
enum Which {
Id_OnGetStats,
Id_OnStateChanged,
Id_OnClearLog,
Id_OnLogLine,
Id_OnUpdateUI,
Id_OnStatusCode,
Id_OnGraphAvailable,
};
void AddEntry(Which which, intptr_t lparam = 0, uint32 wparam = 0);
TunsafeBackend::Delegate *delegate_;
std::function<void(void)> callback_;
struct Entry {
uint8 which;
uint32 wparam;
intptr_t lparam;
Entry(uint8 which, uint32 wparam, intptr_t lparam) : which(which), wparam(wparam), lparam(lparam) {}
};
static void FreeEntry(Entry *e);
Mutex mutex_;
std::vector<Entry> incoming_entry_;
std::vector<Entry> processing_entry_;
};