i2pd/libi2pd_client/ClientContext.cpp

/*
* Copyright (c) 2013-2022, The PurpleI2P Project
*
* This file is part of Purple i2pd project and licensed under BSD3
*
* See full license text in LICENSE file at top of project tree
*/

#include <fstream>
#include <iostream>
#include <boost/property_tree/ptree.hpp>
#include <boost/property_tree/ini_parser.hpp>
#include "Config.h"
#include "FS.h"
#include "Log.h"
#include "Identity.h"
#include "util.h"
#include "ClientContext.h"
#include "SOCKS.h"
#include "MatchedDestination.h"

namespace i2p
{
namespace client
{
	ClientContext context;

	ClientContext::ClientContext (): m_SharedLocalDestination (nullptr),
		m_HttpProxy (nullptr), m_SocksProxy (nullptr), m_SamBridge (nullptr),
		m_BOBCommandChannel (nullptr), m_I2CPServer (nullptr)
	{
	}

	ClientContext::~ClientContext ()
	{
		delete m_HttpProxy;
		delete m_SocksProxy;
		delete m_SamBridge;
		delete m_BOBCommandChannel;
		delete m_I2CPServer;
	}

	void ClientContext::Start ()
	{
		// shared local destination
		if (!m_SharedLocalDestination)
			CreateNewSharedLocalDestination ();

		// addressbook
		m_AddressBook.Start ();

		// HTTP proxy
		ReadHttpProxy ();

		// SOCKS proxy
		ReadSocksProxy ();

		// I2P tunnels
		ReadTunnels ();

		// SAM
		bool sam; i2p::config::GetOption("sam.enabled", sam);
		if (sam)
		{
			std::string samAddr; i2p::config::GetOption("sam.address", samAddr);
			uint16_t samPortTCP; i2p::config::GetOption("sam.port", samPortTCP);
			uint16_t samPortUDP; i2p::config::GetOption("sam.portudp", samPortUDP);
			bool singleThread; i2p::config::GetOption("sam.singlethread", singleThread);
			LogPrint(eLogInfo, "Clients: Starting SAM bridge at ", samAddr, ":[", samPortTCP, "|", samPortUDP, "]");
			try
			{
				m_SamBridge = new SAMBridge (samAddr, samPortTCP, samPortUDP, singleThread);
				m_SamBridge->Start ();
			}
			catch (std::exception& e)
			{
				LogPrint(eLogCritical, "Clients: Exception in SAM bridge: ", e.what());
				ThrowFatal ("Unable to start SAM bridge at ", samAddr, ":[", samPortTCP, "|", samPortUDP,"]: ", e.what ());
			}
		}

		// BOB
		bool bob; i2p::config::GetOption("bob.enabled", bob);
		if (bob) {
			std::string bobAddr; i2p::config::GetOption("bob.address", bobAddr);
			uint16_t    bobPort; i2p::config::GetOption("bob.port",    bobPort);
			LogPrint(eLogInfo, "Clients: Starting BOB command channel at ", bobAddr, ":", bobPort);
			try
			{
				m_BOBCommandChannel = new BOBCommandChannel (bobAddr, bobPort);
				m_BOBCommandChannel->Start ();
			}
			catch (std::exception& e)
			{
				LogPrint(eLogCritical, "Clients: Exception in BOB bridge: ", e.what());
				ThrowFatal ("Unable to start BOB bridge at ", bobAddr, ":", bobPort, ": ", e.what ());
			}
		}

		// I2CP
		bool i2cp; i2p::config::GetOption("i2cp.enabled", i2cp);
		if (i2cp)
		{
			std::string i2cpAddr; i2p::config::GetOption("i2cp.address", i2cpAddr);
			uint16_t i2cpPort; i2p::config::GetOption("i2cp.port", i2cpPort);
			bool singleThread; i2p::config::GetOption("i2cp.singlethread", singleThread);
			LogPrint(eLogInfo, "Clients: Starting I2CP at ", i2cpAddr, ":", i2cpPort);
			try
			{
				m_I2CPServer = new I2CPServer (i2cpAddr, i2cpPort, singleThread);
				m_I2CPServer->Start ();
			}
			catch (std::exception& e)
			{
				LogPrint(eLogCritical, "Clients: Exception in I2CP: ", e.what());
				ThrowFatal ("Unable to start I2CP at ", i2cpAddr, ":", i2cpPort, ": ", e.what ());
			}
		}

		m_AddressBook.StartResolvers ();

		// start UDP cleanup
		if (!m_ServerForwards.empty ())
		{
			m_CleanupUDPTimer.reset (new boost::asio::deadline_timer(m_SharedLocalDestination->GetService ()));
			ScheduleCleanupUDP();
		}
	}

	void ClientContext::Stop ()
	{
		if (m_HttpProxy)
		{
			LogPrint(eLogInfo, "Clients: Stopping HTTP Proxy");
			m_HttpProxy->Stop();
			delete m_HttpProxy;
			m_HttpProxy = nullptr;
		}

		if (m_SocksProxy)
		{
			LogPrint(eLogInfo, "Clients: Stopping SOCKS Proxy");
			m_SocksProxy->Stop();
			delete m_SocksProxy;
			m_SocksProxy = nullptr;
		}

		for (auto& it: m_ClientTunnels)
		{
			LogPrint(eLogInfo, "Clients: Stopping I2P client tunnel on port ", it.first);
			it.second->Stop ();
		}
		m_ClientTunnels.clear ();

		for (auto& it: m_ServerTunnels)
		{
			LogPrint(eLogInfo, "Clients: Stopping I2P server tunnel");
			it.second->Stop ();
		}
		m_ServerTunnels.clear ();

		if (m_SamBridge)
		{
			LogPrint(eLogInfo, "Clients: Stopping SAM bridge");
			m_SamBridge->Stop ();
			delete m_SamBridge;
			m_SamBridge = nullptr;
		}

		if (m_BOBCommandChannel)
		{
			LogPrint(eLogInfo, "Clients: Stopping BOB command channel");
			m_BOBCommandChannel->Stop ();
			delete m_BOBCommandChannel;
			m_BOBCommandChannel = nullptr;
		}

		if (m_I2CPServer)
		{
			LogPrint(eLogInfo, "Clients: Stopping I2CP");
			m_I2CPServer->Stop ();
			delete m_I2CPServer;
			m_I2CPServer = nullptr;
		}

		LogPrint(eLogInfo, "Clients: Stopping AddressBook");
		m_AddressBook.Stop ();

		{
			std::lock_guard<std::mutex> lock(m_ForwardsMutex);
			m_ServerForwards.clear();
			m_ClientForwards.clear();
		}

		if (m_CleanupUDPTimer)
		{
			m_CleanupUDPTimer->cancel ();
			m_CleanupUDPTimer = nullptr;
		}

		for (auto& it: m_Destinations)
			it.second->Stop ();
		m_Destinations.clear ();

		m_SharedLocalDestination->Release ();
		m_SharedLocalDestination = nullptr;
	}

	void ClientContext::ReloadConfig ()
	{
		// TODO: handle config changes
		/*std::string config; i2p::config::GetOption("conf", config);
		i2p::config::ParseConfig(config);*/

		// change shared local destination
		m_SharedLocalDestination->Release ();
		CreateNewSharedLocalDestination ();

		// recreate HTTP proxy
		if (m_HttpProxy)
		{
			m_HttpProxy->Stop ();
			delete m_HttpProxy;
			m_HttpProxy = nullptr;
		}
		ReadHttpProxy ();

		// recreate SOCKS proxy
		if (m_SocksProxy)
		{
			m_SocksProxy->Stop ();
			delete m_SocksProxy;
			m_SocksProxy = nullptr;
		}
		ReadSocksProxy ();

		// handle tunnels
		// reset isUpdated for each tunnel
		VisitTunnels (false);
		// reload tunnels
		ReadTunnels();
		// delete not updated tunnels (not in config anymore)
		VisitTunnels (true);

		// delete unused destinations
		std::unique_lock<std::mutex> l(m_DestinationsMutex);
		for (auto it = m_Destinations.begin (); it != m_Destinations.end ();)
		{
			auto dest = it->second;
			if (dest->GetRefCounter () > 0) ++it; // skip
			else
			{
				dest->Stop ();
				it = m_Destinations.erase (it);
			}
		}
	}

	bool ClientContext::LoadPrivateKeys (i2p::data::PrivateKeys& keys, const std::string& filename,
		i2p::data::SigningKeyType sigType, i2p::data::CryptoKeyType cryptoType)
	{
		static const std::string transient("transient");
		if (!filename.compare (0, transient.length (), transient)) // starts with transient
		{
			keys = i2p::data::PrivateKeys::CreateRandomKeys (sigType, cryptoType, true);
			LogPrint (eLogInfo, "Clients: New transient keys address ", m_AddressBook.ToAddress(keys.GetPublic ()->GetIdentHash ()), " created");
			return true;
		}

		bool success = true;
		std::string fullPath = i2p::fs::DataDirPath (filename);
		std::ifstream s(fullPath, std::ifstream::binary);
		if (s.is_open ())
		{
			s.seekg (0, std::ios::end);
			size_t len = s.tellg();
			s.seekg (0, std::ios::beg);
			uint8_t * buf = new uint8_t[len];
			s.read ((char *)buf, len);
			if(!keys.FromBuffer (buf, len))
			{
				LogPrint (eLogCritical, "Clients: Failed to load keyfile ", filename);
				success = false;
			}
			else
				LogPrint (eLogInfo, "Clients: Local address ", m_AddressBook.ToAddress(keys.GetPublic ()->GetIdentHash ()), " loaded");
			delete[] buf;
		}
		else
		{
			LogPrint (eLogCritical, "Clients: Can't open file ", fullPath, " Creating new one with signature type ", sigType, " crypto type ", cryptoType);
			keys = i2p::data::PrivateKeys::CreateRandomKeys (sigType, cryptoType, true);
			std::ofstream f (fullPath, std::ofstream::binary | std::ofstream::out);
			size_t len = keys.GetFullLen ();
			uint8_t * buf = new uint8_t[len];
			len = keys.ToBuffer (buf, len);
			f.write ((char *)buf, len);
			delete[] buf;

			LogPrint (eLogInfo, "Clients: New private keys file ", fullPath, " for ", m_AddressBook.ToAddress(keys.GetPublic ()->GetIdentHash ()), " created");
		}
		return success;
	}

	std::vector<std::shared_ptr<DatagramSessionInfo> > ClientContext::GetForwardInfosFor(const i2p::data::IdentHash & destination)
	{
		std::vector<std::shared_ptr<DatagramSessionInfo> > infos;
		std::lock_guard<std::mutex> lock(m_ForwardsMutex);
		for(const auto & c : m_ClientForwards)
		{
			if (c.second->IsLocalDestination(destination))
			{
				for (auto & i : c.second->GetSessions()) infos.push_back(i);
				break;
			}
		}
		for(const auto & s : m_ServerForwards)
		{
			if(std::get<0>(s.first) == destination)
			{
				for( auto & i : s.second->GetSessions()) infos.push_back(i);
				break;
			}
		}
		return infos;
	}

	std::shared_ptr<ClientDestination> ClientContext::CreateNewLocalDestination (bool isPublic,
		i2p::data::SigningKeyType sigType, i2p::data::CryptoKeyType cryptoType,
		const std::map<std::string, std::string> * params)
	{
		i2p::data::PrivateKeys keys = i2p::data::PrivateKeys::CreateRandomKeys (sigType, cryptoType, true);
		auto localDestination = std::make_shared<RunnableClientDestination> (keys, isPublic, params);
		AddLocalDestination (localDestination);
		return localDestination;
	}

	std::shared_ptr<ClientDestination> ClientContext::CreateNewLocalDestination (
		boost::asio::io_service& service, bool isPublic,
		i2p::data::SigningKeyType sigType, i2p::data::CryptoKeyType cryptoType,
		const std::map<std::string, std::string> * params)
	{
		i2p::data::PrivateKeys keys = i2p::data::PrivateKeys::CreateRandomKeys (sigType, cryptoType, true);
		auto localDestination = std::make_shared<ClientDestination> (service, keys, isPublic, params);
		AddLocalDestination (localDestination);
		return localDestination;
	}

	std::shared_ptr<ClientDestination> ClientContext::CreateNewMatchedTunnelDestination(const i2p::data::PrivateKeys &keys, const std::string & name, const std::map<std::string, std::string> * params)
	{
		auto localDestination = std::make_shared<MatchedTunnelDestination>(keys, name, params);
		AddLocalDestination (localDestination);
		return localDestination;
	}

	void ClientContext::AddLocalDestination (std::shared_ptr<ClientDestination> localDestination)
	{
		std::unique_lock<std::mutex> l(m_DestinationsMutex);
		m_Destinations[localDestination->GetIdentHash ()] = localDestination;
		localDestination->Start ();
	}

	void ClientContext::DeleteLocalDestination (std::shared_ptr<ClientDestination> destination)
	{
		if (!destination) return;
		auto it = m_Destinations.find (destination->GetIdentHash ());
		if (it != m_Destinations.end ())
		{
			auto d = it->second;
			{
				std::unique_lock<std::mutex> l(m_DestinationsMutex);
				m_Destinations.erase (it);
			}
			d->Stop ();
		}
	}

	std::shared_ptr<ClientDestination> ClientContext::CreateNewLocalDestination (const i2p::data::PrivateKeys& keys, bool isPublic,
		const std::map<std::string, std::string> * params)
	{
		auto it = m_Destinations.find (keys.GetPublic ()->GetIdentHash ());
		if (it != m_Destinations.end ())
		{
			LogPrint (eLogWarning, "Clients: Local destination ", m_AddressBook.ToAddress(keys.GetPublic ()->GetIdentHash ()), " exists");
			it->second->Start (); // make sure to start
			return it->second;
		}
		auto localDestination = std::make_shared<RunnableClientDestination> (keys, isPublic, params);
		AddLocalDestination (localDestination);
		return localDestination;
	}

	std::shared_ptr<ClientDestination> ClientContext::CreateNewLocalDestination (boost::asio::io_service& service,
		const i2p::data::PrivateKeys& keys, bool isPublic, const std::map<std::string, std::string> * params)
	{
		auto it = m_Destinations.find (keys.GetPublic ()->GetIdentHash ());
		if (it != m_Destinations.end ())
		{
			LogPrint (eLogWarning, "Clients: Local destination ", m_AddressBook.ToAddress(keys.GetPublic ()->GetIdentHash ()), " exists");
			it->second->Start (); // make sure to start
			return it->second;
		}
		auto localDestination = std::make_shared<ClientDestination> (service, keys, isPublic, params);
		AddLocalDestination (localDestination);
		return localDestination;
	}

	void ClientContext::CreateNewSharedLocalDestination ()
	{
		std::map<std::string, std::string> params
		{
			{ I2CP_PARAM_INBOUND_TUNNELS_QUANTITY, "3" },
			{ I2CP_PARAM_OUTBOUND_TUNNELS_QUANTITY, "3" },
			{ I2CP_PARAM_LEASESET_TYPE, "3" },
			{ I2CP_PARAM_LEASESET_ENCRYPTION_TYPE, "0,4" }
		};
		m_SharedLocalDestination = CreateNewLocalDestination (false, i2p::data::SIGNING_KEY_TYPE_EDDSA_SHA512_ED25519,
			i2p::data::CRYPTO_KEY_TYPE_ELGAMAL, &params); // non-public, EDDSA
		m_SharedLocalDestination->Acquire ();
	}

	std::shared_ptr<ClientDestination> ClientContext::FindLocalDestination (const i2p::data::IdentHash& destination) const
	{
		auto it = m_Destinations.find (destination);
		if (it != m_Destinations.end ())
			return it->second;
		return nullptr;
	}

	template<typename Section, typename Type>
	std::string ClientContext::GetI2CPOption (const Section& section, const std::string& name, const Type& value) const
	{
		return section.second.get (boost::property_tree::ptree::path_type (name, '/'), std::to_string (value));
	}

	template<typename Section>
	std::string ClientContext::GetI2CPStringOption (const Section& section, const std::string& name, const std::string& value) const
	{
		return section.second.get (boost::property_tree::ptree::path_type (name, '/'), value);
	}

	template<typename Section>
	void ClientContext::ReadI2CPOptionsGroup (const Section& section, const std::string& group, std::map<std::string, std::string>& options) const
	{
		for (auto it: section.second)
		{
			if (it.first.length () >= group.length () && !it.first.compare (0, group.length (), group))
				options[it.first] = it.second.get_value ("");
		}
	}

	template<typename Section>
	void ClientContext::ReadI2CPOptions (const Section& section, bool isServer, std::map<std::string, std::string>& options) const
	{
		options[I2CP_PARAM_INBOUND_TUNNEL_LENGTH] = GetI2CPOption (section, I2CP_PARAM_INBOUND_TUNNEL_LENGTH, DEFAULT_INBOUND_TUNNEL_LENGTH);
		options[I2CP_PARAM_OUTBOUND_TUNNEL_LENGTH] = GetI2CPOption (section, I2CP_PARAM_OUTBOUND_TUNNEL_LENGTH, DEFAULT_OUTBOUND_TUNNEL_LENGTH);
		options[I2CP_PARAM_INBOUND_TUNNELS_QUANTITY] = GetI2CPOption (section, I2CP_PARAM_INBOUND_TUNNELS_QUANTITY, DEFAULT_INBOUND_TUNNELS_QUANTITY);
		options[I2CP_PARAM_OUTBOUND_TUNNELS_QUANTITY] = GetI2CPOption (section, I2CP_PARAM_OUTBOUND_TUNNELS_QUANTITY, DEFAULT_OUTBOUND_TUNNELS_QUANTITY);
		options[I2CP_PARAM_INBOUND_TUNNELS_LENGTH_VARIANCE] = GetI2CPOption (section, I2CP_PARAM_INBOUND_TUNNELS_LENGTH_VARIANCE, DEFAULT_INBOUND_TUNNELS_LENGTH_VARIANCE);
		options[I2CP_PARAM_OUTBOUND_TUNNELS_LENGTH_VARIANCE] = GetI2CPOption (section, I2CP_PARAM_OUTBOUND_TUNNELS_LENGTH_VARIANCE, DEFAULT_OUTBOUND_TUNNELS_LENGTH_VARIANCE);
		options[I2CP_PARAM_TAGS_TO_SEND] = GetI2CPOption (section, I2CP_PARAM_TAGS_TO_SEND, DEFAULT_TAGS_TO_SEND);
		options[I2CP_PARAM_MIN_TUNNEL_LATENCY] = GetI2CPOption(section, I2CP_PARAM_MIN_TUNNEL_LATENCY, DEFAULT_MIN_TUNNEL_LATENCY);
		options[I2CP_PARAM_MAX_TUNNEL_LATENCY] = GetI2CPOption(section, I2CP_PARAM_MAX_TUNNEL_LATENCY, DEFAULT_MAX_TUNNEL_LATENCY);
		options[I2CP_PARAM_STREAMING_INITIAL_ACK_DELAY] = GetI2CPOption(section, I2CP_PARAM_STREAMING_INITIAL_ACK_DELAY, DEFAULT_INITIAL_ACK_DELAY);
		options[I2CP_PARAM_STREAMING_ANSWER_PINGS] = GetI2CPOption(section, I2CP_PARAM_STREAMING_ANSWER_PINGS, isServer ? DEFAULT_ANSWER_PINGS : false);
		options[I2CP_PARAM_LEASESET_TYPE] = GetI2CPOption(section, I2CP_PARAM_LEASESET_TYPE, DEFAULT_LEASESET_TYPE);
		std::string encType = GetI2CPStringOption(section, I2CP_PARAM_LEASESET_ENCRYPTION_TYPE, "0,4");
		if (encType.length () > 0) options[I2CP_PARAM_LEASESET_ENCRYPTION_TYPE] = encType;
		std::string privKey = GetI2CPStringOption(section, I2CP_PARAM_LEASESET_PRIV_KEY, "");
		if (privKey.length () > 0) options[I2CP_PARAM_LEASESET_PRIV_KEY] = privKey;
		auto authType = GetI2CPOption(section, I2CP_PARAM_LEASESET_AUTH_TYPE, 0);
		if (authType != "0") // auth is set
		{
			options[I2CP_PARAM_LEASESET_AUTH_TYPE] = authType;
			if (authType == "1") // DH
				ReadI2CPOptionsGroup (section, I2CP_PARAM_LEASESET_CLIENT_DH, options);
			else if (authType == "2") // PSK
				ReadI2CPOptionsGroup (section, I2CP_PARAM_LEASESET_CLIENT_PSK, options);
		}
		std::string explicitPeers = GetI2CPStringOption(section, I2CP_PARAM_EXPLICIT_PEERS, "");
		if (explicitPeers.length () > 0) options[I2CP_PARAM_EXPLICIT_PEERS] = explicitPeers;
		std::string ratchetInboundTags = GetI2CPStringOption(section, I2CP_PARAM_RATCHET_INBOUND_TAGS, "");
		if (ratchetInboundTags.length () > 0) options[I2CP_PARAM_RATCHET_INBOUND_TAGS] = ratchetInboundTags;
	}

	void ClientContext::ReadI2CPOptionsFromConfig (const std::string& prefix, std::map<std::string, std::string>& options) const
	{
		std::string value;
		if (i2p::config::GetOption(prefix + I2CP_PARAM_INBOUND_TUNNEL_LENGTH, value))
			options[I2CP_PARAM_INBOUND_TUNNEL_LENGTH] = value;
		if (i2p::config::GetOption(prefix + I2CP_PARAM_INBOUND_TUNNELS_QUANTITY, value))
			options[I2CP_PARAM_INBOUND_TUNNELS_QUANTITY] = value;
		if (i2p::config::GetOption(prefix + I2CP_PARAM_INBOUND_TUNNELS_LENGTH_VARIANCE, value))
			options[I2CP_PARAM_INBOUND_TUNNELS_LENGTH_VARIANCE] = value;
		if (i2p::config::GetOption(prefix + I2CP_PARAM_OUTBOUND_TUNNEL_LENGTH, value))
			options[I2CP_PARAM_OUTBOUND_TUNNEL_LENGTH] = value;
		if (i2p::config::GetOption(prefix + I2CP_PARAM_OUTBOUND_TUNNELS_QUANTITY, value))
			options[I2CP_PARAM_OUTBOUND_TUNNELS_QUANTITY] = value;
		if (i2p::config::GetOption(prefix + I2CP_PARAM_OUTBOUND_TUNNELS_LENGTH_VARIANCE, value))
			options[I2CP_PARAM_OUTBOUND_TUNNELS_LENGTH_VARIANCE] = value;
		if (i2p::config::GetOption(prefix + I2CP_PARAM_MIN_TUNNEL_LATENCY, value))
			options[I2CP_PARAM_MIN_TUNNEL_LATENCY] = value;
		if (i2p::config::GetOption(prefix + I2CP_PARAM_MAX_TUNNEL_LATENCY, value))
			options[I2CP_PARAM_MAX_TUNNEL_LATENCY] = value;
		if (i2p::config::GetOption(prefix + I2CP_PARAM_LEASESET_TYPE, value))
			options[I2CP_PARAM_LEASESET_TYPE] = value;
		if (i2p::config::GetOption(prefix + I2CP_PARAM_LEASESET_ENCRYPTION_TYPE, value))
			options[I2CP_PARAM_LEASESET_ENCRYPTION_TYPE] = value;
		if (i2p::config::GetOption(prefix + I2CP_PARAM_LEASESET_PRIV_KEY, value) && !value.empty ())
			options[I2CP_PARAM_LEASESET_PRIV_KEY] = value;
	}

	void ClientContext::ReadTunnels ()
	{
		int numClientTunnels = 0, numServerTunnels = 0;
		std::string tunConf; i2p::config::GetOption("tunconf", tunConf);
		if (tunConf.empty ())
			tunConf = i2p::fs::DataDirPath ("tunnels.conf");

		LogPrint(eLogDebug, "Clients: Tunnels config file: ", tunConf);
		ReadTunnels (tunConf, numClientTunnels, numServerTunnels);

		std::string tunDir; i2p::config::GetOption("tunnelsdir", tunDir);
		if (tunDir.empty ())
			tunDir = i2p::fs::DataDirPath ("tunnels.d");

		if (i2p::fs::Exists (tunDir))
		{
			std::vector<std::string> files;
			if (i2p::fs::ReadDir (tunDir, files))
			{
				for (auto& it: files)
				{
					if (it.substr(it.size() - 5) != ".conf") continue; // skip files which not ends with ".conf"
					LogPrint(eLogDebug, "Clients: Tunnels extra config file: ", it);
					ReadTunnels (it, numClientTunnels, numServerTunnels);
				}
			}
		}

		LogPrint (eLogInfo, "Clients: ", numClientTunnels, " I2P client tunnels created");
		LogPrint (eLogInfo, "Clients: ", numServerTunnels, " I2P server tunnels created");
	}

	void ClientContext::ReadTunnels (const std::string& tunConf, int& numClientTunnels, int& numServerTunnels)
	{
		boost::property_tree::ptree pt;
		try {
			boost::property_tree::read_ini (tunConf, pt);
		} catch (std::exception& ex) {
			LogPrint (eLogWarning, "Clients: Can't read ", tunConf, ": ", ex.what ());
			return;
		}

		std::map<std::string, std::shared_ptr<ClientDestination> > destinations; // keys -> destination
		for (auto& section: pt)
		{
			std::string name = section.first;
			try
			{
				std::string type = section.second.get<std::string> (I2P_TUNNELS_SECTION_TYPE);
				if (type == I2P_TUNNELS_SECTION_TYPE_CLIENT
					|| type == I2P_TUNNELS_SECTION_TYPE_SOCKS
					|| type == I2P_TUNNELS_SECTION_TYPE_WEBSOCKS
					|| type == I2P_TUNNELS_SECTION_TYPE_HTTPPROXY
					|| type == I2P_TUNNELS_SECTION_TYPE_UDPCLIENT)
				{
					// mandatory params
					std::string dest;
					if (type == I2P_TUNNELS_SECTION_TYPE_CLIENT || type == I2P_TUNNELS_SECTION_TYPE_UDPCLIENT)
						dest = section.second.get<std::string> (I2P_CLIENT_TUNNEL_DESTINATION);
					int port = section.second.get<int> (I2P_CLIENT_TUNNEL_PORT);
					// optional params
					bool matchTunnels = section.second.get(I2P_CLIENT_TUNNEL_MATCH_TUNNELS, false);
					std::string keys = section.second.get (I2P_CLIENT_TUNNEL_KEYS, "transient");
					std::string address = section.second.get (I2P_CLIENT_TUNNEL_ADDRESS, "127.0.0.1");
					int destinationPort = section.second.get (I2P_CLIENT_TUNNEL_DESTINATION_PORT, 0);
					i2p::data::SigningKeyType sigType = section.second.get (I2P_CLIENT_TUNNEL_SIGNATURE_TYPE, i2p::data::SIGNING_KEY_TYPE_EDDSA_SHA512_ED25519);
					i2p::data::CryptoKeyType cryptoType = section.second.get (I2P_CLIENT_TUNNEL_CRYPTO_TYPE, i2p::data::CRYPTO_KEY_TYPE_ELGAMAL);
					// I2CP
					std::map<std::string, std::string> options;
					ReadI2CPOptions (section, false, options);

					std::shared_ptr<ClientDestination> localDestination = nullptr;
					if (keys.length () > 0)
					{
						auto it = destinations.find (keys);
						if (it != destinations.end ())
							localDestination = it->second;
						else
						{
							i2p::data::PrivateKeys k;
							if(LoadPrivateKeys (k, keys, sigType, cryptoType))
							{
								localDestination = FindLocalDestination (k.GetPublic ()->GetIdentHash ());
								if (!localDestination)
								{
									if(matchTunnels)
										localDestination = CreateNewMatchedTunnelDestination(k, dest, &options);
									else
										localDestination = CreateNewLocalDestination (k, type == I2P_TUNNELS_SECTION_TYPE_UDPCLIENT, &options);
									if (keys != "transient")
										destinations[keys] = localDestination;
								}
							}
						}
					}

					if (type == I2P_TUNNELS_SECTION_TYPE_UDPCLIENT) {
						// udp client
						// TODO: hostnames
						boost::asio::ip::udp::endpoint end (boost::asio::ip::address::from_string(address), port);
						if (!localDestination)
							localDestination = m_SharedLocalDestination;

						bool gzip = section.second.get (I2P_CLIENT_TUNNEL_GZIP, true);
						auto clientTunnel = std::make_shared<I2PUDPClientTunnel> (name, dest, end, localDestination, destinationPort, gzip);

						auto ins = m_ClientForwards.insert (std::make_pair (end, clientTunnel));
						if (ins.second)
						{
							clientTunnel->Start ();
							numClientTunnels++;
						}
						else
						{
							// TODO: update
							if (ins.first->second->GetLocalDestination () != clientTunnel->GetLocalDestination ())
							{
								LogPrint (eLogInfo, "Clients: I2P UDP client tunnel destination updated");
								ins.first->second->Stop ();
								ins.first->second->SetLocalDestination (clientTunnel->GetLocalDestination ());
								ins.first->second->Start ();
							}
							ins.first->second->isUpdated = true;
							LogPrint(eLogError, "Clients: I2P Client forward for endpoint ", end, " already exists");
						}

					} else {
						boost::asio::ip::tcp::endpoint clientEndpoint;
						std::shared_ptr<I2PService> clientTunnel;
						if (type == I2P_TUNNELS_SECTION_TYPE_SOCKS)
						{
							// socks proxy
							std::string outproxy = section.second.get("outproxy", "");
							auto tun = std::make_shared<i2p::proxy::SOCKSProxy>(name, address, port, !outproxy.empty(), outproxy, destinationPort, localDestination);
							clientTunnel = tun;
							clientEndpoint = tun->GetLocalEndpoint ();
						}
						else if (type == I2P_TUNNELS_SECTION_TYPE_HTTPPROXY)
						{
							// http proxy
							std::string outproxy = section.second.get("outproxy", "");
							bool addresshelper = section.second.get("addresshelper", true);
							auto tun = std::make_shared<i2p::proxy::HTTPProxy>(name, address, port, outproxy, addresshelper, localDestination);
							clientTunnel = tun;
							clientEndpoint = tun->GetLocalEndpoint ();
						}
						else if (type == I2P_TUNNELS_SECTION_TYPE_WEBSOCKS)
						{
							LogPrint(eLogWarning, "Clients: I2P Client tunnel websocks is deprecated, not starting ", name, " tunnel");
							continue;
						}
						else
						{
							// tcp client
							auto tun = std::make_shared<I2PClientTunnel> (name, dest, address, port, localDestination, destinationPort);
							clientTunnel = tun;
							clientEndpoint = tun->GetLocalEndpoint ();

							uint32_t keepAlive = section.second.get<uint32_t>(I2P_CLIENT_TUNNEL_KEEP_ALIVE_INTERVAL, 0);
							if (keepAlive)
							{
								tun->SetKeepAliveInterval (keepAlive);
								LogPrint(eLogInfo, "Clients: I2P Client tunnel keep alive interval set to ", keepAlive);
							}
						}

						uint32_t timeout = section.second.get<uint32_t>(I2P_CLIENT_TUNNEL_CONNECT_TIMEOUT, 0);
						if(timeout)
						{
							clientTunnel->SetConnectTimeout(timeout);
							LogPrint(eLogInfo, "Clients: I2P Client tunnel connect timeout set to ", timeout);
						}

						auto ins = m_ClientTunnels.insert (std::make_pair (clientEndpoint, clientTunnel));
						if (ins.second)
						{
							clientTunnel->Start ();
							numClientTunnels++;
						}
						else
						{
							// TODO: update
							if (ins.first->second->GetLocalDestination () != clientTunnel->GetLocalDestination ())
							{
								LogPrint (eLogInfo, "Clients: I2P client tunnel destination updated");
								ins.first->second->Stop ();
								ins.first->second->SetLocalDestination (clientTunnel->GetLocalDestination ());
								ins.first->second->Start ();
							}
							ins.first->second->isUpdated = true;
							LogPrint (eLogInfo, "Clients: I2P client tunnel for endpoint ", clientEndpoint, " already exists");
						}
					}
				}

				else if (type == I2P_TUNNELS_SECTION_TYPE_SERVER
					|| type == I2P_TUNNELS_SECTION_TYPE_HTTP
					|| type == I2P_TUNNELS_SECTION_TYPE_IRC
					|| type == I2P_TUNNELS_SECTION_TYPE_UDPSERVER)
				{
					// mandatory params
					std::string host = section.second.get<std::string> (I2P_SERVER_TUNNEL_HOST);
					int port = section.second.get<int> (I2P_SERVER_TUNNEL_PORT);
					std::string keys = section.second.get<std::string> (I2P_SERVER_TUNNEL_KEYS);
					// optional params
					int inPort = section.second.get (I2P_SERVER_TUNNEL_INPORT, 0);
					std::string accessList = section.second.get (I2P_SERVER_TUNNEL_ACCESS_LIST, "");
					if(accessList == "")
						accessList=section.second.get (I2P_SERVER_TUNNEL_WHITE_LIST, "");
					std::string hostOverride = section.second.get (I2P_SERVER_TUNNEL_HOST_OVERRIDE, "");
					std::string webircpass = section.second.get<std::string> (I2P_SERVER_TUNNEL_WEBIRC_PASSWORD, "");
					bool gzip = section.second.get (I2P_SERVER_TUNNEL_GZIP, false);
					i2p::data::SigningKeyType sigType = section.second.get (I2P_SERVER_TUNNEL_SIGNATURE_TYPE, i2p::data::SIGNING_KEY_TYPE_EDDSA_SHA512_ED25519);
					i2p::data::CryptoKeyType cryptoType = section.second.get (I2P_CLIENT_TUNNEL_CRYPTO_TYPE, i2p::data::CRYPTO_KEY_TYPE_ELGAMAL);

					std::string address = section.second.get<std::string> (I2P_SERVER_TUNNEL_ADDRESS, "");
					bool isUniqueLocal = section.second.get(I2P_SERVER_TUNNEL_ENABLE_UNIQUE_LOCAL, true);
					bool ssl = section.second.get(I2P_SERVER_TUNNEL_SSL, false);

					// I2CP
					std::map<std::string, std::string> options;
					ReadI2CPOptions (section, true, options);

					std::shared_ptr<ClientDestination> localDestination = nullptr;
					auto it = destinations.find (keys);
					if (it != destinations.end ())
					{
						localDestination = it->second;
						localDestination->SetPublic (true);
					}
					else
					{
						i2p::data::PrivateKeys k;
						if(!LoadPrivateKeys (k, keys, sigType, cryptoType))
							continue;
						localDestination = FindLocalDestination (k.GetPublic ()->GetIdentHash ());
						if (!localDestination)
						{
							localDestination = CreateNewLocalDestination (k, true, &options);
							destinations[keys] = localDestination;
						}
						else
							localDestination->SetPublic (true);
					}
					if (type == I2P_TUNNELS_SECTION_TYPE_UDPSERVER)
					{
						// udp server tunnel
						// TODO: hostnames
						boost::asio::ip::udp::endpoint endpoint(boost::asio::ip::address::from_string(host), port);
						if (address.empty ())
						{
							if (!endpoint.address ().is_unspecified () && endpoint.address ().is_v6 ())
								address = "::1";
							else
								address = "127.0.0.1";
						}
						auto localAddress = boost::asio::ip::address::from_string(address);
						auto serverTunnel = std::make_shared<I2PUDPServerTunnel>(name, localDestination, localAddress, endpoint, port, gzip);
						if(!isUniqueLocal)
						{
							LogPrint(eLogInfo, "Clients: Disabling loopback address mapping");
							serverTunnel->SetUniqueLocal(isUniqueLocal);
						}
						std::lock_guard<std::mutex> lock(m_ForwardsMutex);
						auto ins = m_ServerForwards.insert(std::make_pair(
							std::make_pair(localDestination->GetIdentHash(), port),
							serverTunnel));
						if (ins.second)
						{
							serverTunnel->Start();
							LogPrint(eLogInfo, "Clients: I2P Server Forward created for UDP Endpoint ", host, ":", port, " bound on ", address, " for ",localDestination->GetIdentHash().ToBase32());
						}
						else
						{
							ins.first->second->isUpdated = true;
							LogPrint(eLogError, "Clients: I2P Server Forward for destination/port ", m_AddressBook.ToAddress(localDestination->GetIdentHash()), "/", port, " already exists");
						}

						continue;
					}

					std::shared_ptr<I2PServerTunnel> serverTunnel;
					if (type == I2P_TUNNELS_SECTION_TYPE_HTTP)
						serverTunnel = std::make_shared<I2PServerTunnelHTTP> (name, host, port, localDestination, hostOverride, inPort, gzip);
					else if (type == I2P_TUNNELS_SECTION_TYPE_IRC)
						serverTunnel = std::make_shared<I2PServerTunnelIRC> (name, host, port, localDestination, webircpass, inPort, gzip);
					else // regular server tunnel by default
						serverTunnel = std::make_shared<I2PServerTunnel> (name, host, port, localDestination, inPort, gzip);

					if (!address.empty ())
						serverTunnel->SetLocalAddress (address);
					if (!isUniqueLocal)
					{
						LogPrint(eLogInfo, "Clients: Disabling loopback address mapping");
						serverTunnel->SetUniqueLocal(isUniqueLocal);
					}
					if (ssl)
						serverTunnel->SetSSL (true);
					if (accessList.length () > 0)
					{
						std::set<i2p::data::IdentHash> idents;
						size_t pos = 0, comma;
						do
						{
							comma = accessList.find (',', pos);
							i2p::data::IdentHash ident;
							ident.FromBase32 (accessList.substr (pos, comma != std::string::npos ? comma - pos : std::string::npos));
							idents.insert (ident);
							pos = comma + 1;
						}
						while (comma != std::string::npos);
						serverTunnel->SetAccessList (idents);
					}
					auto ins = m_ServerTunnels.insert (std::make_pair (
							std::make_pair (localDestination->GetIdentHash (), inPort),
							serverTunnel));
					if (ins.second)
					{
						serverTunnel->Start ();
						numServerTunnels++;
					}
					else
					{
						// TODO: update
						if (ins.first->second->GetLocalDestination () != serverTunnel->GetLocalDestination ())
						{
							LogPrint (eLogInfo, "Clients: I2P server tunnel destination updated");
							ins.first->second->Stop ();
							ins.first->second->SetLocalDestination (serverTunnel->GetLocalDestination ());
							ins.first->second->Start ();
						}
						ins.first->second->isUpdated = true;
						LogPrint (eLogInfo, "Clients: I2P server tunnel for destination/port ", m_AddressBook.ToAddress(localDestination->GetIdentHash ()), "/", inPort, " already exists");
					}

				}
				else
					LogPrint (eLogWarning, "Clients: Unknown section type = ", type, " of ", name, " in ", tunConf);
			}
			catch (std::exception& ex)
			{
				LogPrint (eLogCritical, "Clients: Can't read tunnel ", name, " params: ", ex.what ());
				ThrowFatal ("Unable to start tunnel ", name, ": ", ex.what ());
			}
		}
	}

	void ClientContext::ReadHttpProxy ()
	{
		std::shared_ptr<ClientDestination> localDestination;
		bool httproxy; i2p::config::GetOption("httpproxy.enabled", httproxy);
		if (httproxy)
		{
			std::string httpProxyKeys;         i2p::config::GetOption("httpproxy.keys",          httpProxyKeys);
			std::string httpProxyAddr;         i2p::config::GetOption("httpproxy.address",       httpProxyAddr);
			uint16_t    httpProxyPort;         i2p::config::GetOption("httpproxy.port",          httpProxyPort);
			std::string httpOutProxyURL;       i2p::config::GetOption("httpproxy.outproxy",      httpOutProxyURL);
			bool        httpAddresshelper;     i2p::config::GetOption("httpproxy.addresshelper", httpAddresshelper);
			if (httpAddresshelper)
				i2p::config::GetOption("addressbook.enabled", httpAddresshelper); // addresshelper is not supported without address book
			i2p::data::SigningKeyType sigType; i2p::config::GetOption("httpproxy.signaturetype", sigType);
			LogPrint(eLogInfo, "Clients: Starting HTTP Proxy at ", httpProxyAddr, ":", httpProxyPort);
			if (httpProxyKeys.length () > 0)
			{
				i2p::data::PrivateKeys keys;
				if(LoadPrivateKeys (keys, httpProxyKeys, sigType))
				{
					std::map<std::string, std::string> params;
					ReadI2CPOptionsFromConfig ("httpproxy.", params);
					localDestination = CreateNewLocalDestination (keys, false, &params);
					if (localDestination) localDestination->Acquire ();
				}
				else
					LogPrint(eLogCritical, "Clients: Failed to load HTTP Proxy key");
			}
			try
			{
				m_HttpProxy = new i2p::proxy::HTTPProxy("HTTP Proxy", httpProxyAddr, httpProxyPort, httpOutProxyURL, httpAddresshelper, localDestination);
				m_HttpProxy->Start();
			}
			catch (std::exception& e)
			{
				LogPrint(eLogCritical, "Clients: Exception in HTTP Proxy: ", e.what());
				ThrowFatal ("Unable to start HTTP Proxy at ", httpProxyAddr, ":", httpProxyPort, ": ", e.what ());
			}
		}
	}

	void ClientContext::ReadSocksProxy ()
	{
		std::shared_ptr<ClientDestination> localDestination;
		bool socksproxy; i2p::config::GetOption("socksproxy.enabled", socksproxy);
		if (socksproxy)
		{
			std::string httpProxyKeys;         i2p::config::GetOption("httpproxy.keys",              httpProxyKeys);
			// we still need httpProxyKeys to compare with sockProxyKeys
			std::string socksProxyKeys;        i2p::config::GetOption("socksproxy.keys",             socksProxyKeys);
			std::string socksProxyAddr;        i2p::config::GetOption("socksproxy.address",          socksProxyAddr);
			uint16_t    socksProxyPort;        i2p::config::GetOption("socksproxy.port",             socksProxyPort);
			bool        socksOutProxy;         i2p::config::GetOption("socksproxy.outproxy.enabled", socksOutProxy);
			std::string socksOutProxyAddr;     i2p::config::GetOption("socksproxy.outproxy",         socksOutProxyAddr);
			uint16_t    socksOutProxyPort;     i2p::config::GetOption("socksproxy.outproxyport",     socksOutProxyPort);
			i2p::data::SigningKeyType sigType; i2p::config::GetOption("socksproxy.signaturetype",    sigType);
			LogPrint(eLogInfo, "Clients: Starting SOCKS Proxy at ", socksProxyAddr, ":", socksProxyPort);
			if (httpProxyKeys == socksProxyKeys && m_HttpProxy)
			{
				localDestination = m_HttpProxy->GetLocalDestination ();
				localDestination->Acquire ();
			}
			else if (socksProxyKeys.length () > 0)
			{
				i2p::data::PrivateKeys keys;
				if (LoadPrivateKeys (keys, socksProxyKeys, sigType))
				{
					std::map<std::string, std::string> params;
					ReadI2CPOptionsFromConfig ("socksproxy.", params);
					localDestination = CreateNewLocalDestination (keys, false, &params);
					if (localDestination) localDestination->Acquire ();
				}
				else
					LogPrint(eLogCritical, "Clients: Failed to load SOCKS Proxy key");
			}
			try
			{
				m_SocksProxy = new i2p::proxy::SOCKSProxy("SOCKS", socksProxyAddr, socksProxyPort,
					socksOutProxy, socksOutProxyAddr, socksOutProxyPort, localDestination);
				m_SocksProxy->Start();
			}
			catch (std::exception& e)
			{
				LogPrint(eLogCritical, "Clients: Exception in SOCKS Proxy: ", e.what());
				ThrowFatal ("Unable to start SOCKS Proxy at ", socksProxyAddr, ":", socksProxyPort, ": ", e.what ());
			}
		}
	}

	void ClientContext::ScheduleCleanupUDP()
	{
		if (m_CleanupUDPTimer)
		{
			// schedule cleanup in 17 seconds
			m_CleanupUDPTimer->expires_from_now (boost::posix_time::seconds (17));
			m_CleanupUDPTimer->async_wait(std::bind(&ClientContext::CleanupUDP, this, std::placeholders::_1));
		}
	}

	void ClientContext::CleanupUDP(const boost::system::error_code & ecode)
	{
		if(!ecode)
		{
			std::lock_guard<std::mutex> lock(m_ForwardsMutex);
			for (auto & s : m_ServerForwards ) s.second->ExpireStale();
			ScheduleCleanupUDP();
		}
	}

	void ClientContext::VisitTunnels (bool clean)
	{
		for (auto it = m_ClientTunnels.begin (); it != m_ClientTunnels.end ();)
		{
			if(clean && !it->second->isUpdated) {
				it->second->Stop ();
				it = m_ClientTunnels.erase(it);
			} else {
				it->second->isUpdated = false;
				it++;
			}
		}

		for (auto it = m_ServerTunnels.begin (); it != m_ServerTunnels.end ();)
		{
			if(clean && !it->second->isUpdated) {
				it->second->Stop ();
				it = m_ServerTunnels.erase(it);
			} else {
				it->second->isUpdated = false;
				it++;
			}
		}

		// TODO: Write correct UDP tunnels stop
		for (auto it = m_ClientForwards.begin (); it != m_ClientForwards.end ();)
		{
			if(clean && !it->second->isUpdated) {
				it->second->Stop ();
				it = m_ClientForwards.erase(it);
			} else {
				it->second->isUpdated = false;
				it++;
			}
		}

		for (auto it = m_ServerForwards.begin (); it != m_ServerForwards.end ();)
		{
			if(clean && !it->second->isUpdated) {
				it->second->Stop ();
				it = m_ServerForwards.erase(it);
			} else {
				it->second->isUpdated = false;
				it++;
			}
		}
	}
}
}