/* * Copyright (c) 2012-2015 Isode Limited. * All rights reserved. * See the COPYING file for more information. */ /* * Copyright (c) 2011 Tobias Markmann * Licensed under the simplified BSD license. * See Documentation/Licenses/BSD-simplified.txt for more information. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace Swift; static const int LISTEN_PORTS_BEGIN = 10000; static const int LISTEN_PORTS_END = 11000; SOCKS5BytestreamServerManager::SOCKS5BytestreamServerManager( SOCKS5BytestreamRegistry* bytestreamRegistry, ConnectionServerFactory* connectionServerFactory, NetworkEnvironment* networkEnvironment, NATTraverser* natTraverser) : bytestreamRegistry(bytestreamRegistry), connectionServerFactory(connectionServerFactory), networkEnvironment(networkEnvironment), natTraverser(natTraverser), state(Start), server(NULL) { } SOCKS5BytestreamServerManager::~SOCKS5BytestreamServerManager() { SWIFT_LOG_ASSERT(!connectionServer, warning) << std::endl; SWIFT_LOG_ASSERT(!getPublicIPRequest, warning) << std::endl; SWIFT_LOG_ASSERT(!forwardPortRequest, warning) << std::endl; SWIFT_LOG_ASSERT(state == Start, warning) << std::endl; if (portMapping && !unforwardPortRequest) { SWIFT_LOG(warning) << "Port forwarding still alive. Trying to remove it now." << std::endl; unforwardPortRequest = natTraverser->createRemovePortForwardingRequest(portMapping.get().getLocalPort(), portMapping.get().getPublicPort()); unforwardPortRequest->start(); } } boost::shared_ptr SOCKS5BytestreamServerManager::createInitializeRequest() { return boost::make_shared(this); } std::vector SOCKS5BytestreamServerManager::getHostAddressPorts() const { std::vector result; if (connectionServer) { std::vector networkInterfaces = networkEnvironment->getNetworkInterfaces(); foreach (const NetworkInterface& networkInterface, networkInterfaces) { foreach (const HostAddress& address, networkInterface.getAddresses()) { result.push_back(HostAddressPort(address, connectionServerPort)); } } } return result; } std::vector SOCKS5BytestreamServerManager::getAssistedHostAddressPorts() const { std::vector result; if (publicAddress && portMapping) { result.push_back(HostAddressPort(*publicAddress, portMapping->getPublicPort())); } return result; } bool SOCKS5BytestreamServerManager::isInitialized() const { return state == Initialized; } void SOCKS5BytestreamServerManager::initialize() { if (state == Start) { state = Initializing; // Find a port to listen on assert(!connectionServer); int port; for (port = LISTEN_PORTS_BEGIN; port < LISTEN_PORTS_END; ++port) { SWIFT_LOG(debug) << "Trying to start server on port " << port << std::endl; connectionServer = connectionServerFactory->createConnectionServer(HostAddress("0.0.0.0"), port); boost::optional error = connectionServer->tryStart(); if (!error) { break; } else if (*error != ConnectionServer::Conflict) { SWIFT_LOG(debug) << "Error starting server" << std::endl; onInitialized(false); return; } connectionServer.reset(); } if (!connectionServer) { SWIFT_LOG(debug) << "Unable to find an open port" << std::endl; onInitialized(false); return; } SWIFT_LOG(debug) << "Server started succesfully" << std::endl; connectionServerPort = port; // Start bytestream server. Should actually happen before the connectionserver is started // but that doesn't really matter here. assert(!server); server = new SOCKS5BytestreamServer(connectionServer, bytestreamRegistry); server->start(); // Retrieve public addresses assert(!getPublicIPRequest); publicAddress = boost::optional(); if ((getPublicIPRequest = natTraverser->createGetPublicIPRequest())) { getPublicIPRequest->onResult.connect( boost::bind(&SOCKS5BytestreamServerManager::handleGetPublicIPResult, this, _1)); getPublicIPRequest->start(); } // Forward ports assert(!forwardPortRequest); portMapping = boost::optional(); if ((forwardPortRequest = natTraverser->createForwardPortRequest(port, port))) { forwardPortRequest->onResult.connect( boost::bind(&SOCKS5BytestreamServerManager::handleForwardPortResult, this, _1)); forwardPortRequest->start(); } } } void SOCKS5BytestreamServerManager::stop() { if (getPublicIPRequest) { getPublicIPRequest->stop(); getPublicIPRequest.reset(); } if (forwardPortRequest) { forwardPortRequest->stop(); forwardPortRequest.reset(); } if (connectionServer) { connectionServer->stop(); connectionServer.reset(); } // remove port forwards if (portMapping) { unforwardPortRequest = natTraverser->createRemovePortForwardingRequest(portMapping.get().getLocalPort(), portMapping.get().getPublicPort()); unforwardPortRequest->onResult.connect(boost::bind(&SOCKS5BytestreamServerManager::handleUnforwardPortResult, this, _1)); unforwardPortRequest->start(); } state = Start; } void SOCKS5BytestreamServerManager::handleGetPublicIPResult(boost::optional address) { if (address) { SWIFT_LOG(debug) << "Public IP discovered as " << address.get().toString() << "." << std::endl; } else { SWIFT_LOG(debug) << "No public IP discoverable." << std::endl; } publicAddress = address; getPublicIPRequest->stop(); getPublicIPRequest.reset(); checkInitializeFinished(); } void SOCKS5BytestreamServerManager::handleForwardPortResult(boost::optional mapping) { if (mapping) { SWIFT_LOG(debug) << "Mapping port was successful." << std::endl; } else { SWIFT_LOG(debug) << "Mapping port has failed." << std::endl; } portMapping = mapping; forwardPortRequest->stop(); forwardPortRequest.reset(); checkInitializeFinished(); } void SOCKS5BytestreamServerManager::handleUnforwardPortResult(boost::optional result) { if (result.is_initialized() && result.get()) { portMapping.reset(); } else { SWIFT_LOG(warning) << "Failed to remove port forwarding." << std::endl; } unforwardPortRequest.reset(); } void SOCKS5BytestreamServerManager::checkInitializeFinished() { assert(state == Initializing); if (!getPublicIPRequest && !forwardPortRequest) { state = Initialized; onInitialized(true); } }