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/*
* anytun
*
* The secure anycast tunneling protocol (satp) defines a protocol used
* for communication between any combination of unicast and anycast
* tunnel endpoints. It has less protocol overhead than IPSec in Tunnel
* mode and allows tunneling of every ETHER TYPE protocol (e.g.
* ethernet, ip, arp ...). satp directly includes cryptography and
* message authentication based on the methodes used by SRTP. It is
* intended to deliver a generic, scaleable and secure solution for
* tunneling and relaying of packets of any protocol.
*
*
* Copyright (C) 2007-2009 Othmar Gsenger, Erwin Nindl,
* Christian Pointner <satp@wirdorange.org>
*
* This file is part of Anytun.
*
* Anytun is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* any later version.
*
* Anytun is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with anytun. If not, see <http://www.gnu.org/licenses/>.
*/
#include <boost/bind.hpp>
#include <boost/thread.hpp>
#include <boost/assign.hpp>
#include <iostream>
#include <fstream>
#include "datatypes.h"
#include "log.h"
#include "resolver.h"
#include "buffer.h"
#include "plainPacket.h"
#include "encryptedPacket.h"
#include "cipher.h"
#include "keyDerivation.h"
#include "authAlgo.h"
#include "cipherFactory.h"
#include "authAlgoFactory.h"
#include "keyDerivationFactory.h"
#include "signalController.h"
#ifdef WIN_SERVICE
#include "win32/winService.h"
#endif
#include "packetSource.h"
#include "tunDevice.h"
#include "options.h"
#include "seqWindow.h"
#include "connectionList.h"
#ifndef NO_ROUTING
#include "routingTable.h"
#include "networkAddress.h"
#endif
#ifndef ANYTUN_NOSYNC
#include "syncQueue.h"
#include "syncCommand.h"
#include "syncServer.h"
#include "syncClient.h"
#include "syncOnConnect.hpp"
#endif
#include "cryptinit.hpp"
#include "daemon.hpp"
#include "sysExec.h"
bool disableRouting = false;
void createConnection(const PacketSourceEndpoint& remote_end, window_size_t seqSize, mux_t mux)
{
SeqWindow* seq = new SeqWindow(seqSize);
seq_nr_t seq_nr_=0;
KeyDerivation * kd = KeyDerivationFactory::create(gOpt.getKdPrf());
kd->init(gOpt.getKey(), gOpt.getSalt(), gOpt.getPassphrase());
kd->setRole(gOpt.getRole());
cLog.msg(Log::PRIO_NOTICE) << "added connection remote host " << remote_end;
ConnectionParam connparam ((*kd), (*seq), seq_nr_, remote_end);
gConnectionList.addConnection(connparam,mux);
#ifndef ANYTUN_NOSYNC
SyncCommand sc (gConnectionList,mux);
gSyncQueue.push(sc);
#endif
}
void createConnectionResolver(PacketSourceResolverIt& it, window_size_t seqSize, mux_t mux)
{
createConnection(*it, seqSize, mux);
}
void createConnectionError(const std::exception& e)
{
gSignalController.inject(SIGERROR, e.what());
}
#ifndef ANYTUN_NOSYNC
void syncConnector(const OptionHost& connto)
{
SyncClient sc(connto.addr, connto.port);
sc.run();
}
void syncListener()
{
try
{
SyncServer server(gOpt.getLocalSyncAddr(), gOpt.getLocalSyncPort(), boost::bind(syncOnConnect, _1));
gSyncQueue.setSyncServerPtr(&server);
server.run();
}
catch(std::runtime_error& e) {
cLog.msg(Log::PRIO_ERROR) << "sync listener thread died due to an uncaught runtime_error: " << e.what();
}
catch(std::exception& e) {
cLog.msg(Log::PRIO_ERROR) << "sync listener thread died due to an uncaught exception: " << e.what();
}
}
#endif
void sender(TunDevice* dev, PacketSource* src)
{
if(!dev || !src) {
cLog.msg(Log::PRIO_ERROR) << "sender thread died because either dev or src pointer is null";
return;
}
try
{
std::auto_ptr<Cipher> c(CipherFactory::create(gOpt.getCipher(), KD_OUTBOUND));
std::auto_ptr<AuthAlgo> a(AuthAlgoFactory::create(gOpt.getAuthAlgo(), KD_OUTBOUND) );
PlainPacket plain_packet(MAX_PACKET_LENGTH);
EncryptedPacket encrypted_packet(MAX_PACKET_LENGTH, gOpt.getAuthTagLength());
u_int16_t mux = gOpt.getMux();
PacketSourceEndpoint emptyEndpoint;
while(1) {
plain_packet.setLength(MAX_PACKET_LENGTH);
encrypted_packet.withAuthTag(false);
encrypted_packet.setLength(MAX_PACKET_LENGTH);
// read packet from device
int len = dev->read(plain_packet.getPayload(), plain_packet.getPayloadLength());
if(len < 0)
continue; // silently ignore device read errors, this is probably no good idea...
if(static_cast<u_int32_t>(len) < PlainPacket::getHeaderLength())
continue; // ignore short packets
plain_packet.setPayloadLength(len);
// set payload type
if(dev->getType() == TYPE_TUN)
plain_packet.setPayloadType(PAYLOAD_TYPE_TUN);
else if(dev->getType() == TYPE_TAP)
plain_packet.setPayloadType(PAYLOAD_TYPE_TAP);
else
plain_packet.setPayloadType(0);
if(gConnectionList.empty())
continue;
//std::cout << "got Packet for plain "<<plain_packet.getDstAddr().toString();
ConnectionMap::iterator cit;
#ifndef NO_ROUTING
if (!disableRouting)
try {
mux = gRoutingTable.getRoute(plain_packet.getDstAddr());
//std::cout << " -> "<<mux << std::endl;
cit = gConnectionList.getConnection(mux);
} catch (std::exception&) { continue; } // no route
else
cit = gConnectionList.getBegin();
#else
cit = gConnectionList.getBegin();
#endif
if(cit==gConnectionList.getEnd())
continue; //no connection
ConnectionParam & conn = cit->second;
if(conn.remote_end_ == emptyEndpoint) {
//cLog.msg(Log::PRIO_INFO) << "no remote address set";
continue;
}
// encrypt packet
c->encrypt(conn.kd_, plain_packet, encrypted_packet, conn.seq_nr_, gOpt.getSenderId(), mux);
encrypted_packet.setHeader(conn.seq_nr_, gOpt.getSenderId(), mux);
conn.seq_nr_++;
// add authentication tag
a->generate(conn.kd_, encrypted_packet);
try {
src->send(encrypted_packet.getBuf(), encrypted_packet.getLength(), conn.remote_end_);
} catch (std::exception& /*e*/) {
//TODO: do something here
//cLog.msg(Log::PRIO_ERROR) << "could not send data: " << e.what();
}
}
}
catch(std::runtime_error& e) {
cLog.msg(Log::PRIO_ERROR) << "sender thread died due to an uncaught runtime_error: " << e.what();
}
catch(std::exception& e) {
cLog.msg(Log::PRIO_ERROR) << "sender thread died due to an uncaught exception: " << e.what();
}
}
void receiver(TunDevice* dev, PacketSource* src)
{
if(!dev || !src) {
cLog.msg(Log::PRIO_ERROR) << "receiver thread died because either dev or src pointer is null";
return;
}
try
{
std::auto_ptr<Cipher> c(CipherFactory::create(gOpt.getCipher(), KD_INBOUND));
std::auto_ptr<AuthAlgo> a(AuthAlgoFactory::create(gOpt.getAuthAlgo(), KD_INBOUND));
u_int32_t auth_tag_length = gOpt.getAuthTagLength();
EncryptedPacket encrypted_packet(MAX_PACKET_LENGTH, auth_tag_length);
PlainPacket plain_packet(MAX_PACKET_LENGTH);
while(1) {
PacketSourceEndpoint remote_end;
plain_packet.setLength(MAX_PACKET_LENGTH);
encrypted_packet.withAuthTag(false);
encrypted_packet.setLength(MAX_PACKET_LENGTH);
// read packet from socket
int len;
try {
len = src->recv(encrypted_packet.getBuf(), encrypted_packet.getLength(), remote_end);
} catch (std::exception& /*e*/) {
//TODO: do something here
//cLog.msg(Log::PRIO_ERROR) << "could not recive packet "<< e.what();
continue;
}
if(len < 0)
continue; // silently ignore socket recv errors, this is probably no good idea...
if(static_cast<u_int32_t>(len) < (EncryptedPacket::getHeaderLength() + auth_tag_length))
continue; // ignore short packets
encrypted_packet.setLength(len);
mux_t mux = encrypted_packet.getMux();
// autodetect peer
if( gConnectionList.empty() && gOpt.getRemoteAddr() == "") {
cLog.msg(Log::PRIO_NOTICE) << "autodetected remote host " << remote_end;
createConnection(remote_end, gOpt.getSeqWindowSize(),mux);
}
ConnectionMap::iterator cit = gConnectionList.getConnection(mux);
if (cit == gConnectionList.getEnd())
continue;
ConnectionParam & conn = cit->second;
// check whether auth tag is ok or not
if(!a->checkTag(conn.kd_, encrypted_packet)) {
cLog.msg(Log::PRIO_NOTICE) << "wrong Authentication Tag!";
continue;
}
// Replay Protection
if(conn.seq_window_.checkAndAdd(encrypted_packet.getSenderId(), encrypted_packet.getSeqNr())) {
cLog.msg(Log::PRIO_NOTICE) << "Replay attack from " << conn.remote_end_
<< " seq:"<< encrypted_packet.getSeqNr() << " sid: "<< encrypted_packet.getSenderId();
continue;
}
//Allow dynamic IP changes
//TODO: add command line option to turn this off
if (remote_end != conn.remote_end_) {
cLog.msg(Log::PRIO_NOTICE) << "connection "<< mux << " autodetected remote host ip changed " << remote_end;
conn.remote_end_=remote_end;
#ifndef ANYTUN_NOSYNC
SyncCommand sc (gConnectionList,mux);
gSyncQueue.push(sc);
#endif
}
// ignore zero length packets
if(encrypted_packet.getPayloadLength() <= PlainPacket::getHeaderLength())
continue;
// decrypt packet
c->decrypt(conn.kd_, encrypted_packet, plain_packet);
// check payload_type
if((dev->getType() == TYPE_TUN && plain_packet.getPayloadType() != PAYLOAD_TYPE_TUN4 &&
plain_packet.getPayloadType() != PAYLOAD_TYPE_TUN6) ||
(dev->getType() == TYPE_TAP && plain_packet.getPayloadType() != PAYLOAD_TYPE_TAP))
continue;
// write it on the device
dev->write(plain_packet.getPayload(), plain_packet.getLength());
}
}
catch(std::runtime_error& e) {
cLog.msg(Log::PRIO_ERROR) << "receiver thread died due to an uncaught runtime_error: " << e.what();
}
catch(std::exception& e) {
cLog.msg(Log::PRIO_ERROR) << "receiver thread died due to an uncaught exception: " << e.what();
}
}
void startSendRecvThreads(TunDevice* dev, PacketSource* src)
{
src->waitUntilReady();
boost::thread(boost::bind(sender, dev, src));
boost::thread(boost::bind(receiver, dev, src));
}
#ifdef WIN_SERVICE
int main(int argc, char* argv[])
{
try {
if(argc > 1) {
if(std::string(argv[1]) == "install") {
WinService::install();
return 0;
}
else if(std::string(argv[1]) == "uninstall") {
WinService::uninstall();
return 0;
}
}
WinService::start();
return 0;
}
catch(std::runtime_error& e)
{
std::cout << "caught runtime error, exiting: " << e.what() << std::endl;
}
catch(std::exception& e)
{
std::cout << "caught exception, exiting: " << e.what() << std::endl;
}
}
int real_main(int argc, char* argv[], WinService* service)
{
bool daemonized=true;
#else
int main(int argc, char* argv[])
{
DaemonService* service = NULL;
bool daemonized=false;
#endif
try
{
try
{
bool result = gOpt.parse(argc, argv);
if(!result) {
gOpt.printUsage();
exit(0);
}
StringList targets = gOpt.getLogTargets();
for(StringList::const_iterator it = targets.begin();it != targets.end(); ++it)
cLog.addTarget(*it);
}
catch(syntax_error& e)
{
std::cerr << e << std::endl;
gOpt.printUsage();
exit(-1);
}
cLog.msg(Log::PRIO_NOTICE) << "anytun started...";
gOpt.parse_post(); // print warnings
// daemonizing has to done before any thread gets started
#ifndef NO_DAEMON
#ifndef NO_PRIVDROP
PrivInfo privs(gOpt.getUsername(), gOpt.getGroupname());
#endif
if(gOpt.getDaemonize()) {
daemonize();
daemonized = true;
}
#endif
OptionNetwork net = gOpt.getIfconfigParam();
TunDevice dev(gOpt.getDevName(), gOpt.getDevType(), net.net_addr, net.prefix_length);
cLog.msg(Log::PRIO_NOTICE) << "dev opened - name '" << dev.getActualName() << "', node '" << dev.getActualNode() << "'";
cLog.msg(Log::PRIO_NOTICE) << "dev type is '" << dev.getTypeString() << "'";
#ifndef NO_EXEC
SysExec * postup_script = NULL;
if(gOpt.getPostUpScript() != "") {
cLog.msg(Log::PRIO_NOTICE) << "executing post-up script '" << gOpt.getPostUpScript() << "'";
StringVector args = boost::assign::list_of(dev.getActualName())(dev.getActualNode());
postup_script = new SysExec(gOpt.getPostUpScript(), args);
}
#endif
#ifndef NO_DAEMON
if(gOpt.getChrootDir() != "") {
try {
do_chroot(gOpt.getChrootDir());
}
catch(const std::runtime_error& e) {
cLog.msg(Log::PRIO_WARNING) << "ignoring chroot error: " << e.what();
}
}
#ifndef NO_PRIVDROP
privs.drop();
#endif
#endif
#if !defined(__FreeBSD_kernel__)
// this has to be called before the first thread is started
gSignalController.init(service);
#endif
gResolver.init();
#ifndef NO_EXEC
boost::thread(boost::bind(&TunDevice::waitUntilReady,&dev));
if (postup_script)
boost::thread(boost::bind(&SysExec::waitAndDestroy,postup_script));
#endif
initCrypto();
PacketSource* src = new UDPPacketSource(gOpt.getLocalAddr(), gOpt.getLocalPort());
if(gOpt.getRemoteAddr() != "")
gResolver.resolveUdp(gOpt.getRemoteAddr(), gOpt.getRemotePort(), boost::bind(createConnectionResolver, _1, gOpt.getSeqWindowSize(), gOpt.getMux()), boost::bind(createConnectionError, _1), gOpt.getResolvAddrType());
HostList connect_to = gOpt.getRemoteSyncHosts();
#ifndef NO_ROUTING
NetworkList routes = gOpt.getRoutes();
NetworkList::const_iterator rit;
for(rit = routes.begin(); rit != routes.end(); ++rit) {
NetworkAddress addr( rit->net_addr );
NetworkPrefix prefix( addr, static_cast<u_int8_t>(rit->prefix_length));
gRoutingTable.addRoute( prefix, gOpt.getMux() );
}
if (connect_to.begin() == connect_to.end() || gOpt.getDevType()!="tun") {
cLog.msg(Log::PRIO_NOTICE) << "No sync/control host defined or not a tun device. Disabling multi connection support (routing)";
disableRouting=true;
}
#endif
#ifndef ANYTUN_NOSYNC
boost::thread* syncListenerThread = NULL;
if(gOpt.getLocalSyncPort() != "")
syncListenerThread = new boost::thread(boost::bind(syncListener));
boost::thread_group connectThreads;
for(HostList::const_iterator it = connect_to.begin() ;it != connect_to.end(); ++it)
connectThreads.create_thread(boost::bind(syncConnector, *it));
#endif
// wait for packet source to finish in a seperate thread in order
// to be still able to process signals while waiting
boost::thread(boost::bind(startSendRecvThreads, &dev, src));
int ret = gSignalController.run();
// TODO: stop all threads and cleanup
//
// if(src)
// delete src;
// if(connTo)
// delete connTo;
return ret;
}
catch(std::runtime_error& e)
{
cLog.msg(Log::PRIO_ERROR) << "uncaught runtime error, exiting: " << e.what();
if(!daemonized)
std::cout << "uncaught runtime error, exiting: " << e.what() << std::endl;
}
catch(std::exception& e)
{
cLog.msg(Log::PRIO_ERROR) << "uncaught exception, exiting: " << e.what();
if(!daemonized)
std::cout << "uncaught exception, exiting: " << e.what() << std::endl;
}
return -1;
}
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