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/***************************************************************************
* Copyright (C) 2005 by Joris Guisson *
* joris.guisson@gmail.com *
* *
* This program 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 2 of the License, or *
* (at your option) any later version. *
* *
* This program 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 this program; if not, write to the *
* Free Software Foundation, Inc., *
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. *
***************************************************************************/
#include <tqmap.h>
#include <kresolver.h>
#include <util/log.h>
#include <util/array.h>
#include <util/functions.h>
#include <torrent/bnode.h>
#include <torrent/globals.h>
#include <tdesocketaddress.h>
#include "announcetask.h"
#include "dht.h"
#include "node.h"
#include "rpcserver.h"
#include "rpcmsg.h"
#include "kclosestnodessearch.h"
#include "database.h"
#include "taskmanager.h"
#include "nodelookup.h"
using namespace bt;
using namespace KNetwork;
namespace dht
{
DHT::DHT() : node(0),srv(0),db(0),tman(0)
{
connect(&update_timer,TQT_SIGNAL(timeout()),this,TQT_SLOT(update()));
}
DHT::~DHT()
{
if (running)
stop();
}
void DHT::start(const TQString & table,const TQString & key_file,bt::Uint16 port)
{
if (running)
return;
if (port == 0)
port = 6881;
table_file = table;
this->port = port;
Out(SYS_DHT|LOG_NOTICE) << "DHT: Starting on port " << port << endl;
srv = new RPCServer(this,port);
node = new Node(srv,key_file);
db = new Database();
tman = new TaskManager();
expire_timer.update();
running = true;
srv->start();
node->loadTable(table);
update_timer.start(1000);
started();
}
void DHT::stop()
{
if (!running)
return;
update_timer.stop();
Out(SYS_DHT|LOG_NOTICE) << "DHT: Stopping " << endl;
srv->stop();
node->saveTable(table_file);
running = false;
stopped();
delete tman; tman = 0;
delete db; db = 0;
delete node; node = 0;
delete srv; srv = 0;
}
void DHT::ping(PingReq* r)
{
if (!running)
return;
// ignore requests we get from ourself
if (r->getID() == node->getOurID())
return;
Out(SYS_DHT|LOG_NOTICE) << "DHT: Sending ping response" << endl;
PingRsp rsp(r->getMTID(),node->getOurID());
rsp.setOrigin(r->getOrigin());
srv->sendMsg(&rsp);
node->recieved(this,r);
}
void DHT::findNode(FindNodeReq* r)
{
if (!running)
return;
// ignore requests we get from ourself
if (r->getID() == node->getOurID())
return;
Out(SYS_DHT|LOG_DEBUG) << "DHT: got findNode request" << endl;
node->recieved(this,r);
// find the K closest nodes and pack them
KClosestNodesSearch kns(r->getTarget(),K);
node->findKClosestNodes(kns);
Uint32 rs = kns.requiredSpace();
// create the data
TQByteArray nodes(rs);
// pack the found nodes in a byte array
if (rs > 0)
kns.pack(nodes);
FindNodeRsp fnr(r->getMTID(),node->getOurID(),nodes);
fnr.setOrigin(r->getOrigin());
srv->sendMsg(&fnr);
}
void DHT::announce(AnnounceReq* r)
{
if (!running)
return;
// ignore requests we get from ourself
if (r->getID() == node->getOurID())
return;
Out(SYS_DHT|LOG_DEBUG) << "DHT: got announce request" << endl;
node->recieved(this,r);
// first check if the token is OK
dht::Key token = r->getToken();
if (!db->checkToken(token,r->getOrigin().ipAddress().IPv4Addr(),r->getOrigin().port()))
return;
// everything OK, so store the value
Uint8 tdata[6];
bt::WriteUint32(tdata,0,r->getOrigin().ipAddress().IPv4Addr());
bt::WriteUint16(tdata,4,r->getPort());
db->store(r->getInfoHash(),DBItem(tdata));
// send a proper response to indicate everything is OK
AnnounceRsp rsp(r->getMTID(),node->getOurID());
rsp.setOrigin(r->getOrigin());
srv->sendMsg(&rsp);
}
void DHT::getPeers(GetPeersReq* r)
{
if (!running)
return;
// ignore requests we get from ourself
if (r->getID() == node->getOurID())
return;
Out(SYS_DHT|LOG_DEBUG) << "DHT: got getPeers request" << endl;
node->recieved(this,r);
DBItemList dbl;
db->sample(r->getInfoHash(),dbl,50);
// generate a token
dht::Key token = db->genToken(r->getOrigin().ipAddress().IPv4Addr(),r->getOrigin().port());
if (dbl.count() == 0)
{
// if data is null do the same as when we have a findNode request
// find the K closest nodes and pack them
KClosestNodesSearch kns(r->getInfoHash(),K);
node->findKClosestNodes(kns);
Uint32 rs = kns.requiredSpace();
// create the data
TQByteArray nodes(rs);
// pack the found nodes in a byte array
if (rs > 0)
kns.pack(nodes);
GetPeersRsp fnr(r->getMTID(),node->getOurID(),nodes,token);
fnr.setOrigin(r->getOrigin());
srv->sendMsg(&fnr);
}
else
{
// send a get peers response
GetPeersRsp fvr(r->getMTID(),node->getOurID(),dbl,token);
fvr.setOrigin(r->getOrigin());
srv->sendMsg(&fvr);
}
}
void DHT::response(MsgBase* r)
{
if (!running)
return;
node->recieved(this,r);
}
void DHT::error(ErrMsg* )
{}
void DHT::portRecieved(const TQString & ip,bt::Uint16 port)
{
if (!running)
return;
Out(SYS_DHT|LOG_DEBUG) << "Sending ping request to " << ip << ":" << port << endl;
PingReq* r = new PingReq(node->getOurID());
r->setOrigin(KInetSocketAddress(ip,port));
srv->doCall(r);
}
bool DHT::canStartTask() const
{
// we can start a task if we have less then 7 runnning and
// there are at least 16 RPC slots available
if (tman->getNumTasks() >= 7)
return false;
else if (256 - srv->getNumActiveRPCCalls() <= 16)
return false;
return true;
}
AnnounceTask* DHT::announce(const bt::SHA1Hash & info_hash,bt::Uint16 port)
{
if (!running)
return 0;
KClosestNodesSearch kns(info_hash,K);
node->findKClosestNodes(kns);
if (kns.getNumEntries() > 0)
{
Out(SYS_DHT|LOG_NOTICE) << "DHT: Doing announce " << endl;
AnnounceTask* at = new AnnounceTask(db,srv,node,info_hash,port);
at->start(kns,!canStartTask());
tman->addTask(at);
if (!db->contains(info_hash))
db->insert(info_hash);
return at;
}
return 0;
}
NodeLookup* DHT::refreshBucket(const dht::Key & id,KBucket & bucket)
{
if (!running)
return 0;
KClosestNodesSearch kns(id,K);
bucket.findKClosestNodes(kns);
bucket.updateRefreshTimer();
if (kns.getNumEntries() > 0)
{
Out(SYS_DHT|LOG_DEBUG) << "DHT: refreshing bucket " << endl;
NodeLookup* nl = new NodeLookup(id,srv,node);
nl->start(kns,!canStartTask());
tman->addTask(nl);
return nl;
}
return 0;
}
NodeLookup* DHT::findNode(const dht::Key & id)
{
if (!running)
return 0;
KClosestNodesSearch kns(id,K);
node->findKClosestNodes(kns);
if (kns.getNumEntries() > 0)
{
Out(SYS_DHT|LOG_DEBUG) << "DHT: finding node " << endl;
NodeLookup* at = new NodeLookup(id,srv,node);
at->start(kns,!canStartTask());
tman->addTask(at);
return at;
}
return 0;
}
void DHT::update()
{
if (!running)
return;
if (expire_timer.getElapsedSinceUpdate() > 5*60*1000)
{
db->expire(bt::GetCurrentTime());
expire_timer.update();
}
node->refreshBuckets(this);
tman->removeFinishedTasks(this);
stats.num_tasks = tman->getNumTasks() + tman->getNumQueuedTasks();
stats.num_peers = node->getNumEntriesInRoutingTable();
}
void DHT::timeout(const MsgBase* r)
{
node->onTimeout(r);
}
void DHT::addDHTNode(const TQString & host,Uint16 hport)
{
if (!running)
return;
KResolverResults res = KResolver::resolve(host,TQString::number(hport));
if (res.count() > 0)
{
srv->ping(node->getOurID(),res.front().address());
}
}
TQMap<TQString, int> DHT::getClosestGoodNodes(int maxNodes)
{
TQMap<TQString, int> map;
if(!node)
return map;
int max = 0;
KClosestNodesSearch kns(node->getOurID(), maxNodes*2);
node->findKClosestNodes(kns);
KClosestNodesSearch::Itr it;
for(it = kns.begin(); it != kns.end(); ++it)
{
KBucketEntry e = it->second;
if(!e.isGood())
continue;
KInetSocketAddress a = e.getAddress();
map.insert(a.ipAddress().toString(), a.port());
if(++max >= maxNodes)
break;
}
return map;
}
}
#include "dht.moc"
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