source: source/ariba/overlay/BaseOverlay.cpp@ 7042

// [License]

// The Ariba-Underlay Copyright

//

// Copyright (c) 2008-2009, Institute of Telematics, UniversitÀt Karlsruhe (TH)

//

// Institute of Telematics

// UniversitÀt Karlsruhe (TH)

// Zirkel 2, 76128 Karlsruhe

// Germany

//

// Redistribution and use in source and binary forms, with or without

// modification, are permitted provided that the following conditions are

// met:

//

// 1. Redistributions of source code must retain the above copyright

// notice, this list of conditions and the following disclaimer.

// 2. Redistributions in binary form must reproduce the above copyright

// notice, this list of conditions and the following disclaimer in the

// documentation and/or other materials provided with the distribution.

//

// THIS SOFTWARE IS PROVIDED BY THE INSTITUTE OF TELEMATICS ``AS IS'' AND

// ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE

// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR

// PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE ARIBA PROJECT OR

// CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,

// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,

// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR

// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF

// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING

// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS

// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

//

// The views and conclusions contained in the software and documentation

// are those of the authors and should not be interpreted as representing

// official policies, either expressed or implied, of the Institute of

// Telematics.

// [License]



#include "BaseOverlay.h"



#include <sstream>

#include <iostream>

#include <string>

#include <boost/foreach.hpp>



#include "ariba/NodeListener.h"

#include "ariba/CommunicationListener.h"

#include "ariba/SideportListener.h"



#include "ariba/overlay/LinkDescriptor.h"



#include "ariba/overlay/messages/OverlayMsg.h"

#include "ariba/overlay/messages/DHTMessage.h"

#include "ariba/overlay/messages/JoinRequest.h"

#include "ariba/overlay/messages/JoinReply.h"



#include "ariba/utility/visual/OvlVis.h"

#include "ariba/utility/visual/DddVis.h"

#include "ariba/utility/visual/ServerVis.h"



namespace ariba {

namespace overlay {



#define visual                          ariba::utility::DddVis::instance()

#define visualIdOverlay         ariba::utility::ServerVis::NETWORK_ID_BASE_OVERLAY

#define visualIdBase            ariba::utility::ServerVis::NETWORK_ID_BASE_COMMUNICATION



class ValueEntry {

public:

        ValueEntry( const Data& value ) : ttl(0), last_update(time(NULL)),

                last_change(time(NULL)), value(value.clone()) {

        }



        ValueEntry( const ValueEntry& value ) :

                ttl(value.ttl), last_update(value.last_update),

                last_change(value.last_change), value(value.value.clone()) {



        }



        ~ValueEntry()  {

                value.release();

        }



        void refresh() {

                last_update = time(NULL);

        }



        void set_value( const Data& value ) {

                this->value.release();

                this->value = value.clone();

                this->last_change = time(NULL);

                this->last_update = time(NULL);

        }



        Data get_value() const {

                return value;

        }



        uint16_t get_ttl() const {

                return ttl;

        }



        void set_ttl( uint16_t ttl ) {

                this->ttl = ttl;

        }



        bool is_ttl_elapsed() const {

                // is persistent? yes-> always return false

                if (ttl==0) return false;



                // return true, if ttl is elapsed

                return ( difftime( time(NULL), this->last_update ) >= ttl );

        }



private:

        uint16_t ttl;

        time_t last_update;

        time_t last_change;

        Data value;

};



class DHTEntry {

public:

        Data key;

        vector<ValueEntry> values;



        vector<Data> get_values() {

                vector<Data> vect;

                BOOST_FOREACH( ValueEntry& e, values )

                vect.push_back( e.get_value() );

                return vect;

        }



        void erase_expired_entries() {

                for (vector<ValueEntry>::iterator i = values.begin();

                                i != values.end(); i++ )

                        if (i->is_ttl_elapsed()) i = values.erase(i);

        }

};



class DHT {

public:

        typedef vector<DHTEntry> Entries;

        typedef vector<ValueEntry> Values;

        Entries entries;

        static const bool verbose = false;



        static bool equals( const Data& lhs, const Data& rhs ) {

                if (rhs.getLength()!=lhs.getLength()) return false;

                for (size_t i=0; i<lhs.getLength()/8; i++)

                        if (lhs.getBuffer()[i] != rhs.getBuffer()[i]) return false;

                return true;

        }



        void put( const Data& key, const Data& value, uint16_t ttl = 0 ) {



                // find entry

                for (size_t i=0; i<entries.size(); i++) {

                        DHTEntry& entry = entries.at(i);



                        // check if key is already known

                        if ( equals(entry.key, key) ) {



                                // check if value is already in values list

                                for (size_t j=0; j<entry.values.size(); j++) {

                                        // found value already? yes-> refresh ttl

                                        if ( equals(entry.values[j].get_value(), value) ) {

                                                entry.values[j].refresh();

                                                if (verbose)

                                                        std::cout << "DHT: Republished value. Refreshing value timestamp."

                                                                << std::endl;

                                                return;

                                        }

                                }



                                // new value-> add to entry

                                if (verbose)

                                        std::cout << "DHT: Added value to "

                                                << " key=" << key << " with value=" << value << std::endl;

                                entry.values.push_back( ValueEntry( value ) );

                                entry.values.back().set_ttl(ttl);

                                return;

                        }

                }



                // key is unknown-> add key value pair

                if (verbose)

                        std::cout << "DHT: New key value pair "

                                << " key=" << key << " with value=" << value << std::endl;



                // add new entry

                entries.push_back( DHTEntry() );

                DHTEntry& entry = entries.back();

                entry.key = key.clone();

                entry.values.push_back( ValueEntry(value) );

                entry.values.back().set_ttl(ttl);

        }



        vector<Data> get( const Data& key ) {

                // find entry

                for (size_t i=0; i<entries.size(); i++) {

                        DHTEntry& entry = entries.at(i);

                        if ( equals(entry.key,key) )

                                return entry.get_values();

                }

                return vector<Data>();

        }



        bool remove( const Data& key ) {

                // find entry

                for (Entries::iterator i = entries.begin(); i != entries.end(); i++) {

                        DHTEntry& entry = *i;



                        // found? yes-> delete entry

                        if ( equals(entry.key, key) ) {

                                i = entries.erase(i);

                                return true;

                        }

                }

                return false;

        }



        bool remove( const Data& key, const Data& value ) {

                // find entry

                for (Entries::iterator i = entries.begin(); i != entries.end(); i++) {

                        DHTEntry& entry = *i;



                        // found? yes-> try to find value

                        if ( equals(entry.key, key) ) {

                                for (Values::iterator j = entry.values.begin();

                                                j != entry.values.end(); j++) {



                                        // value found? yes-> delete

                                        if (equals(j->get_value(), value)) {

                                                j = entry.values.erase(j);

                                                return true;

                                        }

                                }

                        }

                }

                return false;

        }



        void cleanup() {

                // find entry

                for (Entries::iterator i = entries.begin(); i != entries.end(); i++) {

                        DHTEntry& entry = *i;



                        for (Values::iterator j = entry.values.begin();

                                        j != entry.values.end(); j++) {



                                // value found? yes-> delete

                                if (j->is_ttl_elapsed())

                                        j = entry.values.erase(j);

                        }



                        if (entry.values.size()==0) i = entries.erase(i);

                }

        }

};



// ----------------------------------------------------------------------------



/* *****************************************************************************

 * PREREQUESITES

 * ****************************************************************************/



CommunicationListener* BaseOverlay::getListener( const ServiceID& service ) {

        if( !communicationListeners.contains( service ) ) {

                logging_error( "No listener found for service " << service.toString() );

                return NULL;

        }

        CommunicationListener* listener = communicationListeners.get( service );

        assert( listener != NULL );

        return listener;

}



// link descriptor handling ----------------------------------------------------



LinkDescriptor* BaseOverlay::getDescriptor( const LinkID& link, bool communication ) {

        BOOST_FOREACH( LinkDescriptor* lp, links )

                                if ((communication ? lp->communicationId : lp->overlayId) == link)

                                        return lp;

        return NULL;

}



const LinkDescriptor* BaseOverlay::getDescriptor( const LinkID& link, bool communication ) const {

        BOOST_FOREACH( const LinkDescriptor* lp, links )

                                if ((communication ? lp->communicationId : lp->overlayId) == link)

                                        return lp;

        return NULL;

}



/// erases a link descriptor

void BaseOverlay::eraseDescriptor( const LinkID& link, bool communication ) {

        for ( vector<LinkDescriptor*>::iterator i = links.begin(); i!= links.end(); i++) {

                LinkDescriptor* ld = *i;

                if ((communication ? ld->communicationId : ld->overlayId) == link) {

                        delete ld;

                        links.erase(i);

                        break;

                }

        }

}



/// adds a link descriptor

LinkDescriptor* BaseOverlay::addDescriptor( const LinkID& link ) {

        LinkDescriptor* desc = getDescriptor( link );

        if ( desc == NULL ) {

                desc = new LinkDescriptor();

                if (!link.isUnspecified()) desc->overlayId = link;

                links.push_back(desc);

        }

        return desc;

}



/// returns a auto-link descriptor

LinkDescriptor* BaseOverlay::getAutoDescriptor( const NodeID& node, const ServiceID& service ) {

        // search for a descriptor that is already up

        BOOST_FOREACH( LinkDescriptor* lp, links )

                                if (lp->autolink && lp->remoteNode == node && lp->service == service && lp->up && lp->keepAliveMissed == 0)

                                        return lp;

        // if not found, search for one that is about to come up...

        BOOST_FOREACH( LinkDescriptor* lp, links )

        if (lp->autolink && lp->remoteNode == node && lp->service == service && lp->keepAliveMissed == 0 )

                return lp;

        return NULL;

}



/// stabilizes link information

void BaseOverlay::stabilizeLinks() {

        // send keep-alive messages over established links

        BOOST_FOREACH( LinkDescriptor* ld, links ) {

                if (!ld->up) continue;

                OverlayMsg msg( OverlayMsg::typeLinkAlive,

                                OverlayInterface::OVERLAY_SERVICE_ID, nodeId, ld->remoteNode );

                if (ld->relayed) msg.setRouteRecord(true);

                send_link( &msg, ld->overlayId );

        }



        // iterate over all links and check for time boundaries

        vector<LinkDescriptor*> oldlinks;

        time_t now = time(NULL);

        BOOST_FOREACH( LinkDescriptor* ld, links ) {



                // keep alives and not up? yes-> link connection request is stale!

                if ( !ld->up && difftime( now, ld->keepAliveTime ) >= 2 ) {



                        // increase counter

                        ld->keepAliveMissed++;



                        // missed more than four keep-alive messages (10 sec)? -> drop link

                        if (ld->keepAliveMissed > 4) {

                                logging_info( "Link connection request is stale, closing: " << ld );

                                oldlinks.push_back( ld );

                                continue;

                        }

                }



                if (!ld->up) continue;



                // check if link is relayed and retry connecting directly

                if ( ld->relayed && !ld->communicationUp && ld->retryCounter > 0) {

                        ld->retryCounter--;

                        ld->communicationId = bc->establishLink( ld->endpoint );

                }



                // remote used as relay flag

                if ( ld->relaying && difftime( now, ld->timeRelaying ) > 10)

                        ld->relaying = false;



                // drop links that are dropped and not used as relay

                if (ld->dropAfterRelaying && !ld->relaying && !ld->autolink) {

                        oldlinks.push_back( ld );

                        continue;

                }



                // auto-link time exceeded?

                if ( ld->autolink && difftime( now, ld->lastuse ) > 30 ) {

                        oldlinks.push_back( ld );

                        continue;

                }



                // keep alives missed? yes->

                if ( difftime( now, ld->keepAliveTime ) > 4 ) {



                        // increase counter

                        ld->keepAliveMissed++;



                        // missed more than four keep-alive messages (4 sec)? -> drop link

                        if (ld->keepAliveMissed >= 2) {

                                logging_info( "Link is stale, closing: " << ld );

                                oldlinks.push_back( ld );

                                continue;

                        }

                }

        }



        // drop links

        BOOST_FOREACH( LinkDescriptor* ld, oldlinks ) {

                logging_info( "Link timed out. Dropping " << ld );

                ld->relaying = false;

                dropLink( ld->overlayId );

        }



        // show link state

        counter++;

        if (counter>=4) showLinks();

        if (counter>=4 || counter<0) counter = 0;

}





std::string BaseOverlay::getLinkHTMLInfo() {

        std::ostringstream s;

        vector<NodeID> nodes;

        if (links.size()==0) {

                s << "<h2 style=\"color=#606060\">No links established!</h2>";

        } else {

                s << "<h2 style=\"color=#606060\">Links</h2>";

                s << "<table width=\"100%\" cellpadding=\"0\" border=\"0\" cellspacing=\"0\">";

                s << "<tr style=\"background-color=#ffe0e0\">";

                s << "<td><b>Link ID</b></td><td><b>Remote ID</b></td><td><b>Relay path</b></td>";

                s << "</tr>";



                int i=0;

                BOOST_FOREACH( LinkDescriptor* ld, links ) {

                        if (!ld->isVital() || ld->service != OverlayInterface::OVERLAY_SERVICE_ID) continue;

                        bool found = false;

                        BOOST_FOREACH(NodeID& id, nodes)

                        if (id  == ld->remoteNode) found = true;

                        if (found) continue;

                        i++;

                        nodes.push_back(ld->remoteNode);

                        if ((i%1) == 1) s << "<tr style=\"background-color=#f0f0f0;\">";

                        else s << "<tr>";

                        s << "<td>" << ld->overlayId.toString().substr(0,4) << "..</td>";

                        s << "<td>" << ld->remoteNode.toString().substr(0,4) << "..</td>";

                        s << "<td>";

                        if (ld->routeRecord.size()>1 && ld->relayed) {

                                for (size_t i=1; i<ld->routeRecord.size(); i++)

                                        s << ld->routeRecord[ld->routeRecord.size()-i-1].toString().substr(0,4) << ".. ";

                        } else {

                                s << "Direct";

                        }

                        s << "</td>";

                        s << "</tr>";

                }

                s << "</table>";

        }

        return s.str();

}



/// shows the current link state

void BaseOverlay::showLinks() {

        int i=0;

        logging_info("--- link state -------------------------------");

        BOOST_FOREACH( LinkDescriptor* ld, links ) {

                string epd = "";

                if (ld->isDirectVital())

                        epd = getEndpointDescriptor(ld->remoteNode).toString();



                logging_info("LINK_STATE: " << i << ": " << ld << " " << epd);

                i++;

        }

        logging_info("----------------------------------------------");

}



/// compares two arbitrary links to the same node

int BaseOverlay::compare( const LinkID& lhs, const LinkID& rhs ) {

        LinkDescriptor* lhsld = getDescriptor(lhs);

        LinkDescriptor* rhsld = getDescriptor(rhs);

        if (lhsld==NULL || rhsld==NULL

                        || !lhsld->up || !rhsld->up

                        || lhsld->remoteNode != rhsld->remoteNode) return -1;



        if ((lhsld->remoteLink^lhsld->overlayId)<(rhsld->remoteLink^lhsld->overlayId)  )

                return -1;



        return 1;

}





// internal message delivery ---------------------------------------------------



/// routes a message to its destination node

void BaseOverlay::route( OverlayMsg* message ) {



        // exceeded time-to-live? yes-> drop message

        if (message->getNumHops() > message->getTimeToLive()) {

                logging_warn("Message exceeded TTL. Dropping message and relay routes"

                                "for recovery.");

                removeRelayNode(message->getDestinationNode());

                return;

        }



        // no-> forward message

        else {

                // destinastion myself? yes-> handle message

                if (message->getDestinationNode() == nodeId) {

                        logging_warn("Usually I should not route messages to myself!");

                        Message msg;

                        msg.encapsulate(message);

                        handleMessage( &msg, NULL );

                } else {

                        // no->send message to next hop

                        send( message, message->getDestinationNode() );

                }

        }

}



/// sends a message to another node, delivers it to the base overlay class

seqnum_t BaseOverlay::send( OverlayMsg* message, const NodeID& destination ) {

        LinkDescriptor* next_link = NULL;



        // drop messages to unspecified destinations

        if (destination.isUnspecified()) return -1;



        // send messages to myself -> handle message and drop warning!

        if (destination == nodeId) {

                logging_warn("Sent message to myself. Handling message.")

                Message msg;

                msg.encapsulate(message);

                handleMessage( &msg, NULL );

                return -1;

        }



        // use relay path?

        if (message->isRelayed()) {

                next_link = getRelayLinkTo( destination );

                if (next_link != NULL) {

                        next_link->setRelaying();

                        return bc->sendMessage(next_link->communicationId, message);

                } else {

                        logging_warn("Could not send message. No relay hop found to "

                                        << destination << " -- trying to route over overlay paths ...")

//                      logging_error("ERROR: " << debugInformation() );

                //                      return -1;

                }

        }



        // last resort -> route over overlay path

        LinkID next_id = overlayInterface->getNextLinkId( destination );

        if (next_id.isUnspecified()) {

                logging_warn("Could not send message. No next hop found to " <<

                                destination );

                logging_error("ERROR: " << debugInformation() );

                return -1;

        }



        // get link descriptor, up and running? yes-> send message

        next_link = getDescriptor(next_id);

        if (next_link != NULL && next_link->up) {

                // send message over relayed link

                return send(message, next_link);

        }



        // no-> error, dropping message

        else {

                logging_warn("Could not send message. Link not known or up");

                logging_error("ERROR: " << debugInformation() );

                return -1;

        }



        // not reached-> fail

        return -1;

}



/// send a message using a link descriptor, delivers it to the base overlay class

seqnum_t BaseOverlay::send( OverlayMsg* message, LinkDescriptor* ldr, bool ignore_down ) {

        // check if null

        if (ldr == NULL) {

                logging_error("Can not send message to " << message->getDestinationAddress());

                return -1;

        }



        // check if up

        if (!ldr->up && !ignore_down) {

                logging_error("Can not send message. Link not up:" << ldr );

                logging_error("DEBUG_INFO: " << debugInformation() );

                return -1;

        }

        LinkDescriptor* ld = NULL;



        // handle relayed link

        if (ldr->relayed) {

                logging_debug("Resolving direct link for relayed link to "

                                << ldr->remoteNode);

                ld = getRelayLinkTo( ldr->remoteNode );

                if (ld==NULL) {

                        logging_error("No relay path found to link " << ldr );

                        logging_error("DEBUG_INFO: " << debugInformation() );

                        return -1;

                }

                ld->setRelaying();

                message->setRelayed(true);

        } else

                ld = ldr;



        // handle direct link

        if (ld->communicationUp) {

                logging_debug("send(): Sending message over direct link.");

                return bc->sendMessage( ld->communicationId, message );

        } else {

                logging_error("send(): Could not send message. "

                                "Not a relayed link and direct link is not up.");

                return -1;

        }

        return -1;

}



seqnum_t BaseOverlay::send_node( OverlayMsg* message, const NodeID& remote,

                const ServiceID& service) {

        message->setSourceNode(nodeId);

        message->setDestinationNode(remote);

        message->setService(service);

        return send( message, remote );

}



seqnum_t BaseOverlay::send_link( OverlayMsg* message, const LinkID& link,bool ignore_down ) {

        LinkDescriptor* ld = getDescriptor(link);

        if (ld==NULL) {

                logging_error("Cannot find descriptor to link id=" << link.toString());

                return -1;

        }

        message->setSourceNode(nodeId);

        message->setDestinationNode(ld->remoteNode);



        message->setSourceLink(ld->overlayId);

        message->setDestinationLink(ld->remoteLink);



        message->setService(ld->service);

        message->setRelayed(ld->relayed);

        return send( message, ld, ignore_down );

}



// relay route management ------------------------------------------------------



/// stabilize relay information

void BaseOverlay::stabilizeRelays() {

        vector<relay_route>::iterator i = relay_routes.begin();

        while (i!=relay_routes.end() ) {

                relay_route& route = *i;

                LinkDescriptor* ld = getDescriptor(route.link);



                // relay link still used and alive?

                if (ld==NULL

                                || !ld->isDirectVital()

                                || difftime(route.used, time(NULL)) > 8) {

                        logging_info("Forgetting relay information to node "

                                        << route.node.toString() );

                        i = relay_routes.erase(i);

                } else

                        i++;

        }

}



void BaseOverlay::removeRelayLink( const LinkID& link ) {

        vector<relay_route>::iterator i = relay_routes.begin();

        while (i!=relay_routes.end() ) {

                relay_route& route = *i;

                if (route.link == link ) i = relay_routes.erase(i); else i++;

        }

}



void BaseOverlay::removeRelayNode( const NodeID& remote ) {

        vector<relay_route>::iterator i = relay_routes.begin();

        while (i!=relay_routes.end() ) {

                relay_route& route = *i;

                if (route.node == remote ) i = relay_routes.erase(i); else i++;

        }

}



/// refreshes relay information

void BaseOverlay::refreshRelayInformation( const OverlayMsg* message, LinkDescriptor* ld ) {



        // handle relayed messages from real links only

        if (ld == NULL

                        || ld->relayed

                        || message->getSourceNode()==nodeId ) return;



        // update usage information

        if (message->isRelayed()) {

                // try to find source node

                BOOST_FOREACH( relay_route& route, relay_routes ) {

                        // relay route found? yes->

                        if ( route.node == message->getDestinationNode() ) {

                                ld->setRelaying();

                                route.used = time(NULL);

                        }

                }



        }



        // register relay path

        if (message->isRegisterRelay()) {

                // set relaying

                ld->setRelaying();



                // try to find source node

                BOOST_FOREACH( relay_route& route, relay_routes ) {



                        // relay route found? yes->

                        if ( route.node == message->getSourceNode() ) {



                                // refresh timer

                                route.used = time(NULL);

                                LinkDescriptor* rld = getDescriptor(route.link);



                                // route has a shorter hop count or old link is dead? yes-> replace

                                if (route.hops > message->getNumHops()

                                                || rld == NULL

                                                || !rld->isDirectVital()) {

                                        logging_info("Updating relay information to node "

                                                        << route.node.toString()

                                                        << " reducing to " << message->getNumHops() << " hops.");

                                        route.hops = message->getNumHops();

                                        route.link = ld->overlayId;

                                }

                                return;

                        }

                }



                // not found-> add new entry

                relay_route route;

                route.hops = message->getNumHops();

                route.link = ld->overlayId;

                route.node = message->getSourceNode();

                route.used = time(NULL);

                logging_info("Remembering relay information to node "

                                << route.node.toString());

                relay_routes.push_back(route);

        }

}



/// returns a known "vital" relay link which is up and running

LinkDescriptor* BaseOverlay::getRelayLinkTo( const NodeID& remote ) {

        // try to find source node

        BOOST_FOREACH( relay_route& route, relay_routes ) {

                if (route.node == remote ) {

                        LinkDescriptor* ld = getDescriptor( route.link );

                        if (ld==NULL || !ld->isDirectVital()) return NULL; else {

                                route.used = time(NULL);

                                return ld;

                        }

                }

        }

        return NULL;

}



/* *****************************************************************************

 * PUBLIC MEMBERS

 * ****************************************************************************/



use_logging_cpp(BaseOverlay);



// ----------------------------------------------------------------------------



BaseOverlay::BaseOverlay() :

                        started(false),state(BaseOverlayStateInvalid),

                        bc(NULL),

                        nodeId(NodeID::UNSPECIFIED), spovnetId(SpoVNetID::UNSPECIFIED),

                        sideport(&SideportListener::DEFAULT), overlayInterface(NULL),

                        counter(0) {

        initDHT();

}



BaseOverlay::~BaseOverlay() {

        destroyDHT();

}



// ----------------------------------------------------------------------------



void BaseOverlay::start( BaseCommunication& _basecomm, const NodeID& _nodeid ) {

        logging_info("Starting...");



        // set parameters

        bc = &_basecomm;

        nodeId = _nodeid;



        // register at base communication

        bc->registerMessageReceiver( this );

        bc->registerEventListener( this );



        // timer for auto link management

        Timer::setInterval( 1000 );

        Timer::start();



        started = true;

        state = BaseOverlayStateInvalid;

}



void BaseOverlay::stop() {

        logging_info("Stopping...");



        // stop timer

        Timer::stop();



        // delete oberlay interface

        if(overlayInterface != NULL) {

                delete overlayInterface;

                overlayInterface = NULL;

        }



        // unregister at base communication

        bc->unregisterMessageReceiver( this );

        bc->unregisterEventListener( this );



        started = false;

        state = BaseOverlayStateInvalid;

}



bool BaseOverlay::isStarted(){

        return started;

}



// ----------------------------------------------------------------------------



void BaseOverlay::joinSpoVNet(const SpoVNetID& id,

                const EndpointDescriptor& bootstrapEp) {



        if(id != spovnetId){

                logging_error("attempt to join against invalid spovnet, call initiate first");

                return;

        }





        //ovl.visShowNodeBubble ( ovlId, nodeId, "joining..." );

        logging_info( "Starting to join spovnet " << id.toString() <<

                        " with nodeid " << nodeId.toString());



        if(bootstrapEp.isUnspecified() && state == BaseOverlayStateInvalid){



                // bootstrap against ourselfs

                logging_info("joining spovnet locally");



                overlayInterface->joinOverlay();

                state = BaseOverlayStateCompleted;

                BOOST_FOREACH( NodeListener* i, nodeListeners )

                        i->onJoinCompleted( spovnetId );



                //ovl.visChangeNodeIcon ( ovlId, nodeId, OvlVis::ICON_ID_CAMERA );

                //ovl.visChangeNodeColor( ovlId, nodeId, OvlVis::NODE_COLORS_GREEN );



                logging_debug("starting overlay bootstrap module");

                overlayBootstrap.start(this, spovnetId, nodeId);

                overlayBootstrap.publish(bc->getEndpointDescriptor());



        } else {



                // bootstrap against another node

                logging_info("joining spovnet remotely against " << bootstrapEp.toString());



                const LinkID& lnk = bc->establishLink( bootstrapEp );

                bootstrapLinks.push_back(lnk);

                logging_info("join process initiated for " << id.toString() << "...");

        }

}



void BaseOverlay::leaveSpoVNet() {



        logging_info( "Leaving spovnet " << spovnetId );

        bool ret = ( state != this->BaseOverlayStateInvalid );



        logging_debug("stopping overlay bootstrap module");

        overlayBootstrap.stop();

        overlayBootstrap.revoke();



        logging_debug( "Dropping all auto-links" );



        // gather all service links

        vector<LinkID> servicelinks;

        BOOST_FOREACH( LinkDescriptor* ld, links ) {

                if( ld->service != OverlayInterface::OVERLAY_SERVICE_ID )

                        servicelinks.push_back( ld->overlayId );

        }



        // drop all service links

        BOOST_FOREACH( LinkID lnk, servicelinks )

        dropLink( lnk );



        // let the node leave the spovnet overlay interface

        logging_debug( "Leaving overlay" );

        if( overlayInterface != NULL )

                overlayInterface->leaveOverlay();



        // drop still open bootstrap links

        BOOST_FOREACH( LinkID lnk, bootstrapLinks )

        bc->dropLink( lnk );



        // change to inalid state

        state = BaseOverlayStateInvalid;

        //ovl.visShutdown( ovlId, nodeId, string("") );



        visual.visShutdown(visualIdOverlay, nodeId, "");

        visual.visShutdown(visualIdBase, nodeId, "");



        // inform all registered services of the event

        BOOST_FOREACH( NodeListener* i, nodeListeners ) {

                if( ret ) i->onLeaveCompleted( spovnetId );

                else i->onLeaveFailed( spovnetId );

        }

}



void BaseOverlay::createSpoVNet(const SpoVNetID& id,

                const OverlayParameterSet& param,

                const SecurityParameterSet& sec,

                const QoSParameterSet& qos) {



        // set the state that we are an initiator, this way incoming messages are

        // handled correctly

        logging_info( "creating spovnet " + id.toString() <<

                        " with nodeid " << nodeId.toString() );



        spovnetId = id;



        overlayInterface = OverlayFactory::create( *this, param, nodeId, this );

        if( overlayInterface == NULL ) {

                logging_fatal( "overlay structure not supported" );

                state = BaseOverlayStateInvalid;



                BOOST_FOREACH( NodeListener* i, nodeListeners )

                i->onJoinFailed( spovnetId );



                return;

        }



        visual.visCreate(visualIdBase, nodeId, "", "");

        visual.visCreate(visualIdOverlay, nodeId, "", "");

}



// ----------------------------------------------------------------------------



const LinkID BaseOverlay::establishLink( const EndpointDescriptor& remoteEp,

                const NodeID& remoteId, const ServiceID& service ) {



        // establish link via overlay

        if (!remoteId.isUnspecified())

                return establishLink( remoteId, service );

        else

                return establishDirectLink(remoteEp, service );

}



/// call base communication's establish link and add link mapping

const LinkID BaseOverlay::establishDirectLink( const EndpointDescriptor& ep,

                const ServiceID& service ) {



        /// find a service listener

        if( !communicationListeners.contains( service ) ) {

                logging_error( "No listener registered for service id=" << service.toString() );

                return LinkID::UNSPECIFIED;

        }

        CommunicationListener* listener = communicationListeners.get( service );

        assert( listener != NULL );



        // create descriptor

        LinkDescriptor* ld = addDescriptor();

        ld->relayed = false;

        ld->listener = listener;

        ld->service = service;

        ld->communicationId = bc->establishLink( ep );



        /// establish link and add mapping

        logging_info("Establishing direct link " << ld->communicationId.toString()

                        << " using " << ep.toString());



        return ld->communicationId;

}



/// establishes a link between two arbitrary nodes

const LinkID BaseOverlay::establishLink( const NodeID& remote,

                const ServiceID& service ) {



        // do not establish a link to myself!

        if (remote == nodeId) return LinkID::UNSPECIFIED;



        // create a link descriptor

        LinkDescriptor* ld = addDescriptor();

        ld->relayed = true;

        ld->remoteNode = remote;

        ld->service = service;

        ld->listener = getListener(ld->service);



        // create link request message

        OverlayMsg msg(OverlayMsg::typeLinkRequest, service, nodeId, remote );

        msg.setSourceLink(ld->overlayId);



        // send over relayed link

        msg.setRelayed(true);

        msg.setRegisterRelay(true);



        // debug message

        logging_info(

                        "Sending link request with"

                        << " link=" << ld->overlayId.toString()

                        << " node=" << ld->remoteNode.toString()

                        << " serv=" << ld->service.toString()

        );



        // sending message to node

        send_node( &msg, ld->remoteNode, ld->service );



        return ld->overlayId;

}



/// drops an established link

void BaseOverlay::dropLink(const LinkID& link) {

        logging_info( "Dropping link (initiated locally):" << link.toString() );



        // find the link item to drop

        LinkDescriptor* ld = getDescriptor(link);

        if( ld == NULL ) {

                logging_warn( "Can't drop link, link is unknown!");

                return;

        }



        // delete all queued messages

        if( ld->messageQueue.size() > 0 ) {

                logging_warn( "Dropping link " << ld->overlayId.toString() << " that has "

                                << ld->messageQueue.size() << " waiting messages" );

                ld->flushQueue();

        }



        // inform sideport and listener

        if(ld->listener != NULL)

                ld->listener->onLinkDown( ld->overlayId, ld->remoteNode );

        sideport->onLinkDown(ld->overlayId, this->nodeId, ld->remoteNode, this->spovnetId );



        // do not drop relay links

        if (!ld->relaying) {

                // drop the link in base communication

                if (ld->communicationUp) bc->dropLink( ld->communicationId );



                // erase descriptor

                eraseDescriptor( ld->overlayId );

        } else {

                ld->dropAfterRelaying = true;

        }

}



// ----------------------------------------------------------------------------



/// internal send message, always use this functions to send messages over links

seqnum_t BaseOverlay::sendMessage( const Message* message, const LinkID& link ) {

        logging_debug( "Sending data message on link " << link.toString() );



        // get the mapping for this link

        LinkDescriptor* ld = getDescriptor(link);

        if( ld == NULL ) {

                logging_error("Could not send message. "

                                << "Link not found id=" << link.toString());

                return -1;

        }



        // check if the link is up yet, if its an auto link queue message

        if( !ld->up ) {

                ld->setAutoUsed();

                if( ld->autolink ) {

                        logging_info("Auto-link " << link.toString() << " not up, queue message");

                        Data data = data_serialize( message );

                        const_cast<Message*>(message)->dropPayload();

                        ld->messageQueue.push_back( new Message(data) );

                } else {

                        logging_error("Link " << link.toString() << " not up, drop message");

                }

                return -1;

        }



        // compile overlay message (has service and node id)

        OverlayMsg overmsg( OverlayMsg::typeData );

        overmsg.encapsulate( const_cast<Message*>(message) );



        // send message over relay/direct/overlay

        return send_link( &overmsg, ld->overlayId );

}



seqnum_t BaseOverlay::sendMessage(const Message* message,

                const NodeID& node, const ServiceID& service) {



        // find link for node and service

        LinkDescriptor* ld = getAutoDescriptor( node, service );



        // if we found no link, create an auto link

        if( ld == NULL ) {



                // debug output

                logging_info( "No link to send message to node "

                                << node.toString() << " found for service "

                                << service.toString() << ". Creating auto link ..."

                );



                // call base overlay to create a link

                LinkID link = establishLink( node, service );

                ld = getDescriptor( link );

                if( ld == NULL ) {

                        logging_error( "Failed to establish auto-link.");

                        return -1;

                }

                ld->autolink = true;



                logging_debug( "Auto-link establishment in progress to node "

                                << node.toString() << " with link id=" << link.toString() );

        }

        assert(ld != NULL);



        // mark the link as used, as we now send a message through it

        ld->setAutoUsed();



        // send / queue message

        return sendMessage( message, ld->overlayId );

}



// ----------------------------------------------------------------------------



const EndpointDescriptor& BaseOverlay::getEndpointDescriptor(

                const LinkID& link) const {



        // return own end-point descriptor

        if( link.isUnspecified() )

                return bc->getEndpointDescriptor();



        // find link descriptor. not found -> return unspecified

        const LinkDescriptor* ld = getDescriptor(link);

        if (ld==NULL) return EndpointDescriptor::UNSPECIFIED();



        // return endpoint-descriptor from base communication

        return bc->getEndpointDescriptor( ld->communicationId );

}



const EndpointDescriptor& BaseOverlay::getEndpointDescriptor(

                const NodeID& node) const {



        // return own end-point descriptor

        if( node == nodeId || node.isUnspecified() ) {

                //logging_info("getEndpointDescriptor: returning self.");

                return bc->getEndpointDescriptor();

        }



        // no joined and request remote descriptor? -> fail!

        if( overlayInterface == NULL ) {

                logging_error( "Overlay interface not set, cannot resolve end-point." );

                return EndpointDescriptor::UNSPECIFIED();

        }



//      // resolve end-point descriptor from the base-overlay routing table

//      const EndpointDescriptor& ep = overlayInterface->resolveNode( node );

//      if(ep.toString() != "") return ep;



        // see if we can find the node in our own table

        BOOST_FOREACH(const LinkDescriptor* ld, links){

                if(ld->remoteNode != node) continue;

                if(!ld->communicationUp) continue;

                const EndpointDescriptor& ep =

                                bc->getEndpointDescriptor(ld->communicationId);

                if(ep != EndpointDescriptor::UNSPECIFIED()) {

                        //logging_info("getEndpointDescriptor: using " << ld->to_string());

                        return ep;

                }

        }



        logging_warn( "No EndpointDescriptor found for node " << node );

        logging_warn( const_cast<BaseOverlay*>(this)->debugInformation() );



        return EndpointDescriptor::UNSPECIFIED();

}



// ----------------------------------------------------------------------------



bool BaseOverlay::registerSidePort(SideportListener* _sideport) {

        sideport = _sideport;

        _sideport->configure( this );

        return true;

}



bool BaseOverlay::unregisterSidePort(SideportListener* _sideport) {

        sideport = &SideportListener::DEFAULT;

        return true;

}



// ----------------------------------------------------------------------------



bool BaseOverlay::bind(CommunicationListener* listener, const ServiceID& sid) {

        logging_debug( "binding communication listener " << listener

                        << " on serviceid " << sid.toString() );



        if( communicationListeners.contains( sid ) ) {

                logging_error( "some listener already registered for service id "

                                << sid.toString() );

                return false;

        }



        communicationListeners.registerItem( listener, sid );

        return true;

}





bool BaseOverlay::unbind(CommunicationListener* listener, const ServiceID& sid) {

        logging_debug( "unbinding listener " << listener << " from serviceid " << sid.toString() );



        if( !communicationListeners.contains( sid ) ) {

                logging_warn( "cannot unbind listener. no listener registered on service id " << sid.toString() );

                return false;

        }



        if( communicationListeners.get(sid) != listener ) {

                logging_warn( "listener bound to service id " << sid.toString()

                                << " is different than listener trying to unbind" );

                return false;

        }



        communicationListeners.unregisterItem( sid );

        return true;

}



// ----------------------------------------------------------------------------



bool BaseOverlay::bind(NodeListener* listener) {

        logging_debug( "Binding node listener " << listener );



        // already bound? yes-> warning

        NodeListenerVector::iterator i =

                        find( nodeListeners.begin(), nodeListeners.end(), listener );

        if( i != nodeListeners.end() ) {

                logging_warn("Node listener " << listener << " is already bound!" );

                return false;

        }



        // no-> add

        nodeListeners.push_back( listener );

        return true;

}



bool BaseOverlay::unbind(NodeListener* listener) {

        logging_debug( "Unbinding node listener " << listener );



        // already unbound? yes-> warning

        NodeListenerVector::iterator i = find( nodeListeners.begin(), nodeListeners.end(), listener );

        if( i == nodeListeners.end() ) {

                logging_warn( "Node listener " << listener << " is not bound!" );

                return false;

        }



        // no-> remove

        nodeListeners.erase( i );

        return true;

}



// ----------------------------------------------------------------------------



void BaseOverlay::onLinkUp(const LinkID& id,

                const address_v* local, const address_v* remote) {

        logging_debug( "Link up with base communication link id=" << id );



        // get descriptor for link

        LinkDescriptor* ld = getDescriptor(id, true);



        // handle bootstrap link we initiated

        if( std::find(bootstrapLinks.begin(), bootstrapLinks.end(), id) != bootstrapLinks.end() ){

                logging_info(

                                "Join has been initiated by me and the link is now up. " <<

                                "Sending out join request for SpoVNet " << spovnetId.toString()

                );



                // send join request message

                OverlayMsg overlayMsg( OverlayMsg::typeJoinRequest,

                                OverlayInterface::OVERLAY_SERVICE_ID, nodeId );

                JoinRequest joinRequest( spovnetId, nodeId );

                overlayMsg.encapsulate( &joinRequest );

                bc->sendMessage( id, &overlayMsg );

                return;

        }



        // no link found? -> link establishment from remote, add one!

        if (ld == NULL) {

                ld = addDescriptor( id );

                logging_info( "onLinkUp (remote request) descriptor: " << ld );



                // update descriptor

                ld->fromRemote = true;

                ld->communicationId = id;

                ld->communicationUp = true;

                ld->setAutoUsed();

                ld->setAlive();



                // in this case, do not inform listener, since service it unknown

                // -> wait for update message!



                // link mapping found? -> send update message with node-id and service id

        } else {

                logging_info( "onLinkUp descriptor (initiated locally):" << ld );



                // update descriptor

                ld->setAutoUsed();

                ld->setAlive();

                ld->communicationUp = true;

                ld->fromRemote = false;



                // if link is a relayed link->convert to direct link

                if (ld->relayed) {

                        logging_info( "Converting to direct link: " << ld );

                        ld->up = true;

                        ld->relayed = false;

                        OverlayMsg overMsg( OverlayMsg::typeLinkDirect );

                        overMsg.setSourceLink( ld->overlayId );

                        overMsg.setDestinationLink( ld->remoteLink );

                        send_link( &overMsg, ld->overlayId );

                } else {

                        // note: necessary to validate the link on the remote side!

                        logging_info( "Sending out update" <<

                                        " for service " << ld->service.toString() <<

                                        " with local node id " << nodeId.toString() <<

                                        " on link " << ld->overlayId.toString() );



                        // compile and send update message

                        OverlayMsg overlayMsg( OverlayMsg::typeLinkUpdate );

                        overlayMsg.setSourceLink(ld->overlayId);

                        overlayMsg.setAutoLink( ld->autolink );

                        send_link( &overlayMsg, ld->overlayId, true );

                }

        }

}



void BaseOverlay::onLinkDown(const LinkID& id,

                const address_v* local, const address_v* remote) {



        // erase bootstrap links

        vector<LinkID>::iterator it = std::find( bootstrapLinks.begin(), bootstrapLinks.end(), id );

        if( it != bootstrapLinks.end() ) bootstrapLinks.erase( it );



        // get descriptor for link

        LinkDescriptor* ld = getDescriptor(id, true);

        if ( ld == NULL ) return; // not found? ->ignore!

        logging_info( "onLinkDown descriptor: " << ld );



        // removing relay link information

        removeRelayLink(ld->overlayId);



        // inform listeners about link down

        ld->communicationUp = false;

        if (!ld->service.isUnspecified()) {

                CommunicationListener* lst = getListener(ld->service);

                if(lst != NULL) lst->onLinkDown( ld->overlayId, ld->remoteNode );

                sideport->onLinkDown( id, this->nodeId, ld->remoteNode, this->spovnetId );

        }



        // delete all queued messages (auto links)

        if( ld->messageQueue.size() > 0 ) {

                logging_warn( "Dropping link " << id.toString() << " that has "

                                << ld->messageQueue.size() << " waiting messages" );

                ld->flushQueue();

        }



        // erase mapping

        eraseDescriptor(ld->overlayId);

}



void BaseOverlay::onLinkChanged(const LinkID& id,

                const address_v* oldlocal, const address_v* newlocal,

                const address_v* oldremote, const address_v* newremote) {



        // get descriptor for link

        LinkDescriptor* ld = getDescriptor(id, true);

        if ( ld == NULL ) return; // not found? ->ignore!

        logging_debug( "onLinkChanged descriptor: " << ld );



        // inform listeners

        ld->listener->onLinkChanged( ld->overlayId, ld->remoteNode );

        sideport->onLinkChanged( id, this->nodeId, ld->remoteNode, this->spovnetId );



        // autolinks: refresh timestamp

        ld->setAutoUsed();

}



void BaseOverlay::onLinkFail(const LinkID& id,

                const address_v* local, const address_v* remote) {

        logging_debug( "Link fail with base communication link id=" << id );



        // erase bootstrap links

        vector<LinkID>::iterator it = std::find( bootstrapLinks.begin(), bootstrapLinks.end(), id );

        if( it != bootstrapLinks.end() ) bootstrapLinks.erase( it );



        // get descriptor for link

        LinkDescriptor* ld = getDescriptor(id, true);

        if ( ld == NULL ) return; // not found? ->ignore!

        logging_debug( "Link failed id=" << ld->overlayId.toString() );



        // inform listeners

        ld->listener->onLinkFail( ld->overlayId, ld->remoteNode );

        sideport->onLinkFail( id, this->nodeId, ld->remoteNode, this->spovnetId );

}



void BaseOverlay::onLinkQoSChanged(const LinkID& id, const address_v* local,

                const address_v* remote, const QoSParameterSet& qos) {

        logging_debug( "Link quality changed with base communication link id=" << id );



        // get descriptor for link

        LinkDescriptor* ld = getDescriptor(id, true);

        if ( ld == NULL ) return; // not found? ->ignore!

        logging_debug( "Link quality changed id=" << ld->overlayId.toString() );

}



bool BaseOverlay::onLinkRequest( const LinkID& id, const address_v* local,

                const address_v* remote ) {

        logging_debug("Accepting link request from " << remote->to_string() );

        return true;

}



/// handles a message from base communication

bool BaseOverlay::receiveMessage(const Message* message,

                const LinkID& link, const NodeID& ) {

        // get descriptor for link

        LinkDescriptor* ld = getDescriptor( link, true );

        return handleMessage( message, ld, link );

}



// ----------------------------------------------------------------------------



/// Handle spovnet instance join requests

bool BaseOverlay::handleJoinRequest( OverlayMsg* overlayMsg, const LinkID& bcLink ) {



        // decapsulate message

        JoinRequest* joinReq = overlayMsg->decapsulate<JoinRequest>();

        logging_info( "Received join request for spovnet " <<

                        joinReq->getSpoVNetID().toString() );



        // check spovnet id

        if( joinReq->getSpoVNetID() != spovnetId ) {

                logging_error(

                                "Received join request for spovnet we don't handle " <<

                                joinReq->getSpoVNetID().toString() );

                return false;

        }



        // TODO: here you can implement mechanisms to deny joining of a node

        bool allow = true;

        logging_info( "Sending join reply for spovnet " <<

                        spovnetId.toString() << " to node " <<

                        overlayMsg->getSourceNode().toString() <<

                        ". Result: " << (allow ? "allowed" : "denied") );

        joiningNodes.push_back( overlayMsg->getSourceNode() );



        // return overlay parameters

        assert( overlayInterface != NULL );

        logging_debug( "Using bootstrap end-point "

                        << getEndpointDescriptor().toString() )

        OverlayParameterSet parameters = overlayInterface->getParameters();

        OverlayMsg retmsg( OverlayMsg::typeJoinReply,

                        OverlayInterface::OVERLAY_SERVICE_ID, nodeId );

        JoinReply replyMsg( spovnetId, parameters,

                        allow, getEndpointDescriptor() );

        retmsg.encapsulate(&replyMsg);

        bc->sendMessage( bcLink, &retmsg );



        return true;

}



/// Handle replies to spovnet instance join requests

bool BaseOverlay::handleJoinReply( OverlayMsg* overlayMsg, const LinkID& bcLink ) {

        // decapsulate message

        logging_debug("received join reply message");

        JoinReply* replyMsg = overlayMsg->decapsulate<JoinReply>();



        // correct spovnet?

        if( replyMsg->getSpoVNetID() != spovnetId ) { // no-> fail

                logging_error( "Received SpoVNet join reply for " <<

                                replyMsg->getSpoVNetID().toString() <<

                                " != " << spovnetId.toString() );

                delete replyMsg;

                return false;

        }



        // access granted? no -> fail

        if( !replyMsg->getJoinAllowed() ) {

                logging_error( "Our join request has been denied" );



                // drop initiator link

                if( !bcLink.isUnspecified() ){

                        bc->dropLink( bcLink );



                        vector<LinkID>::iterator it = std::find(

                                        bootstrapLinks.begin(), bootstrapLinks.end(), bcLink);

                        if( it != bootstrapLinks.end() )

                                bootstrapLinks.erase(it);

                }



                // inform all registered services of the event

                BOOST_FOREACH( NodeListener* i, nodeListeners )

                i->onJoinFailed( spovnetId );



                delete replyMsg;

                return true;

        }



        // access has been granted -> continue!

        logging_info("Join request has been accepted for spovnet " <<

                        spovnetId.toString() );



        logging_debug( "Using bootstrap end-point "

                        << replyMsg->getBootstrapEndpoint().toString() );



        // create overlay structure from spovnet parameter set

        // if we have not boostrapped yet against some other node

        if( overlayInterface == NULL ){



                logging_debug("first-time bootstrapping");



                overlayInterface = OverlayFactory::create(

                                *this, replyMsg->getParam(), nodeId, this );



                // overlay structure supported? no-> fail!

                if( overlayInterface == NULL ) {

                        logging_error( "overlay structure not supported" );



                        if( !bcLink.isUnspecified() ){

                                bc->dropLink( bcLink );



                                vector<LinkID>::iterator it = std::find(

                                                bootstrapLinks.begin(), bootstrapLinks.end(), bcLink);

                                if( it != bootstrapLinks.end() )

                                        bootstrapLinks.erase(it);

                        }



                        // inform all registered services of the event

                        BOOST_FOREACH( NodeListener* i, nodeListeners )

                        i->onJoinFailed( spovnetId );



                        delete replyMsg;

                        return true;

                }



                // everything ok-> join the overlay!

                state = BaseOverlayStateCompleted;

                overlayInterface->createOverlay();



                overlayInterface->joinOverlay( replyMsg->getBootstrapEndpoint() );

                overlayBootstrap.recordJoin( replyMsg->getBootstrapEndpoint() );



                // update ovlvis

                //ovl.visChangeNodeColor( ovlId, nodeId, OvlVis::NODE_COLORS_GREEN);



                // inform all registered services of the event

                BOOST_FOREACH( NodeListener* i, nodeListeners )

                i->onJoinCompleted( spovnetId );



                delete replyMsg;



        } else {



                // this is not the first bootstrap, just join the additional node

                logging_debug("not first-time bootstrapping");

                overlayInterface->joinOverlay( replyMsg->getBootstrapEndpoint() );

                overlayBootstrap.recordJoin( replyMsg->getBootstrapEndpoint() );



                delete replyMsg;



        } // if( overlayInterface == NULL )



        return true;

}





bool BaseOverlay::handleData( OverlayMsg* overlayMsg, LinkDescriptor* ld ) {

        // get service

        const ServiceID& service = overlayMsg->getService();

        logging_debug( "Received data for service " << service.toString()

                        << " on link " << overlayMsg->getDestinationLink().toString() );



        // delegate data message

        CommunicationListener* lst = getListener(service);

        if(lst != NULL){

                lst->onMessage(

                                overlayMsg,

                                overlayMsg->getSourceNode(),

                                overlayMsg->getDestinationLink()

                );

        }



        return true;

}





bool BaseOverlay::handleLinkUpdate( OverlayMsg* overlayMsg, LinkDescriptor* ld ) {



        if( ld == NULL ) {

                logging_warn( "received overlay update message for link for "

                                << "which we have no mapping" );

                return false;

        }

        logging_info("Received type update message on link " << ld );



        // update our link mapping information for this link

        bool changed =

                        ( ld->remoteNode != overlayMsg->getSourceNode() )

                        || ( ld->service != overlayMsg->getService() );



        // set parameters

        ld->up         = true;

        ld->remoteNode = overlayMsg->getSourceNode();

        ld->remoteLink = overlayMsg->getSourceLink();

        ld->service    = overlayMsg->getService();

        ld->autolink   = overlayMsg->isAutoLink();



        // if our link information changed, we send out an update, too

        if( changed ) {

                overlayMsg->swapRoles();

                overlayMsg->setSourceNode(nodeId);

                overlayMsg->setSourceLink(ld->overlayId);

                overlayMsg->setService(ld->service);

                send( overlayMsg, ld );

        }



        // service registered? no-> error!

        if( !communicationListeners.contains( ld->service ) ) {

                logging_warn( "Link up: event listener has not been registered" );

                return false;

        }



        // default or no service registered?

        CommunicationListener* listener = communicationListeners.get( ld->service );

        if( listener == NULL || listener == &CommunicationListener::DEFAULT ) {

                logging_warn("Link up: event listener is default or null!" );

                return true;

        }



        // update descriptor

        ld->listener = listener;

        ld->setAutoUsed();

        ld->setAlive();



        // ask the service whether it wants to accept this link

        if( !listener->onLinkRequest(ld->remoteNode) ) {



                logging_debug("Link id=" << ld->overlayId.toString() <<

                                " has been denied by service " << ld->service.toString() << ", dropping link");



                // prevent onLinkDown calls to the service

                ld->listener = &CommunicationListener::DEFAULT;



                // drop the link

                dropLink( ld->overlayId );

                return true;

        }



        // set link up

        ld->up = true;

        logging_info( "Link has been accepted by service and is up: " << ld );



        // auto links: link has been accepted -> send queued messages

        if( ld->messageQueue.size() > 0 ) {

                logging_info( "Sending out queued messages on link " << ld );

                BOOST_FOREACH( Message* msg, ld->messageQueue ) {

                        sendMessage( msg, ld->overlayId );

                        delete msg;

                }

                ld->messageQueue.clear();

        }



        // call the notification functions

        listener->onLinkUp( ld->overlayId, ld->remoteNode );

        sideport->onLinkUp( ld->overlayId, nodeId, ld->remoteNode, this->spovnetId );



        return true;

}



/// handle a link request and reply

bool BaseOverlay::handleLinkRequest( OverlayMsg* overlayMsg, LinkDescriptor* ld ) {

        logging_info( "Link request received from node id=" << overlayMsg->getSourceNode() );



        //TODO: Check if a request has already been sent using getSourceLink() ...



        // create link descriptor

        LinkDescriptor* ldn = addDescriptor();



        // flags

        ldn->up = true;

        ldn->fromRemote = true;

        ldn->relayed = true;



        // parameters

        ldn->service = overlayMsg->getService();

        ldn->listener = getListener(ldn->service);

        ldn->remoteNode = overlayMsg->getSourceNode();

        ldn->remoteLink = overlayMsg->getSourceLink();



        // update time-stamps

        ldn->setAlive();

        ldn->setAutoUsed();



        // create reply message and send back!

        overlayMsg->swapRoles(); // swap source/destination

        overlayMsg->setType(OverlayMsg::typeLinkReply);

        overlayMsg->setSourceLink(ldn->overlayId);

        overlayMsg->setSourceEndpoint( bc->getEndpointDescriptor() );

        overlayMsg->setRelayed(true);

        send( overlayMsg, ld ); // send back to link



        // inform listener

        if(ldn != NULL && ldn->listener != NULL)

                ldn->listener->onLinkUp( ldn->overlayId, ldn->remoteNode );



        return true;

}



bool BaseOverlay::handleLinkReply( OverlayMsg* overlayMsg, LinkDescriptor* ld ) {



        // find link request

        LinkDescriptor* ldn = getDescriptor(overlayMsg->getDestinationLink());



        // not found? yes-> drop with error!

        if (ldn == NULL) {

                logging_error( "No link request pending for "

                                << overlayMsg->getDestinationLink().toString() );

                return false;

        }

        logging_debug("Handling link reply for " << ldn )



        // check if already up

        if (ldn->up) {

                logging_warn( "Link already up: " << ldn );

                return true;

        }



        // debug message

        logging_debug( "Link request reply received. Establishing link"

                        << " for service " << overlayMsg->getService().toString()

                        << " with local id=" << overlayMsg->getDestinationLink()

                        << " and remote link id=" << overlayMsg->getSourceLink()

                        << " to " << overlayMsg->getSourceEndpoint().toString()

        );



        // set local link descriptor data

        ldn->up = true;

        ldn->relayed = true;

        ldn->service = overlayMsg->getService();

        ldn->listener = getListener(ldn->service);

        ldn->remoteLink = overlayMsg->getSourceLink();

        ldn->remoteNode = overlayMsg->getSourceNode();



        // update timestamps

        ldn->setAlive();

        ldn->setAutoUsed();



        // auto links: link has been accepted -> send queued messages

        if( ldn->messageQueue.size() > 0 ) {

                logging_info( "Sending out queued messages on link " <<

                                ldn->overlayId.toString() );

                BOOST_FOREACH( Message* msg, ldn->messageQueue ) {

                        sendMessage( msg, ldn->overlayId );

                        delete msg;

                }

                ldn->messageQueue.clear();

        }



        // inform listeners about new link

        ldn->listener->onLinkUp( ldn->overlayId, ldn->remoteNode );



        // try to replace relay link with direct link

        ldn->retryCounter = 3;

        ldn->endpoint = overlayMsg->getSourceEndpoint();

        ldn->communicationId =  bc->establishLink( ldn->endpoint );



        return true;

}



/// handle a keep-alive message for a link

bool BaseOverlay::handleLinkAlive( OverlayMsg* overlayMsg, LinkDescriptor* ld ) {

        LinkDescriptor* rld = getDescriptor(overlayMsg->getDestinationLink());

        if ( rld != NULL ) {

                logging_debug("Keep-Alive for " <<

                                overlayMsg->getDestinationLink() );

                if (overlayMsg->isRouteRecord())

                        rld->routeRecord = overlayMsg->getRouteRecord();

                rld->setAlive();

                return true;

        } else {

                logging_error("Keep-Alive for "

                                << overlayMsg->getDestinationLink() << ": link unknown." );

                return false;

        }

}



/// handle a direct link message

bool BaseOverlay::handleLinkDirect( OverlayMsg* overlayMsg, LinkDescriptor* ld ) {

        logging_debug( "Received direct link replacement request" );



        /// get destination overlay link

        LinkDescriptor* rld = getDescriptor( overlayMsg->getDestinationLink() );

        if (rld == NULL || ld == NULL) {

                logging_error("Direct link replacement: Link "

                                << overlayMsg->getDestinationLink() << "not found error." );

                return false;

        }

        logging_info( "Received direct link convert notification for " << rld );



        // update information

        rld->communicationId = ld->communicationId;

        rld->communicationUp = true;

        rld->relayed = false;



        // mark used and alive!

        rld->setAlive();

        rld->setAutoUsed();



        // erase the original descriptor

        eraseDescriptor(ld->overlayId);

        return true;

}



/// handles an incoming message

bool BaseOverlay::handleMessage( const Message* message, LinkDescriptor* ld,

                const LinkID bcLink ) {

        logging_debug( "Handling message: " << message->toString());



        // decapsulate overlay message

        OverlayMsg* overlayMsg =

                        const_cast<Message*>(message)->decapsulate<OverlayMsg>();

        if( overlayMsg == NULL ) return false;



        // increase number of hops

        overlayMsg->increaseNumHops();



        // refresh relay information

        refreshRelayInformation( overlayMsg, ld );



        // update route record

        overlayMsg->addRouteRecord(nodeId);



        // handle dht messages (do not route)

        if (overlayMsg->isDHTMessage())

                return handleDHTMessage(overlayMsg);



        // handle signaling messages (do not route!)

        if (overlayMsg->getType()>=OverlayMsg::typeSignalingStart &&

                        overlayMsg->getType()<=OverlayMsg::typeSignalingEnd ) {

                overlayInterface->onMessage(overlayMsg, NodeID::UNSPECIFIED, LinkID::UNSPECIFIED);

                delete overlayMsg;

                return true;

        }



        // message for reached destination? no-> route message

        if (!overlayMsg->getDestinationNode().isUnspecified() &&

                        overlayMsg->getDestinationNode() != nodeId ) {

                logging_debug("Routing message "

                                << " from " << overlayMsg->getSourceNode()

                                << " to " << overlayMsg->getDestinationNode()

                );

                route( overlayMsg );

                delete overlayMsg;

                return true;

        }



        // handle DHT response messages

        if (overlayMsg->hasTypeMask( OverlayMsg::maskDHTResponse )) {

                bool ret = handleDHTMessage(overlayMsg);

                delete overlayMsg;

                return ret;

        }



        // handle base overlay message

        bool ret = false; // return value

        switch ( overlayMsg->getType() ) {



        // data transport messages

        case OverlayMsg::typeData:

                ret = handleData(overlayMsg, ld);                       break;



                // overlay setup messages

        case OverlayMsg::typeJoinRequest:

                ret = handleJoinRequest(overlayMsg, bcLink );   break;

        case OverlayMsg::typeJoinReply:

                ret = handleJoinReply(overlayMsg, bcLink );     break;



                // link specific messages

        case OverlayMsg::typeLinkRequest:

                ret = handleLinkRequest(overlayMsg, ld );       break;

        case OverlayMsg::typeLinkReply:

                ret = handleLinkReply(overlayMsg, ld );         break;

        case OverlayMsg::typeLinkUpdate:

                ret = handleLinkUpdate(overlayMsg, ld );        break;

        case OverlayMsg::typeLinkAlive:

                ret = handleLinkAlive(overlayMsg, ld );         break;

        case OverlayMsg::typeLinkDirect:

                ret = handleLinkDirect(overlayMsg, ld );        break;



                // handle unknown message type

        default: {

                logging_error( "received message in invalid state! don't know " <<

                                "what to do with this message of type " << overlayMsg->getType() );

                ret = false;

                break;

        }

        }



        // free overlay message and return value

        delete overlayMsg;

        return ret;

}



// ----------------------------------------------------------------------------



void BaseOverlay::broadcastMessage(Message* message, const ServiceID& service) {



        logging_debug( "broadcasting message to all known nodes " <<

                        "in the overlay from service " + service.toString() );



        OverlayInterface::NodeList nodes = overlayInterface->getKnownNodes(true);

        OverlayInterface::NodeList::iterator i = nodes.begin();

        for(; i != nodes.end(); i++ ) {

                if( *i == nodeId) continue; // don't send to ourselfs

                sendMessage( message, *i, service );

        }

}



/// return the overlay neighbors

vector<NodeID> BaseOverlay::getOverlayNeighbors(bool deep) const {

        // the known nodes _can_ also include our node, so we remove ourself

        vector<NodeID> nodes = overlayInterface->getKnownNodes(deep);

        vector<NodeID>::iterator i = find( nodes.begin(), nodes.end(), this->nodeId );

        if( i != nodes.end() ) nodes.erase( i );

        return nodes;

}



const NodeID& BaseOverlay::getNodeID(const LinkID& lid) const {

        if( lid == LinkID::UNSPECIFIED ) return nodeId;

        const LinkDescriptor* ld = getDescriptor(lid);

        if( ld == NULL ) return NodeID::UNSPECIFIED;

        else return ld->remoteNode;

}



vector<LinkID> BaseOverlay::getLinkIDs( const NodeID& nid ) const {

        vector<LinkID> linkvector;

        BOOST_FOREACH( LinkDescriptor* ld, links ) {

                if( ld->remoteNode == nid || nid == NodeID::UNSPECIFIED ) {

                        linkvector.push_back( ld->overlayId );

                }

        }

        return linkvector;

}





void BaseOverlay::onNodeJoin(const NodeID& node) {

        JoiningNodes::iterator i = std::find( joiningNodes.begin(), joiningNodes.end(), node );

        if( i == joiningNodes.end() ) return;



        logging_info( "node has successfully joined baseoverlay and overlay structure "

                        << node.toString() );



        joiningNodes.erase( i );

}



void BaseOverlay::eventFunction() {

        stabilizeRelays();

        stabilizeLinks();

        stabilizeDHT();

        updateVisual();

}



void BaseOverlay::updateVisual(){



        //

        // update base overlay structure

        //



        static NodeID pre = NodeID::UNSPECIFIED;

        static NodeID suc = NodeID::UNSPECIFIED;



        vector<NodeID> nodes = this->getOverlayNeighbors(false);



        if(nodes.size() == 0){



                if(pre != NodeID::UNSPECIFIED){

                        visual.visDisconnect(visualIdOverlay, this->nodeId, pre, "");

                        pre = NodeID::UNSPECIFIED;

                }

                if(suc != NodeID::UNSPECIFIED){

                        visual.visDisconnect(visualIdOverlay, this->nodeId, suc, "");

                        suc = NodeID::UNSPECIFIED;

                }



        } // if(nodes.size() == 0)



        if(nodes.size() == 1){

                // only one node, make this pre and succ

                // and then go into the node.size()==2 case

                //nodes.push_back(nodes.at(0));



                if(pre != nodes.at(0)){

                        pre = nodes.at(0);

                        if(pre != NodeID::UNSPECIFIED)

                                visual.visConnect(visualIdOverlay, this->nodeId, pre, "");

                }

        }



        if(nodes.size() == 2){



                // old finger

                if(nodes.at(0) != pre){

                        if(pre != NodeID::UNSPECIFIED)

                                visual.visDisconnect(visualIdOverlay, this->nodeId, pre, "");

                        pre = NodeID::UNSPECIFIED;

                }

                if(nodes.at(1) != suc){

                        if(suc != NodeID::UNSPECIFIED)

                                visual.visDisconnect(visualIdOverlay, this->nodeId, suc, "");

                        suc = NodeID::UNSPECIFIED;

                }



                // connect with fingers

                if(pre == NodeID::UNSPECIFIED){

                        pre = nodes.at(0);

                        if(pre != NodeID::UNSPECIFIED)

                                visual.visConnect(visualIdOverlay, this->nodeId, pre, "");

                }

                if(suc == NodeID::UNSPECIFIED){

                        suc = nodes.at(1);

                        if(suc != NodeID::UNSPECIFIED)

                                visual.visConnect(visualIdOverlay, this->nodeId, suc, "");

                }



        } //if(nodes.size() == 2)



//      {

//              logging_error("================================");

//              logging_error("my nodeid " << nodeId.get(MAX_KEYLENGTH-16, 16));

//              logging_error("================================");

//              if(nodes.size()>= 1){

//                      logging_error("real pre " << nodes.at(0).toString());

//                      logging_error("real pre " << nodes.at(0).get(MAX_KEYLENGTH-16, 16));

//              }

//              if(nodes.size()>= 2){

//                      logging_error("real suc " << nodes.at(1).toString());

//                      logging_error("real suc " << nodes.at(1).get(MAX_KEYLENGTH-16, 16));

//              }

//              logging_error("================================");

//              if(pre == NodeID::UNSPECIFIED){

//                      logging_error("pre: unspecified");

//              }else{

//                      unsigned int prei = pre.get(MAX_KEYLENGTH-16, 16);

//                      logging_error("pre: " << prei);

//              }

//              if(suc == NodeID::UNSPECIFIED){

//                      logging_error("suc: unspecified");

//              }else{

//                      unsigned int suci = suc.get(MAX_KEYLENGTH-16, 16);

//                      logging_error("suc: " << suci);

//              }

//              logging_error("================================");

//      }



        //

        // update base communication links

        //



        static set<NodeID> linkset;

        set<NodeID> remotenodes;

        BOOST_FOREACH( LinkDescriptor* ld, links ) {

                if (!ld->isVital() || ld->service != OverlayInterface::OVERLAY_SERVICE_ID)

                        continue;



                if (ld->routeRecord.size()>1 && ld->relayed) {

                        for (size_t i=1; i<ld->routeRecord.size(); i++)

                                remotenodes.insert( ld->routeRecord[ld->routeRecord.size()-i-1] );

                } else {

                        remotenodes.insert(ld->remoteNode);

                }

        }



        // which links are old and need deletion?

        bool changed = false;



        do{

                changed = false;

                BOOST_FOREACH(NodeID n, linkset){

                        if(remotenodes.find(n) == remotenodes.end()){

                                visual.visDisconnect(visualIdBase, this->nodeId, n, "");

                                linkset.erase(n);

                                changed = true;

                                break;

                        }

                }

        }while(changed);



        // which links are new and need creation?

        do{

                changed = false;

                BOOST_FOREACH(NodeID n, remotenodes){

                        if(linkset.find(n) == linkset.end()){

                                visual.visConnect(visualIdBase, this->nodeId, n, "");

                                linkset.insert(n);

                                changed = true;

                                break;

                        }

                }

        }while(changed);



}



// ----------------------------------------------------------------------------



void BaseOverlay::initDHT() {

        dht = new DHT();

        localDHT = new DHT();

        republishCounter = 0;

}



void BaseOverlay::destroyDHT() {

        delete dht;

        delete localDHT;

}



/// stabilize DHT state

void BaseOverlay::stabilizeDHT() {



        // do refresh every 2 seconds

        if (republishCounter < 2) {

                republishCounter++;

                return;

        }

        republishCounter = 0;



        // remove old values from DHT

        BOOST_FOREACH( DHTEntry& entry, dht->entries ) {

                // erase old entries

                entry.erase_expired_entries();

        }



        // re-publish values-> do not refresh locally stored values

        BOOST_FOREACH( DHTEntry& entry, localDHT->entries ) {

                BOOST_FOREACH( ValueEntry& value, entry.values )

                        dhtPut(entry.key, value.get_value(), value.get_ttl(), false, true );

        }

}



// handle DHT messages

bool BaseOverlay::handleDHTMessage( OverlayMsg* msg ) {



        // de-capsulate message

        logging_debug("Received DHT message");

        DHTMessage* dhtMsg = msg->decapsulate<DHTMessage>();



        // handle DHT data message

        if (msg->getType()==OverlayMsg::typeDHTData) {

                const ServiceID& service = msg->getService();

                logging_info( "Received DHT data for service " << service.toString() );



                // delegate data message

                CommunicationListener* lst = getListener(service);

                if(lst != NULL) lst->onKeyValue(dhtMsg->getKey(), dhtMsg->getValues() );

                return true;

        }



        // route message to closest node

        if (!overlayInterface->isClosestNodeTo(msg->getDestinationNode())) {

                logging_debug("Routing DHT message to closest node "

                        << " from " << msg->getSourceNode()

                        << " to " << msg->getDestinationNode()

                );

                route( msg );

                delete msg;

                return true;

        }



        // now, we are the closest node...

        switch (msg->getType()) {



        // ----------------------------------------------------------------- put ---

        case OverlayMsg::typeDHTPut: {

                logging_debug("DHT-Put: Attempt to store values for key "

                                << dhtMsg->getKey());

                if (dhtMsg->doReplace()) {

                        logging_debug("DHT-Put: Attempt to replace key: remove old values first!");

                        dht->remove(dhtMsg->getKey());

                }

                BOOST_FOREACH( Data value, dhtMsg->getValues() ) {

                        logging_debug("DHT-Put: Stored value: " << value );

                        dht->put(dhtMsg->getKey(), value, dhtMsg->getTTL() );

                }

                break;

        }



        // ----------------------------------------------------------------- get ---

        case OverlayMsg::typeDHTGet: {

                logging_info("DHT-Get: key=" << dhtMsg->getKey() );

                vector<Data> vect = dht->get(dhtMsg->getKey());

                BOOST_FOREACH(const Data& d, vect)

                        logging_info("DHT-Get: value=" << d);

                OverlayMsg omsg(*msg);

                omsg.swapRoles();

                omsg.setType(OverlayMsg::typeDHTData);

                DHTMessage dhtmsg(dhtMsg->getKey(), vect);

                omsg.encapsulate(&dhtmsg);

                dhtSend(&omsg, omsg.getDestinationNode());

                break;

        }



        // -------------------------------------------------------------- remove ---

        case OverlayMsg::typeDHTRemove: {

                if (dhtMsg->hasValues()) {

                        BOOST_FOREACH( Data value, dhtMsg->getValues() )

                                                        dht->remove(dhtMsg->getKey(), value );

                } else

                        dht->remove( dhtMsg->getKey() );

                break;

        }



        // -------------------------------------------------------------- default---

        default:

                logging_error("DHT Message type unknown.");

                return false;

        }

        delete msg;

        return true;

}



/// put a value to the DHT with a ttl given in seconds

void BaseOverlay::dhtPut( const Data& key, const Data& value, int ttl, bool replace, bool no_local_refresh ) {



        // log

        logging_info("DHT-Put:"

                << " key=" << key << " value=" << value

                << " ttl=" << ttl << " replace=" << replace

        );



        if (!no_local_refresh) {



                // put into local data store (for refreshes)

                if (replace) localDHT->remove(key);

                localDHT->put(key, value, ttl);

        }



        // calculate hash

        NodeID dest = NodeID::sha1(key.getBuffer(), key.getLength() / 8);

        DHTMessage dhtmsg( key, value );

        dhtmsg.setReplace( replace );

        dhtmsg.setTTL(ttl);



        OverlayMsg msg( OverlayMsg::typeDHTPut );

        msg.encapsulate( &dhtmsg );

        dhtSend(&msg, dest);

}



/// removes a key value pair from the DHT

void BaseOverlay::dhtRemove( const Data& key, const Data& value ) {

        // remove from local data store

        localDHT->remove(key,value);



        // calculate hash

        NodeID dest = NodeID::sha1(key.getBuffer(), key.getLength() / 8);

        DHTMessage dhtmsg(key,value);



        // send message

        OverlayMsg msg(OverlayMsg::typeDHTRemove);

        msg.encapsulate( &dhtmsg );

        dhtSend(&msg, dest);

}



/// removes all data stored at the given key

void BaseOverlay::dhtRemove( const Data& key ) {

        // log: remove key

        logging_info("DHT-Remove: Removing key=" << key );



        // calculate hash

        NodeID dest = NodeID::sha1(key.getBuffer(), key.getLength() / 8);

        DHTMessage dhtmsg(key);



        // send message

        OverlayMsg msg(OverlayMsg::typeDHTRemove);

        msg.encapsulate( &dhtmsg );

        dhtSend(&msg, dest);

}



/// requests data stored using key

void BaseOverlay::dhtGet( const Data& key, const ServiceID& service ) {

        // log: remove get

        logging_info("DHT-Get: Trying to resolve key=" <<

                        key << " for service=" << service.toString() );



        // calculate hash

        NodeID dest = NodeID::sha1(key.getBuffer(), key.getLength() / 8);

        DHTMessage dhtmsg(key);



        // send message

        OverlayMsg msg(OverlayMsg::typeDHTGet);

        msg.setService(service);

        msg.encapsulate( &dhtmsg );

        dhtSend(&msg, dest);

}



void BaseOverlay::dhtSend( OverlayMsg* msg, const NodeID& dest ) {

        // log: dht send

        logging_info("DHT-Send: Sending message with key=" << dest.toString() );



        /// set source and destination

        msg->setSourceNode(this->nodeId);

        msg->setDestinationNode(dest);



        // local storage? yes-> put into DHT directly

        if (overlayInterface->isClosestNodeTo(msg->getDestinationNode())) {

                Data d = data_serialize(msg);

                Message* m2 = new Message(d);

                OverlayMsg* m3 = m2->decapsulate<OverlayMsg>();

                handleDHTMessage(m3);

                delete m2;

                return;

        }



        // send message "normally"

        send( msg, dest );

}



std::string BaseOverlay::debugInformation() {

        std::stringstream s;

        int i=0;



        // dump overlay information

        s << "Long debug info ... [see below]" << endl << endl;

        s << "--- overlay information ----------------------" << endl;

        s << overlayInterface->debugInformation() << endl;



        // dump link state

        s << "--- link state -------------------------------" << endl;

        BOOST_FOREACH( LinkDescriptor* ld, links ) {

                s << "link " << i << ": " << ld << endl;

                i++;

        }

        s << endl << endl;



        return s.str();

}



}} // namespace ariba, overlay