computation/update of routing probabilities

git-svn-id: http://svn.code.sf.net/p/retroshare/code/trunk@6899 b45a01b8-16f6-495d-af2f-9b41ad6348cc
This commit is contained in:
csoler 2013-11-08 22:22:40 +00:00
parent 2e5069cc2a
commit d2ddf9c4c4
4 changed files with 92 additions and 18 deletions

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@ -23,6 +23,7 @@
* *
*/ */
#include "groutertypes.h"
#include "groutermatrix.h" #include "groutermatrix.h"
GRouterMatrix::GRouterMatrix() GRouterMatrix::GRouterMatrix()
@ -46,12 +47,43 @@ bool GRouterMatrix::addRoutingClue( const GRouterKeyId& key_id,const GRouterServ
rc.time_stamp = now ; rc.time_stamp = now ;
rc.friend_id = fid ; rc.friend_id = fid ;
_routing_clues[key_id].push_front(rc) ; // create it if necessary std::list<RoutingMatrixHitEntry>& lst( _routing_clues[key_id] ) ;
// Prevent flooding. Happens in two scenarii:
// 1 - a user restarts RS very often => keys get republished for some reason
// 2 - a user intentionnaly floods a key
//
if(!lst.empty() && lst.front().time_stamp + RS_GROUTER_MATRIX_MIN_TIME_BETWEEN_HITS > now)
{
std::cerr << "GRouterMatrix::addRoutingClue(): too clues for key " << key_id.toStdString() << " in a small interval of " << now - lst.front().time_stamp << " seconds. Flooding?" << std::endl;
return false ;
}
lst.push_front(rc) ; // create it if necessary
// Remove older elements
//
uint32_t sz = lst.size() ; // O(n)!
for(uint32_t i=RS_GROUTER_MATRIX_MAX_HIT_ENTRIES;i<sz;++i)
{
lst.pop_back() ;
std::cerr << "Poped one entry" << std::endl;
}
_proba_need_updating = true ; // always, since we added new clues. _proba_need_updating = true ; // always, since we added new clues.
return true ; return true ;
} }
uint32_t GRouterMatrix::getFriendId_const(const SSLIdType& source_friend) const
{
std::map<SSLIdType,uint32_t>::const_iterator it = _friend_indices.find(source_friend) ;
if(it == _friend_indices.end())
return _reverse_friend_indices.size() ;
else
return it->second ;
}
uint32_t GRouterMatrix::getFriendId(const SSLIdType& source_friend) uint32_t GRouterMatrix::getFriendId(const SSLIdType& source_friend)
{ {
std::map<SSLIdType,uint32_t>::const_iterator it = _friend_indices.find(source_friend) ; std::map<SSLIdType,uint32_t>::const_iterator it = _friend_indices.find(source_friend) ;
@ -73,6 +105,7 @@ uint32_t GRouterMatrix::getFriendId(const SSLIdType& source_friend)
void GRouterMatrix::debugDump() const void GRouterMatrix::debugDump() const
{ {
std::cerr << " Proba needs up: " << _proba_need_updating << std::endl; std::cerr << " Proba needs up: " << _proba_need_updating << std::endl;
std::cerr << " Known keys: " << _time_combined_hits.size() << std::endl;
std::cerr << " Routing events: " << std::endl; std::cerr << " Routing events: " << std::endl;
time_t now = time(NULL) ; time_t now = time(NULL) ;
@ -84,7 +117,7 @@ void GRouterMatrix::debugDump() const
std::cerr << std::endl; std::cerr << std::endl;
} }
std::cerr << " Routing probabilities: " << std::endl; std::cerr << " Routing values: " << std::endl;
for(std::map<GRouterKeyId, std::vector<float> >::const_iterator it(_time_combined_hits.begin());it!=_time_combined_hits.end();++it) for(std::map<GRouterKeyId, std::vector<float> >::const_iterator it(_time_combined_hits.begin());it!=_time_combined_hits.end();++it)
{ {
@ -96,7 +129,7 @@ void GRouterMatrix::debugDump() const
} }
} }
bool GRouterMatrix::computeRoutingProbabilities(const GRouterKeyId& id, const std::vector<SSLIdType>& friends, std::vector<float>& probas) const bool GRouterMatrix::computeRoutingProbabilities(const GRouterKeyId& key_id, const std::list<SSLIdType>& friends, std::map<SSLIdType,float>& probas) const
{ {
// Routing probabilities are computed according to routing clues // Routing probabilities are computed according to routing clues
// //
@ -107,6 +140,38 @@ bool GRouterMatrix::computeRoutingProbabilities(const GRouterKeyId& id, const st
// Then for a given list of online friends, the weights are computed into probabilities, // Then for a given list of online friends, the weights are computed into probabilities,
// that always sum up to 1. // that always sum up to 1.
// //
if(_proba_need_updating)
std::cerr << "GRouterMatrix::computeRoutingProbabilities(): matrix is not up to date. Not a real problem, but still..." << std::endl;
probas.clear() ;
float total = 0.0f ;
std::map<GRouterKeyId,std::vector<float> >::const_iterator it2 = _time_combined_hits.find(key_id) ;
if(it2 == _time_combined_hits.end())
{
std::cerr << "GRouterMatrix::computeRoutingProbabilities(): key id " << key_id.toStdString() << " does not exist!" << std::endl;
return false ;
}
const std::vector<float>& w(it2->second) ;
for(std::list<SSLIdType>::const_iterator it(friends.begin());it!=friends.end();++it)
{
uint32_t findex = getFriendId_const(*it) ;
if(findex >= w.size())
probas[*it] = 0.0f ;
else
{
probas[*it] = w[findex] ;
total += w[findex] ;
}
}
if(total > 0.0f)
for(std::map<SSLIdType,float>::iterator it(probas.begin());it!=probas.end();++it)
it->second /= total ;
return true ; return true ;
} }

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@ -49,11 +49,7 @@ class GRouterMatrix
// the computation accounts for the time at which the info was received and the // the computation accounts for the time at which the info was received and the
// weight of each routing hit record. // weight of each routing hit record.
// //
bool computeRoutingProbabilities(const GRouterKeyId& id, const std::vector<SSLIdType>& friends, std::vector<float>& probas) const ; bool computeRoutingProbabilities(const GRouterKeyId& id, const std::list<SSLIdType>& friends, std::map<SSLIdType,float>& probas) const ;
// Remove oldest entries.
//
bool autoWash() ;
// Update routing probabilities for each key, accounting for all received events, but without // Update routing probabilities for each key, accounting for all received events, but without
// activity information // activity information
@ -69,12 +65,18 @@ class GRouterMatrix
void debugDump() const ; void debugDump() const ;
private: private:
// returns the friend id, possibly creating a new id.
//
uint32_t getFriendId(const SSLIdType& id) ; uint32_t getFriendId(const SSLIdType& id) ;
// returns the friend id. If not exist, returns _reverse_friend_indices.size()
//
uint32_t getFriendId_const(const SSLIdType& id) const;
// List of events received and computed routing probabilities // List of events received and computed routing probabilities
// //
std::map<GRouterKeyId, std::list<RoutingMatrixHitEntry> > _routing_clues ; std::map<GRouterKeyId, std::list<RoutingMatrixHitEntry> > _routing_clues ;
std::map<GRouterKeyId, std::vector<float> > _time_combined_hits ; // hit matrix after time-convolution filter std::map<GRouterKeyId, std::vector<float> > _time_combined_hits ; // hit matrix after time-convolution filter
// This is used to avoid re-computing probas when new events have been received. // This is used to avoid re-computing probas when new events have been received.
// //

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@ -25,5 +25,20 @@
#pragma once #pragma once
#include <stdint.h>
#include <time.h>
typedef uint32_t GRouterServiceId ; typedef uint32_t GRouterServiceId ;
typedef uint32_t GRouterKeyPropagationId ; typedef uint32_t GRouterKeyPropagationId ;
static const uint32_t RS_GROUTER_MATRIX_MAX_HIT_ENTRIES = 5;
static const uint32_t RS_GROUTER_MATRIX_MIN_TIME_BETWEEN_HITS = 60; // can be set to up to half the publish time interval. Prevents flooding routes.
static const time_t RS_GROUTER_DEBUG_OUTPUT_PERIOD = 20 ; // Output everything
static const time_t RS_GROUTER_AUTOWASH_PERIOD = 60 ; // Autowash every minute. Not a costly operation.
//static const time_t RS_GROUTER_PUBLISH_CAMPAIGN_PERIOD = 10*60 ; // Check for key advertising every 10 minutes
//static const time_t RS_GROUTER_PUBLISH_KEY_TIME_INTERVAL = 24*60*60 ; // Advertise each key once a day at most.
static const time_t RS_GROUTER_PUBLISH_CAMPAIGN_PERIOD = 1 *60 ; // Check for key advertising every 10 minutes
static const time_t RS_GROUTER_PUBLISH_KEY_TIME_INTERVAL = 2 *60 ; // Advertise each key once a day at most.

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@ -29,13 +29,7 @@
#include "p3grouter.h" #include "p3grouter.h"
#include "grouteritems.h" #include "grouteritems.h"
#include "groutertypes.h"
static const time_t RS_GROUTER_DEBUG_OUTPUT_PERIOD = 20 ; // Output everything
static const time_t RS_GROUTER_AUTOWASH_PERIOD = 60 ; // Autowash every minute. Not a costly operation.
//static const time_t RS_GROUTER_PUBLISH_CAMPAIGN_PERIOD = 10*60 ; // Check for key advertising every 10 minutes
//static const time_t RS_GROUTER_PUBLISH_KEY_TIME_INTERVAL = 24*60*60 ; // Advertise each key once a day at most.
static const time_t RS_GROUTER_PUBLISH_CAMPAIGN_PERIOD = 1 *60 ; // Check for key advertising every 10 minutes
static const time_t RS_GROUTER_PUBLISH_KEY_TIME_INTERVAL = 2 *60 ; // Advertise each key once a day at most.
p3GRouter::p3GRouter(p3LinkMgr *lm) p3GRouter::p3GRouter(p3LinkMgr *lm)
: p3Service(RS_SERVICE_TYPE_GROUTER), p3Config(CONFIG_TYPE_GROUTER), mLinkMgr(lm), grMtx("GRouter") : p3Service(RS_SERVICE_TYPE_GROUTER), p3Config(CONFIG_TYPE_GROUTER), mLinkMgr(lm), grMtx("GRouter")
@ -321,8 +315,6 @@ void p3GRouter::debugDump()
std::cerr << " Routing matrix: " << std::endl; std::cerr << " Routing matrix: " << std::endl;
_routing_matrix.debugDump() ; _routing_matrix.debugDump() ;
std::cerr << " Routing probabilities: " << std::endl;
} }