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RetroShare/libretroshare/src/gxs/rsgxsnetservice.cc

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merged with latest trunk
2016-01-01 15:15:19 -05:00
/*
* libretroshare/src/gxs: rsgxnetservice.cc
*
* Access to rs network and synchronisation service implementation
*
* Copyright 2012-2012 by Christopher Evi-Parker
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License Version 2 as published by the Free Software Foundation.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
* USA.
*
* Please report all bugs and problems to "retroshare@lunamutt.com".
*
*/
//
// RsNxsItem
// |
// +-- RsNxsSyncGrp send req for group list, with time stamp of what we have
// +-- RsNxsSyncMsg
// +-- RsNxsGroupPublishKeyItem
// +-- RsNxsSyncGrpItem send individual grp info with time stamps, authors, etc.
//
//
// tick()
// |
// +----------- sharePublishKeys()
// |
// +----------- syncWithPeers()
// | |
// | +--if AutoSync--- send global UpdateTS of each peer to itself => the peer knows the last
// | | time current peer has received an updated from himself
// | | type=RsNxsSyncGrp
// | | role: advise to request grp list for mServType
// | |
// | +--Retrive all grp Id + meta
// |
// | For each peer
// | For each grp to request
// | send RsNxsSyncMsg(ServiceType, grpId, updateTS)
// | |
// | (Only send if rand() < sendingProb()) +---comes from mClientMsgUpdateMap
// |
// +----------- recvNxsItemQueue()
// |
// +------ handleRecvPublishKeys(auto*)
// |
// |
// |
// +------ handleRecvSyncGroup( RsNxsSyncGrp*)
// | - parse all subscribed groups. For each, send a RsNxsSyncGrpItem with publish TS
// | - pack into a single RsNxsTransac item
// | |
// | +---- canSendGrpId(peer, grpMeta, toVet) // determines if put in vetting list
// | | | // or sent right away
// | | +--CIRCLES_TYPE_LOCAL------- false
// | | +--CIRCLES_TYPE_PUBLIC------ true
// | | +--CIRCLES_TYPE_EXTERNAL---- mCircles->canSend(circleId, getPgpId(peerId))
// | | +--CIRCLES_TYPE_YOUR_EYES--- internal circle stuff
// | |
// | +---- store in mPendingCircleVet ou directement locked_pushGrpRespFromList()
// |
// +------ handleRecvSyncMessage( RsNxsSyncMsg*)
// - parse msgs from group
// - send all msg IDs for this group
// data_tick()
// |
// +----------- updateServerSyncTS()
// | - retrieve all group meta data
// | - updates mServerMsgUpdateMap[grpId]=grp->mLastPostTS for all grps
// | - updates mGrpServerUpdateItem to max of all received TS
// |
// +----------- processTransactions()
// |
// +----------- processCompletedTransactions()
// | |
// | +------ locked_processCompletedIncomingTrans()
// | | |
// | | +-------- locked_genReqMsgTransaction() // request messages based on list
// | | |
// | | +-------- locked_genReqGrpTransaction() // request groups based on list
// | | |
// | | +-------- locked_genSendMsgsTransaction() // send msg list
// | | |
// | | +-------- locked_genSendGrpsTransaction() // send group list
// | |
// | +------ locked_processCompletedOutgoingTrans()
// |
// +----------- processExplicitGroupRequests()
// | - parse mExplicitRequest and for each element (containing a grpId list),
// | send the group ID (?!?!)
// |
// +----------- runVetting()
// |
// +--------- sort items from mPendingResp
// | |
// | +------ locked_createTransactionFromPending(GrpRespPending / MsgRespPending)
// | | // takes accepted transaction and adds them to the list of active trans
// |
// +--------- sort items from mPendingCircleVetting
// |
// +------ locked_createTransactionFromPending(GrpCircleIdsRequestVetting / MsgCircleIdsRequestVetting)
// // takes accepted transaction and adds them to the list of active trans
//
// Objects for time stamps
// =======================
//
// mClientGrpUpdateMap: map< RsPeerId, TimeStamp > Time stamp of last modification of group data for that peer (in peer's clock time!)
// (Set at server side to be mGrpServerUpdateItem->grpUpdateTS)
//
// Only updated in processCompletedIncomingTransaction() from Grp list transaction.
// Used in syncWithPeers() sending in RsNxsSyncGrp once to all peers: peer will send data if
// has something new. All time comparisons are in the friends' clock time.
//
// mClientMsgUpdateMap: map< RsPeerId, map<grpId,TimeStamp > >
//
// Last msg list modification time sent by that peer Id
// Updated in processCompletedIncomingTransaction() from Grp list trans.
// Used in syncWithPeers() sending in RsNxsSyncGrp once to all peers.
// Set at server to be mServerMsgUpdateMap[grpId]->msgUpdateTS
//
// mGrpServerUpdateItem: TimeStamp Last group local modification timestamp over all groups
//
// mServerMsgUpdateMap: map< GrpId, TimeStamp > Timestamp local modification for each group (i.e. time of most recent msg / metadata update)
//
//
// Group update algorithm
// ======================
//
// CLient Server
// ====== ======
//
// tick() tick()
// | |
// +---- SyncWithPeers +-- recvNxsItemQueue()
// | |
// +---------------- Send global UpdateTS of each peer to itself => the peer knows +---------> +------ handleRecvSyncGroup( RsNxsSyncGrp*)
// | the last msg sent (stored in mClientGrpUpdateMap[peer_id]), | | - parse all subscribed groups. For each, send a RsNxsSyncGrpItem with publish TS
// | type=RsNxsSyncGrp | | - pack into a single RsNxsTransac item
// | role: advise to request grp list for mServType -------------------+ |
// | +--> +------ handleRecvSyncMessage( RsNxsSyncMsg*)
// +---------------- Retrieve all grp Id + meta | - parse msgs from group
// | | - send all msg IDs for this group
// +-- For each peer |
// For each grp to request |
// send RsNxsSyncMsg(ServiceType, grpId, updateTS) |
// | |
// (Only send if rand() < sendingProb()) +---comes from mClientMsgUpdateMap -----+
//
// Suggestions
// ===========
// * handleRecvSyncGroup should use mit->second.mLastPost to limit the sending of already known data
// X * apparently mServerMsgUpdateMap is initially empty -> by default clients will always want to receive the data.
// => new peers will always send data for each group until they get an update for that group.
// X * check that there is a timestamp for unsubscribed items, otherwise we always send TS=0 and we always get them!! (in 346)
//
// -> there is not. mClientMsgUpdateMap is updated when msgs are received.
// -> 1842: leaves before asking for msg content.
//
// Proposed changes:
// - for unsubsribed groups, mClientMsgUpdateMap[peerid][grpId]=now when the group list is received => wont be asked again
// - when we subscribe, we reset the time stamp.
//
// Better change:
// - each peer sends last
//
// * the last TS method is not perfect: do new peers always receive old messages?
//
// * there's double information between mServerMsgUpdateMap first element (groupId) and second->grpId
// * processExplicitGroupRequests() seems to send the group list that it was asked for without further information. How is that useful???
//
// * grps without messages will never be stamped because stamp happens in genReqMsgTransaction, after checking msgListL.empty()
// Problem: without msg, we cannot know the grpId!!
//
// * mClientMsgUpdateMap[peerid][grpId] is only updated when new msgs are received. Up to date groups will keep asking for lists!
#include <unistd.h>
#include <sys/time.h>
#include <math.h>
#include <sstream>
#include "rsgxsnetservice.h"
#include "gxssecurity.h"
#include "retroshare/rsconfig.h"
#include "retroshare/rsreputations.h"
#include "retroshare/rsgxsflags.h"
#include "retroshare/rsgxscircles.h"
#include "pgp/pgpauxutils.h"
#include "util/rsmemory.h"
/***
* Use the following defines to debug:
NXS_NET_DEBUG_0 shows group update high level information
NXS_NET_DEBUG_1 shows group update low level info (including transaction details)
NXS_NET_DEBUG_2 bandwidth information
NXS_NET_DEBUG_3 publish key exchange
NXS_NET_DEBUG_4 vetting
NXS_NET_DEBUG_5 summary of transactions (useful to just know what comes in/out)
added debug output for encryption/decryption of transactions
2016-01-03 17:33:14 -05:00
NXS_NET_DEBUG_6
NXS_NET_DEBUG_7 encryption/decryption of transactions
merged with upstream/master
2016-01-13 20:52:55 -05:00
merged with latest trunk
2016-01-01 15:15:19 -05:00
***/
fixed compilation
2016-02-10 22:18:55 -05:00
#define NXS_NET_DEBUG_0 1
merged with latest trunk
2016-01-01 15:15:19 -05:00
//#define NXS_NET_DEBUG_1 1
//#define NXS_NET_DEBUG_2 1
//#define NXS_NET_DEBUG_3 1
called re-loading of circles after creation. Added debug info in msg vetting
2016-02-11 21:59:45 -05:00
#define NXS_NET_DEBUG_4 1
#define NXS_NET_DEBUG_5 1
merged with latest trunk
2016-01-01 15:15:19 -05:00
//#define NXS_NET_DEBUG_6 1
added debug output for encryption/decryption of transactions
2016-01-03 17:33:14 -05:00
#define NXS_NET_DEBUG_7 1
merged with latest trunk
2016-01-01 15:15:19 -05:00
#define GIXS_CUT_OFF 0
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
2016-01-18 23:53:06 -05:00
//#define NXS_FRAG
merged with latest trunk
2016-01-01 15:15:19 -05:00
// The constant below have a direct influence on how fast forums/channels/posted/identity groups propagate and on the overloading of queues:
//
// Channels/forums will update at a rate of SYNC_PERIOD*MAX_REQLIST_SIZE/60 messages per minute.
// A large TRANSAC_TIMEOUT helps large transactions to finish before anything happens (e.g. disconnexion) or when the server has low upload bandwidth,
// but also uses more memory.
// A small value for MAX_REQLIST_SIZE is likely to help messages to propagate in a chaotic network, but will also slow them down.
// A small SYNC_PERIOD fasten message propagation, but is likely to overload the server side of transactions (e.g. overload outqueues).
//
#define SYNC_PERIOD 60
#define MAX_REQLIST_SIZE 20 // No more than 20 items per msg request list => creates smaller transactions that are less likely to be cancelled.
#define TRANSAC_TIMEOUT 2000 // In seconds. Has been increased to avoid epidemic transaction cancelling due to overloaded outqueues.
#define SECURITY_DELAY_TO_FORCE_CLIENT_REUPDATE 3600 // force re-update if there happens to be a large delay between our server side TS and the client side TS of friends
#define REJECTED_MESSAGE_RETRY_DELAY 24*3600 // re-try rejected messages every 24hrs. Most of the time this is because the peer's reputation has changed.
fixed update of GroupNetworkStats and proper reset when loadList is called (thx Jo)
2016-02-03 18:58:28 -05:00
#define GROUP_STATS_UPDATE_DELAY 240 // update unsubscribed group statistics every 3 mins
#define GROUP_STATS_UPDATE_NB_PEERS 2 // number of peers to which the group stats are asked
increased GXS post size limit to just below 200K
2016-01-19 21:45:55 -05:00
#define MAX_ALLOWED_GXS_MESSAGE_SIZE 199000 // 200,000 bytes including signature and headers
merged with latest trunk
2016-01-01 15:15:19 -05:00
// Debug system to allow to print only for some IDs (group, Peer, etc)
added debug output for encryption/decryption of transactions
2016-01-03 17:33:14 -05:00
#if defined(NXS_NET_DEBUG_0) || defined(NXS_NET_DEBUG_1) || defined(NXS_NET_DEBUG_2) || defined(NXS_NET_DEBUG_3) \
|| defined(NXS_NET_DEBUG_4) || defined(NXS_NET_DEBUG_5) || defined(NXS_NET_DEBUG_6) || defined(NXS_NET_DEBUG_7)
merged with latest trunk
2016-01-01 15:15:19 -05:00
static const RsPeerId peer_to_print = RsPeerId(std::string("")) ;
called re-loading of circles after creation. Added debug info in msg vetting
2016-02-11 21:59:45 -05:00
static const RsGxsGroupId group_id_to_print = RsGxsGroupId(std::string("2cd04bbf91e29b1f1b87aa9aa4e358f3" )) ; // use this to allow to this group id only, or "" for all IDs
added automatic GXS message rejection when item size exceeds 200K. Should fix the forums that got stuck because of a large message not being sent
2016-01-19 10:13:24 -05:00
static const uint32_t service_to_print = 0x215 ; // use this to allow to this service id only, or 0 for all services
merged with latest trunk
2016-01-01 15:15:19 -05:00
// warning. Numbers should be SERVICE IDS (see serialiser/rsserviceids.h. E.g. 0x0215 for forums)
class nullstream: public std::ostream {};
added debug output for encryption/decryption of transactions
2016-01-03 17:33:14 -05:00
#if defined(NXS_NET_DEBUG_0) || defined(NXS_NET_DEBUG_1) || defined(NXS_NET_DEBUG_2) || defined(NXS_NET_DEBUG_3) \
|| defined(NXS_NET_DEBUG_4) || defined(NXS_NET_DEBUG_5) || defined(NXS_NET_DEBUG_6) || defined(NXS_NET_DEBUG_7)
merged with upstream/master
2016-01-13 20:52:55 -05:00
merged with latest trunk
2016-01-01 15:15:19 -05:00
static std::string nice_time_stamp(time_t now,time_t TS)
{
if(TS == 0)
return "Never" ;
else
{
std::ostringstream s;
s << now - TS << " secs ago" ;
return s.str() ;
}
}
#endif
static std::ostream& gxsnetdebug(const RsPeerId& peer_id,const RsGxsGroupId& grp_id,uint32_t service_type)
{
static nullstream null ;
if((peer_to_print.isNull() || peer_id.isNull() || peer_id == peer_to_print)
&& (group_id_to_print.isNull() || grp_id.isNull() || grp_id == group_id_to_print)
&& (service_to_print==0 || service_type == 0 || ((service_type >> 8)&0xffff) == service_to_print))
return std::cerr << time(NULL) << ": " ;
else
return null ;
}
#define GXSNETDEBUG___ gxsnetdebug(RsPeerId(),RsGxsGroupId(),mServiceInfo.mServiceType)
#define GXSNETDEBUG_P_(peer_id ) gxsnetdebug(peer_id ,RsGxsGroupId(),mServiceInfo.mServiceType)
#define GXSNETDEBUG__G( group_id) gxsnetdebug(RsPeerId(),group_id ,mServiceInfo.mServiceType)
#define GXSNETDEBUG_PG(peer_id,group_id) gxsnetdebug(peer_id ,group_id ,mServiceInfo.mServiceType)
#endif
const uint32_t RsGxsNetService::FRAGMENT_SIZE = 150000;
RsGxsNetService::RsGxsNetService(uint16_t servType, RsGeneralDataService *gds,
RsNxsNetMgr *netMgr, RsNxsObserver *nxsObs,
fixed compilation of RsNxsTransaction encryption code
2016-01-01 21:37:27 -05:00
const RsServiceInfo serviceInfo,
RsGixsReputation* reputations, RsGcxs* circles, RsGixs *gixs,
PgpAuxUtils *pgpUtils, bool grpAutoSync,bool msgAutoSync)
merged with latest trunk
2016-01-01 15:15:19 -05:00
: p3ThreadedService(), p3Config(), mTransactionN(0),
fixed compilation of RsNxsTransaction encryption code
2016-01-01 21:37:27 -05:00
mObserver(nxsObs),mGixs(gixs), mDataStore(gds), mServType(servType),
merged with latest trunk
2016-01-01 15:15:19 -05:00
mTransactionTimeOut(TRANSAC_TIMEOUT), mNetMgr(netMgr), mNxsMutex("RsGxsNetService"),
mSyncTs(0), mLastKeyPublishTs(0),mLastCleanRejectedMessages(0), mSYNC_PERIOD(SYNC_PERIOD), mCircles(circles), mReputations(reputations),
mPgpUtils(pgpUtils),
mGrpAutoSync(grpAutoSync),mAllowMsgSync(msgAutoSync), mGrpServerUpdateItem(NULL),
mServiceInfo(serviceInfo)
{
addSerialType(new RsNxsSerialiser(mServType));
mOwnId = mNetMgr->getOwnId();
mUpdateCounter = 0;
}
RsGxsNetService::~RsGxsNetService()
{
RS_STACK_MUTEX(mNxsMutex) ;
for(TransactionsPeerMap::iterator it = mTransactions.begin();it!=mTransactions.end();++it)
{
for(TransactionIdMap::iterator it2 = it->second.begin();it2!=it->second.end();++it2)
delete it2->second ;
it->second.clear() ;
}
mTransactions.clear() ;
delete mGrpServerUpdateItem ;
for(ClientGrpMap::iterator it = mClientGrpUpdateMap.begin();it!=mClientGrpUpdateMap.end();++it)
delete it->second ;
mClientGrpUpdateMap.clear() ;
for(std::map<RsGxsGroupId, RsGxsServerMsgUpdateItem*>::iterator it(mServerMsgUpdateMap.begin());it!=mServerMsgUpdateMap.end();)
delete it->second ;
mServerMsgUpdateMap.clear() ;
}
int RsGxsNetService::tick()
{
// always check for new items arriving
// from peers
if(receivedItems())
recvNxsItemQueue();
bool should_notify = false;
{
RS_STACK_MUTEX(mNxsMutex) ;
should_notify = should_notify || !mNewGroupsToNotify.empty() ;
should_notify = should_notify || !mNewMessagesToNotify.empty() ;
}
if(should_notify)
processObserverNotifications() ;
time_t now = time(NULL);
time_t elapsed = mSYNC_PERIOD + mSyncTs;
if((elapsed) < now)
{
syncWithPeers();
syncGrpStatistics();
mSyncTs = now;
}
if(now > 10 + mLastKeyPublishTs)
{
sharePublishKeysPending() ;
mLastKeyPublishTs = now ;
}
if(now > 3600 + mLastCleanRejectedMessages)
{
mLastCleanRejectedMessages = now ;
cleanRejectedMessages() ;
}
return 1;
}
void RsGxsNetService::processObserverNotifications()
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG___ << "Processing observer notification." << std::endl;
#endif
std::vector<RsNxsGrp*> grps_copy ;
std::vector<RsNxsMsg*> msgs_copy ;
{
RS_STACK_MUTEX(mNxsMutex) ;
grps_copy = mNewGroupsToNotify ;
msgs_copy = mNewMessagesToNotify ;
mNewGroupsToNotify.clear() ;
mNewMessagesToNotify.clear() ;
}
mObserver->notifyNewGroups(grps_copy);
mObserver->notifyNewMessages(msgs_copy);
}
void RsGxsNetService::rejectMessage(const RsGxsMessageId& msg_id)
{
RS_STACK_MUTEX(mNxsMutex) ;
mRejectedMessages[msg_id] = time(NULL) ;
}
void RsGxsNetService::cleanRejectedMessages()
{
RS_STACK_MUTEX(mNxsMutex) ;
time_t now = time(NULL) ;
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG___ << "Cleaning rejected messages." << std::endl;
#endif
for(std::map<RsGxsMessageId,time_t>::iterator it(mRejectedMessages.begin());it!=mRejectedMessages.end();)
if(it->second + REJECTED_MESSAGE_RETRY_DELAY < now)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG___ << " message id " << it->first << " should be re-tried. removing from list..." << std::endl;
#endif
std::map<RsGxsMessageId,time_t>::iterator tmp = it ;
++tmp ;
mRejectedMessages.erase(it) ;
it=tmp ;
}
else
++it ;
}
// This class collects outgoing items due to the broadcast of Nxs messages. It computes
// a probability that can be used to temper the broadcast of items so as to match the
// residual bandwidth (difference between max allowed bandwidth and current outgoing rate.
class NxsBandwidthRecorder
{
public:
static const int OUTQUEUE_CUTOFF_VALUE = 500 ;
static const int BANDWIDTH_ESTIMATE_DELAY = 20 ;
static void recordEvent(uint16_t service_type, RsItem *item)
{
RS_STACK_MUTEX(mtx) ;
uint32_t bw = RsNxsSerialiser(service_type).size(item) ; // this is used to estimate bandwidth.
timeval tv ;
gettimeofday(&tv,NULL) ;
// compute time(NULL) in msecs, for a more accurate bw estimate.
uint64_t now = (uint64_t) tv.tv_sec * 1000 + tv.tv_usec/1000 ;
total_record += bw ;
++total_events ;
#ifdef NXS_NET_DEBUG_2
std::cerr << "bandwidthRecorder::recordEvent() Recording event time=" << now << ". bw=" << bw << std::endl;
#endif
// Every 20 seconds at min, compute a new estimate of the required bandwidth.
if(now > last_event_record + BANDWIDTH_ESTIMATE_DELAY*1000)
{
// Compute the bandwidth using recorded times, in msecs
float speed = total_record/1024.0f/(now - last_event_record)*1000.0f ;
// Apply a small temporal convolution.
estimated_required_bandwidth = 0.75*estimated_required_bandwidth + 0.25 * speed ;
#ifdef NXS_NET_DEBUG_2
std::cerr << std::dec << " " << total_record << " Bytes (" << total_events << " items)"
<< " received in " << now - last_event_record << " seconds. Speed: " << speed << " KBytes/sec" << std::endl;
std::cerr << " instantaneous speed = " << speed << " KB/s" << std::endl;
std::cerr << " cumulated estimated = " << estimated_required_bandwidth << " KB/s" << std::endl;
#endif
last_event_record = now ;
total_record = 0 ;
total_events = 0 ;
}
}
// Estimate the probability of sending an item so that the expected bandwidth matches the residual bandwidth
static float computeCurrentSendingProbability()
{
int maxIn=50,maxOut=50;
float currIn=0,currOut=0 ;
rsConfig->GetMaxDataRates(maxIn,maxOut) ;
rsConfig->GetCurrentDataRates(currIn,currOut) ;
RsConfigDataRates rates ;
rsConfig->getTotalBandwidthRates(rates) ;
#ifdef NXS_NET_DEBUG_2
std::cerr << std::dec << std::endl;
#endif
float outqueue_factor = 1.0f/pow( std::max(0.02f,rates.mQueueOut / (float)OUTQUEUE_CUTOFF_VALUE),5.0f) ;
float accepted_bandwidth = std::max( 0.0f, maxOut - currOut) ;
float max_bandwidth_factor = std::min( accepted_bandwidth / estimated_required_bandwidth,1.0f ) ;
// We account for two things here:
// 1 - the required max bandwidth
// 2 - the current network overload, measured from the size of the outqueues.
//
// Only the later can limit the traffic if the internet connexion speed is responsible for outqueue overloading.
float sending_probability = std::min(outqueue_factor,max_bandwidth_factor) ;
#ifdef NXS_NET_DEBUG_2
std::cerr << "bandwidthRecorder::computeCurrentSendingProbability()" << std::endl;
std::cerr << " current required bandwidth : " << estimated_required_bandwidth << " KB/s" << std::endl;
std::cerr << " max_bandwidth_factor : " << max_bandwidth_factor << std::endl;
std::cerr << " outqueue size : " << rates.mQueueOut << ", factor=" << outqueue_factor << std::endl;
std::cerr << " max out : " << maxOut << ", currOut=" << currOut << std::endl;
std::cerr << " computed probability : " << sending_probability << std::endl;
#endif
return sending_probability ;
}
private:
static RsMutex mtx;
static uint64_t last_event_record ;
static float estimated_required_bandwidth ;
static uint32_t total_events ;
static uint64_t total_record ;
};
uint32_t NxsBandwidthRecorder::total_events =0 ; // total number of events. Not used.
uint64_t NxsBandwidthRecorder::last_event_record = time(NULL) * 1000;// starting time of bw estimate period (in msec)
uint64_t NxsBandwidthRecorder::total_record =0 ; // total bytes recorded in the current time frame
float NxsBandwidthRecorder::estimated_required_bandwidth = 10.0f ;// Estimated BW for sending sync data. Set to 10KB/s, to avoid 0.
RsMutex NxsBandwidthRecorder::mtx("Bandwidth recorder") ; // Protects the recorder since bw events are collected from multiple GXS Net services
// temporary holds a map of pointers to class T, and destroys all pointers on delete.
template<class T>
class RsGxsMetaDataTemporaryMap: public std::map<RsGxsGroupId,T*>
{
public:
virtual ~RsGxsMetaDataTemporaryMap()
{
clear() ;
}
virtual void clear()
{
for(typename RsGxsMetaDataTemporaryMap<T>::iterator it = this->begin();it!=this->end();++it)
if(it->second != NULL)
delete it->second ;
std::map<RsGxsGroupId,T*>::clear() ;
}
};
void RsGxsNetService::syncWithPeers()
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG___ << "RsGxsNetService::syncWithPeers() this=" << (void*)this << ". serviceInfo=" << mServiceInfo << std::endl;
#endif
static RsNxsSerialiser ser(mServType) ; // this is used to estimate bandwidth.
RS_STACK_MUTEX(mNxsMutex) ;
std::set<RsPeerId> peers;
mNetMgr->getOnlineList(mServiceInfo.mServiceType, peers);
if (peers.empty()) {
// nothing to do
return;
}
std::set<RsPeerId>::iterator sit = peers.begin();
// for now just grps
for(; sit != peers.end(); ++sit)
{
const RsPeerId peerId = *sit;
ClientGrpMap::const_iterator cit = mClientGrpUpdateMap.find(peerId);
uint32_t updateTS = 0;
if(cit != mClientGrpUpdateMap.end())
{
const RsGxsGrpUpdateItem *gui = cit->second;
updateTS = gui->grpUpdateTS;
}
RsNxsSyncGrpReqItem *grp = new RsNxsSyncGrpReqItem(mServType);
grp->clear();
grp->PeerId(*sit);
grp->updateTS = updateTS;
removed sending probability in GXS since it is not justified anymore. This should fix peers not being updated because they have very low bandwidth. Removed and fixed a few minor warnings.
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//NxsBandwidthRecorder::recordEvent(mServType,grp) ;
merged with latest trunk
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#ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_P_(*sit) << "Service "<< std::hex << ((mServiceInfo.mServiceType >> 8)& 0xffff) << std::dec << " sending global group TS of peer id: " << *sit << " ts=" << nice_time_stamp(time(NULL),updateTS) << " (secs ago) to himself" << std::endl;
#endif
sendItem(grp);
}
if(!mAllowMsgSync)
return ;
#ifndef GXS_DISABLE_SYNC_MSGS
typedef RsGxsMetaDataTemporaryMap<RsGxsGrpMetaData> GrpMetaMap;
GrpMetaMap grpMeta;
mDataStore->retrieveGxsGrpMetaData(grpMeta);
GrpMetaMap toRequest;
for(GrpMetaMap::iterator mit = grpMeta.begin(); mit != grpMeta.end(); ++mit)
{
RsGxsGrpMetaData* meta = mit->second;
// This was commented out because we want to know how many messages are available for unsubscribed groups.
if(meta->mSubscribeFlags & GXS_SERV::GROUP_SUBSCRIBE_SUBSCRIBED )
{
toRequest.insert(std::make_pair(mit->first, meta));
mit->second = NULL ; // avoids destruction ;-)
}
}
sit = peers.begin();
removed sending probability in GXS since it is not justified anymore. This should fix peers not being updated because they have very low bandwidth. Removed and fixed a few minor warnings.
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// Jan. 26, 2016. This has been disabled, since GXS has been fixed, groups will not re-ask for data. So even if outqueues are filled up by multiple
// attempts of the same request, the transfer will eventually end up. The code for NxsBandwidthRecorder should be kept for a while,
// just in case.
// float sending_probability = NxsBandwidthRecorder::computeCurrentSendingProbability() ;
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#ifdef NXS_NET_DEBUG_2
std::cerr << " syncWithPeers(): Sending probability = " << sending_probability << std::endl;
#endif
// Synchronise group msg for groups which we're subscribed to
// For each peer and each group, we send to the peer the time stamp of the most
// recent modification the peer has sent. If the peer has more recent messages he will send them, because its latest
// modifications will be more recent. This ensures that we always compare timestamps all taken in the same
// computer (the peer's computer in this case)
for(; sit != peers.end(); ++sit)
{
const RsPeerId& peerId = *sit;
// now see if you have an updateTS so optimise whether you need
// to get a new list of peer data
RsGxsMsgUpdateItem* mui = NULL;
ClientMsgMap::const_iterator cit = mClientMsgUpdateMap.find(peerId);
if(cit != mClientMsgUpdateMap.end())
mui = cit->second;
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(peerId) << " syncing messages with peer " << peerId << std::endl;
#endif
GrpMetaMap::const_iterator mmit = toRequest.begin();
for(; mmit != toRequest.end(); ++mmit)
{
const RsGxsGrpMetaData* meta = mmit->second;
const RsGxsGroupId& grpId = mmit->first;
if(!checkCanRecvMsgFromPeer(peerId, *meta))
continue;
// On default, the info has never been received so the TS is 0, meaning the peer has sent that it had no information.
uint32_t updateTS = 0;
if(mui)
{
std::map<RsGxsGroupId, RsGxsMsgUpdateItem::MsgUpdateInfo>::const_iterator cit2 = mui->msgUpdateInfos.find(grpId);
if(cit2 != mui->msgUpdateInfos.end())
updateTS = cit2->second.time_stamp;
}
RsNxsSyncMsgReqItem* msg = new RsNxsSyncMsgReqItem(mServType);
msg->clear();
msg->PeerId(peerId);
msg->grpId = grpId;
msg->updateTS = updateTS;
removed sending probability in GXS since it is not justified anymore. This should fix peers not being updated because they have very low bandwidth. Removed and fixed a few minor warnings.
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//NxsBandwidthRecorder::recordEvent(mServType,msg) ;
merged with latest trunk
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removed sending probability in GXS since it is not justified anymore. This should fix peers not being updated because they have very low bandwidth. Removed and fixed a few minor warnings.
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//if(RSRandom::random_f32() < sending_probability)
//{
sendItem(msg);
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#ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_PG(*sit,grpId) << "Service "<< std::hex << ((mServiceInfo.mServiceType >> 8)& 0xffff) << std::dec << " sending global message TS of peer id: " << *sit << " ts=" << nice_time_stamp(time(NULL),updateTS) << " (secs ago) for group " << grpId << " to himself" << std::endl;
#endif
removed sending probability in GXS since it is not justified anymore. This should fix peers not being updated because they have very low bandwidth. Removed and fixed a few minor warnings.
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//}
//else
//{
// delete msg ;
//#ifdef NXS_NET_DEBUG_0
// GXSNETDEBUG_PG(*sit,grpId) << " cancel RsNxsSyncMsg req (last local update TS for group+peer) for grpId=" << grpId << " to peer " << *sit << ": not enough bandwidth." << std::endl;
//#endif
//}
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}
}
#endif
}
void RsGxsNetService::syncGrpStatistics()
{
RS_STACK_MUTEX(mNxsMutex) ;
#ifdef NXS_NET_DEBUG_6
GXSNETDEBUG___<< "Sync-ing group statistics." << std::endl;
#endif
RsGxsMetaDataTemporaryMap<RsGxsGrpMetaData> grpMeta;
mDataStore->retrieveGxsGrpMetaData(grpMeta);
std::set<RsPeerId> online_peers;
mNetMgr->getOnlineList(mServiceInfo.mServiceType, online_peers);
// Go through group statistics and groups without information are re-requested to random peers selected
// among the ones who provided the group info.
time_t now = time(NULL) ;
for(std::map<RsGxsGroupId,RsGxsGrpMetaData*>::const_iterator it(grpMeta.begin());it!=grpMeta.end();++it)
{
RsGroupNetworkStatsRecord& rec(mGroupNetworkStats[it->first]) ;
#ifdef NXS_NET_DEBUG_6
GXSNETDEBUG__G(it->first) << " group " << it->first ;
#endif
if(rec.update_TS + GROUP_STATS_UPDATE_DELAY < now && rec.suppliers.size() > 0)
{
#ifdef NXS_NET_DEBUG_6
GXSNETDEBUG__G(it->first) << " needs update. Randomly asking to some friends" << std::endl;
#endif
removed [dos] LF from rsgxsnetservice (causes merging rampage)
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// randomly select GROUP_STATS_UPDATE_NB_PEERS friends among the suppliers of this group
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uint32_t n = RSRandom::random_u32() % rec.suppliers.size() ;
std::set<RsPeerId>::const_iterator rit = rec.suppliers.begin();
for(uint32_t i=0;i<n;++i)
++rit ;
for(uint32_t i=0;i<std::min(rec.suppliers.size(),(size_t)GROUP_STATS_UPDATE_NB_PEERS);++i)
{
removed [dos] LF from rsgxsnetservice (causes merging rampage)
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// we started at a random position in the set, wrap around if the end is reached
if(rit == rec.suppliers.end())
rit = rec.suppliers.begin() ;
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RsPeerId peer_id = *rit ;
++rit ;
if(online_peers.find(peer_id) != online_peers.end()) // check that the peer is online
{
#ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG(peer_id,it->first) << " asking friend " << peer_id << " for an update of stats for group " << it->first << std::endl;
#endif
RsNxsSyncGrpStatsItem *grs = new RsNxsSyncGrpStatsItem(mServType) ;
grs->request_type = RsNxsSyncGrpStatsItem::GROUP_INFO_TYPE_REQUEST ;
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grs->grpId = it->first ;
grs->PeerId(peer_id) ;
sendItem(grs) ;
}
}
}
#ifdef NXS_NET_DEBUG_6
else
GXSNETDEBUG__G(it->first) << " up to date." << std::endl;
#endif
}
}
void RsGxsNetService::handleRecvSyncGrpStatistics(RsNxsSyncGrpStatsItem *grs)
{
if(grs->request_type == RsNxsSyncGrpStatsItem::GROUP_INFO_TYPE_REQUEST)
{
#ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG(grs->PeerId(),grs->grpId) << "Received Grp update stats Request for group " << grs->grpId << " from friend " << grs->PeerId() << std::endl;
#endif
RsGxsMetaDataTemporaryMap<RsGxsGrpMetaData> grpMetas;
grpMetas[grs->grpId] = NULL;
mDataStore->retrieveGxsGrpMetaData(grpMetas);
RsGxsGrpMetaData* grpMeta = grpMetas[grs->grpId];
if(grpMeta == NULL)
{
#ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG(grs->PeerId(),grs->grpId) << " Group is unknown. Not reponding." << std::endl;
#endif
return ;
}
// check if we're subscribed or not
if(! (grpMeta->mSubscribeFlags & GXS_SERV::GROUP_SUBSCRIBE_SUBSCRIBED ))
{
#ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG(grs->PeerId(),grs->grpId) << " Group is not subscribed. Not reponding." << std::endl;
#endif
return ;
}
// now count available messages
GxsMsgReq reqIds;
reqIds[grs->grpId] = std::vector<RsGxsMessageId>();
GxsMsgMetaResult result;
#ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG(grs->PeerId(),grs->grpId) << " retrieving message information." << std::endl;
#endif
mDataStore->retrieveGxsMsgMetaData(reqIds, result);
const std::vector<RsGxsMsgMetaData*>& vec(result[grs->grpId]) ;
if(vec.empty()) // that means we don't have any, or there isn't any, but since the default is always 0, no need to send.
return ;
RsNxsSyncGrpStatsItem *grs_resp = new RsNxsSyncGrpStatsItem(mServType) ;
grs_resp->request_type = RsNxsSyncGrpStatsItem::GROUP_INFO_TYPE_RESPONSE ;
grs_resp->number_of_posts = vec.size();
grs_resp->grpId = grs->grpId;
grs_resp->PeerId(grs->PeerId()) ;
grs_resp->last_post_TS = 0 ;
for(uint32_t i=0;i<vec.size();++i)
{
if(grs_resp->last_post_TS < vec[i]->mPublishTs)
grs_resp->last_post_TS = vec[i]->mPublishTs;
delete vec[i] ;
}
#ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG(grs->PeerId(),grs->grpId) << " sending back statistics item with " << vec.size() << " elements." << std::endl;
#endif
sendItem(grs_resp) ;
}
else if(grs->request_type == RsNxsSyncGrpStatsItem::GROUP_INFO_TYPE_RESPONSE)
{
#ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG(grs->PeerId(),grs->grpId) << "Received Grp update stats item from peer " << grs->PeerId() << " for group " << grs->grpId << ", reporting " << grs->number_of_posts << " posts." << std::endl;
#endif
RS_STACK_MUTEX(mNxsMutex) ;
RsGroupNetworkStatsRecord& rec(mGroupNetworkStats[grs->grpId]) ;
int32_t old_count = rec.max_visible_count ;
int32_t old_suppliers_count = rec.suppliers.size() ;
rec.suppliers.insert(grs->PeerId()) ;
rec.max_visible_count = std::max(rec.max_visible_count,grs->number_of_posts) ;
rec.update_TS = time(NULL) ;
if (old_count != rec.max_visible_count || old_suppliers_count != rec.suppliers.size())
mObserver->notifyChangedGroupStats(grs->grpId);
}
else
std::cerr << "(EE) RsGxsNetService::handleRecvSyncGrpStatistics(): unknown item type " << grs->request_type << " found. This is a bug." << std::endl;
}
void RsGxsNetService::subscribeStatusChanged(const RsGxsGroupId& grpId,bool subscribed)
{
RS_STACK_MUTEX(mNxsMutex) ;
if(!subscribed)
return ;
// When we subscribe, we reset the time stamps, so that the entire group list
// gets requested once again, for a proper update.
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG__G(grpId) << "Changing subscribe status for grp " << grpId << " to " << subscribed << ": reseting all server msg time stamps for this group, and server global TS." << std::endl;
#endif
std::map<RsGxsGroupId,RsGxsServerMsgUpdateItem*>::iterator it = mServerMsgUpdateMap.find(grpId) ;
if(mServerMsgUpdateMap.end() == it)
{
RsGxsServerMsgUpdateItem *item = new RsGxsServerMsgUpdateItem(mServType) ;
item->grpId = grpId ;
item->msgUpdateTS = 0 ;
}
else
it->second->msgUpdateTS = 0 ; // reset!
removed feedback from messages to mGrpServerUpdateTS, which is now only updated when the subscribe status is changed and/or new groups are received/created
2016-01-20 23:56:22 -05:00
// We also update mGrpServerUpdateItem so as to trigger a new grp list exchange with friends (friends will send their known ClientTS which
// will be lower than our own grpUpdateTS, triggering our sending of the new subscribed grp list.
if(mGrpServerUpdateItem == NULL)
mGrpServerUpdateItem = new RsGxsServerGrpUpdateItem(mServType);
mGrpServerUpdateItem->grpUpdateTS = time(NULL) ;
merged with latest trunk
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}
bool RsGxsNetService::fragmentMsg(RsNxsMsg& msg, MsgFragments& msgFragments) const
{
// first determine how many fragments
uint32_t msgSize = msg.msg.TlvSize();
uint32_t dataLeft = msgSize;
uint8_t nFragments = ceil(float(msgSize)/FRAGMENT_SIZE);
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
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RsTemporaryMemory buffer(FRAGMENT_SIZE);
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int currPos = 0;
for(uint8_t i=0; i < nFragments; ++i)
{
RsNxsMsg* msgFrag = new RsNxsMsg(mServType);
msgFrag->grpId = msg.grpId;
msgFrag->msgId = msg.msgId;
msgFrag->meta = msg.meta;
msgFrag->transactionNumber = msg.transactionNumber;
msgFrag->pos = i;
msgFrag->PeerId(msg.PeerId());
msgFrag->count = nFragments;
uint32_t fragSize = std::min(dataLeft, FRAGMENT_SIZE);
memcpy(buffer, ((char*)msg.msg.bin_data) + currPos, fragSize);
msgFrag->msg.setBinData(buffer, fragSize);
currPos += fragSize;
dataLeft -= fragSize;
msgFragments.push_back(msgFrag);
}
return true;
}
bool RsGxsNetService::fragmentGrp(RsNxsGrp& grp, GrpFragments& grpFragments) const
{
// first determine how many fragments
uint32_t grpSize = grp.grp.TlvSize();
uint32_t dataLeft = grpSize;
uint8_t nFragments = ceil(float(grpSize)/FRAGMENT_SIZE);
char buffer[FRAGMENT_SIZE];
int currPos = 0;
for(uint8_t i=0; i < nFragments; ++i)
{
RsNxsGrp* grpFrag = new RsNxsGrp(mServType);
grpFrag->grpId = grp.grpId;
grpFrag->meta = grp.meta;
grpFrag->pos = i;
grpFrag->count = nFragments;
uint32_t fragSize = std::min(dataLeft, FRAGMENT_SIZE);
memcpy(buffer, ((char*)grp.grp.bin_data) + currPos, fragSize);
grpFrag->grp.setBinData(buffer, fragSize);
currPos += fragSize;
dataLeft -= fragSize;
grpFragments.push_back(grpFrag);
}
return true;
}
RsNxsMsg* RsGxsNetService::deFragmentMsg(MsgFragments& msgFragments) const
{
if(msgFragments.empty()) return NULL;
// if there is only one fragment with a count 1 or less then
// the fragment is the msg
if(msgFragments.size() == 1)
{
RsNxsMsg* m = msgFragments.front();
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
2016-01-18 23:53:06 -05:00
if(m->count > 1) // normally mcount should be exactly 1, but if not initialised (old versions) it's going to be 0
{
// delete everything
std::cerr << "(WW) Cannot deFragment message set. m->count=" << m->count << ", but msgFragments.size()=" << msgFragments.size() << ". Incomplete? Dropping all." << std::endl;
for(uint32_t i=0;i<msgFragments.size();++i)
delete msgFragments[i] ;
msgFragments.clear();
merged with latest trunk
2016-01-01 15:15:19 -05:00
return NULL;
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
2016-01-18 23:53:06 -05:00
}
merged with latest trunk
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else
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
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{
// single piece. No need to say anything. Just return it.
msgFragments.clear();
merged with latest trunk
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return m;
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
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}
merged with latest trunk
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}
// first determine total size for binary data
MsgFragments::iterator mit = msgFragments.begin();
uint32_t datSize = 0;
for(; mit != msgFragments.end(); ++mit)
datSize += (*mit)->msg.bin_len;
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
2016-01-18 23:53:06 -05:00
RsTemporaryMemory data(datSize) ;
if(!data)
{
for(uint32_t i=0;i<msgFragments.size();++i)
delete msgFragments[i] ;
msgFragments.clear();
return NULL ;
}
merged with latest trunk
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uint32_t currPos = 0;
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
2016-01-18 23:53:06 -05:00
std::cerr << "(II) deFragmenting long message of size " << datSize << ", from " << msgFragments.size() << " pieces." << std::endl;
merged with latest trunk
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for(mit = msgFragments.begin(); mit != msgFragments.end(); ++mit)
{
RsNxsMsg* msg = *mit;
memcpy(data + (currPos), msg->msg.bin_data, msg->msg.bin_len);
currPos += msg->msg.bin_len;
}
RsNxsMsg* msg = new RsNxsMsg(mServType);
const RsNxsMsg& m = *(*(msgFragments.begin()));
msg->msg.setBinData(data, datSize);
msg->msgId = m.msgId;
msg->grpId = m.grpId;
msg->transactionNumber = m.transactionNumber;
msg->meta = m.meta;
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
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// now clean!
for(uint32_t i=0;i<msgFragments.size();++i)
delete msgFragments[i] ;
msgFragments.clear();
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return msg;
}
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
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// This is unused apparently, since groups are never large. Anyway, we keep it in case we need it.
merged with latest trunk
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RsNxsGrp* RsGxsNetService::deFragmentGrp(GrpFragments& grpFragments) const
{
if(grpFragments.empty()) return NULL;
// first determine total size for binary data
GrpFragments::iterator mit = grpFragments.begin();
uint32_t datSize = 0;
for(; mit != grpFragments.end(); ++mit)
datSize += (*mit)->grp.bin_len;
char* data = new char[datSize];
uint32_t currPos = 0;
for(mit = grpFragments.begin(); mit != grpFragments.end(); ++mit)
{
RsNxsGrp* grp = *mit;
memcpy(data + (currPos), grp->grp.bin_data, grp->grp.bin_len);
currPos += grp->grp.bin_len;
}
RsNxsGrp* grp = new RsNxsGrp(mServType);
const RsNxsGrp& g = *(*(grpFragments.begin()));
grp->grp.setBinData(data, datSize);
grp->grpId = g.grpId;
grp->transactionNumber = g.transactionNumber;
grp->meta = g.meta;
delete[] data;
return grp;
}
struct GrpFragCollate
{
RsGxsGroupId mGrpId;
GrpFragCollate(const RsGxsGroupId& grpId) : mGrpId(grpId){ }
bool operator()(RsNxsGrp* grp) { return grp->grpId == mGrpId;}
};
void RsGxsNetService::locked_createTransactionFromPending( MsgRespPending* msgPend)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(msgPend->mPeerId) << "locked_createTransactionFromPending()" << std::endl;
#endif
MsgAuthorV::const_iterator cit = msgPend->mMsgAuthV.begin();
std::list<RsNxsItem*> reqList;
uint32_t transN = locked_getTransactionId();
for(; cit != msgPend->mMsgAuthV.end(); ++cit)
{
const MsgAuthEntry& entry = *cit;
if(entry.mPassedVetting)
{
RsNxsSyncMsgItem* msgItem = new RsNxsSyncMsgItem(mServType);
msgItem->grpId = entry.mGrpId;
msgItem->msgId = entry.mMsgId;
msgItem->authorId = entry.mAuthorId;
msgItem->flag = RsNxsSyncMsgItem::FLAG_REQUEST;
msgItem->transactionNumber = transN;
msgItem->PeerId(msgPend->mPeerId);
reqList.push_back(msgItem);
}
#ifdef NXS_NET_DEBUG_1
else
GXSNETDEBUG_PG(msgPend->mPeerId,entry.mGrpId) << " entry failed vetting: grpId=" << entry.mGrpId << ", msgId=" << entry.mMsgId << ", peerId=" << msgPend->mPeerId << std::endl;
#endif
}
if(!reqList.empty())
locked_pushMsgTransactionFromList(reqList, msgPend->mPeerId, transN);
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(msgPend->mPeerId) << " added " << reqList.size() << " items to transaction." << std::endl;
#endif
}
void RsGxsNetService::locked_createTransactionFromPending(GrpRespPending* grpPend)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(grpPend->mPeerId) << "locked_createTransactionFromPending() from peer " << grpPend->mPeerId << std::endl;
#endif
GrpAuthorV::const_iterator cit = grpPend->mGrpAuthV.begin();
std::list<RsNxsItem*> reqList;
uint32_t transN = locked_getTransactionId();
for(; cit != grpPend->mGrpAuthV.end(); ++cit)
{
const GrpAuthEntry& entry = *cit;
if(entry.mPassedVetting)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(grpPend->mPeerId,entry.mGrpId) << " entry Group Id: " << entry.mGrpId << " PASSED" << std::endl;
#endif
RsNxsSyncGrpItem* msgItem = new RsNxsSyncGrpItem(mServType);
msgItem->grpId = entry.mGrpId;
msgItem->authorId = entry.mAuthorId;
msgItem->flag = RsNxsSyncMsgItem::FLAG_REQUEST;
msgItem->transactionNumber = transN;
msgItem->PeerId(grpPend->mPeerId);
reqList.push_back(msgItem);
}
#ifdef NXS_NET_DEBUG_1
else
GXSNETDEBUG_PG(grpPend->mPeerId,entry.mGrpId) << " entry failed vetting: grpId=" << entry.mGrpId << ", peerId=" << grpPend->mPeerId << std::endl;
#endif
}
if(!reqList.empty())
locked_pushGrpTransactionFromList(reqList, grpPend->mPeerId, transN);
}
void RsGxsNetService::locked_createTransactionFromPending(GrpCircleIdRequestVetting* grpPend)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(grpPend->mPeerId) << "locked_createTransactionFromPending(GrpCircleIdReq)" << std::endl;
#endif
std::vector<GrpIdCircleVet>::iterator cit = grpPend->mGrpCircleV.begin();
uint32_t transN = locked_getTransactionId();
std::list<RsNxsItem*> itemL;
for(; cit != grpPend->mGrpCircleV.end(); ++cit)
{
const GrpIdCircleVet& entry = *cit;
if(entry.mCleared)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(grpPend->mPeerId,entry.mGroupId) << " Group Id: " << entry.mGroupId << " PASSED" << std::endl;
#endif
removed [dos] LF from rsgxsnetservice (causes merging rampage)
2016-01-13 20:25:18 -05:00
RsNxsSyncGrpItem* gItem = new RsNxsSyncGrpItem(mServType);
merged with latest trunk
2016-01-01 15:15:19 -05:00
gItem->flag = RsNxsSyncGrpItem::FLAG_RESPONSE;
gItem->grpId = entry.mGroupId;
gItem->publishTs = 0;
gItem->PeerId(grpPend->mPeerId);
gItem->transactionNumber = transN;
gItem->authorId = entry.mAuthorId;
// why it authorId not set here???
itemL.push_back(gItem);
}
#ifdef NXS_NET_DEBUG_1
else
GXSNETDEBUG_PG(grpPend->mPeerId,entry.mGroupId) << " Group Id: " << entry.mGroupId << " FAILED" << std::endl;
#endif
}
if(!itemL.empty())
locked_pushGrpRespFromList(itemL, grpPend->mPeerId, transN);
}
void RsGxsNetService::locked_createTransactionFromPending(MsgCircleIdsRequestVetting* msgPend)
{
std::vector<MsgIdCircleVet>::iterator vit = msgPend->mMsgs.begin();
std::list<RsNxsItem*> itemL;
uint32_t transN = locked_getTransactionId();
removed [dos] LF from rsgxsnetservice (causes merging rampage)
2016-01-13 20:25:18 -05:00
RsGxsGroupId grp_id ;
merged with latest trunk
2016-01-01 15:15:19 -05:00
for(; vit != msgPend->mMsgs.end(); ++vit)
{
MsgIdCircleVet& mic = *vit;
RsNxsSyncMsgItem* mItem = new
RsNxsSyncMsgItem(mServType);
mItem->flag = RsNxsSyncGrpItem::FLAG_RESPONSE;
mItem->grpId = msgPend->mGrpId;
mItem->msgId = mic.mMsgId;
mItem->authorId = mic.mAuthorId;
mItem->PeerId(msgPend->mPeerId);
mItem->transactionNumber = transN;
itemL.push_back(mItem);
merged with upstream/master
2016-01-13 20:52:55 -05:00
removed [dos] LF from rsgxsnetservice (causes merging rampage)
2016-01-13 20:25:18 -05:00
grp_id = msgPend->mGrpId ;
merged with latest trunk
2016-01-01 15:15:19 -05:00
}
if(!itemL.empty())
removed [dos] LF from rsgxsnetservice (causes merging rampage)
2016-01-13 20:25:18 -05:00
locked_pushMsgRespFromList(itemL, msgPend->mPeerId,grp_id, transN);
merged with latest trunk
2016-01-01 15:15:19 -05:00
}
/*bool RsGxsNetService::locked_canReceive(const RsGxsGrpMetaData * const grpMeta
, const RsPeerId& peerId )
{
double timeDelta = 0.2;
if(grpMeta->mCircleType == GXS_CIRCLE_TYPE_EXTERNAL) {
int i=0;
mCircles->loadCircle(grpMeta->mCircleId);
// check 5 times at most
// spin for 1 second at most
while(i < 5) {
if(mCircles->isLoaded(grpMeta->mCircleId)) {
const RsPgpId& pgpId = mPgpUtils->getPGPId(peerId);
return mCircles->canSend(grpMeta->mCircleId, pgpId);
}//if(mCircles->isLoaded(grpMeta->mCircleId))
usleep((int) (timeDelta * 1000 * 1000));// timeDelta sec
i++;
}//while(i < 5)
} else {//if(grpMeta->mCircleType == GXS_CIRCLE_TYPE_EXTERNAL)
return true;
}//else (grpMeta->mCircleType == GXS_CIRCLE_TYPE_EXTERNAL)
return false;
}*/
void RsGxsNetService::collateGrpFragments(GrpFragments fragments,
std::map<RsGxsGroupId, GrpFragments>& partFragments) const
{
// get all unique grpIds;
GrpFragments::iterator vit = fragments.begin();
std::set<RsGxsGroupId> grpIds;
for(; vit != fragments.end(); ++vit)
grpIds.insert( (*vit)->grpId );
std::set<RsGxsGroupId>::iterator sit = grpIds.begin();
for(; sit != grpIds.end(); ++sit)
{
const RsGxsGroupId& grpId = *sit;
GrpFragments::iterator bound = std::partition(
fragments.begin(), fragments.end(),
GrpFragCollate(grpId));
// something will always be found for a group id
for(vit = fragments.begin(); vit != bound; )
{
partFragments[grpId].push_back(*vit);
vit = fragments.erase(vit);
}
GrpFragments& f = partFragments[grpId];
RsNxsGrp* grp = *(f.begin());
// if counts of fragments is incorrect remove
// from coalescion
if(grp->count != f.size())
{
GrpFragments::iterator vit2 = f.begin();
for(; vit2 != f.end(); ++vit2)
delete *vit2;
partFragments.erase(grpId);
}
}
fragments.clear();
}
struct MsgFragCollate
{
RsGxsMessageId mMsgId;
MsgFragCollate(const RsGxsMessageId& msgId) : mMsgId(msgId){ }
bool operator()(RsNxsMsg* msg) { return msg->msgId == mMsgId;}
};
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
2016-01-18 23:53:06 -05:00
void RsGxsNetService::collateMsgFragments(MsgFragments& fragments, std::map<RsGxsMessageId, MsgFragments>& partFragments) const
merged with latest trunk
2016-01-01 15:15:19 -05:00
{
// get all unique message Ids;
MsgFragments::iterator vit = fragments.begin();
std::set<RsGxsMessageId> msgIds;
for(; vit != fragments.end(); ++vit)
msgIds.insert( (*vit)->msgId );
std::set<RsGxsMessageId>::iterator sit = msgIds.begin();
for(; sit != msgIds.end(); ++sit)
{
const RsGxsMessageId& msgId = *sit;
MsgFragments::iterator bound = std::partition(
fragments.begin(), fragments.end(),
MsgFragCollate(msgId));
// something will always be found for a group id
for(vit = fragments.begin(); vit != bound; ++vit )
{
partFragments[msgId].push_back(*vit);
}
fragments.erase(fragments.begin(), bound);
MsgFragments& f = partFragments[msgId];
RsNxsMsg* msg = *(f.begin());
// if counts of fragments is incorrect remove
// from coalescion
if(msg->count != f.size())
{
MsgFragments::iterator vit2 = f.begin();
for(; vit2 != f.end(); ++vit2)
delete *vit2;
partFragments.erase(msgId);
}
}
fragments.clear();
}
class StoreHere
{
public:
StoreHere(RsGxsNetService::ClientGrpMap& cgm, RsGxsNetService::ClientMsgMap& cmm, RsGxsNetService::ServerMsgMap& smm, RsGxsServerGrpUpdateItem*& sgm)
: mClientGrpMap(cgm), mClientMsgMap(cmm), mServerMsgMap(smm), mServerGrpUpdateItem(sgm)
{}
void operator() (RsItem* item)
{
RsGxsMsgUpdateItem* mui;
RsGxsGrpUpdateItem* gui;
RsGxsServerGrpUpdateItem* gsui;
RsGxsServerMsgUpdateItem* msui;
if((mui = dynamic_cast<RsGxsMsgUpdateItem*>(item)) != NULL)
mClientMsgMap.insert(std::make_pair(mui->peerId, mui));
else if((gui = dynamic_cast<RsGxsGrpUpdateItem*>(item)) != NULL)
mClientGrpMap.insert(std::make_pair(gui->peerId, gui));
else if((msui = dynamic_cast<RsGxsServerMsgUpdateItem*>(item)) != NULL)
mServerMsgMap.insert(std::make_pair(msui->grpId, msui));
else if((gsui = dynamic_cast<RsGxsServerGrpUpdateItem*>(item)) != NULL)
{
if(mServerGrpUpdateItem == NULL)
mServerGrpUpdateItem = gsui;
else
{
std::cerr << "Error! More than one server group update item exists!" << std::endl;
delete gsui;
}
}
else
{
std::cerr << "Type not expected!" << std::endl;
delete item ;
}
}
private:
RsGxsNetService::ClientGrpMap& mClientGrpMap;
RsGxsNetService::ClientMsgMap& mClientMsgMap;
RsGxsNetService::ServerMsgMap& mServerMsgMap;
RsGxsServerGrpUpdateItem*& mServerGrpUpdateItem;
};
bool RsGxsNetService::loadList(std::list<RsItem *> &load)
{
fixed update of GroupNetworkStats and proper reset when loadList is called (thx Jo)
2016-02-03 18:58:28 -05:00
RS_STACK_MUTEX(mNxsMutex) ;
// The delete is done in StoreHere, if necessary
removed [dos] LF from rsgxsnetservice (causes merging rampage)
2016-01-13 20:25:18 -05:00
fixed update of GroupNetworkStats and proper reset when loadList is called (thx Jo)
2016-02-03 18:58:28 -05:00
std::for_each(load.begin(), load.end(), StoreHere(mClientGrpUpdateMap, mClientMsgUpdateMap, mServerMsgUpdateMap, mGrpServerUpdateItem));
merged with latest trunk
2016-01-01 15:15:19 -05:00
fixed update of GroupNetworkStats and proper reset when loadList is called (thx Jo)
2016-02-03 18:58:28 -05:00
// We reset group statistics here. This is the best place since we know at this point which are all unsubscribed groups.
merged with latest trunk
2016-01-01 15:15:19 -05:00
fixed update of GroupNetworkStats and proper reset when loadList is called (thx Jo)
2016-02-03 18:58:28 -05:00
time_t now = time(NULL);
for(std::map<RsGxsGroupId,RsGroupNetworkStatsRecord>::iterator it(mGroupNetworkStats.begin());it!=mGroupNetworkStats.end();++it)
{
// At each reload, we reset the count of visible messages. It will be rapidely restored to its real value from friends.
merged with latest trunk
2016-01-01 15:15:19 -05:00
fixed update of GroupNetworkStats and proper reset when loadList is called (thx Jo)
2016-02-03 18:58:28 -05:00
it->second.max_visible_count = 0; // std::max(it2->second.message_count,gnsr.max_visible_count) ;
// the update time stamp is randomised so as not to ask all friends at once about group statistics.
it->second.update_TS = now - GROUP_STATS_UPDATE_DELAY + (RSRandom::random_u32()%(GROUP_STATS_UPDATE_DELAY/10)) ;
merged with latest trunk
2016-01-01 15:15:19 -05:00
fixed update of GroupNetworkStats and proper reset when loadList is called (thx Jo)
2016-02-03 18:58:28 -05:00
// Similarly, we remove all suppliers.
// Actual suppliers will come back automatically.
merged with latest trunk
2016-01-01 15:15:19 -05:00
fixed update of GroupNetworkStats and proper reset when loadList is called (thx Jo)
2016-02-03 18:58:28 -05:00
it->second.suppliers.clear() ;
}
merged with latest trunk
2016-01-01 15:15:19 -05:00
fixed update of GroupNetworkStats and proper reset when loadList is called (thx Jo)
2016-02-03 18:58:28 -05:00
return true;
merged with latest trunk
2016-01-01 15:15:19 -05:00
}
#include <algorithm>
template <typename UpdateMap>
struct get_second : public std::unary_function<typename UpdateMap::value_type, RsItem*>
{
RsItem* operator()(const typename UpdateMap::value_type& value) const
{
return value.second;
}
};
bool RsGxsNetService::saveList(bool& cleanup, std::list<RsItem*>& save)
{
RS_STACK_MUTEX(mNxsMutex) ;
// hardcore templates
std::transform(mClientGrpUpdateMap.begin(), mClientGrpUpdateMap.end(), std::back_inserter(save), get_second<ClientGrpMap>());
std::transform(mClientMsgUpdateMap.begin(), mClientMsgUpdateMap.end(), std::back_inserter(save), get_second<ClientMsgMap>());
std::transform(mServerMsgUpdateMap.begin(), mServerMsgUpdateMap.end(), std::back_inserter(save), get_second<ServerMsgMap>());
save.push_back(mGrpServerUpdateItem);
cleanup = false;
return true;
}
RsSerialiser *RsGxsNetService::setupSerialiser()
{
RsSerialiser *rss = new RsSerialiser;
rss->addSerialType(new RsGxsUpdateSerialiser(mServType));
return rss;
}
void RsGxsNetService::recvNxsItemQueue()
{
RsItem *item ;
while(NULL != (item=recvItem()))
{
#ifdef NXS_NET_DEBUG_1
called re-loading of circles after creation. Added debug info in msg vetting
2016-02-11 21:59:45 -05:00
GXSNETDEBUG_P_(item->PeerId()) << "Received RsGxsNetService Item:" << (void*)item << " type=" << std::hex << item->PacketId() << std::dec << std::endl ;
merged with latest trunk
2016-01-01 15:15:19 -05:00
#endif
// RsNxsItem needs dynamic_cast, since they have derived siblings.
//
RsNxsItem *ni = dynamic_cast<RsNxsItem*>(item) ;
if(ni != NULL)
{
// a live transaction has a non zero value
if(ni->transactionNumber != 0)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(item->PeerId()) << " recvNxsItemQueue() handlingTransaction, transN " << ni->transactionNumber << std::endl;
#endif
if(!handleTransaction(ni))
delete ni;
continue;
}
switch(ni->PacketSubType())
{
called re-loading of circles after creation. Added debug info in msg vetting
2016-02-11 21:59:45 -05:00
case RS_PKT_SUBTYPE_NXS_SYNC_GRP_STATS_ITEM: handleRecvSyncGrpStatistics (dynamic_cast<RsNxsSyncGrpStatsItem*>(ni)) ; break ;
merged with latest trunk
2016-01-01 15:15:19 -05:00
case RS_PKT_SUBTYPE_NXS_SYNC_GRP_REQ_ITEM: handleRecvSyncGroup (dynamic_cast<RsNxsSyncGrpReqItem*>(ni)) ; break ;
case RS_PKT_SUBTYPE_NXS_SYNC_MSG_REQ_ITEM: handleRecvSyncMessage (dynamic_cast<RsNxsSyncMsgReqItem*>(ni)) ; break ;
case RS_PKT_SUBTYPE_NXS_GRP_PUBLISH_KEY_ITEM:handleRecvPublishKeys (dynamic_cast<RsNxsGroupPublishKeyItem*>(ni)) ; break ;
default:
std::cerr << "Unhandled item subtype " << (uint32_t) ni->PacketSubType() << " in RsGxsNetService: " << std::endl; break;
}
delete item ;
}
else
{
std::cerr << "Not a RsNxsItem, deleting!" << std::endl;
delete(item);
}
}
}
bool RsGxsNetService::handleTransaction(RsNxsItem* item)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(item->PeerId()) << "handleTransaction(RsNxsItem) number=" << item->transactionNumber << std::endl;
#endif
/*!
* This attempts to handle a transaction
* It first checks if this transaction id already exists
* If it does then check this not a initiating transactions
*/
RS_STACK_MUTEX(mNxsMutex) ;
const RsPeerId& peer = item->PeerId();
RsNxsTransacItem* transItem = dynamic_cast<RsNxsTransacItem*>(item);
// if this is a RsNxsTransac item process
if(transItem)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(item->PeerId()) << " this is a RsNxsTransac item. callign process." << std::endl;
#endif
return locked_processTransac(transItem);
}
// then this must be transaction content to be consumed
// first check peer exist for transaction
bool peerTransExists = mTransactions.find(peer) != mTransactions.end();
// then check transaction exists
NxsTransaction* tr = NULL;
uint32_t transN = item->transactionNumber;
if(peerTransExists)
{
TransactionIdMap& transMap = mTransactions[peer];
if(transMap.find(transN) != transMap.end())
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(item->PeerId()) << " Consuming Transaction content, transN: " << item->transactionNumber << std::endl;
GXSNETDEBUG_P_(item->PeerId()) << " Consuming Transaction content, from Peer: " << item->PeerId() << std::endl;
#endif
tr = transMap[transN];
tr->mItems.push_back(item);
return true;
}
}
return false;
}
bool RsGxsNetService::locked_processTransac(RsNxsTransacItem *item)
{
/*!
* To process the transaction item
* It can either be initiating a transaction
* or ending one that already exists
*
* For initiating an incoming transaction the peer
* and transaction item need not exists
* as the peer will be added and transaction number
* added thereafter
*
* For commencing/starting an outgoing transaction
* the transaction must exist already
*
* For ending a transaction the
*/
RsPeerId peer;
// for outgoing transaction use own id
if(item->transactFlag & (RsNxsTransacItem::FLAG_BEGIN_P2 | RsNxsTransacItem::FLAG_END_SUCCESS))
peer = mOwnId;
else
peer = item->PeerId();
uint32_t transN = item->transactionNumber;
item->timestamp = time(NULL); // register time received
NxsTransaction* tr = NULL;
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(peer) << "locked_processTransac() " << std::endl;
GXSNETDEBUG_P_(peer) << " Received transaction item: " << transN << std::endl;
GXSNETDEBUG_P_(peer) << " With peer: " << item->PeerId() << std::endl;
GXSNETDEBUG_P_(peer) << " trans type: " << item->transactFlag << std::endl;
#endif
bool peerTrExists = mTransactions.find(peer) != mTransactions.end();
bool transExists = false;
if(peerTrExists)
{
TransactionIdMap& transMap = mTransactions[peer];
// record whether transaction exists already
transExists = transMap.find(transN) != transMap.end();
}
// initiating an incoming transaction
if(item->transactFlag & RsNxsTransacItem::FLAG_BEGIN_P1)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(peer) << " initiating Incoming transaction." << std::endl;
#endif
if(transExists)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(peer) << " transaction already exist! ERROR" << std::endl;
#endif
return false; // should not happen!
}
// create a transaction if the peer does not exist
if(!peerTrExists)
mTransactions[peer] = TransactionIdMap();
TransactionIdMap& transMap = mTransactions[peer];
// create new transaction
tr = new NxsTransaction();
transMap[transN] = tr;
tr->mTransaction = item;
tr->mTimeOut = item->timestamp + mTransactionTimeOut;
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(peer) << " Setting timeout of " << mTransactionTimeOut << " secs, which is " << tr->mTimeOut - time(NULL) << " secs from now." << std::endl;
#endif
// note state as receiving, commencement item
// is sent on next run() loop
tr->mFlag = NxsTransaction::FLAG_STATE_STARTING;
return true;
// commencement item for outgoing transaction
}
else if(item->transactFlag & RsNxsTransacItem::FLAG_BEGIN_P2)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(peer) << " initiating outgoign transaction." << std::endl;
#endif
// transaction must exist
if(!peerTrExists || !transExists)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(peer) << " transaction does not exist. Cancelling!" << std::endl;
#endif
return false;
}
// alter state so transaction content is sent on
// next run() loop
TransactionIdMap& transMap = mTransactions[mOwnId];
NxsTransaction* tr = transMap[transN];
tr->mFlag = NxsTransaction::FLAG_STATE_SENDING;
delete item;
return true;
// end transac item for outgoing transaction
}
else if(item->transactFlag & RsNxsTransacItem::FLAG_END_SUCCESS)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(peer) << " marking this transaction succeed" << std::endl;
#endif
// transaction does not exist
if(!peerTrExists || !transExists)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(peer) << " transaction does not exist. Cancelling!" << std::endl;
#endif
return false;
}
// alter state so that transaction is removed
// on next run() loop
TransactionIdMap& transMap = mTransactions[mOwnId];
NxsTransaction* tr = transMap[transN];
tr->mFlag = NxsTransaction::FLAG_STATE_COMPLETED;
delete item;
return true;
}
else
return false;
}
void RsGxsNetService::data_tick()
{
static const double timeDelta = 0.5;
//Start waiting as nothing to do in runup
usleep((int) (timeDelta * 1000 * 1000)); // timeDelta sec
if(mUpdateCounter >= 120) // 60 seconds
{
updateServerSyncTS();
deprecated updateClientSyncTS() which is not needed anymore
2016-01-15 10:07:21 -05:00
#ifdef TO_REMOVE
merged with latest trunk
2016-01-01 15:15:19 -05:00
updateClientSyncTS();
deprecated updateClientSyncTS() which is not needed anymore
2016-01-15 10:07:21 -05:00
#endif
merged with latest trunk
2016-01-01 15:15:19 -05:00
mUpdateCounter = 1;
}
else
mUpdateCounter++;
if(mUpdateCounter % 20 == 0) // dump the full shit every 20 secs
debugDump() ;
// process active transactions
processTransactions();
// process completed transactions
processCompletedTransactions();
// vetting of id and circle info
runVetting();
processExplicitGroupRequests();
}
void RsGxsNetService::debugDump()
{
#ifdef NXS_NET_DEBUG_0
RS_STACK_MUTEX(mNxsMutex) ;
time_t now = time(NULL) ;
GXSNETDEBUG___<< "RsGxsNetService::debugDump():" << std::endl;
if(mGrpServerUpdateItem != NULL)
GXSNETDEBUG___<< " mGrpServerUpdateItem time stamp: " << nice_time_stamp(time(NULL) , mGrpServerUpdateItem->grpUpdateTS) << " (is the last local modification time over all groups of this service)" << std::endl;
else
GXSNETDEBUG___<< " mGrpServerUpdateItem time stamp: not inited yet (is the last local modification time over all groups of this service)" << std::endl;
GXSNETDEBUG___<< " mServerMsgUpdateMap: (is for each subscribed group, the last local modification time)" << std::endl;
for(std::map<RsGxsGroupId,RsGxsServerMsgUpdateItem*>::const_iterator it(mServerMsgUpdateMap.begin());it!=mServerMsgUpdateMap.end();++it)
GXSNETDEBUG__G(it->first) << " Grp:" << it->first << " last local modification (secs ago): " << nice_time_stamp(time(NULL),it->second->msgUpdateTS) << std::endl;
GXSNETDEBUG___<< " mClientGrpUpdateMap: (is for each friend, last modif time of group meta data at that friend, all groups included, sent by the friend himself)" << std::endl;
for(std::map<RsPeerId,RsGxsGrpUpdateItem*>::const_iterator it(mClientGrpUpdateMap.begin());it!=mClientGrpUpdateMap.end();++it)
GXSNETDEBUG_P_(it->first) << " From peer: " << it->first << " - last updated at peer (secs ago): " << nice_time_stamp(time(NULL),it->second->grpUpdateTS) << std::endl;
GXSNETDEBUG___<< " mClientMsgUpdateMap: (is for each friend, the modif time for each group (e.g. last message received), sent by the friend himself)" << std::endl;
for(std::map<RsPeerId,RsGxsMsgUpdateItem*>::const_iterator it(mClientMsgUpdateMap.begin());it!=mClientMsgUpdateMap.end();++it)
{
GXSNETDEBUG_P_(it->first) << " From peer: " << it->first << std::endl;
for(std::map<RsGxsGroupId, RsGxsMsgUpdateItem::MsgUpdateInfo>::const_iterator it2(it->second->msgUpdateInfos.begin());it2!=it->second->msgUpdateInfos.end();++it2)
GXSNETDEBUG_PG(it->first,it2->first) << " group " << it2->first << " - last updated at peer (secs ago): " << nice_time_stamp(time(NULL),it2->second.time_stamp) << ". Message count=" << it2->second.message_count << std::endl;
}
GXSNETDEBUG___<< " List of rejected message ids: " << mRejectedMessages.size() << std::endl;
#endif
}
deprecated updateClientSyncTS() which is not needed anymore
2016-01-15 10:07:21 -05:00
#ifdef TO_REMOVE
merged with latest trunk
2016-01-01 15:15:19 -05:00
// This method is normally not needed, but we use it to correct possible inconsistencies in the updte time stamps
// on the client side.
void RsGxsNetService::updateClientSyncTS()
{
RS_STACK_MUTEX(mNxsMutex) ;
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG___<< "updateClientSyncTS(): checking last modification time stamps of local data w.r.t. client's modification times" << std::endl;
#endif
if(mGrpServerUpdateItem == NULL)
mGrpServerUpdateItem = new RsGxsServerGrpUpdateItem(mServType);
for(ClientGrpMap::iterator it = mClientGrpUpdateMap.begin();it!=mClientGrpUpdateMap.end();++it)
if(it->second->grpUpdateTS > SECURITY_DELAY_TO_FORCE_CLIENT_REUPDATE + mGrpServerUpdateItem->grpUpdateTS)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(it->first) << " last global client GRP modification time known for peer (" << nice_time_stamp(time(NULL),it->second->grpUpdateTS) << " is quite more recent than our own server modification time (" << nice_time_stamp(time(NULL),mGrpServerUpdateItem->grpUpdateTS) << ". Forcing update! " << std::endl;
#endif
it->second->grpUpdateTS = 0 ;
}
for(ClientMsgMap::iterator it = mClientMsgUpdateMap.begin();it!=mClientMsgUpdateMap.end();++it)
for(std::map<RsGxsGroupId, RsGxsMsgUpdateItem::MsgUpdateInfo>::iterator it2 = it->second->msgUpdateInfos.begin();it2!=it->second->msgUpdateInfos.end();++it2)
{
std::map<RsGxsGroupId,RsGxsServerMsgUpdateItem*>::const_iterator mmit = mServerMsgUpdateMap.find(it2->first) ;
if(mmit != mServerMsgUpdateMap.end() && it2->second.time_stamp > SECURITY_DELAY_TO_FORCE_CLIENT_REUPDATE + mmit->second->msgUpdateTS)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(it->first,it2->first) << " last group msg modification time known for peer (" << nice_time_stamp(time(NULL),it2->second.time_stamp) << " and group " << it2->first << " is quite more recent than our own server modification time (" << nice_time_stamp(time(NULL),mmit->second->msgUpdateTS) << ". Forcing update! " << std::endl;
#endif
it2->second.time_stamp = 0 ;
}
}
}
deprecated updateClientSyncTS() which is not needed anymore
2016-01-15 10:07:21 -05:00
#endif
merged with latest trunk
2016-01-01 15:15:19 -05:00
void RsGxsNetService::updateServerSyncTS()
{
RS_STACK_MUTEX(mNxsMutex) ;
RsGxsMetaDataTemporaryMap<RsGxsGrpMetaData> gxsMap;
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG___<< "updateServerSyncTS(): updating last modification time stamp of local data." << std::endl;
#endif
// retrieve all grps and update TS
mDataStore->retrieveGxsGrpMetaData(gxsMap);
removed feedback from messages to mGrpServerUpdateTS, which is now only updated when the subscribe status is changed and/or new groups are received/created
2016-01-20 23:56:22 -05:00
#ifdef TO_REMOVE
// (cyril) This code is removed because it is inconsistent: the list of grps does not need to be updated when
// new posts arrive. The two (grp list and msg list) are handled independently.
merged with latest trunk
2016-01-01 15:15:19 -05:00
// as a grp list server also note this is the latest item you have
if(mGrpServerUpdateItem == NULL)
mGrpServerUpdateItem = new RsGxsServerGrpUpdateItem(mServType);
// First reset it. That's important because it will re-compute correct TS in case
// we have unsubscribed a group.
mGrpServerUpdateItem->grpUpdateTS = 0 ;
removed feedback from messages to mGrpServerUpdateTS, which is now only updated when the subscribe status is changed and/or new groups are received/created
2016-01-20 23:56:22 -05:00
#endif
merged with latest trunk
2016-01-01 15:15:19 -05:00
bool change = false;
// then remove from mServerMsgUpdateMap, all items that are not in the group list!
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG___ << " cleaning server map of groups with no data:" << std::endl;
#endif
for(std::map<RsGxsGroupId, RsGxsServerMsgUpdateItem*>::iterator it(mServerMsgUpdateMap.begin());it!=mServerMsgUpdateMap.end();)
if(gxsMap.find(it->first) == gxsMap.end())
{
// not found! Removing server update info for this group
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG__G(it->first) << " removing server update info for group " << it->first << std::endl;
#endif
std::map<RsGxsGroupId, RsGxsServerMsgUpdateItem*>::iterator tmp(it) ;
++tmp ;
mServerMsgUpdateMap.erase(it) ;
it = tmp ;
}
else
++it;
#ifdef NXS_NET_DEBUG_0
if(gxsMap.empty())
GXSNETDEBUG___<< " database seems to be empty. The modification timestamp will be reset." << std::endl;
#endif
// finally, update timestamps.
for(std::map<RsGxsGroupId, RsGxsGrpMetaData*>::const_iterator mit = gxsMap.begin();mit != gxsMap.end(); ++mit)
{
const RsGxsGroupId& grpId = mit->first;
const RsGxsGrpMetaData* grpMeta = mit->second;
ServerMsgMap::iterator mapIT = mServerMsgUpdateMap.find(grpId);
RsGxsServerMsgUpdateItem* msui = NULL;
removed feedback from messages to mGrpServerUpdateTS, which is now only updated when the subscribe status is changed and/or new groups are received/created
2016-01-20 23:56:22 -05:00
#ifdef TO_REMOVE
merged with latest trunk
2016-01-01 15:15:19 -05:00
// That accounts for modification of the meta data.
if(mGrpServerUpdateItem->grpUpdateTS < grpMeta->mPublishTs)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG__G(grpId) << " publish time stamp of group " << grpId << " has changed to " << time(NULL)-grpMeta->mPublishTs << " secs ago. updating!" << std::endl;
#endif
mGrpServerUpdateItem->grpUpdateTS = grpMeta->mPublishTs;
}
removed feedback from messages to mGrpServerUpdateTS, which is now only updated when the subscribe status is changed and/or new groups are received/created
2016-01-20 23:56:22 -05:00
#endif
merged with latest trunk
2016-01-01 15:15:19 -05:00
if(mapIT == mServerMsgUpdateMap.end())
{
msui = new RsGxsServerMsgUpdateItem(mServType);
msui->grpId = grpMeta->mGroupId;
mServerMsgUpdateMap.insert(std::make_pair(msui->grpId, msui));
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG__G(grpId) << " created new entry for group " << grpId << std::endl;
#endif
}
else
msui = mapIT->second;
if(grpMeta->mLastPost > msui->msgUpdateTS )
{
change = true;
msui->msgUpdateTS = grpMeta->mLastPost;
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG__G(grpId) << " updated msgUpdateTS to last post = " << time(NULL) - grpMeta->mLastPost << " secs ago for group "<< grpId << std::endl;
#endif
}
removed feedback from messages to mGrpServerUpdateTS, which is now only updated when the subscribe status is changed and/or new groups are received/created
2016-01-20 23:56:22 -05:00
#ifdef TO_REMOVE
merged with latest trunk
2016-01-01 15:15:19 -05:00
// This might be very inefficient with time. This is needed because an old message might have been received, so the last modification time
// needs to account for this so that a friend who hasn't
if(mGrpServerUpdateItem->grpUpdateTS < grpMeta->mRecvTS)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG__G(grpId) << " updated msgUpdateTS to last RecvTS = " << time(NULL) - grpMeta->mRecvTS << " secs ago for group "<< grpId << std::endl;
#endif
mGrpServerUpdateItem->grpUpdateTS = grpMeta->mRecvTS;
change = true;
}
removed feedback from messages to mGrpServerUpdateTS, which is now only updated when the subscribe status is changed and/or new groups are received/created
2016-01-20 23:56:22 -05:00
#endif
merged with latest trunk
2016-01-01 15:15:19 -05:00
}
// actual change in config settings, then save configuration
if(change)
IndicateConfigChanged();
}
bool RsGxsNetService::locked_checkTransacTimedOut(NxsTransaction* tr)
{
return tr->mTimeOut < ((uint32_t) time(NULL));
}
void RsGxsNetService::processTransactions()
{
#ifdef NXS_NET_DEBUG_1
if(!mTransactions.empty())
GXSNETDEBUG___ << "processTransactions()" << std::endl;
#endif
RS_STACK_MUTEX(mNxsMutex) ;
TransactionsPeerMap::iterator mit = mTransactions.begin();
for(; mit != mTransactions.end(); ++mit)
{
TransactionIdMap& transMap = mit->second;
TransactionIdMap::iterator mmit = transMap.begin(), mmit_end = transMap.end();
called re-loading of circles after creation. Added debug info in msg vetting
2016-02-11 21:59:45 -05:00
if(mmit == mmit_end) // no waiting transactions for this peer
continue ;
merged with latest trunk
2016-01-01 15:15:19 -05:00
#ifdef NXS_NET_DEBUG_1
called re-loading of circles after creation. Added debug info in msg vetting
2016-02-11 21:59:45 -05:00
GXSNETDEBUG_P_(mit->first) << " peerId=" << mit->first << std::endl;
merged with latest trunk
2016-01-01 15:15:19 -05:00
#endif
called re-loading of circles after creation. Added debug info in msg vetting
2016-02-11 21:59:45 -05:00
// transaction to be removed
merged with latest trunk
2016-01-01 15:15:19 -05:00
std::list<uint32_t> toRemove;
/*!
* Transactions owned by peer
*/
if(mit->first == mOwnId)
{
for(; mmit != mmit_end; ++mmit)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(mit->first) << " type: outgoing " << std::endl;
GXSNETDEBUG_P_(mit->first) << " transN = " << mmit->second->mTransaction->transactionNumber << std::endl;
#endif
NxsTransaction* tr = mmit->second;
uint16_t flag = tr->mFlag;
std::list<RsNxsItem*>::iterator lit, lit_end;
uint32_t transN = tr->mTransaction->transactionNumber;
// first check transaction has not expired
if(locked_checkTransacTimedOut(tr))
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(mit->first) << " timeout! " << std::endl;
GXSNETDEBUG_P_(mit->first) << std::dec ;
int total_transaction_time = (int)time(NULL) - (tr->mTimeOut - mTransactionTimeOut) ;
GXSNETDEBUG_P_(mit->first) << " Outgoing Transaction has failed, tranN: " << transN << ", Peer: " << mit->first ;
GXSNETDEBUG_P_(mit->first) << ", age: " << total_transaction_time << ", nItems=" << tr->mTransaction->nItems << ". tr->mTimeOut = " << tr->mTimeOut << ", now = " << (uint32_t) time(NULL) << std::endl;
#endif
tr->mFlag = NxsTransaction::FLAG_STATE_FAILED;
toRemove.push_back(transN);
mComplTransactions.push_back(tr);
continue;
}
#ifdef NXS_NET_DEBUG_1
else
GXSNETDEBUG_P_(mit->first) << " still on time." << std::endl;
#endif
// send items requested
if(flag & NxsTransaction::FLAG_STATE_SENDING)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(mit->first)<< " Sending Transaction content, transN: " << transN << " with peer: " << tr->mTransaction->PeerId() << std::endl;
#endif
lit = tr->mItems.begin();
lit_end = tr->mItems.end();
for(; lit != lit_end; ++lit){
sendItem(*lit);
}
tr->mItems.clear(); // clear so they don't get deleted in trans cleaning
tr->mFlag = NxsTransaction::FLAG_STATE_WAITING_CONFIRM;
}
else if(flag & NxsTransaction::FLAG_STATE_WAITING_CONFIRM)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(mit->first)<< " Waiting confirm! returning." << std::endl;
#endif
continue;
}
else if(flag & NxsTransaction::FLAG_STATE_COMPLETED)
{
#ifdef NXS_NET_DEBUG_1
int total_transaction_time = (int)time(NULL) - (tr->mTimeOut - mTransactionTimeOut) ;
GXSNETDEBUG_P_(mit->first)<< " Outgoing completed " << tr->mTransaction->nItems << " items transaction in " << total_transaction_time << " seconds." << std::endl;
#endif
// move to completed transactions
toRemove.push_back(transN);
mComplTransactions.push_back(tr);
}else{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(mit->first)<< " Unknown flag for active transaction, transN: " << transN << ", Peer: " << mit->first<< std::endl;
#endif
toRemove.push_back(transN);
tr->mFlag = NxsTransaction::FLAG_STATE_FAILED;
mComplTransactions.push_back(tr);
}
}
}else{
/*!
* Essentially these are incoming transactions
* Several states are dealth with
* Receiving: waiting to receive items from peer's transaction
* and checking if all have been received
* Completed: remove transaction from active and tell peer
* involved in transaction
* Starting: this is a new transaction and need to teell peer
* involved in transaction
*/
for(; mmit != mmit_end; ++mmit){
NxsTransaction* tr = mmit->second;
uint16_t flag = tr->mFlag;
uint32_t transN = tr->mTransaction->transactionNumber;
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(mit->first) << " type: incoming " << std::endl;
GXSNETDEBUG_P_(mit->first) << " transN = " << mmit->second->mTransaction->transactionNumber << std::endl;
#endif
// first check transaction has not expired
if(locked_checkTransacTimedOut(tr))
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(mit->first) << " timeout!" << std::endl;
GXSNETDEBUG_P_(mit->first) << std::dec ;
int total_transaction_time = (int)time(NULL) - (tr->mTimeOut - mTransactionTimeOut) ;
GXSNETDEBUG_P_(mit->first) << " Incoming Transaction has failed, tranN: " << transN << ", Peer: " << mit->first ;
GXSNETDEBUG_P_(mit->first) << ", age: " << total_transaction_time << ", nItems=" << tr->mTransaction->nItems << ". tr->mTimeOut = " << tr->mTimeOut << ", now = " << (uint32_t) time(NULL) << std::endl;
#endif
tr->mFlag = NxsTransaction::FLAG_STATE_FAILED;
toRemove.push_back(transN);
mComplTransactions.push_back(tr);
continue;
}
if(flag & NxsTransaction::FLAG_STATE_RECEIVING)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(mit->first) << " received " << tr->mItems.size() << " item over a total of " << tr->mTransaction->nItems << std::endl;
#endif
// if the number it item received equal that indicated
// then transaction is marked as completed
// to be moved to complete transations
// check if done
if(tr->mItems.size() == tr->mTransaction->nItems)
{
tr->mFlag = NxsTransaction::FLAG_STATE_COMPLETED;
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(mit->first) << " completed!" << std::endl;
#endif
}
}else if(flag & NxsTransaction::FLAG_STATE_COMPLETED)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(mit->first) << " transaction is completed!" << std::endl;
GXSNETDEBUG_P_(mit->first) << " sending success!" << std::endl;
#endif
// send completion msg
RsNxsTransacItem* trans = new RsNxsTransacItem(mServType);
trans->clear();
trans->transactFlag = RsNxsTransacItem::FLAG_END_SUCCESS;
trans->transactionNumber = transN;
trans->PeerId(tr->mTransaction->PeerId());
sendItem(trans);
// move to completed transactions
mComplTransactions.push_back(tr);
#ifdef NXS_NET_DEBUG_1
int total_transaction_time = (int)time(NULL) - (tr->mTimeOut - mTransactionTimeOut) ;
GXSNETDEBUG_P_(mit->first) << " incoming completed " << tr->mTransaction->nItems << " items transaction in " << total_transaction_time << " seconds." << std::endl;
#endif
// transaction processing done
// for this id, add to removal list
toRemove.push_back(mmit->first);
}
else if(flag & NxsTransaction::FLAG_STATE_STARTING)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(mit->first) << " transaction is starting!" << std::endl;
GXSNETDEBUG_P_(mit->first) << " setting state to Receiving" << std::endl;
#endif
// send item to tell peer your are ready to start
RsNxsTransacItem* trans = new RsNxsTransacItem(mServType);
trans->clear();
trans->transactFlag = RsNxsTransacItem::FLAG_BEGIN_P2 |
(tr->mTransaction->transactFlag & RsNxsTransacItem::FLAG_TYPE_MASK);
trans->transactionNumber = transN;
trans->PeerId(tr->mTransaction->PeerId());
sendItem(trans);
tr->mFlag = NxsTransaction::FLAG_STATE_RECEIVING;
}
else{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(mit->first) << " transaction is in unknown state. ERROR!" << std::endl;
GXSNETDEBUG_P_(mit->first) << " transaction FAILS!" << std::endl;
#endif
std::cerr << " Unknown flag for active transaction, transN: " << transN << ", Peer: " << mit->first << std::endl;
toRemove.push_back(mmit->first);
mComplTransactions.push_back(tr);
tr->mFlag = NxsTransaction::FLAG_STATE_FAILED; // flag as a failed transaction
}
}
}
std::list<uint32_t>::iterator lit = toRemove.begin();
for(; lit != toRemove.end(); ++lit)
{
transMap.erase(*lit);
}
}
}
bool RsGxsNetService::getGroupNetworkStats(const RsGxsGroupId& gid,RsGroupNetworkStats& stats)
{
RS_STACK_MUTEX(mNxsMutex) ;
std::map<RsGxsGroupId,RsGroupNetworkStatsRecord>::const_iterator it = mGroupNetworkStats.find(gid) ;
if(it == mGroupNetworkStats.end())
return false ;
stats.mSuppliers = it->second.suppliers.size();
stats.mMaxVisibleCount = it->second.max_visible_count ;
return true ;
}
void RsGxsNetService::processCompletedTransactions()
{
RS_STACK_MUTEX(mNxsMutex) ;
/*!
* Depending on transaction we may have to respond to peer
* responsible for transaction
*/
while(mComplTransactions.size()>0)
{
NxsTransaction* tr = mComplTransactions.front();
bool outgoing = tr->mTransaction->PeerId() == mOwnId;
if(outgoing){
locked_processCompletedOutgoingTrans(tr);
}else{
locked_processCompletedIncomingTrans(tr);
}
delete tr;
mComplTransactions.pop_front();
}
}
void RsGxsNetService::locked_processCompletedIncomingTrans(NxsTransaction* tr)
{
uint16_t flag = tr->mTransaction->transactFlag;
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << "Processing complete Incoming transaction with " << tr->mTransaction->nItems << " items." << std::endl;
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " flags = " << flag << std::endl;
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " peerId= " << tr->mTransaction->PeerId() << std::endl;
#endif
if(tr->mFlag & NxsTransaction::FLAG_STATE_COMPLETED)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " transaction has completed." << std::endl;
#endif
// for a completed list response transaction
// one needs generate requests from this
if(flag & RsNxsTransacItem::FLAG_TYPE_MSG_LIST_RESP)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " type = msg list response." << std::endl;
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " => generate msg request based on it." << std::endl;
#endif
// generate request based on a peers response
locked_genReqMsgTransaction(tr);
}else if(flag & RsNxsTransacItem::FLAG_TYPE_GRP_LIST_RESP)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " type = grp list response." << std::endl;
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " => generate group transaction request based on it." << std::endl;
#endif
locked_genReqGrpTransaction(tr);
}
// you've finished receiving request information now gen
else if(flag & RsNxsTransacItem::FLAG_TYPE_MSG_LIST_REQ)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " type = msg list request." << std::endl;
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " => generate msg list based on it." << std::endl;
#endif
locked_genSendMsgsTransaction(tr);
}
else if(flag & RsNxsTransacItem::FLAG_TYPE_GRP_LIST_REQ)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " type = grp list request." << std::endl;
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " => generate grp list based on it." << std::endl;
#endif
locked_genSendGrpsTransaction(tr);
}
else if(flag & RsNxsTransacItem::FLAG_TYPE_GRPS)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " type = groups." << std::endl;
#endif
std::vector<RsNxsGrp*> grps;
while(tr->mItems.size() != 0)
{
RsNxsGrp* grp = dynamic_cast<RsNxsGrp*>(tr->mItems.front());
if(grp)
{
tr->mItems.pop_front();
grps.push_back(grp);
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(tr->mTransaction->PeerId(),grp->grpId) << " adding new group " << grp->grpId << " to incoming list!" << std::endl;
#endif
}
else
std::cerr << " /!\\ item did not caste to grp" << std::endl;
}
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " ...and notifying observer " << std::endl;
#endif
#ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_P_ (tr->mTransaction->PeerId()) << "Service " << std::hex << ((mServiceInfo.mServiceType >> 8)& 0xffff) << std::dec << " - Received new groups meta data from peer " << tr->mTransaction->PeerId() << std::endl;
for(uint32_t i=0;i<grps.size();++i)
GXSNETDEBUG_PG(tr->mTransaction->PeerId(),grps[i]->grpId) ;
#endif
// notify listener of grps
for(uint32_t i=0;i<grps.size();++i)
mNewGroupsToNotify.push_back(grps[i]) ;
// now note this as the latest you've received from this peer
RsPeerId peerFrom = tr->mTransaction->PeerId();
uint32_t updateTS = tr->mTransaction->updateTS;
ClientGrpMap::iterator it = mClientGrpUpdateMap.find(peerFrom);
RsGxsGrpUpdateItem* item = NULL;
if(it != mClientGrpUpdateMap.end())
{
item = it->second;
}else
{
item = new RsGxsGrpUpdateItem(mServType);
mClientGrpUpdateMap.insert(std::make_pair(peerFrom, item));
}
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " and updating mClientGrpUpdateMap for peer " << peerFrom << " of new time stamp " << nice_time_stamp(time(NULL),updateTS) << std::endl;
#endif
item->grpUpdateTS = updateTS;
item->peerId = peerFrom;
IndicateConfigChanged();
}
else if(flag & RsNxsTransacItem::FLAG_TYPE_MSGS)
{
std::vector<RsNxsMsg*> msgs;
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " type = msgs." << std::endl;
#endif
RsGxsGroupId grpId;
while(tr->mItems.size() > 0)
{
RsNxsMsg* msg = dynamic_cast<RsNxsMsg*>(tr->mItems.front());
if(msg)
{
if(grpId.isNull())
grpId = msg->grpId;
tr->mItems.pop_front();
msgs.push_back(msg);
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(tr->mTransaction->PeerId(),msg->grpId) << " pushing grpId="<< msg->grpId << ", msgsId=" << msg->msgId << " to list of incoming messages" << std::endl;
#endif
}
else
std::cerr << "RsGxsNetService::processCompletedTransactions(): item did not caste to msg" << std::endl;
}
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
2016-01-18 23:53:06 -05:00
#ifdef NXS_FRAG
added automatic GXS message rejection when item size exceeds 200K. Should fix the forums that got stuck because of a large message not being sent
2016-01-19 10:13:24 -05:00
// (cyril) This code does not work. Since we do not really need message fragmenting, I won't fix it.
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
2016-01-18 23:53:06 -05:00
std::map<RsGxsMessageId, MsgFragments > collatedMsgs;
collateMsgFragments(msgs, collatedMsgs); // this destroys msgs whatsoever and recovers memory when needed
merged with latest trunk
2016-01-01 15:15:19 -05:00
msgs.clear();
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
2016-01-18 23:53:06 -05:00
std::map<RsGxsMessageId, MsgFragments >::iterator mit = collatedMsgs.begin();
merged with latest trunk
2016-01-01 15:15:19 -05:00
for(; mit != collatedMsgs.end(); ++mit)
{
MsgFragments& f = mit->second;
RsNxsMsg* msg = deFragmentMsg(f);
if(msg)
msgs.push_back(msg);
}
fixed a few bugs in existing msg fragmentation code. Signature checking still not working, not NXS_FRAG stays disabled
2016-01-18 23:53:06 -05:00
collatedMsgs.clear();
merged with latest trunk
2016-01-01 15:15:19 -05:00
#endif
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(tr->mTransaction->PeerId(),grpId) << " ...and notifying observer of " << msgs.size() << " new messages." << std::endl;
#endif
#ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_PG (tr->mTransaction->PeerId(),grpId) << "Service " << std::hex << ((mServiceInfo.mServiceType >> 8)& 0xffff) << std::dec << " - Received new messages from peer " << tr->mTransaction->PeerId() << " for group " << grpId << std::endl;
for(uint32_t i=0;i<msgs.size();++i)
GXSNETDEBUG_PG(tr->mTransaction->PeerId(),grpId) << " " << msgs[i]->msgId << std::endl ;
#endif
// notify listener of msgs
for(uint32_t i=0;i<msgs.size();++i)
mNewMessagesToNotify.push_back(msgs[i]) ;
// now note that this is the latest you've received from this peer
// for the grp id
locked_doMsgUpdateWork(tr->mTransaction, grpId);
}
}
else if(tr->mFlag == NxsTransaction::FLAG_STATE_FAILED)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " transaction has failed. Wasting it." << std::endl;
#endif
// don't do anything transaction will simply be cleaned
}
return;
}
void RsGxsNetService::locked_doMsgUpdateWork(const RsNxsTransacItem *nxsTrans, const RsGxsGroupId &grpId)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(nxsTrans->PeerId(),grpId) << "updating MsgUpdate time stamps for peerId=" << nxsTrans->PeerId() << ", grpId=" << grpId << std::endl;
#endif
// firts check if peer exists
const RsPeerId& peerFrom = nxsTrans->PeerId();
ClientMsgMap::iterator it = mClientMsgUpdateMap.find(peerFrom);
RsGxsMsgUpdateItem* mui = NULL;
// now update the peer's entry for this grp id
if(it != mClientMsgUpdateMap.end())
{
mui = it->second;
}
else
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(nxsTrans->PeerId(),grpId) << " created new entry." << std::endl;
#endif
mui = new RsGxsMsgUpdateItem(mServType);
mClientMsgUpdateMap.insert(std::make_pair(peerFrom, mui));
}
mui->peerId = peerFrom;
if(mPartialMsgUpdates[peerFrom].find(grpId) != mPartialMsgUpdates[peerFrom].end())
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(nxsTrans->PeerId(),grpId) << " this is a partial update. Not using new time stamp." << std::endl;
#endif
}
else
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(nxsTrans->PeerId(),grpId) << " this is a full update. Updating time stamp." << std::endl;
#endif
mui->msgUpdateInfos[grpId].time_stamp = nxsTrans->updateTS;
IndicateConfigChanged();
}
}
void RsGxsNetService::locked_processCompletedOutgoingTrans(NxsTransaction* tr)
{
uint16_t flag = tr->mTransaction->transactFlag;
#ifdef NXS_NET_DEBUG_0
fixed compilation
2016-02-10 22:18:55 -05:00
RsNxsTransacItem *nxsTrans = tr->mTransaction;
merged with latest trunk
2016-01-01 15:15:19 -05:00
GXSNETDEBUG_P_(nxsTrans->PeerId()) << "locked_processCompletedOutgoingTrans(): tr->flags = " << flag << std::endl;
#endif
if(tr->mFlag & NxsTransaction::FLAG_STATE_COMPLETED)
{
// for a completed list response transaction
// one needs generate requests from this
if(flag & RsNxsTransacItem::FLAG_TYPE_MSG_LIST_RESP)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(nxsTrans->PeerId())<< " complete Sending Msg List Response, transN: " << tr->mTransaction->transactionNumber << std::endl;
#endif
}else if(flag & RsNxsTransacItem::FLAG_TYPE_GRP_LIST_RESP)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(nxsTrans->PeerId())<< " complete Sending Grp Response, transN: " << tr->mTransaction->transactionNumber << std::endl;
#endif
}
// you've finished sending a request so don't do anything
else if( (flag & RsNxsTransacItem::FLAG_TYPE_MSG_LIST_REQ) ||
(flag & RsNxsTransacItem::FLAG_TYPE_GRP_LIST_REQ) )
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(nxsTrans->PeerId())<< " complete Sending Msg/Grp Request, transN: " << tr->mTransaction->transactionNumber << std::endl;
#endif
}else if(flag & RsNxsTransacItem::FLAG_TYPE_GRPS)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(nxsTrans->PeerId())<< " complete Sending Grp Data, transN: " << tr->mTransaction->transactionNumber << std::endl;
#endif
}else if(flag & RsNxsTransacItem::FLAG_TYPE_MSGS)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(nxsTrans->PeerId())<< " complete Sending Msg Data, transN: " << tr->mTransaction->transactionNumber << std::endl;
#endif
}
}else if(tr->mFlag == NxsTransaction::FLAG_STATE_FAILED){
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(nxsTrans->PeerId())<< " Failed transaction! transN: " << tr->mTransaction->transactionNumber << std::endl;
#endif
}else{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(nxsTrans->PeerId())<< " Serious error unrecognised trans Flag! transN: " << tr->mTransaction->transactionNumber << std::endl;
#endif
}
}
void RsGxsNetService::locked_pushMsgTransactionFromList(std::list<RsNxsItem*>& reqList, const RsPeerId& peerId, const uint32_t& transN)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(peerId) << "locked_pushMsgTransactionFromList()" << std::endl;
GXSNETDEBUG_P_(peerId) << " nelems = " << reqList.size() << std::endl;
GXSNETDEBUG_P_(peerId) << " peerId = " << peerId << std::endl;
GXSNETDEBUG_P_(peerId) << " transN = " << transN << std::endl;
#endif
#ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_P_ (peerId) << "Service " << std::hex << ((mServiceInfo.mServiceType >> 8)& 0xffff) << std::dec << " - sending message request to peer "
<< peerId << " for " << reqList.size() << " messages" << std::endl;
#endif
RsNxsTransacItem* transac = new RsNxsTransacItem(mServType);
transac->transactFlag = RsNxsTransacItem::FLAG_TYPE_MSG_LIST_REQ
| RsNxsTransacItem::FLAG_BEGIN_P1;
transac->timestamp = 0;
transac->nItems = reqList.size();
transac->PeerId(peerId);
transac->transactionNumber = transN;
NxsTransaction* newTrans = new NxsTransaction();
newTrans->mItems = reqList;
newTrans->mFlag = NxsTransaction::FLAG_STATE_WAITING_CONFIRM;
newTrans->mTimeOut = time(NULL) + mTransactionTimeOut;
// create transaction copy with your id to indicate
// its an outgoing transaction
newTrans->mTransaction = new RsNxsTransacItem(*transac);
newTrans->mTransaction->PeerId(mOwnId);
sendItem(transac);
if (!locked_addTransaction(newTrans))
delete newTrans;
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(peerId) << " Requested new transaction for " << reqList.size() << " items." << std::endl;
#endif
}
void RsGxsNetService::locked_genReqMsgTransaction(NxsTransaction* tr)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG___ << "RsGxsNetService::genReqMsgTransaction()" << std::endl;
#endif
// to create a transaction you need to know who you are transacting with
// then what msgs to request
// then add an active Transaction for request
std::list<RsNxsSyncMsgItem*> msgItemL;
std::list<RsNxsItem*>::iterator lit = tr->mItems.begin();
// first get item list sent from transaction
for(; lit != tr->mItems.end(); ++lit)
{
RsNxsSyncMsgItem* item = dynamic_cast<RsNxsSyncMsgItem*>(*lit);
if(item)
{
msgItemL.push_back(item);
}else
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(item->PeerId()) << "RsGxsNetService::genReqMsgTransaction(): item failed cast to RsNxsSyncMsgItem* " << std::endl;
#endif
}
}
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " found " << msgItemL.size()<< " messages in this transaction." << std::endl;
#endif
if(msgItemL.empty())
return;
// get grp id for this transaction
RsNxsSyncMsgItem* item = msgItemL.front();
const RsGxsGroupId& grpId = item->grpId;
// store the count for the peer who sent the message list
uint32_t mcount = msgItemL.size() ;
RsPeerId pid = msgItemL.front()->PeerId() ;
RsGroupNetworkStatsRecord& gnsr = mGroupNetworkStats[grpId];
std::set<RsPeerId>::size_type oldSuppliersCount = gnsr.suppliers.size();
uint32_t oldVisibleCount = gnsr.max_visible_count;
gnsr.suppliers.insert(pid) ;
gnsr.max_visible_count = std::max(gnsr.max_visible_count, mcount) ;
if (oldVisibleCount != gnsr.max_visible_count || oldSuppliersCount != gnsr.suppliers.size())
mObserver->notifyChangedGroupStats(grpId);
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << " grpId = " << grpId << std::endl;
GXSNETDEBUG_PG(item->PeerId(),grpId) << " retrieving grp mesta data..." << std::endl;
#endif
RsGxsMetaDataTemporaryMap<RsGxsGrpMetaData> grpMetaMap;
grpMetaMap[grpId] = NULL;
mDataStore->retrieveGxsGrpMetaData(grpMetaMap);
RsGxsGrpMetaData* grpMeta = grpMetaMap[grpId];
removed sending probability in GXS since it is not justified anymore. This should fix peers not being updated because they have very low bandwidth. Removed and fixed a few minor warnings.
2016-01-26 18:50:33 -05:00
if(grpMeta == NULL) // this should not happen, but just in case...
{
std::cerr << "(EE) grpMeta is NULL in " << __PRETTY_FUNCTION__ << " line " << __LINE__ << ". This is very unexpected." << std::endl;
return ;
}
merged with latest trunk
2016-01-01 15:15:19 -05:00
if(! (grpMeta->mSubscribeFlags & GXS_SERV::GROUP_SUBSCRIBE_SUBSCRIBED ))
{
// For unsubscribed groups, we update the timestamp something more recent, so that the group content will not be asked to the same
// peer again, unless the peer has new info about it. It's important to use the same clock (this is peer's clock) so that
// we never compare times from different (and potentially badly sync-ed clocks)
std::cerr << "(EE) stepping in part of the code (" << __PRETTY_FUNCTION__ << ") where we shouldn't. This is a bug." << std::endl;
removed [dos] LF from rsgxsnetservice (causes merging rampage)
2016-01-13 20:25:18 -05:00
#ifdef TO_REMOVE
merged with latest trunk
2016-01-01 15:15:19 -05:00
locked_stampPeerGroupUpdateTime(pid,grpId,tr->mTransaction->updateTS,msgItemL.size()) ;
removed [dos] LF from rsgxsnetservice (causes merging rampage)
2016-01-13 20:25:18 -05:00
#endif
merged with latest trunk
2016-01-01 15:15:19 -05:00
return ;
}
int cutoff = 0;
if(grpMeta != NULL)
cutoff = grpMeta->mReputationCutOff;
GxsMsgReq reqIds;
reqIds[grpId] = std::vector<RsGxsMessageId>();
GxsMsgMetaResult result;
mDataStore->retrieveGxsMsgMetaData(reqIds, result);
std::vector<RsGxsMsgMetaData*> &msgMetaV = result[grpId];
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << " retrieving grp message list..." << std::endl;
GXSNETDEBUG_PG(item->PeerId(),grpId) << " grp locally contains " << msgMetaV.size() << " messsages." << std::endl;
#endif
std::vector<RsGxsMsgMetaData*>::const_iterator vit = msgMetaV.begin();
std::set<RsGxsMessageId> msgIdSet;
// put ids in set for each searching
for(; vit != msgMetaV.end(); ++vit)
{
msgIdSet.insert((*vit)->mMsgId);
delete(*vit);
}
msgMetaV.clear();
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << " grp locally contains " << msgIdSet.size() << " unique messsages." << std::endl;
#endif
// get unique id for this transaction
uint32_t transN = locked_getTransactionId();
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << " new transaction ID: " << transN << std::endl;
#endif
// add msgs that you don't have to request list
std::list<RsNxsSyncMsgItem*>::iterator llit = msgItemL.begin();
std::list<RsNxsItem*> reqList;
int reqListSize = 0 ;
const RsPeerId peerFrom = tr->mTransaction->PeerId();
MsgAuthorV toVet;
std::list<RsPeerId> peers;
peers.push_back(tr->mTransaction->PeerId());
bool reqListSizeExceeded = false ;
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << " sorting items..." << std::endl;
#endif
for(; llit != msgItemL.end(); ++llit)
{
RsNxsSyncMsgItem*& syncItem = *llit;
const RsGxsMessageId& msgId = syncItem->msgId;
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << " msg ID = " << msgId ;
#endif
if(reqListSize >= MAX_REQLIST_SIZE)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << ". reqlist too big. Pruning out this item for now." << std::endl;
#endif
reqListSizeExceeded = true ;
continue ; // we should actually break, but we need to print some debug info.
}
if(reqListSize < MAX_REQLIST_SIZE && msgIdSet.find(msgId) == msgIdSet.end())
{
// if reputation is in reputations cache then proceed
// or if there isn't an author (note as author requirement is
// enforced at service level, if no author is needed then reputation
// filtering is optional)
bool noAuthor = syncItem->authorId.isNull();
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << ", reqlist size=" << reqListSize << ", message not present." ;
#endif
// grp meta must be present if author present
if(!noAuthor && grpMeta == NULL)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << ", no group meta found. Givign up." << std::endl;
#endif
continue;
}
if(rsReputations->isIdentityBanned(syncItem->authorId))
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << ", Identity " << syncItem->authorId << " is banned. Not requesting message!" << std::endl;
#endif
continue ;
}
if(mRejectedMessages.find(msgId) != mRejectedMessages.end())
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << ", message has been recently rejected. Not requesting message!" << std::endl;
#endif
continue ;
}
if(mReputations->haveReputation(syncItem->authorId) || noAuthor)
{
GixsReputation rep;
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << ", author Id=" << syncItem->authorId << ". Reputation: " ;
#endif
if(!noAuthor)
mReputations->getReputation(syncItem->authorId, rep);
// if author is required for this message, it will simply get dropped
// at genexchange side of things
if(rep.score >= (int)grpMeta->mReputationCutOff || noAuthor)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << ", passed! Adding message to req list." << std::endl;
#endif
RsNxsSyncMsgItem* msgItem = new RsNxsSyncMsgItem(mServType);
msgItem->grpId = grpId;
msgItem->msgId = msgId;
msgItem->flag = RsNxsSyncMsgItem::FLAG_REQUEST;
msgItem->transactionNumber = transN;
msgItem->PeerId(peerFrom);
reqList.push_back(msgItem);
++reqListSize ;
}
#ifdef NXS_NET_DEBUG_1
else
GXSNETDEBUG_PG(item->PeerId(),grpId) << ", failed!" << std::endl;
#endif
}
else
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << ", no author/no reputation. Pushed to Vetting list." << std::endl;
#endif
// preload for speed
mReputations->loadReputation(syncItem->authorId, peers);
MsgAuthEntry entry;
entry.mAuthorId = syncItem->authorId;
entry.mGrpId = syncItem->grpId;
entry.mMsgId = syncItem->msgId;
toVet.push_back(entry);
}
}
#ifdef NXS_NET_DEBUG_1
else
GXSNETDEBUG_PG(item->PeerId(),grpId) << ". already here." << std::endl;
#endif
}
if(!toVet.empty())
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << " Vetting list: " << toVet.size() << " elements." << std::endl;
#endif
MsgRespPending* mrp = new MsgRespPending(mReputations, tr->mTransaction->PeerId(), toVet, cutoff);
mPendingResp.push_back(mrp);
}
if(!reqList.empty())
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << " Request list: " << reqList.size() << " elements." << std::endl;
#endif
locked_pushMsgTransactionFromList(reqList, tr->mTransaction->PeerId(), transN);
if(reqListSizeExceeded)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << " Marking update operation as unfinished." << std::endl;
#endif
mPartialMsgUpdates[tr->mTransaction->PeerId()].insert(item->grpId) ;
}
else
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << " Marking update operation as terminal." << std::endl;
#endif
mPartialMsgUpdates[tr->mTransaction->PeerId()].erase(item->grpId) ;
}
}
else
{
removed [dos] LF from rsgxsnetservice (causes merging rampage)
2016-01-13 20:25:18 -05:00
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(item->PeerId(),grpId) << " Request list is empty. Not doing anything. " << std::endl;
#endif
merged with latest trunk
2016-01-01 15:15:19 -05:00
// The list to req is empty. That means we already have all messages that this peer can
// provide. So we can stamp the group from this peer to be up to date.
removed [dos] LF from rsgxsnetservice (causes merging rampage)
2016-01-13 20:25:18 -05:00
// Part of this is already achieved in two other places:
// - the GroupStats exchange system, which counts the messages at each peer. It could also supply TS for the messages, but it does not for the time being
// - client TS are updated when receiving messages
merged with latest trunk
2016-01-01 15:15:19 -05:00
locked_stampPeerGroupUpdateTime(pid,grpId,tr->mTransaction->updateTS,msgItemL.size()) ;
}
}
void RsGxsNetService::locked_stampPeerGroupUpdateTime(const RsPeerId& pid,const RsGxsGroupId& grpId,time_t tm,uint32_t n_messages)
{
std::map<RsPeerId,RsGxsMsgUpdateItem*>::iterator it = mClientMsgUpdateMap.find(pid) ;
RsGxsMsgUpdateItem *pitem;
if(it == mClientMsgUpdateMap.end())
{
pitem = new RsGxsMsgUpdateItem(mServType) ;
pitem->peerId = pid ;
updated v0.6-Circles with latest trunk
2016-01-01 22:18:43 -05:00
mClientMsgUpdateMap[pid] = pitem ;
merged with latest trunk
2016-01-01 15:15:19 -05:00
}
else
pitem = it->second ;
pitem->msgUpdateInfos[grpId].time_stamp = tm;
pitem->msgUpdateInfos[grpId].message_count = std::max(n_messages, pitem->msgUpdateInfos[grpId].message_count) ;
IndicateConfigChanged();
}
void RsGxsNetService::locked_pushGrpTransactionFromList( std::list<RsNxsItem*>& reqList, const RsPeerId& peerId, const uint32_t& transN)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(peerId) << "locked_pushGrpTransactionFromList()" << std::endl;
GXSNETDEBUG_P_(peerId) << " nelems = " << reqList.size() << std::endl;
GXSNETDEBUG_P_(peerId) << " peerId = " << peerId << std::endl;
GXSNETDEBUG_P_(peerId) << " transN = " << transN << std::endl;
#endif
#ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_P_ (peerId) << "Service " << std::hex << ((mServiceInfo.mServiceType >> 8)& 0xffff) << std::dec << " - sending group request to peer "
<< peerId << " for " << reqList.size() << " groups" << std::endl;
#endif
RsNxsTransacItem* transac = new RsNxsTransacItem(mServType);
transac->transactFlag = RsNxsTransacItem::FLAG_TYPE_GRP_LIST_REQ
| RsNxsTransacItem::FLAG_BEGIN_P1;
transac->timestamp = 0;
transac->nItems = reqList.size();
transac->PeerId(peerId);
transac->transactionNumber = transN;
NxsTransaction* newTrans = new NxsTransaction();
newTrans->mItems = reqList;
newTrans->mFlag = NxsTransaction::FLAG_STATE_WAITING_CONFIRM;
newTrans->mTimeOut = time(NULL) + mTransactionTimeOut;
newTrans->mTransaction = new RsNxsTransacItem(*transac);
newTrans->mTransaction->PeerId(mOwnId);
sendItem(transac);
if (!locked_addTransaction(newTrans))
delete newTrans;
}
void RsGxsNetService::addGroupItemToList(NxsTransaction*& tr, const RsGxsGroupId& grpId, uint32_t& transN, std::list<RsNxsItem*>& reqList)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(tr->mTransaction->PeerId(),grpId) << "RsGxsNetService::addGroupItemToList() Added GroupID: << grpId" << std::endl;
#endif
RsNxsSyncGrpItem* grpItem = new RsNxsSyncGrpItem(mServType);
grpItem->PeerId(tr->mTransaction->PeerId());
grpItem->grpId = grpId;
grpItem->flag = RsNxsSyncMsgItem::FLAG_REQUEST;
grpItem->transactionNumber = transN;
reqList.push_back(grpItem);
}
void RsGxsNetService::locked_genReqGrpTransaction(NxsTransaction* tr)
{
// to create a transaction you need to know who you are transacting with
// then what grps to request
// then add an active Transaction for request
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << "locked_genReqGrpTransaction(): " << std::endl;
#endif
RsGxsMetaDataTemporaryMap<RsGxsGrpMetaData> grpMetaMap;
std::list<RsNxsSyncGrpItem*> grpItemL;
for(std::list<RsNxsItem*>::iterator lit = tr->mItems.begin(); lit != tr->mItems.end(); ++lit)
{
RsNxsSyncGrpItem* item = dynamic_cast<RsNxsSyncGrpItem*>(*lit);
if(item)
{
grpItemL.push_back(item);
grpMetaMap[item->grpId] = NULL;
}else
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(tr->mTransaction->PeerId(),item->grpId) << "RsGxsNetService::genReqGrpTransaction(): item failed to caste to RsNxsSyncMsgItem* " << std::endl;
#endif
}
}
if (grpItemL.empty())
return;
mDataStore->retrieveGxsGrpMetaData(grpMetaMap);
// now do compare and add loop
std::list<RsNxsSyncGrpItem*>::iterator llit = grpItemL.begin();
std::list<RsNxsItem*> reqList;
uint32_t transN = locked_getTransactionId();
GrpAuthorV toVet;
std::list<RsPeerId> peers;
peers.push_back(tr->mTransaction->PeerId());
for(; llit != grpItemL.end(); ++llit)
{
RsNxsSyncGrpItem*& grpSyncItem = *llit;
const RsGxsGroupId& grpId = grpSyncItem->grpId;
std::map<RsGxsGroupId, RsGxsGrpMetaData*>::const_iterator metaIter = grpMetaMap.find(grpId);
bool haveItem = false;
bool latestVersion = false;
if (metaIter != grpMetaMap.end() && metaIter->second)
{
haveItem = true;
latestVersion = grpSyncItem->publishTs > metaIter->second->mPublishTs;
}
if(!grpSyncItem->authorId.isNull() && rsReputations->isIdentityBanned(grpSyncItem->authorId))
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(tr->mTransaction->PeerId(),grpId) << " Identity " << grpSyncItem->authorId << " is banned. Not syncing group." << std::endl;
#endif
continue ;
}
if( (mGrpAutoSync && !haveItem) || latestVersion)
{
// determine if you need to check reputation
bool checkRep = !grpSyncItem->authorId.isNull();
// check if you have reputation, if you don't then
// place in holding pen
if(checkRep)
{
if(mReputations->haveReputation(grpSyncItem->authorId))
{
GixsReputation rep;
mReputations->getReputation(grpSyncItem->authorId, rep);
if(rep.score >= GIXS_CUT_OFF)
{
addGroupItemToList(tr, grpId, transN, reqList);
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(tr->mTransaction->PeerId(),grpId)<< " reputation cut off: limit=" << GIXS_CUT_OFF << " value=" << rep.score << ": allowed." << std::endl;
#endif
}
#ifdef NXS_NET_DEBUG_0
else
GXSNETDEBUG_PG(tr->mTransaction->PeerId(),grpId)<< " reputation cut off: limit=" << GIXS_CUT_OFF << " value=" << rep.score << ": you shall not pass." << std::endl;
#endif
}
else
{
// preload reputation for later
mReputations->loadReputation(grpSyncItem->authorId, peers);
GrpAuthEntry entry;
entry.mAuthorId = grpSyncItem->authorId;
entry.mGrpId = grpSyncItem->grpId;
toVet.push_back(entry);
}
}
else
{
addGroupItemToList(tr, grpId, transN, reqList);
}
}
}
if(!toVet.empty())
{
RsPeerId peerId = tr->mTransaction->PeerId();
GrpRespPending* grp = new GrpRespPending(mReputations, peerId, toVet);
mPendingResp.push_back(grp);
}
if(!reqList.empty())
locked_pushGrpTransactionFromList(reqList, tr->mTransaction->PeerId(), transN);
fixed update of mGrpClientUpdateMap when no new group is available, avoiding unnecessary GXS grp list traffic (patch from jolavillette)
2016-01-14 20:11:26 -05:00
else
{
ClientGrpMap::iterator it = mClientGrpUpdateMap.find(tr->mTransaction->PeerId());
RsGxsGrpUpdateItem* item = NULL;
if(it != mClientGrpUpdateMap.end())
item = it->second;
else
{
item = new RsGxsGrpUpdateItem(mServType);
mClientGrpUpdateMap.insert(std::make_pair(tr->mTransaction->PeerId(), item));
}
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << " reqList is empty, updating anyway ClientGrpUpdate TS for peer " << tr->mTransaction->PeerId() << " to: " << tr->mTransaction->updateTS << std::endl;
#endif
item->grpUpdateTS = tr->mTransaction->updateTS;
item->peerId = tr->mTransaction->PeerId();
IndicateConfigChanged();
}
merged with latest trunk
2016-01-01 15:15:19 -05:00
}
void RsGxsNetService::locked_genSendGrpsTransaction(NxsTransaction* tr)
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << "locked_genSendGrpsTransaction() Generating Grp data send fron TransN: " << tr->mTransaction->transactionNumber << std::endl;
#endif
// go groups requested in transaction tr
std::list<RsNxsItem*>::iterator lit = tr->mItems.begin();
RsGxsMetaDataTemporaryMap<RsNxsGrp> grps ;
for(;lit != tr->mItems.end(); ++lit)
{
RsNxsSyncGrpItem* item = dynamic_cast<RsNxsSyncGrpItem*>(*lit);
if (item)
grps[item->grpId] = NULL;
else
{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_PG(tr->mTransaction->PeerId(),item->grpId) << "RsGxsNetService::locked_genSendGrpsTransaction(): item failed to caste to RsNxsSyncGrpItem* " << std::endl;
#endif
}
}
if(!grps.empty())
mDataStore->retrieveNxsGrps(grps, false, false);
else
return;
NxsTransaction* newTr = new NxsTransaction();
newTr->mFlag = NxsTransaction::FLAG_STATE_WAITING_CONFIRM;
uint32_t transN = locked_getTransactionId();
// store grp items to send in transaction
std::map<RsGxsGroupId, RsNxsGrp*>::iterator mit = grps.begin();
RsPeerId peerId = tr->mTransaction->PeerId();
for(;mit != grps.end(); ++mit)
{
mit->second->PeerId(peerId); // set so it gets sent to right peer
mit->second->transactionNumber = transN;
newTr->mItems.push_back(mit->second);
mit->second = NULL ; // avoids deletion
}
if(newTr->mItems.empty()){
delete newTr;
return;
}
uint32_t updateTS = 0;
if(mGrpServerUpdateItem)
updateTS = mGrpServerUpdateItem->grpUpdateTS;
#ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_P_ (tr->mTransaction->PeerId()) << "Service " << std::hex << ((mServiceInfo.mServiceType >> 8)& 0xffff) << std::dec << " - sending global group TS "
<< updateTS << " to peer " << tr->mTransaction->PeerId() << std::endl;
#endif
RsNxsTransacItem* ntr = new RsNxsTransacItem(mServType);
ntr->transactionNumber = transN;
ntr->transactFlag = RsNxsTransacItem::FLAG_BEGIN_P1 | RsNxsTransacItem::FLAG_TYPE_GRPS;
ntr->updateTS = updateTS;
ntr->nItems = grps.size();
ntr->PeerId(tr->mTransaction->PeerId());
newTr->mTransaction = new RsNxsTransacItem(*ntr);
newTr->mTransaction->PeerId(mOwnId);
newTr->mTimeOut = time(NULL) + mTransactionTimeOut;
ntr->PeerId(tr->mTransaction->PeerId());
sendItem(ntr);
locked_addTransaction(newTr);
return;
}
void RsGxsNetService::runVetting()
{
// The vetting operation consists in transforming pending group/msg Id requests and grp/msg content requests
// into real transactions, based on the authorisations of the Peer Id these transactions are targeted to using the
// reputation system.
//
RS_STACK_MUTEX(mNxsMutex) ;
std::vector<AuthorPending*>::iterator vit = mPendingResp.begin();
for(; vit != mPendingResp.end(); )
{
AuthorPending* ap = *vit;
if(ap->accepted() || ap->expired())
{
// add to transactions
if(AuthorPending::MSG_PEND == ap->getType())
{
MsgRespPending* mrp = static_cast<MsgRespPending*>(ap);
locked_createTransactionFromPending(mrp);
}
else if(AuthorPending::GRP_PEND == ap->getType())
{
GrpRespPending* grp = static_cast<GrpRespPending*>(ap);
locked_createTransactionFromPending(grp);
}else
std::cerr << "RsGxsNetService::runVetting(): Unknown pending type! Type: " << ap->getType() << std::endl;
delete ap;
vit = mPendingResp.erase(vit);
}
else
{
++vit;
}
}
// now lets do circle vetting
std::vector<GrpCircleVetting*>::iterator vit2 = mPendingCircleVets.begin();
for(; vit2 != mPendingCircleVets.end(); )
{
GrpCircleVetting*& gcv = *vit2;
if(gcv->cleared() || gcv->expired())
{
if(gcv->getType() == GrpCircleVetting::GRP_ID_PEND)
{
GrpCircleIdRequestVetting* gcirv =
static_cast<GrpCircleIdRequestVetting*>(gcv);
locked_createTransactionFromPending(gcirv);
}
else if(gcv->getType() == GrpCircleVetting::MSG_ID_SEND_PEND)
{
MsgCircleIdsRequestVetting* mcirv =
static_cast<MsgCircleIdsRequestVetting*>(gcv);
if(mcirv->cleared())
locked_createTransactionFromPending(mcirv);
}
else
{
#ifdef NXS_NET_DEBUG_4
std::cerr << "RsGxsNetService::runVetting(): Unknown Circle pending type! Type: " << gcv->getType() << std::endl;
#endif
}
delete gcv;
vit2 = mPendingCircleVets.erase(vit2);
}
else
{
++vit2;
}
}
}
void RsGxsNetService::locked_genSendMsgsTransaction(NxsTransaction* tr)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(tr->mTransaction->PeerId()) << "locked_genSendMsgsTransaction() Generating Msg data send fron TransN: " << tr->mTransaction->transactionNumber << std::endl;
#endif
// go groups requested in transaction tr
std::list<RsNxsItem*>::iterator lit = tr->mItems.begin();
GxsMsgReq msgIds;
GxsMsgResult msgs;
if(tr->mItems.empty()){
return;
}
// hacky assumes a transaction only consist of a single grpId
RsGxsGroupId grpId;
for(;lit != tr->mItems.end(); ++lit)
{
RsNxsSyncMsgItem* item = dynamic_cast<RsNxsSyncMsgItem*>(*lit);
if (item)
{
msgIds[item->grpId].push_back(item->msgId);
if(grpId.isNull())
grpId = item->grpId;
else if(grpId != item->grpId)
{
std::cerr << "RsGxsNetService::locked_genSendMsgsTransaction(): transaction on two different groups! ERROR!" << std::endl;
return ;
}
}
else
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(tr->mTransaction->PeerId(),grpId) << "RsGxsNetService::locked_genSendMsgsTransaction(): item failed to caste to RsNxsSyncMsgItem* " << std::endl;
#endif
}
}
mDataStore->retrieveNxsMsgs(msgIds, msgs, false, false);
NxsTransaction* newTr = new NxsTransaction();
newTr->mFlag = NxsTransaction::FLAG_STATE_WAITING_CONFIRM;
uint32_t transN = locked_getTransactionId();
// store msg items to send in transaction
GxsMsgResult::iterator mit = msgs.begin();
RsPeerId peerId = tr->mTransaction->PeerId();
uint32_t msgSize = 0;
for(;mit != msgs.end(); ++mit)
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{
std::vector<RsNxsMsg*>& msgV = mit->second;
std::vector<RsNxsMsg*>::iterator vit = msgV.begin();
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for(; vit != msgV.end(); ++vit)
{
RsNxsMsg* msg = *vit;
msg->PeerId(peerId);
msg->transactionNumber = transN;
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// Quick trick to clamp messages with an exceptionnally large size. Signature will fail on client side, and the message
// will be rejected.
if(msg->msg.bin_len > MAX_ALLOWED_GXS_MESSAGE_SIZE)
{
std::cerr << "(WW) message with ID " << msg->msgId << " in group " << msg->grpId << " exceeds size limit of " << MAX_ALLOWED_GXS_MESSAGE_SIZE << " bytes. Actual size is " << msg->msg.bin_len << " bytes. Message will be truncated and rejected at client." << std::endl;
msg->msg.bin_len = 1 ; // arbitrary small size, but not 0. No need to send the data since it's going to be rejected.
}
added automatic GXS message rejection when item size exceeds 200K. Should fix the forums that got stuck because of a large message not being sent
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#ifdef NXS_FRAG
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MsgFragments fragments;
fragmentMsg(*msg, fragments);
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delete msg ;
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MsgFragments::iterator mit = fragments.begin();
for(; mit != fragments.end(); ++mit)
{
newTr->mItems.push_back(*mit);
msgSize++;
}
added automatic GXS message rejection when item size exceeds 200K. Should fix the forums that got stuck because of a large message not being sent
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#else
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msg->count = 1; // only one piece. This is to keep compatibility if we ever implement fragmenting in the future.
msg->pos = 0;
added automatic GXS message rejection when item size exceeds 200K. Should fix the forums that got stuck because of a large message not being sent
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newTr->mItems.push_back(msg);
msgSize++;
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#endif
removed [dos] LF from rsgxsnetservice (causes merging rampage)
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merged with upstream
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}
}
removed [dos] LF from rsgxsnetservice (causes merging rampage)
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if(newTr->mItems.empty()){
delete newTr;
return;
}
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// now if transaction is limited to an external group, encrypt it for members of the group.
std::map<RsGxsGroupId, RsGxsGrpMetaData*> grp;
grp[grpId] = NULL ;
mDataStore->retrieveGxsGrpMetaData(grp);
RsGxsGrpMetaData *grpMeta = grp[grpId] ;
if(grpMeta != NULL)
{
newTr->destination_circle = grpMeta->mCircleId ;
delete grpMeta ;
grp.clear() ;
}
// now send a transaction item and store the transaction data
uint32_t updateTS = 0;
ServerMsgMap::const_iterator cit = mServerMsgUpdateMap.find(grpId);
if(cit != mServerMsgUpdateMap.end())
updateTS = cit->second->msgUpdateTS;
RsNxsTransacItem* ntr = new RsNxsTransacItem(mServType);
ntr->transactionNumber = transN;
ntr->transactFlag = RsNxsTransacItem::FLAG_BEGIN_P1 |
RsNxsTransacItem::FLAG_TYPE_MSGS;
ntr->updateTS = updateTS;
ntr->nItems = msgSize;
ntr->PeerId(peerId);
newTr->mTransaction = new RsNxsTransacItem(*ntr);
newTr->mTransaction->PeerId(mOwnId);
newTr->mTimeOut = time(NULL) + mTransactionTimeOut;
#ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_PG (peerId,grpId) << "Service " << std::hex << ((mServiceInfo.mServiceType >> 8)& 0xffff) << std::dec << " - sending message update to peer " << peerId << " for group " << grpId << " with TS=" << nice_time_stamp(time(NULL),updateTS) <<" (secs ago)" << std::endl;
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#endif
ntr->PeerId(tr->mTransaction->PeerId());
sendItem(ntr);
// Encryption will happen here if needed.
locked_addTransaction(newTr);
return;
}
uint32_t RsGxsNetService::locked_getTransactionId()
{
return ++mTransactionN;
}
bool RsGxsNetService::locked_addTransaction(NxsTransaction* tr)
{
const RsPeerId& peer = tr->mTransaction->PeerId();
uint32_t transN = tr->mTransaction->transactionNumber;
TransactionIdMap& transMap = mTransactions[peer];
bool transNumExist = transMap.find(transN) != transMap.end();
if(transNumExist)
{
called re-loading of circles after creation. Added debug info in msg vetting
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#ifdef NXS_NET_DEBUG_1
removed [dos] LF from rsgxsnetservice (causes merging rampage)
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GXSNETDEBUG_P_(peer) << "locked_addTransaction() " << std::endl;
GXSNETDEBUG_P_(peer) << "Transaction number exist already, transN: " << transN << std::endl;
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#endif
return false;
removed [dos] LF from rsgxsnetservice (causes merging rampage)
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}else{
#ifdef NXS_NET_DEBUG_1
GXSNETDEBUG_P_(peer) << "locked_addTransaction() " << std::endl;
GXSNETDEBUG_P_(peer) << "Added transaction number " << transN << std::endl;
#endif
transMap[transN] = tr;
return true;
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}
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#ifdef NXS_NET_DEBUG_1
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std::cerr << "locked_addTransaction() " << std::endl;
std::cerr << "Added transaction number " << transN << std::endl;
#endif
if(!tr->destination_circle.isNull())
encryptTransaction(tr);
transMap[transN] = tr;
return true;
}
bool RsGxsNetService::encryptTransaction(NxsTransaction *tr)
{
added debug output for encryption/decryption of transactions
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#ifdef NXS_NET_DEBUG_7
RsPeerId peerId = tr->mTransaction->PeerId() ;
GXSNETDEBUG_P_ (peerId) << "Service " << std::hex << ((mServiceInfo.mServiceType >> 8)& 0xffff) << std::dec << " - Encrypting transaction for peer " << peerId << ", for circle ID " << tr->destination_circle << std::endl;
#endif
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std::cerr << "RsGxsNetService::encryptTransaction()" << std::endl;
// 1 - Find out the list of GXS ids to encrypt for
// We could do smarter things (like see if the peer_id owns one of the circle's identities
// but for now we aim at the simplest solution: encrypt for all identities in the circle.
std::list<RsGxsId> recipients ;
if(!mCircles->recipients(tr->destination_circle,recipients))
{
std::cerr << " (EE) Cannot encrypt transaction: recipients list not available." << std::endl;
return false ;
}
added debug output for encryption/decryption of transactions
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#ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_ (peerId) << " Dest Ids: " << std::endl;
#endif
fixed compilation of RsNxsTransaction encryption code
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std::vector<RsTlvSecurityKey> recipient_keys ;
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for(std::list<RsGxsId>::const_iterator it(recipients.begin());it!=recipients.end();++it)
{
RsTlvSecurityKey pkey ;
fixed compilation of RsNxsTransaction encryption code
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if(!mGixs->getKey(*it,pkey))
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{
std::cerr << "(EE) Cannot retrieve public key " << *it << " for circle encryption." << std::endl;
// we should probably request the key.
continue ;
}
added debug output for encryption/decryption of transactions
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#ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_ (peerId) << " added key " << *it << std::endl;
#endif
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recipient_keys.push_back(pkey) ;
}
// 2 - call GXSSecurity to make a header item that encrypts for the given list of peers.
added debug output for encryption/decryption of transactions
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#ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_ (peerId) << " Encrypting..." << std::endl;
#endif
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GxsSecurity::MultiEncryptionContext muctx ;
GxsSecurity::initEncryption(muctx,recipient_keys);
// 3 - serialise and encrypt each message, converting it into a NxsEncryptedDataItem
std::list<RsNxsItem*> encrypted_items ;
for(std::list<RsNxsItem*>::const_iterator it(tr->mItems.begin());it!=tr->mItems.end();++it)
{
uint32_t size = (*it)->serial_size() ;
RsTemporaryMemory tempmem( size ) ;
if(!(*it)->serialise(tempmem,size))
{
std::cerr << " (EE) Cannot serialise item. Something went wrong." << std::endl;
continue ;
}
unsigned char *encrypted_data = NULL ;
uint32_t encrypted_len = 0 ;
fixed compilation of RsNxsTransaction encryption code
2016-01-01 21:37:27 -05:00
if(!GxsSecurity::encrypt(encrypted_data, encrypted_len,tempmem,size,muctx))
merged with latest trunk
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{
std::cerr << " (EE) Cannot multi-encrypt item. Something went wrong." << std::endl;
continue ;
}
RsNxsEncryptedDataItem *enc_item = new RsNxsEncryptedDataItem(mServType) ;
enc_item->aes_encrypted_data.bin_len = encrypted_len ;
enc_item->aes_encrypted_data.bin_data = encrypted_data ;
enc_item->aes_encrypted_data.tlvtype = TLV_TYPE_BIN_ENCRYPTED ;
encrypted_items.push_back(enc_item) ;
added debug output for encryption/decryption of transactions
2016-01-03 17:33:14 -05:00
#ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_(peerId) << " encrypted item of size " << encrypted_len << std::endl;
#endif
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}
// 4 - put back in transaction.
for(std::list<RsNxsItem*>::const_iterator it(tr->mItems.begin());it!=tr->mItems.end();++it)
delete *it ;
tr->mItems = encrypted_items ;
// 5 - make session key item and push it front.
added debug output for encryption/decryption of transactions
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#ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_(peerId) << " Creating session key" << std::endl;
#endif
merged with latest trunk
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RsNxsSessionKeyItem *session_key_item = new RsNxsSessionKeyItem(mServType) ;
memcpy(session_key_item->iv,muctx.initialisation_vector(),EVP_MAX_IV_LENGTH) ;
for(int i=0;i<muctx.n_encrypted_keys();++i)
{
added debug output for encryption/decryption of transactions
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#ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_(peerId) << " addign session key for ID " << muctx.encrypted_key_id(i) << std::endl;
#endif
merged with latest trunk
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RsTlvBinaryData data ;
data.setBinData(muctx.encrypted_key_data(i), muctx.encrypted_key_size(i)) ;
session_key_item->encrypted_session_keys[muctx.encrypted_key_id(i)] = data ;
}
tr->mItems.push_front(session_key_item) ;
return true ;
}
bool RsGxsNetService::decryptTransaction(NxsTransaction *tr)
{
added debug output for encryption/decryption of transactions
2016-01-03 17:33:14 -05:00
#ifdef NXS_NET_DEBUG_7
RsPeerId peerId = tr->mTransaction->PeerId() ;
GXSNETDEBUG_P_(peerId) << "RsGxsNetService::decryptTransaction()" << std::endl;
GXSNETDEBUG_P_(peerId) << " Circle Id: " << tr->destination_circle << std::endl;
#endif
merged with latest trunk
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// 1 - Checks that the transaction is encrypted. It should contain
// one packet with an encrypted session key for the group,
// and as many encrypted data items as necessary.
RsNxsSessionKeyItem *esk = NULL;
for(std::list<RsNxsItem*>::const_iterator it(tr->mItems.begin());it!=tr->mItems.end();++it)
if(NULL != (esk = dynamic_cast<RsNxsSessionKeyItem*>(*it)))
break ;
if(esk == NULL)
{
added debug output for encryption/decryption of transactions
2016-01-03 17:33:14 -05:00
#ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_(peerId) << " (II) nothing to decrypt. No session key packet in this transaction." << std::endl;
#endif
merged with latest trunk
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return false ;
}
// 2 - Try to decrypt the session key. If not, return false. That probably means
// we don't own that identity.
GxsSecurity::MultiEncryptionContext muctx ;
RsGxsId private_key_id ;
fixed compilation of RsNxsTransaction encryption code
2016-01-01 21:37:27 -05:00
RsTlvBinaryData ek ;
RsTlvSecurityKey private_key;
merged with latest trunk
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bool found = false ;
for(std::map<RsGxsId,RsTlvBinaryData>::const_iterator it(esk->encrypted_session_keys.begin());it!=esk->encrypted_session_keys.end();++it)
if(mGixs->havePrivateKey(it->first))
{
found = true ;
private_key_id = it->first ;
fixed compilation of RsNxsTransaction encryption code
2016-01-01 21:37:27 -05:00
ek = it->second ;
if(!mGixs->getPrivateKey(private_key_id,private_key))
{
std::cerr << "(EE) Cannot find private key to decrypt incoming transaction, for ID " << it->first << ". This is a bug since the key is supposed ot be here." << std::endl;
return false;
}
merged with latest trunk
2016-01-01 15:15:19 -05:00
added debug output for encryption/decryption of transactions
2016-01-03 17:33:14 -05:00
#ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_(peerId) << " found appropriate private key to decrypt session key: " << it->first << std::endl;
#endif
merged with latest trunk
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break ;
}
if(!found)
{
std::cerr << " (EE) no private key for this encrypted transaction. Cannot decrypt!" << std::endl;
return false ;
}
fixed compilation of RsNxsTransaction encryption code
2016-01-01 21:37:27 -05:00
if(!GxsSecurity::initDecryption(muctx,private_key,esk->iv,EVP_MAX_IV_LENGTH,(unsigned char*)ek.bin_data,ek.bin_len))
merged with latest trunk
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{
std::cerr << " (EE) cannot decrypt transaction. initDecryption() failed." << std::endl;
return false ;
}
added debug output for encryption/decryption of transactions
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#ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_(peerId) << " Session key successfully decrypted, with length " << ek.bin_len << std::endl;
GXSNETDEBUG_P_(peerId) << " Now, decrypting transaction items..." << std::endl;
#endif
merged with latest trunk
2016-01-01 15:15:19 -05:00
// 3 - Using session key, decrypt all packets, by calling GXSSecurity.
std::list<RsNxsItem*> decrypted_items ;
RsNxsEncryptedDataItem *encrypted_item ;
RsNxsSerialiser serial(mServType) ;
for(std::list<RsNxsItem*>::const_iterator it(tr->mItems.begin());it!=tr->mItems.end();++it)
if(NULL != (encrypted_item = dynamic_cast<RsNxsEncryptedDataItem*>(*it)))
{
unsigned char *tempmem;
uint32_t tempmemsize ;
fixed compilation of RsNxsTransaction encryption code
2016-01-01 21:37:27 -05:00
if(!GxsSecurity::decrypt(tempmem,tempmemsize,(uint8_t*)encrypted_item->aes_encrypted_data.bin_data, encrypted_item->aes_encrypted_data.bin_len,muctx))
merged with latest trunk
2016-01-01 15:15:19 -05:00
{
std::cerr << " (EE) Cannot decrypt item. Something went wrong. Skipping this item." << std::endl;
continue ;
}
RsItem *ditem = serial.deserialise(tempmem,&tempmemsize) ;
added debug output for encryption/decryption of transactions
2016-01-03 17:33:14 -05:00
#ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_(peerId) << " Decrypted an item of type " << std::hex << ditem->PacketId() << std::dec << std::endl;
#endif
merged with latest trunk
2016-01-01 15:15:19 -05:00
RsNxsItem *nxsi = dynamic_cast<RsNxsItem*>(ditem) ;
if(nxsi != NULL)
decrypted_items.push_back(nxsi) ;
else
{
std::cerr << " (EE) decrypted an item of unknown type!" << std::endl;
}
free(tempmem) ;
}
// 4 - put back in transaction.
added debug output for encryption/decryption of transactions
2016-01-03 17:33:14 -05:00
#ifdef NXS_NET_DEBUG_7
GXSNETDEBUG_P_(peerId) << " replacing items with clear items" << std::endl;
#endif
merged with latest trunk
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for(std::list<RsNxsItem*>::const_iterator it(tr->mItems.begin());it!=tr->mItems.end();++it)
delete *it ;
tr->mItems = decrypted_items ;
return true ;
merged with upstream/master
2016-01-13 20:52:55 -05:00
merged with latest trunk
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}
void RsGxsNetService::cleanTransactionItems(NxsTransaction* tr) const
{
std::list<RsNxsItem*>::iterator lit = tr->mItems.begin();
for(; lit != tr->mItems.end(); ++lit)
{
delete *lit;
}
tr->mItems.clear();
}
void RsGxsNetService::locked_pushGrpRespFromList(std::list<RsNxsItem*>& respList, const RsPeerId& peer, const uint32_t& transN)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(peer) << "locked_pushGrpResponseFromList()" << std::endl;
GXSNETDEBUG_P_(peer) << " nelems = " << respList.size() << std::endl;
GXSNETDEBUG_P_(peer) << " peerId = " << peer << std::endl;
GXSNETDEBUG_P_(peer) << " transN = " << transN << std::endl;
#endif
NxsTransaction* tr = new NxsTransaction();
tr->mItems = respList;
tr->mFlag = NxsTransaction::FLAG_STATE_WAITING_CONFIRM;
RsNxsTransacItem* trItem = new RsNxsTransacItem(mServType);
trItem->transactFlag = RsNxsTransacItem::FLAG_BEGIN_P1
| RsNxsTransacItem::FLAG_TYPE_GRP_LIST_RESP;
trItem->nItems = respList.size();
trItem->timestamp = 0;
trItem->PeerId(peer);
trItem->transactionNumber = transN;
fixed update of mGrpClientUpdateMap when no new group is available, avoiding unnecessary GXS grp list traffic (patch from jolavillette)
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#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_ (peer) << "Setting tr->mTransaction->updateTS to " << mGrpServerUpdateItem->grpUpdateTS << std::endl;
#endif
trItem->updateTS = mGrpServerUpdateItem->grpUpdateTS;
merged with latest trunk
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// also make a copy for the resident transaction
tr->mTransaction = new RsNxsTransacItem(*trItem);
tr->mTransaction->PeerId(mOwnId);
tr->mTimeOut = time(NULL) + mTransactionTimeOut;
// signal peer to prepare for transaction
#ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_P_ (peer) << "Service " << std::hex << ((mServiceInfo.mServiceType >> 8)& 0xffff) << std::dec << " - sending group response to peer "
<< peer << " with " << respList.size() << " groups " << std::endl;
#endif
sendItem(trItem);
locked_addTransaction(tr);
}
bool RsGxsNetService::locked_CanReceiveUpdate(const RsNxsSyncGrpReqItem *item)
{
// Do we have new updates for this peer?
// This is one of the few places where we compare a local time stamp (mGrpServerUpdateItem->grpUpdateTS) to a peer's time stamp.
// Because this is the global modification time for groups, async-ed computers will eventually figure out that their data needs
// to be synced.
if(mGrpServerUpdateItem)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(item->PeerId()) << " local modification time stamp: " << std::dec<< time(NULL) - mGrpServerUpdateItem->grpUpdateTS << " secs ago. Update sent: " <<
((item->updateTS < mGrpServerUpdateItem->grpUpdateTS)?"YES":"NO") << std::endl;
#endif
return item->updateTS < mGrpServerUpdateItem->grpUpdateTS;
}
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(item->PeerId()) << " no local time stamp. This will be fixed after updateServerSyncTS(). Not sending for now. " << std::endl;
#endif
return false;
}
void RsGxsNetService::handleRecvSyncGroup(RsNxsSyncGrpReqItem *item)
{
if (!item)
return;
RS_STACK_MUTEX(mNxsMutex) ;
RsPeerId peer = item->PeerId();
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(peer) << "HandleRecvSyncGroup(): Service: " << mServType << " from " << peer << ", Last update TS (from myself) sent from peer is T = " << std::dec<< time(NULL) - item->updateTS << " secs ago" << std::endl;
#endif
if(!locked_CanReceiveUpdate(item))
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(peer) << " RsGxsNetService::handleRecvSyncGroup() update will not be sent." << std::endl;
#endif
return;
}
RsGxsMetaDataTemporaryMap<RsGxsGrpMetaData> grp;
mDataStore->retrieveGxsGrpMetaData(grp);
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(peer) << " RsGxsNetService::handleRecvSyncGroup() retrieving local list of groups..." << std::endl;
#endif
if(grp.empty())
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(peer) << " RsGxsNetService::handleRecvSyncGroup() Grp Empty" << std::endl;
#endif
return;
}
std::list<RsNxsItem*> itemL;
uint32_t transN = locked_getTransactionId();
std::vector<GrpIdCircleVet> toVet;
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(peer) << " Group list beings being sent: " << std::endl;
#endif
for(std::map<RsGxsGroupId, RsGxsGrpMetaData*>::iterator mit = grp.begin(); mit != grp.end(); ++mit)
{
RsGxsGrpMetaData* grpMeta = mit->second;
// Only send info about subscribed groups.
if(grpMeta->mSubscribeFlags & GXS_SERV::GROUP_SUBSCRIBE_SUBSCRIBED)
{
// check if you can send this id to peer
// or if you need to add to the holding
// pen for peer to be vetted
called re-loading of circles after creation. Added debug info in msg vetting
2016-02-11 21:59:45 -05:00
merged with latest trunk
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if(canSendGrpId(peer, *grpMeta, toVet))
{
RsNxsSyncGrpItem* gItem = new RsNxsSyncGrpItem(mServType);
gItem->flag = RsNxsSyncGrpItem::FLAG_RESPONSE;
gItem->grpId = mit->first;
gItem->publishTs = mit->second->mPublishTs;
gItem->authorId = grpMeta->mAuthorId;
gItem->PeerId(peer);
gItem->transactionNumber = transN;
itemL.push_back(gItem);
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(peer,mit->first) << " sending item for Grp " << mit->first << " name=" << grpMeta->mGroupName << ", publishTS=" << std::dec<< time(NULL) - mit->second->mPublishTs << " secs ago to peer ID " << peer << std::endl;
#endif
}
}
}
if(!toVet.empty())
{
mPendingCircleVets.push_back(new GrpCircleIdRequestVetting(mCircles, mPgpUtils, toVet, peer));
}
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_P_(peer) << " final list sent (after vetting): " << itemL.size() << " elements." << std::endl;
#endif
locked_pushGrpRespFromList(itemL, peer, transN);
return;
}
bool RsGxsNetService::canSendGrpId(const RsPeerId& sslId, RsGxsGrpMetaData& grpMeta, std::vector<GrpIdCircleVet>& toVet)
{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << "RsGxsNetService::canSendGrpId()"<< std::endl;
#endif
// first do the simple checks
uint8_t circleType = grpMeta.mCircleType;
if(circleType == GXS_CIRCLE_TYPE_LOCAL)
{
#ifdef NXS_NET_DEBUG_4
called re-loading of circles after creation. Added debug info in msg vetting
2016-02-11 21:59:45 -05:00
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId)<< " LOCAL_CIRCLE, cannot send"<< std::endl;
merged with latest trunk
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#endif
return false;
}
if(circleType == GXS_CIRCLE_TYPE_PUBLIC)
{
#ifdef NXS_NET_DEBUG_4
called re-loading of circles after creation. Added debug info in msg vetting
2016-02-11 21:59:45 -05:00
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId)<< " PUBLIC_CIRCLE, can send"<< std::endl;
merged with latest trunk
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#endif
return true;
}
if(circleType == GXS_CIRCLE_TYPE_EXTERNAL)
{
const RsGxsCircleId& circleId = grpMeta.mCircleId;
if(circleId.isNull())
{
called re-loading of circles after creation. Added debug info in msg vetting
2016-02-11 21:59:45 -05:00
std::cerr << " EXTERNAL_CIRCLE missing NULL CircleId: " << grpMeta.mGroupId<< std::endl;
merged with latest trunk
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// ERROR, will never be shared.
return false;
}
if(mCircles->isLoaded(circleId))
{
#ifdef NXS_NET_DEBUG_4
called re-loading of circles after creation. Added debug info in msg vetting
2016-02-11 21:59:45 -05:00
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId)<< " EXTERNAL_CIRCLE, checking mCircles->canSend"<< std::endl;
merged with latest trunk
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#endif
called re-loading of circles after creation. Added debug info in msg vetting
2016-02-11 21:59:45 -05:00
// the sending authorisation is based on:
// getPgpId(peer_id) being a signer of one GxsId in the Circle
//
merged with latest trunk
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const RsPgpId& pgpId = mPgpUtils->getPGPId(sslId);
called re-loading of circles after creation. Added debug info in msg vetting
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bool res = mCircles->canSend(circleId, pgpId);
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId)<< " answer is: " << res << std::endl;
#endif
return res ;
merged with latest trunk
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}
called re-loading of circles after creation. Added debug info in msg vetting
2016-02-11 21:59:45 -05:00
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId)<< " grp not ready. Adding to vetting list." << std::endl;
#endif
merged with latest trunk
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toVet.push_back(GrpIdCircleVet(grpMeta.mGroupId, circleId, grpMeta.mAuthorId));
return false;
}
if(circleType == GXS_CIRCLE_TYPE_YOUREYESONLY)
{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId)<< "RsGxsNetService::canSendGrpId() YOUREYESONLY, checking further"<< std::endl;
#endif
// a non empty internal circle id means this
// is the personal circle owner
if(!grpMeta.mInternalCircle.isNull())
{
const RsGxsCircleId& internalCircleId = grpMeta.mInternalCircle;
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << "RsGxsNetService::canSendGrpId() have mInternalCircle - we are Group creator" << std::endl;
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << "RsGxsNetService::canSendGrpId() mCircleId: " << grpMeta.mCircleId << std::endl;
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << "RsGxsNetService::canSendGrpId() mInternalCircle: " << grpMeta.mInternalCircle << std::endl;
#endif
if(mCircles->isLoaded(internalCircleId))
{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << "RsGxsNetService::canSendGrpId() circle Loaded - checking mCircles->canSend" << std::endl;
#endif
const RsPgpId& pgpId = mPgpUtils->getPGPId(sslId);
return mCircles->canSend(internalCircleId, pgpId);
}
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << "RsGxsNetService::canSendGrpId() Circle Not Loaded - add to vetting"<< std::endl;
#endif
toVet.push_back(GrpIdCircleVet(grpMeta.mGroupId, internalCircleId, grpMeta.mAuthorId));
return false;
}
else
{
// an empty internal circle id means this peer can only
// send circle related info from peer he received it
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << "RsGxsNetService::canSendGrpId() mInternalCircle not set, someone else's personal circle"<< std::endl;
#endif
if(grpMeta.mOriginator == sslId)
{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << "RsGxsNetService::canSendGrpId() Originator matches -> can send"<< std::endl;
#endif
return true;
}
else
{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << "RsGxsNetService::canSendGrpId() Originator doesn't match -> cannot send"<< std::endl;
#endif
return false;
}
}
}
return true;
}
bool RsGxsNetService::checkCanRecvMsgFromPeer(const RsPeerId& sslId, const RsGxsGrpMetaData& grpMeta)
{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << "RsGxsNetService::checkCanRecvMsgFromPeer()";
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " peer Id = " << sslId << ", grpId=" << grpMeta.mGroupId <<std::endl;
#endif
// first do the simple checks
uint8_t circleType = grpMeta.mCircleType;
if(circleType == GXS_CIRCLE_TYPE_LOCAL)
{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " LOCAL_CIRCLE, cannot request sync from peer" << std::endl;
#endif
return false;
}
if(circleType == GXS_CIRCLE_TYPE_PUBLIC)
{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " PUBLIC_CIRCLE, can request msg sync" << std::endl;
#endif
return true;
}
if(circleType == GXS_CIRCLE_TYPE_EXTERNAL)
{
const RsGxsCircleId& circleId = grpMeta.mCircleId;
if(circleId.isNull())
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " ERROR; EXTERNAL_CIRCLE missing NULL CircleId";
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << grpMeta.mGroupId;
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << std::endl;
#endif
// should just be shared. ? no - this happens for
// Circle Groups which lose their CircleIds.
// return true;
}
if(mCircles->isLoaded(circleId))
{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " EXTERNAL_CIRCLE, checking mCircles->canSend" << std::endl;
#endif
const RsPgpId& pgpId = mPgpUtils->getPGPId(sslId);
return mCircles->canSend(circleId, pgpId);
}
else
mCircles->loadCircle(circleId); // simply request for next pass
return false;
}
if(circleType == GXS_CIRCLE_TYPE_YOUREYESONLY) // do not attempt to sync msg unless to originator or those permitted
{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " YOUREYESONLY, checking further" << std::endl;
#endif
// a non empty internal circle id means this
// is the personal circle owner
if(!grpMeta.mInternalCircle.isNull())
{
const RsGxsCircleId& internalCircleId = grpMeta.mInternalCircle;
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " have mInternalCircle - we are Group creator" << std::endl;
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " mCircleId: " << grpMeta.mCircleId << std::endl;
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " mInternalCircle: " << grpMeta.mInternalCircle << std::endl;
#endif
if(mCircles->isLoaded(internalCircleId))
{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " circle Loaded - checking mCircles->canSend" << std::endl;
#endif
const RsPgpId& pgpId = mPgpUtils->getPGPId(sslId);
return mCircles->canSend(internalCircleId, pgpId);
}
else
mCircles->loadCircle(internalCircleId); // request for next pass
return false;
}
else
{
// an empty internal circle id means this peer can only
// send circle related info from peer he received it
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " mInternalCircle not set, someone else's personal circle" << std::endl;
#endif
if(grpMeta.mOriginator == sslId)
{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " Originator matches -> can send" << std::endl;
#endif
return true;
}
else
{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " Originator doesn't match -> cannot send"<< std::endl;
#endif
return false;
}
}
}
return true;
}
bool RsGxsNetService::locked_CanReceiveUpdate(const RsNxsSyncMsgReqItem *item)
{
// Do we have new updates for this peer?
// Here we compare times in the same clock: the friend's clock, so it should be fine.
ServerMsgMap::const_iterator cit = mServerMsgUpdateMap.find(item->grpId);
if(cit != mServerMsgUpdateMap.end())
{
const RsGxsServerMsgUpdateItem *msui = cit->second;
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << " local time stamp: " << std::dec<< time(NULL) - msui->msgUpdateTS << " secs ago. Update sent: " << (item->updateTS < msui->msgUpdateTS) ;
#endif
return item->updateTS < msui->msgUpdateTS ;
}
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << " no local time stamp for this grp. " ;
#endif
return false;
}
void RsGxsNetService::handleRecvSyncMessage(RsNxsSyncMsgReqItem *item)
{
fixed update of GroupNetworkStats and proper reset when loadList is called (thx Jo)
2016-02-03 18:58:28 -05:00
if (!item)
return;
merged with latest trunk
2016-01-01 15:15:19 -05:00
fixed update of GroupNetworkStats and proper reset when loadList is called (thx Jo)
2016-02-03 18:58:28 -05:00
RS_STACK_MUTEX(mNxsMutex) ;
merged with latest trunk
2016-01-01 15:15:19 -05:00
const RsPeerId& peer = item->PeerId();
fixed update of GroupNetworkStats and proper reset when loadList is called (thx Jo)
2016-02-03 18:58:28 -05:00
// Insert the PeerId in suppliers list for this grpId
#ifdef NXS_NET_DEBUG_6
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << "RsGxsNetService::handleRecvSyncMessage(): Inserting PeerId " << item->PeerId() << " in suppliers list for group " << item->grpId << std::endl;
#endif
RsGroupNetworkStatsRecord& rec(mGroupNetworkStats[item->grpId]) ; // this creates it if needed
rec.suppliers.insert(peer) ;
merged with latest trunk
2016-01-01 15:15:19 -05:00
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << "handleRecvSyncMsg(): Received last update TS of group " << item->grpId << ", for peer " << peer << ", TS = " << time(NULL) - item->updateTS << " secs ago." ;
#endif
if(!locked_CanReceiveUpdate(item))
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << " no update will be sent." << std::endl;
#endif
return;
}
GxsMsgMetaResult metaResult;
GxsMsgReq req;
RsGxsMetaDataTemporaryMap<RsGxsGrpMetaData> grpMetas;
grpMetas[item->grpId] = NULL;
mDataStore->retrieveGxsGrpMetaData(grpMetas);
RsGxsGrpMetaData* grpMeta = grpMetas[item->grpId];
if(grpMeta == NULL)
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << " Grp is unknown." << std::endl;
#endif
return;
}
if(!(grpMeta->mSubscribeFlags & GXS_SERV::GROUP_SUBSCRIBE_SUBSCRIBED ))
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << " Grp is not subscribed." << std::endl;
#endif
return ;
}
req[item->grpId] = std::vector<RsGxsMessageId>();
mDataStore->retrieveGxsMsgMetaData(req, metaResult);
std::vector<RsGxsMsgMetaData*>& msgMetas = metaResult[item->grpId];
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << " retrieving message meta data." << std::endl;
#endif
if(req.empty())
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << " No msg meta data.." << std::endl;
#endif
}
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << " Sending MSG meta data!" << std::endl;
#endif
std::list<RsNxsItem*> itemL;
uint32_t transN = locked_getTransactionId();
if(canSendMsgIds(msgMetas, *grpMeta, peer))
{
std::vector<RsGxsMsgMetaData*>::iterator vit = msgMetas.begin();
for(; vit != msgMetas.end(); ++vit)
{
RsGxsMsgMetaData* m = *vit;
removed [dos] LF from rsgxsnetservice (causes merging rampage)
2016-01-13 20:25:18 -05:00
RsNxsSyncMsgItem* mItem = new RsNxsSyncMsgItem(mServType);
merged with latest trunk
2016-01-01 15:15:19 -05:00
mItem->flag = RsNxsSyncGrpItem::FLAG_RESPONSE;
mItem->grpId = m->mGroupId;
mItem->msgId = m->mMsgId;
mItem->authorId = m->mAuthorId;
mItem->PeerId(peer);
mItem->transactionNumber = transN;
itemL.push_back(mItem);
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << " sending info item for msg id " << mItem->msgId << std::endl;
#endif
}
if(!itemL.empty())
{
#ifdef NXS_NET_DEBUG_0
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << " sending final msg info list of " << itemL.size() << " items." << std::endl;
#endif
removed [dos] LF from rsgxsnetservice (causes merging rampage)
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locked_pushMsgRespFromList(itemL, peer, item->grpId,transN);
merged with latest trunk
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}
}
#ifdef NXS_NET_DEBUG_0
else
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << " vetting forbids sending. Nothing will be sent." << itemL.size() << " items." << std::endl;
#endif
std::vector<RsGxsMsgMetaData*>::iterator vit = msgMetas.begin();
// release meta resource
for(vit = msgMetas.begin(); vit != msgMetas.end(); ++vit)
delete *vit;
}
removed [dos] LF from rsgxsnetservice (causes merging rampage)
2016-01-13 20:25:18 -05:00
void RsGxsNetService::locked_pushMsgRespFromList(std::list<RsNxsItem*>& itemL, const RsPeerId& sslId, const RsGxsGroupId& grp_id,const uint32_t& transN)
merged with latest trunk
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{
#ifdef NXS_NET_DEBUG_1
removed [dos] LF from rsgxsnetservice (causes merging rampage)
2016-01-13 20:25:18 -05:00
GXSNETDEBUG_PG(sslId,grp_id) << "locked_pushMsgResponseFromList()" << std::endl;
GXSNETDEBUG_PG(sslId,grp_id) << " nelems = " << itemL.size() << std::endl;
GXSNETDEBUG_PG(sslId,grp_id) << " peerId = " << sslId << std::endl;
GXSNETDEBUG_PG(sslId,grp_id) << " transN = " << transN << std::endl;
merged with latest trunk
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#endif
NxsTransaction* tr = new NxsTransaction();
tr->mItems = itemL;
tr->mFlag = NxsTransaction::FLAG_STATE_WAITING_CONFIRM;
merged with upstream/master
2016-01-13 20:52:55 -05:00
merged with latest trunk
2016-01-01 15:15:19 -05:00
RsNxsTransacItem* trItem = new RsNxsTransacItem(mServType);
trItem->transactFlag = RsNxsTransacItem::FLAG_BEGIN_P1 | RsNxsTransacItem::FLAG_TYPE_MSG_LIST_RESP;
trItem->nItems = itemL.size();
trItem->timestamp = 0;
trItem->PeerId(sslId);
trItem->transactionNumber = transN;
// also make a copy for the resident transaction
tr->mTransaction = new RsNxsTransacItem(*trItem);
tr->mTransaction->PeerId(mOwnId);
tr->mTimeOut = time(NULL) + mTransactionTimeOut;
removed [dos] LF from rsgxsnetservice (causes merging rampage)
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ServerMsgMap::const_iterator cit = mServerMsgUpdateMap.find(grp_id);
// This time stamp is not supposed to be used on the other side. We just set it to avoid sending an uninitialiszed value.
if(cit != mServerMsgUpdateMap.end())
trItem->updateTS = cit->second->msgUpdateTS;
else
{
std::cerr << "(EE) cannot find a server TS for message of group " << grp_id << " in locked_pushMsgRespFromList. This is weird." << std::endl;
trItem->updateTS = 0 ;
}
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#ifdef NXS_NET_DEBUG_5
GXSNETDEBUG_P_ (sslId) << "Service " << std::hex << ((mServiceInfo.mServiceType >> 8)& 0xffff) << std::dec << " - sending messages response to peer "
<< sslId << " with " << itemL.size() << " messages " << std::endl;
#endif
// signal peer to prepare for transaction
sendItem(trItem);
locked_addTransaction(tr);
}
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bool RsGxsNetService::canSendMsgIds(const std::vector<RsGxsMsgMetaData*>& msgMetas, const RsGxsGrpMetaData& grpMeta, const RsPeerId& sslId)
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{
#ifdef NXS_NET_DEBUG_4
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GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << "RsGxsNetService::canSendMsgIds() CIRCLE VETTING" << std::endl;
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#endif
// first do the simple checks
uint8_t circleType = grpMeta.mCircleType;
if(circleType == GXS_CIRCLE_TYPE_LOCAL)
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{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " Circle type: LOCAL => returning false" << std::endl;
#endif
return false;
}
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if(circleType == GXS_CIRCLE_TYPE_PUBLIC)
{
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " Circle type: PUBLIC => returning true" << std::endl;
#endif
return true;
}
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const RsGxsCircleId& circleId = grpMeta.mCircleId;
if(circleType == GXS_CIRCLE_TYPE_EXTERNAL)
{
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#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " Circle type: EXTERNAL. Circle Id: " << circleId << std::endl;
#endif
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if(mCircles->isLoaded(circleId))
{
const RsPgpId& pgpId = mPgpUtils->getPGPId(sslId);
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bool res = mCircles->canSend(circleId, pgpId);
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " Answer from circle::canSend(): " << res << std::endl;
#endif
return res ;
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}
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#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " Circle info not loaded. Putting in vetting list and returning false." << std::endl;
#endif
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std::vector<MsgIdCircleVet> toVet;
std::vector<RsGxsMsgMetaData*>::const_iterator vit = msgMetas.begin();
for(; vit != msgMetas.end(); ++vit)
{
const RsGxsMsgMetaData* const& meta = *vit;
MsgIdCircleVet mic(meta->mMsgId, meta->mAuthorId);
toVet.push_back(mic);
}
if(!toVet.empty())
mPendingCircleVets.push_back(new MsgCircleIdsRequestVetting(mCircles, mPgpUtils, toVet, grpMeta.mGroupId,
sslId, grpMeta.mCircleId));
return false;
}
if(circleType == GXS_CIRCLE_TYPE_YOUREYESONLY)
{
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#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " Circle type: YOUR EYES ONLY" << std::endl;
#endif
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// a non empty internal circle id means this
// is the personal circle owner
if(!grpMeta.mInternalCircle.isNull())
{
const RsGxsCircleId& internalCircleId = grpMeta.mInternalCircle;
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#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " Group internal circle: " << internalCircleId << std::endl;
#endif
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if(mCircles->isLoaded(internalCircleId))
{
const RsPgpId& pgpId = mPgpUtils->getPGPId(sslId);
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bool res= mCircles->canSend(internalCircleId, pgpId);
#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " Answer from circle::canSend(): " << res << std::endl;
#endif
return res ;
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}
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#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " Not loaded. Putting in vetting list and returning false." << std::endl;
#endif
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std::vector<MsgIdCircleVet> toVet;
std::vector<RsGxsMsgMetaData*>::const_iterator vit = msgMetas.begin();
for(; vit != msgMetas.end(); ++vit)
{
const RsGxsMsgMetaData* const& meta = *vit;
MsgIdCircleVet mic(meta->mMsgId, meta->mAuthorId);
toVet.push_back(mic);
}
if(!toVet.empty())
mPendingCircleVets.push_back(new MsgCircleIdsRequestVetting(mCircles, mPgpUtils,
toVet, grpMeta.mGroupId,
sslId, grpMeta.mCircleId));
return false;
}
else
{
// an empty internal circle id means this peer can only
// send circle related info from peer he received it
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#ifdef NXS_NET_DEBUG_4
GXSNETDEBUG_PG(sslId,grpMeta.mGroupId) << " Empty internal circle: cannot only send info from Peer we received it (grpMeta.mOriginator=" << grpMeta.mOriginator << " answer is: " << (grpMeta.mOriginator == sslId) << std::endl;
#endif
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if(grpMeta.mOriginator == sslId)
return true;
else
return false;
}
}
return true;
}
/** inherited methods **/
void RsGxsNetService::pauseSynchronisation(bool /* enabled */)
{
}
void RsGxsNetService::setSyncAge(uint32_t /* age */)
{
}
int RsGxsNetService::requestGrp(const std::list<RsGxsGroupId>& grpId, const RsPeerId& peerId)
{
RS_STACK_MUTEX(mNxsMutex) ;
mExplicitRequest[peerId].assign(grpId.begin(), grpId.end());
return 1;
}
void RsGxsNetService::processExplicitGroupRequests()
{
RS_STACK_MUTEX(mNxsMutex) ;
std::map<RsPeerId, std::list<RsGxsGroupId> >::const_iterator cit = mExplicitRequest.begin();
for(; cit != mExplicitRequest.end(); ++cit)
{
const RsPeerId& peerId = cit->first;
const std::list<RsGxsGroupId>& groupIdList = cit->second;
std::list<RsNxsItem*> grpSyncItems;
std::list<RsGxsGroupId>::const_iterator git = groupIdList.begin();
uint32_t transN = locked_getTransactionId();
for(; git != groupIdList.end(); ++git)
{
RsNxsSyncGrpItem* item = new RsNxsSyncGrpItem(mServType);
item->grpId = *git;
item->PeerId(peerId);
item->flag = RsNxsSyncGrpItem::FLAG_REQUEST;
item->transactionNumber = transN;
grpSyncItems.push_back(item);
}
if(!grpSyncItems.empty())
locked_pushGrpTransactionFromList(grpSyncItems, peerId, transN);
}
mExplicitRequest.clear();
}
int RsGxsNetService::sharePublishKey(const RsGxsGroupId& grpId,const std::set<RsPeerId>& peers)
{
RS_STACK_MUTEX(mNxsMutex) ;
mPendingPublishKeyRecipients[grpId] = peers ;
#ifdef NXS_NET_DEBUG_3
GXSNETDEBUG__G(grpId) << "RsGxsNetService::sharePublishKeys() " << (void*)this << " adding publish keys for grp " << grpId << " to sending list" << std::endl;
#endif
return true ;
}
void RsGxsNetService::sharePublishKeysPending()
{
RS_STACK_MUTEX(mNxsMutex) ;
if(mPendingPublishKeyRecipients.empty())
return ;
#ifdef NXS_NET_DEBUG_3
GXSNETDEBUG___ << "RsGxsNetService::sharePublishKeys() " << (void*)this << std::endl;
#endif
// get list of peers that are online
std::set<RsPeerId> peersOnline;
std::list<RsGxsGroupId> toDelete;
std::map<RsGxsGroupId,std::set<RsPeerId> >::iterator mit ;
mNetMgr->getOnlineList(mServiceInfo.mServiceType, peersOnline);
#ifdef NXS_NET_DEBUG_3
GXSNETDEBUG___ << " " << peersOnline.size() << " peers online." << std::endl;
#endif
/* send public key to peers online */
for(mit = mPendingPublishKeyRecipients.begin(); mit != mPendingPublishKeyRecipients.end(); ++mit)
{
// Compute the set of peers to send to. We start with this, to avoid retrieving the data for nothing.
std::list<RsPeerId> recipients ;
std::set<RsPeerId> offline_recipients ;
for(std::set<RsPeerId>::const_iterator it(mit->second.begin());it!=mit->second.end();++it)
if(peersOnline.find(*it) != peersOnline.end())
{
#ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_P_(*it) << " " << *it << ": online. Adding." << std::endl;
#endif
recipients.push_back(*it) ;
}
else
{
#ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_P_(*it) << " " << *it << ": offline. Keeping for next try." << std::endl;
#endif
offline_recipients.insert(*it) ;
}
// If empty, skip
if(recipients.empty())
{
#ifdef NXS_NET_DEBUG_3
GXSNETDEBUG___ << " No recipients online. Skipping." << std::endl;
#endif
continue ;
}
// Get the meta data for this group Id
//
RsGxsMetaDataTemporaryMap<RsGxsGrpMetaData> grpMetaMap;
grpMetaMap[mit->first] = NULL;
mDataStore->retrieveGxsGrpMetaData(grpMetaMap);
// Find the publish keys in the retrieved info
RsGxsGrpMetaData *grpMeta = grpMetaMap[mit->first] ;
if(grpMeta == NULL)
{
std::cerr << "(EE) RsGxsNetService::sharePublishKeys() Publish keys cannot be found for group " << mit->first << std::endl;
continue ;
}
const RsTlvSecurityKeySet& keys = grpMeta->keys;
std::map<RsGxsId, RsTlvSecurityKey>::const_iterator kit = keys.keys.begin(), kit_end = keys.keys.end();
bool publish_key_found = false;
RsTlvSecurityKey publishKey ;
for(; kit != kit_end && !publish_key_found; ++kit)
{
publish_key_found = (kit->second.keyFlags == (RSTLV_KEY_DISTRIB_PUBLISH | RSTLV_KEY_TYPE_FULL));
publishKey = kit->second ;
}
if(!publish_key_found)
{
std::cerr << "(EE) no publish key in group " << mit->first << ". Cannot share!" << std::endl;
continue ;
}
#ifdef NXS_NET_DEBUG_3
GXSNETDEBUG__G(grpMeta->mGroupId) << " using publish key ID=" << publishKey.keyId << ", flags=" << publishKey.keyFlags << std::endl;
#endif
for(std::list<RsPeerId>::const_iterator it(recipients.begin());it!=recipients.end();++it)
{
/* Create publish key sharing item */
RsNxsGroupPublishKeyItem *publishKeyItem = new RsNxsGroupPublishKeyItem(mServType);
publishKeyItem->clear();
publishKeyItem->grpId = mit->first;
publishKeyItem->key = publishKey ;
publishKeyItem->PeerId(*it);
sendItem(publishKeyItem);
#ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_PG(*it,grpMeta->mGroupId) << " sent key item to " << *it << std::endl;
#endif
}
mit->second = offline_recipients ;
// If given peers have all received key(s) then stop sending for group
if(offline_recipients.empty())
toDelete.push_back(mit->first);
}
// delete pending peer list which are done with
for(std::list<RsGxsGroupId>::const_iterator lit = toDelete.begin(); lit != toDelete.end(); ++lit)
mPendingPublishKeyRecipients.erase(*lit);
}
void RsGxsNetService::handleRecvPublishKeys(RsNxsGroupPublishKeyItem *item)
{
#ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << "RsGxsNetService::sharePublishKeys() " << std::endl;
#endif
if (!item)
return;
RS_STACK_MUTEX(mNxsMutex) ;
#ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << " PeerId : " << item->PeerId() << std::endl;
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << " GrpId: " << item->grpId << std::endl;
GXSNETDEBUG_PG(item->PeerId(),item->grpId) << " Got key Item: " << item->key.keyId << std::endl;
#endif
// Get the meta data for this group Id
//
RsGxsMetaDataTemporaryMap<RsGxsGrpMetaData> grpMetaMap;
grpMetaMap[item->grpId] = NULL;
mDataStore->retrieveGxsGrpMetaData(grpMetaMap);
// update the publish keys in this group meta info
RsGxsGrpMetaData *grpMeta = grpMetaMap[item->grpId] ;
// Check that the keys correspond, and that FULL keys are supplied, etc.
#ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_PG(item->PeerId(),item->grpId)<< " Key received: " << std::endl;
#endif
bool admin = (item->key.keyFlags & RSTLV_KEY_DISTRIB_ADMIN) && (item->key.keyFlags & RSTLV_KEY_TYPE_FULL) ;
bool publi = (item->key.keyFlags & RSTLV_KEY_DISTRIB_PUBLISH) && (item->key.keyFlags & RSTLV_KEY_TYPE_FULL) ;
#ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_PG(item->PeerId(),item->grpId)<< " Key id = " << item->key.keyId << " admin=" << admin << ", publish=" << publi << " ts=" << item->key.endTS << std::endl;
#endif
if(!(!admin && publi))
{
std::cerr << " Key is not a publish private key. Discarding!" << std::endl;
return ;
}
// Also check that we don't already have full keys for that group.
std::map<RsGxsId,RsTlvSecurityKey>::iterator it = grpMeta->keys.keys.find(item->key.keyId) ;
if(it == grpMeta->keys.keys.end())
{
std::cerr << " (EE) Key not found in known group keys. This is an inconsistency." << std::endl;
return ;
}
if((it->second.keyFlags & RSTLV_KEY_DISTRIB_PUBLISH) && (it->second.keyFlags & RSTLV_KEY_TYPE_FULL))
{
#ifdef NXS_NET_DEBUG_3
GXSNETDEBUG_PG(item->PeerId(),item->grpId)<< " (EE) Publish key already present in database. Discarding message." << std::endl;
#endif
return ;
}
// Store/update the info.
it->second = item->key ;
bool ret = mDataStore->updateGroupKeys(item->grpId,grpMeta->keys, grpMeta->mSubscribeFlags | GXS_SERV::GROUP_SUBSCRIBE_PUBLISH) ;
if(ret)
{
#ifdef NXS_NET_DEBUG
GXSNETDEBUG_PG(item->PeerId(),item->grpId)<< " updated database with new publish keys." << std::endl;
#endif
mObserver->notifyReceivePublishKey(item->grpId);
}
else
{
std::cerr << "(EE) could not update database. Something went wrong." << std::endl;
}
}
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