/**************************************************************** * RetroShare is distributed under the following license: * * Copyright (C) 20011, RetroShare Team * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. ****************************************************************/ #include #include #include #include #include #include #include #include "TurtleRouterStatistics.h" #include "gui/settings/rsharesettings.h" static const int MAX_TUNNEL_REQUESTS_DISPLAY = 10 ; class TRHistogram { public: TRHistogram(const std::vector& info) :_infos(info) {} QColor colorScale(float f) { if(f == 0) return QColor::fromHsv(0,0,192) ; else return QColor::fromHsv((int)((1.0-f)*280),200,255) ; } virtual void draw(QPainter *painter,int& ox,int& oy,const QString& title) { static const int MaxTime = 61 ; static const int MaxDepth = 8 ; static const int cellx = 7 ; static const int celly = 12 ; int save_ox = ox ; painter->setPen(QColor::fromRgb(0,0,0)) ; painter->drawText(2+ox,celly+oy,title) ; oy+=2+2*celly ; if(_infos.empty()) return ; ox += 10 ; std::map > hits ; std::map > depths ; std::map >::iterator it ; int max_hits = 1; int max_depth = 1; for(uint32_t i=0;i<_infos.size();++i) { std::vector& h(hits[_infos[i].source_peer_id]) ; std::vector& g(depths[_infos[i].source_peer_id]) ; if(h.size() <= _infos[i].age) h.resize(MaxTime,0) ; if(g.empty()) g.resize(MaxDepth,0) ; if(_infos[i].age < h.size()) { h[_infos[i].age]++ ; if(h[_infos[i].age] > max_hits) max_hits = h[_infos[i].age] ; } if(_infos[i].depth < g.size()) { g[_infos[i].depth]++ ; if(g[_infos[i].depth] > max_depth) max_depth = g[_infos[i].depth] ; } } int max_bi = std::max(max_hits,max_depth) ; int p=0 ; for(it=depths.begin();it!=depths.end();++it,++p) for(int i=0;ifillRect(ox+MaxTime*cellx+20+i*cellx,oy+p*celly,cellx,celly,colorScale(it->second[i]/(float)max_bi)) ; painter->setPen(QColor::fromRgb(0,0,0)) ; painter->drawRect(ox+MaxTime*cellx+20,oy,MaxDepth*cellx,p*celly) ; for(int i=0;idrawText(ox+i*cellx,oy+(p+1)*celly+4,QString::number(i)) ; p=0 ; int great_total = 0 ; for(it=hits.begin();it!=hits.end();++it,++p) { int total = 0 ; for(int i=0;ifillRect(ox+i*cellx,oy+p*celly,cellx,celly,colorScale(it->second[i]/(float)max_bi)) ; total += it->second[i] ; } painter->setPen(QColor::fromRgb(0,0,0)) ; painter->drawText(ox+MaxDepth*cellx+30+(MaxTime+1)*cellx,oy+(p+1)*celly,TurtleRouterStatistics::getPeerName(it->first)) ; painter->drawText(ox+MaxDepth*cellx+30+(MaxTime+1)*cellx+120,oy+(p+1)*celly,"("+QString::number(total)+")") ; great_total += total ; } painter->drawRect(ox,oy,MaxTime*cellx,p*celly) ; for(int i=0;idrawText(ox+i*cellx,oy+(p+1)*celly+4,QString::number(i)) ; for(int i=0;idrawText(ox+MaxTime*cellx+20+i*cellx,oy+(p+1)*celly+4,QString::number(i)) ; painter->setPen(QColor::fromRgb(255,130,80)) ; painter->drawText(ox+MaxDepth*cellx+30+(MaxTime+1)*cellx+120,oy+(p+1)*celly+4,"("+QString::number(great_total)+")"); oy += (p+1)*celly+6 ; painter->setPen(QColor::fromRgb(0,0,0)) ; painter->drawText(ox,oy+celly,QObject::tr("(Age in seconds)")); painter->drawText(ox+MaxTime*cellx+20,oy+celly,QObject::tr("(Depth)")); painter->drawText(ox+MaxDepth*cellx+30+(MaxTime+1)*cellx+120,oy+celly,"("+QObject::tr("total")+")"); oy += 3*celly ; // now, draw a scale int last_hts = -1 ; int cellid = 0 ; for(int i=0;i<=10;++i) { int hts = (int)(max_bi*i/10.0) ; if(hts > last_hts) { painter->fillRect(ox+cellid*(cellx+22),oy,cellx,celly,colorScale(i/10.0f)) ; painter->setPen(QColor::fromRgb(0,0,0)) ; painter->drawRect(ox+cellid*(cellx+22),oy,cellx,celly) ; painter->drawText(ox+cellid*(cellx+22)+cellx+4,oy+celly,QString::number(hts)) ; last_hts = hts ; ++cellid ; } } oy += celly*2 ; ox = save_ox ; } private: const std::vector& _infos ; }; TurtleRouterStatistics::TurtleRouterStatistics(QWidget *parent) : RsAutoUpdatePage(2000,parent) { setupUi(this) ; m_bProcessSettings = false; _tunnel_statistics_F->setWidget( _tst_CW = new TurtleRouterStatisticsWidget() ) ; _tunnel_statistics_F->setWidgetResizable(true); _tunnel_statistics_F->setHorizontalScrollBarPolicy(Qt::ScrollBarAlwaysOff); _tunnel_statistics_F->setVerticalScrollBarPolicy(Qt::ScrollBarAlwaysOn); _tunnel_statistics_F->viewport()->setBackgroundRole(QPalette::NoRole); _tunnel_statistics_F->setFrameStyle(QFrame::NoFrame); _tunnel_statistics_F->setFocusPolicy(Qt::NoFocus); // load settings processSettings(true); } TurtleRouterStatistics::~TurtleRouterStatistics() { // save settings processSettings(false); } void TurtleRouterStatistics::processSettings(bool bLoad) { m_bProcessSettings = true; Settings->beginGroup(QString("TurtleRouterStatistics")); if (bLoad) { // load settings // state of splitter //splitter->restoreState(Settings->value("Splitter").toByteArray()); } else { // save settings // state of splitter //Settings->setValue("Splitter", splitter->saveState()); } Settings->endGroup(); m_bProcessSettings = false; } void TurtleRouterStatistics::updateDisplay() { std::vector > hashes_info ; std::vector > tunnels_info ; std::vector search_reqs_info ; std::vector tunnel_reqs_info ; rsTurtle->getInfo(hashes_info,tunnels_info,search_reqs_info,tunnel_reqs_info) ; //updateTunnelRequests(hashes_info,tunnels_info,search_reqs_info,tunnel_reqs_info) ; _tst_CW->updateTunnelStatistics(hashes_info,tunnels_info,search_reqs_info,tunnel_reqs_info) ; _tst_CW->update(); } QString TurtleRouterStatistics::getPeerName(const std::string& peer_id) { static std::map names ; std::map::const_iterator it = names.find(peer_id) ; if( it != names.end()) return it->second ; else { RsPeerDetails detail ; if(!rsPeers->getPeerDetails(peer_id,detail)) return "unknown peer"; return (names[peer_id] = QString::fromUtf8(detail.name.c_str())) ; } } TurtleRouterStatisticsWidget::TurtleRouterStatisticsWidget(QWidget *parent) : QWidget(parent) { maxWidth = 200 ; maxHeight = 0 ; } void TurtleRouterStatisticsWidget::updateTunnelStatistics(const std::vector >& hashes_info, const std::vector >& tunnels_info, const std::vector& search_reqs_info, const std::vector& tunnel_reqs_info) { static const int cellx = 6 ; static const int celly = 10+4 ; QPixmap tmppixmap(maxWidth, maxHeight); tmppixmap.fill(this, 0, 0); setFixedHeight(maxHeight); QPainter painter(&tmppixmap); painter.initFrom(this); maxHeight = 500 ; // std::cerr << "Drawing into pixmap of size " << maxWidth << "x" << maxHeight << std::endl; // draw... int ox=5,oy=5 ; TRHistogram(search_reqs_info).draw(&painter,ox,oy,QObject::tr("Search requests repartition:")) ; painter.setPen(QColor::fromRgb(70,70,70)) ; painter.drawLine(0,oy,maxWidth,oy) ; oy += celly ; TRHistogram(tunnel_reqs_info).draw(&painter,ox,oy,QObject::tr("Tunnel requests repartition:")) ; // now give information about turtle traffic. // TurtleTrafficStatisticsInfo info ; rsTurtle->getTrafficStatistics(info) ; painter.setPen(QColor::fromRgb(70,70,70)) ; painter.drawLine(0,oy,maxWidth,oy) ; oy += celly ; painter.drawText(ox,oy+celly,tr("Turtle router traffic:")) ; oy += celly*2 ; painter.drawText(ox+2*cellx,oy+celly,tr("Tunnel requests Up")+"\t: " + speedString(info.tr_up_Bps) ) ; oy += celly ; painter.drawText(ox+2*cellx,oy+celly,tr("Tunnel requests Dn")+"\t: " + speedString(info.tr_dn_Bps) ) ; oy += celly ; painter.drawText(ox+2*cellx,oy+celly,tr("Incoming file data")+"\t: " + speedString(info.data_dn_Bps) ) ; oy += celly ; painter.drawText(ox+2*cellx,oy+celly,tr("Outgoing file data")+"\t: " + speedString(info.data_up_Bps) ) ; oy += celly ; painter.drawText(ox+2*cellx,oy+celly,tr("Forwarded data ")+"\t: " + speedString(info.unknown_updn_Bps) ) ; oy += celly ; // update the pixmap // pixmap = tmppixmap; maxHeight = oy ; } QString TurtleRouterStatisticsWidget::speedString(float f) { if(f < 1.0f) return QString("0 B/s") ; if(f < 1024.0f) return QString::number((int)f)+" B/s" ; return QString::number(f/1024.0,'f',2) + " KB/s"; } void TurtleRouterStatisticsWidget::paintEvent(QPaintEvent *event) { QStylePainter(this).drawPixmap(0, 0, pixmap); } void TurtleRouterStatisticsWidget::resizeEvent(QResizeEvent *event) { QRect TaskGraphRect = geometry(); maxWidth = TaskGraphRect.width(); maxHeight = TaskGraphRect.height() ; QWidget::resizeEvent(event); update(); }