/* Copyright (C) 2010 Srivats P. This file is part of "Ostinato" This 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 3 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, see */ #include "port.h" #include "emulation.h" #include "streamfileformat.h" #include #include #include #include #include #include extern QMainWindow *mainWindow; uint Port::mAllocStreamId = 0; uint Port::allocDeviceGroupId_ = 1; static const int kEthOverhead = 20; uint Port::newStreamId() { // We use a monotonically increasing class variable to generate // unique id. To ensure that we take into account the already // existing ids at drone, we update this variable to be greater // than the last id that we fetched // FIXME: In some cases e.g. wrap around or more likely multiple // clients, we will still run into trouble - to fix this we should // check here that the same id does not already exist; but currently // we can only do a linear search - fix this when the lookup/search // is optimized return mAllocStreamId++; } Port::Port(quint32 id, quint32 portGroupId) { mPortId = id; d.mutable_port_id()->set_id(id); stats.mutable_port_id()->set_id(id); mPortGroupId = portGroupId; capFile_ = NULL; dirty_ = false; } Port::~Port() { qDebug("%s", __FUNCTION__); while (!mStreams.isEmpty()) delete mStreams.takeFirst(); } void Port::protoDataCopyInto(OstProto::Port *data) { data->CopyFrom(d); } void Port::updatePortConfig(OstProto::Port *port) { bool recalc = false; if (port->has_transmit_mode() && port->transmit_mode() != d.transmit_mode()) recalc = true; d.MergeFrom(*port); // Setup a user-friendly alias for Win32 ports if (name().startsWith("\\Device\\NPF_")) setAlias(QString("if%1").arg(id())); if (recalc) recalculateAverageRates(); } void Port::updateStreamOrdinalsFromIndex() { for (int i=0; i < mStreams.size(); i++) mStreams[i]->setOrdinal(i); } void Port::reorderStreamsByOrdinals() { qSort(mStreams.begin(), mStreams.end(), StreamBase::StreamLessThan); } void Port::setDirty(bool dirty) { if (dirty == dirty_) return; dirty_ = dirty; emit localConfigChanged(mPortGroupId, mPortId, dirty_); } void Port::recalculateAverageRates() { double pps = 0; double bps = 0; int n = 0; foreach (Stream* s, mStreams) { if (!s->isEnabled()) continue; double r = s->averagePacketRate(); pps += r; bps += r * (s->frameLenAvg() + kEthOverhead) * 8; n++; if ((transmitMode() == OstProto::kSequentialTransmit) && (s->nextWhat() == Stream::e_nw_stop)) break; } if (n) { switch (transmitMode()) { case OstProto::kSequentialTransmit: avgPacketsPerSec_ = pps/n; avgBitsPerSec_ = bps/n; break; case OstProto::kInterleavedTransmit: avgPacketsPerSec_ = pps; avgBitsPerSec_ = bps; break; default: Q_ASSERT(false); // Unreachable!! } numActiveStreams_ = n; } else avgPacketsPerSec_ = avgBitsPerSec_ = numActiveStreams_ = 0; qDebug("%s: avgPps = %g avgBps = %g numActive = %d", __FUNCTION__, avgPacketsPerSec_, avgBitsPerSec_, numActiveStreams_); emit portRateChanged(mPortGroupId, mPortId); } void Port::setAveragePacketRate(double packetsPerSec) { double rate = 0; double pps = 0; double bps = 0; int n = 0; qDebug("@%s: packetsPerSec = %g", __FUNCTION__, packetsPerSec); qDebug("@%s: avgPps = %g avgBps = %g numActive = %d", __FUNCTION__, avgPacketsPerSec_, avgBitsPerSec_, numActiveStreams_); foreach (Stream* s, mStreams) { if (!s->isEnabled()) continue; switch (transmitMode()) { case OstProto::kSequentialTransmit: rate = s->averagePacketRate() * (packetsPerSec/avgPacketsPerSec_); break; case OstProto::kInterleavedTransmit: rate = s->averagePacketRate() + ((s->averagePacketRate()/avgPacketsPerSec_) * (packetsPerSec - avgPacketsPerSec_)); break; default: Q_ASSERT(false); // Unreachable!! } qDebug("cur stream pps = %g", s->averagePacketRate()); s->setAveragePacketRate(rate); qDebug("new stream pps = %g", s->averagePacketRate()); double r = s->averagePacketRate(); pps += r; bps += r * (s->frameLenAvg() + kEthOverhead) * 8; n++; if ((transmitMode() == OstProto::kSequentialTransmit) && (s->nextWhat() == Stream::e_nw_stop)) break; } if (n) { switch (transmitMode()) { case OstProto::kSequentialTransmit: avgPacketsPerSec_ = pps/n; avgBitsPerSec_ = bps/n; break; case OstProto::kInterleavedTransmit: avgPacketsPerSec_ = pps; avgBitsPerSec_ = bps; break; default: Q_ASSERT(false); // Unreachable!! } numActiveStreams_ = n; setDirty(true); } else avgPacketsPerSec_ = avgBitsPerSec_ = numActiveStreams_ = 0; qDebug("%s: avgPps = %g avgBps = %g numActive = %d", __FUNCTION__, avgPacketsPerSec_, avgBitsPerSec_, numActiveStreams_); emit portRateChanged(mPortGroupId, mPortId); } void Port::setAverageBitRate(double bitsPerSec) { double rate = 0; double pps = 0; double bps = 0; int n = 0; qDebug("@%s: bitsPerSec = %g", __FUNCTION__, bitsPerSec); qDebug("@%s: avgPps = %g avgBps = %g numActive = %d", __FUNCTION__, avgPacketsPerSec_, avgBitsPerSec_, numActiveStreams_); foreach (Stream* s, mStreams) { if (!s->isEnabled()) continue; switch (transmitMode()) { case OstProto::kSequentialTransmit: rate = s->averagePacketRate() * (bitsPerSec/avgBitsPerSec_); qDebug("rate = %g", rate); break; case OstProto::kInterleavedTransmit: rate = s->averagePacketRate() + ((s->averagePacketRate()/avgPacketsPerSec_) * ((bitsPerSec - avgBitsPerSec_) / ((s->frameLenAvg()+kEthOverhead)*8))); break; default: Q_ASSERT(false); // Unreachable!! } qDebug("cur stream pps = %g", s->averagePacketRate()); s->setAveragePacketRate(rate); qDebug("new stream pps = %g", s->averagePacketRate()); double r = s->averagePacketRate(); pps += r; bps += r * (s->frameLenAvg() + kEthOverhead) * 8; n++; if ((transmitMode() == OstProto::kSequentialTransmit) && (s->nextWhat() == Stream::e_nw_stop)) break; } if (n) { switch (transmitMode()) { case OstProto::kSequentialTransmit: avgPacketsPerSec_ = pps/n; avgBitsPerSec_ = bps/n; break; case OstProto::kInterleavedTransmit: avgPacketsPerSec_ = pps; avgBitsPerSec_ = bps; break; default: Q_ASSERT(false); // Unreachable!! } numActiveStreams_ = n; setDirty(true); } else avgPacketsPerSec_ = avgBitsPerSec_ = numActiveStreams_ = 0; qDebug("%s: avgPps = %g avgBps = %g numActive = %d", __FUNCTION__, avgPacketsPerSec_, avgBitsPerSec_, numActiveStreams_); emit portRateChanged(mPortGroupId, mPortId); } bool Port::newStreamAt(int index, OstProto::Stream const *stream) { Stream *s = new Stream; if (index > mStreams.size()) return false; if (stream) s->protoDataCopyFrom(*stream); s->setId(newStreamId()); mStreams.insert(index, s); updateStreamOrdinalsFromIndex(); recalculateAverageRates(); setDirty(true); return true; } bool Port::deleteStreamAt(int index) { if (index >= mStreams.size()) return false; delete mStreams.takeAt(index); updateStreamOrdinalsFromIndex(); recalculateAverageRates(); setDirty(true); return true; } bool Port::insertStream(uint streamId) { Stream *s = new Stream; s->setId(streamId); // FIXME(MED): If a stream with id already exists, what do we do? mStreams.append(s); // Update mAllocStreamId to take into account the stream id received // from server if (mAllocStreamId <= streamId) mAllocStreamId = streamId + 1; return true; } bool Port::updateStream(uint streamId, OstProto::Stream *stream) { int i, streamIndex; for (i = 0; i < mStreams.size(); i++) { if (streamId == mStreams[i]->id()) goto _found; } qDebug("%s: Invalid stream id %d", __FUNCTION__, streamId); return false; _found: streamIndex = i; mStreams[streamIndex]->protoDataCopyFrom(*stream); reorderStreamsByOrdinals(); return true; } void Port::getDeletedStreamsSinceLastSync( OstProto::StreamIdList &streamIdList) { streamIdList.clear_stream_id(); for (int i = 0; i < mLastSyncStreamList.size(); i++) { int j; for (j = 0; j < mStreams.size(); j++) { if (mLastSyncStreamList[i] == mStreams[j]->id()) break; } if (j < mStreams.size()) { // stream still exists! continue; } else { // stream has been deleted since last sync OstProto::StreamId *s; s = streamIdList.add_stream_id(); s->set_id(mLastSyncStreamList.at(i)); } } } void Port::getNewStreamsSinceLastSync( OstProto::StreamIdList &streamIdList) { streamIdList.clear_stream_id(); for (int i = 0; i < mStreams.size(); i++) { if (mLastSyncStreamList.contains(mStreams[i]->id())) { // existing stream! continue; } else { // new stream! OstProto::StreamId *s; s = streamIdList.add_stream_id(); s->set_id(mStreams[i]->id()); } } } void Port::getModifiedStreamsSinceLastSync( OstProto::StreamConfigList &streamConfigList) { qDebug("In %s", __FUNCTION__); //streamConfigList.mutable_port_id()->set_id(mPortId); for (int i = 0; i < mStreams.size(); i++) { OstProto::Stream *s; s = streamConfigList.add_stream(); mStreams[i]->protoDataCopyInto(*s); } qDebug("Done %s", __FUNCTION__); } void Port::getDeletedDeviceGroupsSinceLastSync( OstProto::DeviceGroupIdList &deviceGroupIdList) { deviceGroupIdList.clear_device_group_id(); foreach(int id, lastSyncDeviceGroupList_) { if (!deviceGroupById(id)) deviceGroupIdList.add_device_group_id()->set_id(id); } } void Port::getNewDeviceGroupsSinceLastSync( OstProto::DeviceGroupIdList &deviceGroupIdList) { deviceGroupIdList.clear_device_group_id(); foreach(OstProto::DeviceGroup *dg, deviceGroups_) { quint32 dgid = dg->device_group_id().id(); if (!lastSyncDeviceGroupList_.contains(dgid)) deviceGroupIdList.add_device_group_id()->set_id(dgid); } } void Port::getModifiedDeviceGroupsSinceLastSync( OstProto::DeviceGroupConfigList &deviceGroupConfigList) { deviceGroupConfigList.clear_device_group(); foreach(quint32 id, modifiedDeviceGroupList_) deviceGroupConfigList.add_device_group() ->CopyFrom(*deviceGroupById(id)); } /*! * Finds the user modifiable fields in 'config' that are different from * the current configuration on the port and modifes 'config' such that * only those fields are set and returns true. If 'config' is same as * current port config, 'config' is unmodified and false is returned */ bool Port::modifiablePortConfig(OstProto::Port &config) const { bool change = false; OstProto::Port modCfg; if (config.is_exclusive_control() != d.is_exclusive_control()) { modCfg.set_is_exclusive_control(config.is_exclusive_control()); change = true; } if (config.transmit_mode() != d.transmit_mode()) { modCfg.set_transmit_mode(config.transmit_mode()); change = true; } if (config.user_name() != d.user_name()) { modCfg.set_user_name(config.user_name()); change = true; } if (change) { modCfg.mutable_port_id()->set_id(id()); config.CopyFrom(modCfg); return true; } return false; } void Port::when_syncComplete() { //reorderStreamsByOrdinals(); mLastSyncStreamList.clear(); for (int i=0; iid()); lastSyncDeviceGroupList_.clear(); for (int i = 0; i < deviceGroups_.size(); i++) { lastSyncDeviceGroupList_.append( deviceGroups_.at(i)->device_group_id().id()); } modifiedDeviceGroupList_.clear(); setDirty(false); } void Port::updateStats(OstProto::PortStats *portStats) { OstProto::PortState oldState; oldState = stats.state(); stats.MergeFrom(*portStats); if (oldState.link_state() != stats.state().link_state()) { qDebug("portstate changed"); emit portDataChanged(mPortGroupId, mPortId); } } void Port::duplicateStreams(const QList &list, int count) { QList sources; foreach(int index, list) { OstProto::Stream stream; Q_ASSERT(index < mStreams.size()); mStreams.at(index)->protoDataCopyInto(stream); sources.append(stream); } int insertAt = mStreams.size(); for (int i=0; i < count; i++) { for (int j=0; j < sources.size(); j++) { newStreamAt(insertAt, &sources.at(j)); // Rename stream by appending the copy count mStreams.at(insertAt)->setName(QString("%1 (%2)") .arg(mStreams.at(insertAt)->name()) .arg(i+1)); insertAt++; } } setDirty(true); emit streamListChanged(mPortGroupId, mPortId); } bool Port::openStreams(QString fileName, bool append, QString &error) { bool ret = false; QDialog *optDialog; QProgressDialog progress("Opening Streams", "Cancel", 0, 0, mainWindow); OstProto::StreamConfigList streams; StreamFileFormat *fmt = StreamFileFormat::fileFormatFromFile(fileName); if (fmt == NULL) { error = tr("Unknown streams file format"); goto _fail; } if ((optDialog = fmt->openOptionsDialog())) { int ret; optDialog->setParent(mainWindow, Qt::Dialog); ret = optDialog->exec(); optDialog->setParent(0, Qt::Dialog); if (ret == QDialog::Rejected) goto _user_opt_cancel; } progress.setAutoReset(false); progress.setAutoClose(false); progress.setMinimumDuration(0); progress.show(); mainWindow->setDisabled(true); progress.setEnabled(true); // to override the mainWindow disable connect(fmt, SIGNAL(status(QString)),&progress,SLOT(setLabelText(QString))); connect(fmt, SIGNAL(target(int)), &progress, SLOT(setMaximum(int))); connect(fmt, SIGNAL(progress(int)), &progress, SLOT(setValue(int))); connect(&progress, SIGNAL(canceled()), fmt, SLOT(cancel())); fmt->openAsync(fileName, streams, error); qDebug("after open async"); while (!fmt->isFinished()) qApp->processEvents(); qDebug("wait over for async operation"); if (!fmt->result()) goto _fail; // process any remaining events posted from the thread for (int i = 0; i < 10; i++) qApp->processEvents(); if (!append) { int n = numStreams(); progress.setLabelText("Deleting existing streams..."); progress.setRange(0, n); for (int i = 0; i < n; i++) { if (progress.wasCanceled()) goto _user_cancel; deleteStreamAt(0); progress.setValue(i); if (i % 32 == 0) qApp->processEvents(); } } progress.setLabelText("Constructing new streams..."); progress.setRange(0, streams.stream_size()); for (int i = 0; i < streams.stream_size(); i++) { if (progress.wasCanceled()) goto _user_cancel; newStreamAt(mStreams.size(), &streams.stream(i)); progress.setValue(i); if (i % 32 == 0) qApp->processEvents(); } setDirty(true); _user_cancel: emit streamListChanged(mPortGroupId, mPortId); _user_opt_cancel: ret = true; _fail: progress.close(); mainWindow->setEnabled(true); recalculateAverageRates(); return ret; } bool Port::saveStreams(QString fileName, QString fileType, QString &error) { bool ret = false; QProgressDialog progress("Saving Streams", "Cancel", 0, 0, mainWindow); StreamFileFormat *fmt = StreamFileFormat::fileFormatFromType(fileType); OstProto::StreamConfigList streams; if (fmt == NULL) goto _fail; progress.setAutoReset(false); progress.setAutoClose(false); progress.setMinimumDuration(0); progress.show(); mainWindow->setDisabled(true); progress.setEnabled(true); // to override the mainWindow disable connect(fmt, SIGNAL(status(QString)),&progress,SLOT(setLabelText(QString))); connect(fmt, SIGNAL(target(int)), &progress, SLOT(setMaximum(int))); connect(fmt, SIGNAL(progress(int)), &progress, SLOT(setValue(int))); connect(&progress, SIGNAL(canceled()), fmt, SLOT(cancel())); progress.setLabelText("Preparing Streams..."); progress.setRange(0, mStreams.size()); streams.mutable_port_id()->set_id(0); for (int i = 0; i < mStreams.size(); i++) { OstProto::Stream *s = streams.add_stream(); mStreams[i]->protoDataCopyInto(*s); if (progress.wasCanceled()) goto _user_cancel; progress.setValue(i); if (i % 32 == 0) qApp->processEvents(); } fmt->saveAsync(streams, fileName, error); qDebug("after save async"); while (!fmt->isFinished()) qApp->processEvents(); qDebug("wait over for async operation"); ret = fmt->result(); goto _exit; _user_cancel: goto _exit; _fail: error = QString("Unsupported File Type - %1").arg(fileType); goto _exit; _exit: progress.close(); mainWindow->setEnabled(true); return ret; } // ------------ Device Group ----------- // uint Port::newDeviceGroupId() { // We use a monotonically increasing class variable to generate // unique id. To ensure that we take into account the already // existing ids at drone, we update this variable to be greater // than the last id that we fetched // FIXME: In some cases e.g. wrap around or more likely multiple // clients, we will still run into trouble - to fix this we should // check here that the same id does not already exist; but currently // we can only do a linear search - fix this when the lookup/search // is optimized return allocDeviceGroupId_++; } int Port::numDeviceGroups() const { return deviceGroups_.size(); } const OstProto::DeviceGroup* Port::deviceGroupByIndex(int index) const { if ((index < 0) || (index >= numDeviceGroups())) { qWarning("%s: index %d out of range (0 - %d)", __FUNCTION__, index, numDeviceGroups() - 1); return NULL; } return deviceGroups_.at(index); } OstProto::DeviceGroup* Port::mutableDeviceGroupByIndex(int index) { if ((index < 0) || (index >= numDeviceGroups())) { qWarning("%s: index %d out of range (0 - %d)", __FUNCTION__, index, numDeviceGroups() - 1); return NULL; } OstProto::DeviceGroup *devGrp = deviceGroups_.at(index); // Caller can modify DeviceGroup - assume she will modifiedDeviceGroupList_.insert(devGrp->device_group_id().id()); setDirty(true); return devGrp; } const OstProto::DeviceGroup* Port::deviceGroupById(uint deviceGroupId) const { for (int i = 0; i < deviceGroups_.size(); i++) { OstProto::DeviceGroup *devGrp = deviceGroups_.at(i); if (devGrp->device_group_id().id() == deviceGroupId) return devGrp; } return NULL; } bool Port::newDeviceGroupAt(int index, const OstProto::DeviceGroup *deviceGroup) { if (index < 0 || index > numDeviceGroups()) return false; OstProto::DeviceGroup *devGrp = newDeviceGroup(id()); if (!devGrp) { qWarning("failed allocating a new device group"); return false; } if (deviceGroup) devGrp->CopyFrom(*deviceGroup); devGrp->mutable_device_group_id()->set_id(newDeviceGroupId()); deviceGroups_.insert(index, devGrp); modifiedDeviceGroupList_.insert(devGrp->device_group_id().id()); setDirty(true); return true; } bool Port::deleteDeviceGroupAt(int index) { if (index < 0 || index >= deviceGroups_.size()) return false; OstProto::DeviceGroup *devGrp = deviceGroups_.takeAt(index); modifiedDeviceGroupList_.remove(devGrp->device_group_id().id()); delete devGrp; setDirty(true); return true; } bool Port::insertDeviceGroup(uint deviceGroupId) { OstProto::DeviceGroup *devGrp; if (deviceGroupById(deviceGroupId)) { qDebug("%s: deviceGroup id %u already exists", __FUNCTION__, deviceGroupId); return false; } devGrp = newDeviceGroup(id()); devGrp->mutable_device_group_id()->set_id(deviceGroupId); deviceGroups_.append(devGrp); // Update allocDeviceGroupId_ to take into account the deviceGroup id // received from server - this is required to make sure newly allocated // deviceGroup ids are unique if (allocDeviceGroupId_ <= deviceGroupId) allocDeviceGroupId_ = deviceGroupId + 1; return true; } bool Port::updateDeviceGroup( uint deviceGroupId, OstProto::DeviceGroup *deviceGroup) { using OstProto::DeviceGroup; // XXX: We should not call mutableDeviceGroupById() because that will // implicitly set the port as dirty, so we use a const_cast hack instead DeviceGroup *devGrp = const_cast( deviceGroupById(deviceGroupId)); if (!devGrp) { qDebug("%s: deviceGroup id %u does not exist", __FUNCTION__, deviceGroupId); return false; } devGrp->CopyFrom(*deviceGroup); return true; } // ------------ Devices ----------- // int Port::numDevices() { return devices_.size(); } const OstEmul::Device* Port::deviceByIndex(int index) { if ((index < 0) || (index >= numDevices())) { qWarning("%s: index %d out of range (0 - %d)", __FUNCTION__, index, numDevices() - 1); return NULL; } return devices_.at(index); } void Port::clearDeviceList() { while (devices_.size()) delete devices_.takeFirst(); } void Port::insertDevice(const OstEmul::Device &device) { OstEmul::Device *dev = new OstEmul::Device(device); devices_.append(dev); } // ------------- Device Neighbors (ARP/NDP) ------------- // const OstEmul::DeviceNeighborList* Port::deviceNeighbors(int deviceIndex) { if ((deviceIndex < 0) || (deviceIndex >= numDevices())) { qWarning("%s: index %d out of range (0 - %d)", __FUNCTION__, deviceIndex, numDevices() - 1); return NULL; } return deviceNeighbors_.value(deviceIndex); } int Port::numArp(int deviceIndex) { if (deviceNeighbors_.contains(deviceIndex)) return deviceNeighbors_.value(deviceIndex)->arp_size(); return 0; } int Port::numArpResolved(int deviceIndex) { if (arpResolvedCount_.contains(deviceIndex)) return arpResolvedCount_.value(deviceIndex); return 0; } int Port::numNdp(int deviceIndex) { if (deviceNeighbors_.contains(deviceIndex)) return deviceNeighbors_.value(deviceIndex)->ndp_size(); return 0; } int Port::numNdpResolved(int deviceIndex) { if (ndpResolvedCount_.contains(deviceIndex)) return ndpResolvedCount_.value(deviceIndex); return 0; } void Port::clearDeviceNeighbors() { arpResolvedCount_.clear(); ndpResolvedCount_.clear(); qDeleteAll(deviceNeighbors_); deviceNeighbors_.clear(); } void Port::insertDeviceNeighbors(const OstEmul::DeviceNeighborList &neighList) { int count; OstEmul::DeviceNeighborList *neighbors = new OstEmul::DeviceNeighborList(neighList); deviceNeighbors_.insert(neighList.device_index(), neighbors); count = 0; for (int i = 0; i < neighbors->arp_size(); i++) if (neighbors->arp(i).mac()) count++; arpResolvedCount_.insert(neighbors->device_index(), count); count = 0; for (int i = 0; i < neighbors->ndp_size(); i++) if (neighbors->ndp(i).mac()) count++; ndpResolvedCount_.insert(neighbors->device_index(), count); } void Port::deviceInfoRefreshed() { emit deviceInfoChanged(); }