public NodeInfo(Integer pNodeNumber) { packetTimesPointer = 0; packetSkipsPointer = 0; neighbors = new NeighborInfo[5]; for (int i = 0; i < 5; i++) neighbors[i] = new NeighborInfo(); packetTimes = new long[SensorAnalyzer.HISTORY_LENGTH]; packetSkips = new long[SensorAnalyzer.HISTORY_LENGTH]; yieldHistory = new double[SensorAnalyzer.YIELD_HISTORY_LENGTH]; depthHistory = new byte[SensorAnalyzer.YIELD_HISTORY_LENGTH]; lastTime = System.currentTimeMillis() - 500; nodeNumber = pNodeNumber; value = -1; // if it doesn't change from this value nothing will be written infoString = "[none]"; }
public void messageReceived(int to, Message message) { long t = System.currentTimeMillis(); // System.out.print("" + t + ": "); // System.out.println(message); MessageProcessor messageProcessor = new MessageProcessor((SerialMsg) message, t); JSONObject json = messageProcessor.getJSON(); client.sendCollectionJSON(json); JSONObject processingJson = messageProcessor.getCouchJSON(); client.sendProcessingJSON(processingJson); fireStatus[messageProcessor.nodeToSensorID()] = messageProcessor.getFire(); if (fireStatus[0] || fireStatus[1] || fireStatus[2]) { client.sendFireRepresentation(fireStatus); } }
public void decay() { long curtime = System.currentTimeMillis(); msgRate = calcMsgRate(curtime - lastTime); msgYield = calcMsgYield(curtime - lastTime); // also cycle the yield history. if (yieldHistoryCounter++ > SensorAnalyzer.YIELD_INTERVAL) { yieldHistoryCounter = 0; depthHistory[yieldHistoryPointer] = (byte) hopcount; yieldHistory[yieldHistoryPointer++] = yield(); yieldHistoryPointer %= yieldHistory.length; if (panel != null) panel.repaint(); if (link_panel != null) link_panel.get_new_data(); } if (active) { active = false; return; } if (curtime - lastTime >= AVERAGE_INTERVAL) { if (self_calc != false) infoString = msgCount + " msgs "; else infoString = ""; if (panel != null) panel.YieldLabel.setText(String.valueOf(percent_yield()) + " %"); } int best = 0; int best_parent = 0; for (int i = 0; i < parent_count.length; i++) { if (parent_count[i] > best) { best_parent = i; best = parent_count[i]; } } primary_parent = best_parent; best = 0; for (int i = 0; i < parent_count.length; i++) { if (parent_count[i] > best && i != primary_parent) { best_parent = i; best = parent_count[i]; } } secondary_parent = best_parent; }
public void processTtspMsg(TestTtspMsg msg) { if (seconds.containsKey(msg.get_beaconId())) { } else { if (seconds.containsKey(msg.get_beaconId() - 1)) { seconds.remove(msg.get_beaconId() - 1); } seconds.put(msg.get_beaconId(), new Second()); System.out.printf("\n"); } globalTimes.put(msg.get_srcAddr(), msg.get_globalTime()); lastReceivedBeacons.put(msg.get_srcAddr(), msg.get_beaconId()); try { System.out.printf( "%20d %6d %8d %17d %16d %13d", System.currentTimeMillis(), msg.get_srcAddr(), msg.get_beaconId(), msg.get_globalTime(), msg.get_localTime(), msg.get_offset()); } catch (Exception e) { System.out.printf( "%20d %6d %8d %17d %16d %13d", System.currentTimeMillis(), msg.get_srcAddr(), msg.get_beaconId(), msg.get_globalTime(), msg.get_localTime(), msg.get_offset()); } if (msg.get_rootId() == 65535) { System.out.printf(" - -"); } else { System.out.printf(" %6d %8d", msg.get_rootId(), msg.get_syncPeriod()); } // System.out.printf(" %6d", msg.get_precisionError()); System.out.printf("\n"); if (!timeSeries.containsKey(msg.get_srcAddr())) { timeSeries.put( msg.get_srcAddr(), new TimeSeries("node " + msg.get_srcAddr(), org.jfree.data.time.Second.class)); timeSeries.get(msg.get_srcAddr()).setMaximumItemAge(MAX_AGE); pec.getTimeSeriesCollection().addSeries(timeSeries.get(msg.get_srcAddr())); } if (msg.get_rootId() == msg.get_srcAddr() && !syncPeriodTimeSeries.containsKey(msg.get_srcAddr())) { syncPeriodTimeSeries.put( msg.get_srcAddr(), new TimeSeries("node " + msg.get_srcAddr(), org.jfree.data.time.Second.class)); syncPeriodTimeSeries.get(msg.get_srcAddr()).setMaximumItemAge(MAX_AGE); spc.getTimeSeriesCollection().addSeries(syncPeriodTimeSeries.get(msg.get_srcAddr())); } if (msg.get_srcAddr() != msg.get_rootId() && globalTimes.containsKey(msg.get_rootId()) && lastReceivedBeacons.get(msg.get_rootId()) == msg.get_beaconId()) { timeSeries .get(msg.get_srcAddr()) .addOrUpdate( seconds.get(msg.get_beaconId()), globalTimes.get(msg.get_rootId()) - msg.get_globalTime()); } if (msg.get_srcAddr() == msg.get_rootId()) { syncPeriodTimeSeries .get(msg.get_srcAddr()) .addOrUpdate(seconds.get(msg.get_beaconId()), (int) msg.get_syncPeriod() / 1.024); } }
public void update(MultihopMsg msg) { String info; SurgeMsg SMsg = new SurgeMsg(msg.dataGet(), msg.offset_data(0)); if (SMsg.get_type() == 0) { if (SMsg.get_parentaddr() == MainFrame.BEACON_BASE_ADDRESS) { isDirectChild = true; } else { isDirectChild = false; } // Update message count and rate // Only update if this message is coming to the root from // a direct child int saddr = msg.get_sourceaddr(); NodeInfo ni = (NodeInfo) SensorAnalyzer.proprietaryNodeInfo.get(new Integer(saddr)); if (ni != null) { if (ni.isDirectChild) { msgCount++; int new_seq_no = (int) SMsg.get_seq_no() & 0x7fffff; if (stats_start_sequence_number == 0) stats_start_sequence_number = new_seq_no; if (seq_no == 0) seq_no = new_seq_no - 1; int diff = new_seq_no - seq_no; if (diff > 1000) diff = 1; active = true; long curtime = System.currentTimeMillis(); packetTimes[packetTimesPointer++] = curtime - lastTime; packetTimesPointer %= SensorAnalyzer.HISTORY_LENGTH; packetSkips[packetSkipsPointer++] = diff; packetSkipsPointer %= SensorAnalyzer.HISTORY_LENGTH; msgRate = calcMsgRate(0); msgYield = calcMsgYield(0); SimpleDateFormat formatter = new SimpleDateFormat("MM/dd/yyyy hh:mm:ss a"); String log = ""; log += nodeNumber + "#"; log += msgCount + "#"; log += formatter.format(new Date()) + "#"; log += curtime + "#"; log += (curtime - lastTime) + "#"; log += SMsg.get_parentaddr() + "#"; parent_count[SMsg.get_parentaddr()]++; log += msgRate + "#"; seq_no = new_seq_no; batt = (int) SMsg.get_seq_no() >> 23 & 0x1ff; log += seq_no + "#"; log += hopcount + "#"; level_sum += hopcount; log += SMsg.get_reading() + "#"; log += batt + "#"; for (int i = 0; i < 5; i++) { log += neighbors[i].id + "#"; log += neighbors[i].hopcount + "#"; log += neighbors[i].link_quality / 255.0 + "#"; } log += SMsg.get_temp() + "#"; log += SMsg.get_light() + "#"; log += SMsg.get_accelx() + "#"; log += SMsg.get_accely() + "#"; log += SMsg.get_magx() + "#"; log += SMsg.get_magy() + "#"; System.out.println(log); double batt_val = (double) batt; batt_val = 1.25 * 1023.0 / batt_val; batt_val *= 256.0 / 4.0; // System.out.println(batt_val); // Store the sensor readings. yield_series.insertNewReading(total_yield++, new Integer((int) (yield() * 256.0))); time_series.insertNewReading(seq_no, new Long(curtime)); batt_series.insertNewReading(seq_no, new Integer((int) batt_val)); temp_series.insertNewReading(seq_no, new Integer(SMsg.get_temp())); light_series.insertNewReading(seq_no, new Integer(SMsg.get_light())); accelx_series.insertNewReading(seq_no, new Integer(SMsg.get_accelx())); accely_series.insertNewReading(seq_no, new Integer(SMsg.get_accely())); magx_series.insertNewReading(seq_no, new Integer(SMsg.get_magx())); magy_series.insertNewReading(seq_no, new Integer(SMsg.get_magy())); link_quality = neighbors[0].link_quality / 255; // update the edge quality as well... MainClass.locationAnalyzer.setQualityForEdge( nodeNumber.intValue(), SMsg.get_parentaddr(), (int) (link_quality * 255.0)); lastTime = curtime; } } if (self_calc != false) info = msgCount + " msgs "; else info = ""; this.value = SMsg.get_reading(); if (panel != null) { panel.YieldLabel.setText(String.valueOf(percent_yield()) + " %"); panel.SensorLabel.setText(String.valueOf(value)); panel.ParentLabel.setText(String.valueOf(SMsg.get_parentaddr())); panel.SequenceLabel.setText(String.valueOf(seq_no)); panel.CountLabel.setText(String.valueOf(msgCount)); panel.DepthLabel.setText(String.valueOf(hopcount)); panel.repaint(); } this.infoString = info; } }