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@@ -248,101 +248,78 @@ void statistics::addConvStat(std::string ipAddressSender,int sport,std::string i
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}
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/**
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/**
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- * Registers statistical data for a sent packet in a given stateless conversation (two IPs, two ports).
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+ * Registers statistical data for a sent packet in a given extended conversation (two IPs, two ports, protocol).
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* Increments the counter packets_A_B or packets_B_A.
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* Increments the counter packets_A_B or packets_B_A.
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* Adds the timestamp of the packet in pkts_A_B_timestamp or pkts_B_A_timestamp.
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* Adds the timestamp of the packet in pkts_A_B_timestamp or pkts_B_A_timestamp.
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+ * Updates all other statistics of conv_statistics_extended
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* @param ipAddressSender The sender IP address.
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* @param ipAddressSender The sender IP address.
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* @param sport The source port.
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* @param sport The source port.
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* @param ipAddressReceiver The receiver IP address.
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* @param ipAddressReceiver The receiver IP address.
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* @param dport The destination port.
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* @param dport The destination port.
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+ * @param protocol The used protocol.
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* @param timestamp The timestamp of the packet.
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* @param timestamp The timestamp of the packet.
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*/
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*/
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-void statistics::addConvStatStateless(std::string ipAddressSender,int sport,std::string ipAddressReceiver,int dport, std::chrono::microseconds timestamp){
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+void statistics::addConvStatExt(std::string ipAddressSender,int sport,std::string ipAddressReceiver,int dport,std::string protocol, std::chrono::microseconds timestamp){
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+ convWithProt f1 = {ipAddressReceiver, dport, ipAddressSender, sport, protocol};
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+ convWithProt f2 = {ipAddressSender, sport, ipAddressReceiver, dport, protocol};
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+ convWithProt f;
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- conv f1 = {ipAddressReceiver, dport, ipAddressSender, sport};
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- conv f2 = {ipAddressSender, sport, ipAddressReceiver, dport};
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-
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- // if already exist A(ipAddressReceiver, dport), B(ipAddressSender, sport) conversation
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- if (conv_statistics_stateless.count(f1)>0){
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- conv_statistics_stateless[f1].pkts_count++;
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- if(conv_statistics_stateless[f1].pkts_count<=3)
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- conv_statistics_stateless[f1].interarrival_time.push_back(std::chrono::duration_cast<std::chrono::microseconds> (timestamp - conv_statistics_stateless[f1].pkts_timestamp.back()));
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- conv_statistics_stateless[f1].pkts_timestamp.push_back(timestamp);
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- }
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- // Add new conversation A(ipAddressSender, sport), B(ipAddressReceiver, dport)
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- else{
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- conv_statistics_stateless[f2].pkts_count++;
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- if(conv_statistics_stateless[f2].pkts_timestamp.size()>0 && conv_statistics_stateless[f2].pkts_count<=3 )
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- conv_statistics_stateless[f2].interarrival_time.push_back(std::chrono::duration_cast<std::chrono::microseconds> (timestamp - conv_statistics_stateless[f2].pkts_timestamp.back()));
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- conv_statistics_stateless[f2].pkts_timestamp.push_back(timestamp);
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- }
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-}
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+ // if there already exists a communication interval for the specified conversation
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+ if (conv_statistics_extended.count(f1) > 0 || conv_statistics_extended.count(f2) > 0){
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-/**
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- * Adds the passed information to the relevant communication intervals of the respective conversation.
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- * If the time between the last message of the latest interval and the timestamp of the current message exceeds
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- * the threshold, a new interval is created.
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- * Note: here and within the function, conversation refers to a stateless conversation.
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- * @param ipAddressSender The sender IP address.
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- * @param sport The source port.
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- * @param ipAddressReceiver The receiver IP address.
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- * @param dport The destination port.
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- * @param timestamp The timestamp of the packet.
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- */
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-
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-void statistics::addCommInterval(std::string ipAddressSender,int sport,std::string ipAddressReceiver,int dport, std::chrono::microseconds timestamp){
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- conv f1 = {ipAddressReceiver, dport, ipAddressSender, sport};
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- conv f2 = {ipAddressSender, sport, ipAddressReceiver, dport};
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- conv f;
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-
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- // if there already exists a communication interval for the specified conversation ...
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- if (comm_intervals.count(f1) > 0 || comm_intervals.count(f2) > 0){
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-
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- // find out which direction of conversation is contained in comm_intervals
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- if (comm_intervals.count(f1) > 0)
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+ // find out which direction of conversation is contained in conv_statistics_extended
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+ if (conv_statistics_extended.count(f1) > 0)
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f = f1;
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f = f1;
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else
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else
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f = f2;
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f = f2;
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- // if the time difference is exceeded, create a new interval with this message
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- if (timestamp - comm_intervals[f].back().end > (std::chrono::microseconds) ((unsigned long) COMM_INTERVAL_THRESHOLD)) { // > or >= ?
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+ // increase pkts count and check on delay
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+ conv_statistics_extended[f].pkts_count++;
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+ if (conv_statistics_extended[f].pkts_timestamp.size()>0 && conv_statistics_extended[f].pkts_count<=3)
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+ conv_statistics_extended[f].interarrival_time.push_back(std::chrono::duration_cast<std::chrono::microseconds> (timestamp - conv_statistics_extended[f].pkts_timestamp.back()));
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+ conv_statistics_extended[f].pkts_timestamp.push_back(timestamp);
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+
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+ // if the time difference has exceeded the threshold, create a new interval with this message
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+ if (timestamp - conv_statistics_extended[f].comm_intervals.back().end > (std::chrono::microseconds) ((unsigned long) COMM_INTERVAL_THRESHOLD)) { // > or >= ?
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commInterval new_interval = {timestamp, timestamp, 1};
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commInterval new_interval = {timestamp, timestamp, 1};
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- comm_intervals[f].push_back(new_interval);
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+ conv_statistics_extended[f].comm_intervals.push_back(new_interval);
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}
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}
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// otherwise, set the time of the last interval message to the current timestamp and increase interval packet count by 1
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// otherwise, set the time of the last interval message to the current timestamp and increase interval packet count by 1
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else{
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else{
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- comm_intervals[f].back().end = timestamp;
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- comm_intervals[f].back().pkts_count++;
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+ conv_statistics_extended[f].comm_intervals.back().end = timestamp;
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+ conv_statistics_extended[f].comm_intervals.back().pkts_count++;
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}
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}
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}
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}
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- // if there does not exist a communication interval for the specified conversation ...
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+ // if there does not exist a communication interval for the specified conversation
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else{
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else{
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- // add initial interval for this conversation
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+ // add initial interval entry for this conversation
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commInterval initial_interval = {timestamp, timestamp, 1};
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commInterval initial_interval = {timestamp, timestamp, 1};
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- std::vector<commInterval> intervals;
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- intervals.push_back(initial_interval);
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- comm_intervals[f1] = intervals;
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+ entry_convStatExt entry;
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+ entry.comm_intervals.push_back(initial_interval);
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+ entry.pkts_count = 1;
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+ entry.pkts_timestamp.push_back(timestamp);
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+ conv_statistics_extended[f2] = entry;
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}
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}
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}
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}
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/**
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/**
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- * Aggregate the collected information about all communication intervals of every conversation.
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+ * Aggregate the collected information about all communication intervals within conv_statistics_extended of every conversation.
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* Do this by computing the average packet rate per interval and the average time between intervals.
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* Do this by computing the average packet rate per interval and the average time between intervals.
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* Also compute average interval duration and total communication duration (i.e. last_msg.time - first_msg.time)
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* Also compute average interval duration and total communication duration (i.e. last_msg.time - first_msg.time)
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- * Note: here and within the function, conversation refers to a stateless conversation.
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*/
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*/
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void statistics::createCommIntervalStats(){
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void statistics::createCommIntervalStats(){
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- // iterate over all <conv, conv_intervals> pairs
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- for (auto &cur_elem : comm_intervals) {
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- conv cur_conv = cur_elem.first;
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- std::vector<commInterval> intervals = cur_elem.second;
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+ // iterate over all <convWithProt, entry_convStatExt> pairs
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+ for (auto &cur_elem : conv_statistics_extended) {
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+ entry_convStatExt &entry = cur_elem.second;
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+ std::vector<commInterval> &intervals = entry.comm_intervals;
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// if there is only one interval, the time between intervals cannot be computed and is therefore set to 0
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// if there is only one interval, the time between intervals cannot be computed and is therefore set to 0
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if (intervals.size() == 1){
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if (intervals.size() == 1){
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double interval_duration = (double) (intervals[0].end - intervals[0].start).count() / (double) 1e6;
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double interval_duration = (double) (intervals[0].end - intervals[0].start).count() / (double) 1e6;
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- entry_commIntervalStat e = {(double) intervals[0].pkts_count, (double) 0, interval_duration, interval_duration};
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- comm_interval_statistics[cur_conv] = e;
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+ entry.avg_int_pkts_count = (double) intervals[0].pkts_count;
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+ entry.avg_time_between_ints = (double) 0;
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+ entry.avg_interval_time = interval_duration;
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}
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}
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// If there is more than one interval, compute the specified averages
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// If there is more than one interval, compute the specified averages
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else if (intervals.size() > 1){
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else if (intervals.size() > 1){
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@@ -356,13 +333,12 @@ void statistics::createCommIntervalStats(){
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time_between_ints_sum += intervals[i].start - intervals[i - 1].end;
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time_between_ints_sum += intervals[i].start - intervals[i - 1].end;
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}
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}
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- double avg_pkts_count = summed_pkts_count / ((double) intervals.size());
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- double avg_time_betw_ints = (time_between_ints_sum.count() / (double) (intervals.size() - 1)) / (double) 1e6;
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- double avg_interval_time = (summed_int_duration.count() / (double) intervals.size()) / (double) 1e6;
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- double total_comm_duration = (double) (intervals.back().end - intervals.front().start).count() / (double) 1e6;
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- entry_commIntervalStat e = {avg_pkts_count, avg_time_betw_ints, avg_interval_time, total_comm_duration};
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- comm_interval_statistics[cur_conv] = e;
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+ entry.avg_int_pkts_count = summed_pkts_count / ((double) intervals.size());
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+ entry.avg_time_between_ints = (time_between_ints_sum.count() / (double) (intervals.size() - 1)) / (double) 1e6;
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+ entry.avg_interval_time = (summed_int_duration.count() / (double) intervals.size()) / (double) 1e6;
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+
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}
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}
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+ entry.total_comm_duration = (double) (entry.pkts_timestamp.back() - entry.pkts_timestamp.front()).count() / (double) 1e6;
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}
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}
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}
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}
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@@ -720,9 +696,8 @@ void statistics::writeToDatabase(std::string database_path) {
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db.writeStatisticsToS(tos_distribution);
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db.writeStatisticsToS(tos_distribution);
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db.writeStatisticsWin(win_distribution);
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db.writeStatisticsWin(win_distribution);
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db.writeStatisticsConv(conv_statistics);
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db.writeStatisticsConv(conv_statistics);
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- db.writeStatisticsConvStateless(conv_statistics_stateless);
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+ db.writeStatisticsConvExt(conv_statistics_extended);
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db.writeStatisticsInterval(interval_statistics);
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db.writeStatisticsInterval(interval_statistics);
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- db.writeCommIntervalStats(comm_interval_statistics);
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}
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}
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else {
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else {
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// Tinslib failed to recognize the types of the packets in the input PCAP
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// Tinslib failed to recognize the types of the packets in the input PCAP
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