// final String deviceIp = "192.168.1.246"; // .246 == phone; .199 == dlink plug?
// 2) TP-Link July 25 experiment
-// final String inputPcapFile = path + "/2018-07/tplink/tplink.wlan1.local.pcap";
-// final String outputPcapFile = path + "/2018-07/tplink/tplink-processed.pcap";
-// final String triggerTimesFile = path + "/2018-07/tplink/tplink-july-25-2018.timestamps";
-// final String deviceIp = "192.168.1.159";
+ final String inputPcapFile = path + "/2018-07/tplink/tplink.wlan1.local.pcap";
+ final String outputPcapFile = path + "/2018-07/tplink/tplink-processed.pcap";
+ final String triggerTimesFile = path + "/2018-07/tplink/tplink-july-25-2018.timestamps";
+ final String deviceIp = "192.168.1.159";
// 2b) TP-Link July 25 experiment TRUNCATED:
// Only contains "true local" events, i.e., before the behavior changes to remote-like behavior.
// final String deviceIp = "192.168.1.135";
// 6) TP-Link Bulb August 1 experiment
- final String inputPcapFile = path + "/2018-08/tplink-bulb/tplinkbulb.wlan1.local.pcap";
- final String outputPcapFile = path + "/2018-08/tplink-bulb/tplinkbulb-processed.pcap";
- final String triggerTimesFile = path + "/2018-08/tplink-bulb/tplink-bulb-aug-3-2018.timestamps";
- final String deviceIp = "192.168.1.246";
+// final String inputPcapFile = path + "/2018-08/tplink-bulb/tplinkbulb.wlan1.local.pcap";
+// final String outputPcapFile = path + "/2018-08/tplink-bulb/tplinkbulb-processed.pcap";
+// final String triggerTimesFile = path + "/2018-08/tplink-bulb/tplink-bulb-aug-3-2018.timestamps";
+// final String deviceIp = "192.168.1.246";
// 7) Kwikset Doorlock August 6 experiment
// final String inputPcapFile = path + "/2018-08/kwikset-doorlock/kwikset-doorlock.wlan1.local.pcap";
List<PcapPacket> tlsAppDataList = conv.getTlsApplicationDataPackets();
// Loop and print out packets
int count = 0;
+ // The direction of the first packet
+ Conversation.Direction firstDir = null;
+ // The length of the first packet
+ int firstLen = 0;
for (PcapPacket pcap : tlsAppDataList) {
boolean isPair = false;
if (count % 2 == 0) {
- pwOn.print(pcap.length() + ", ");
- //System.out.print(pcap.length() + ", ");
+ firstDir = conv.getDirection(pcap);
+ firstLen = pcap.length();
} else {// count%2 == 1
- isPair = true;
- pwOn.println(pcap.length());
- //System.out.println(pcap.length());
+ if(conv.getDirection(pcap) != firstDir) {
+ isPair = true;
+ pwOn.println(firstLen + ", " + pcap.length());
+ //System.out.println(firstDir + ", " + conv.getDirection(pcap));
+ //System.out.println(firstLen + ", " + pcap.length());
+ }
}
count++;
// If we can't create a pair then just pad it with 0
if (count == tlsAppDataList.size() && !isPair) {
- pwOn.println("0");
- //System.out.println("0");
+ pwOn.println(firstLen + ", 0");
+ }
+ }
+ } else { // Non-TLS conversations
+ List<PcapPacket> packetList = conv.getPackets();
+ // Loop and print out packets
+ int count = 0;
+ // The direction of the first packet
+ Conversation.Direction firstDir = null;
+ // The length of the first packet
+ int firstLen = 0;
+ for (PcapPacket pcap : packetList) {
+ System.out.println(pcap.length() + ", " + conv.getDirection(pcap));
+ boolean isPair = false;
+ if (count % 2 == 0) {
+ firstDir = conv.getDirection(pcap);
+ firstLen = pcap.length();
+ } else {// count%2 == 1
+ if(conv.getDirection(pcap) != firstDir) {
+ isPair = true;
+ pwOn.println(firstLen + ", " + pcap.length());
+ //System.out.println(firstDir + ", " + conv.getDirection(pcap));
+ //System.out.println(firstLen + ", " + pcap.length());
+ }
+ }
+ count++;
+ // If we can't create a pair then just pad it with 0
+ if (count == packetList.size() && !isPair) {
+ pwOn.println(firstLen + ", 0");
}
}
}
List<PcapPacket> tlsAppDataList = conv.getTlsApplicationDataPackets();
// Loop and print out packets
int count = 0;
+ // The direction of the first packet
+ Conversation.Direction firstDir = null;
+ // The length of the first packet
+ int firstLen = 0;
for (PcapPacket pcap : tlsAppDataList) {
boolean isPair = false;
if (count % 2 == 0) {
- pwOff.print(pcap.length() + ", ");
- //System.out.print(pcap.length() + ", ");
+ firstDir = conv.getDirection(pcap);
+ firstLen = pcap.length();
} else {// count%2 == 1
- isPair = true;
- pwOff.println(pcap.length());
- //System.out.println(pcap.length());
+ if(conv.getDirection(pcap) != firstDir) {
+ isPair = true;
+ pwOff.println(firstLen + ", " + pcap.length());
+ System.out.println(firstDir + ", " + conv.getDirection(pcap));
+ System.out.println(firstLen + ", " + pcap.length());
+ }
}
count++;
// If we can't create a pair then just pad it with 0
if (count == tlsAppDataList.size() && !isPair) {
- pwOff.println("0");
- //System.out.println("0");
+ pwOff.println(firstLen + ", 0");
+ }
+
+ }
+ } else { // Non-TLS conversations
+ List<PcapPacket> packetList = conv.getPackets();
+ // Loop and print out packets
+ int count = 0;
+ // The direction of the first packet
+ Conversation.Direction firstDir = null;
+ // The length of the first packet
+ int firstLen = 0;
+ for (PcapPacket pcap : packetList) {
+ System.out.println(pcap.length() + ", " + conv.getDirection(pcap));
+ boolean isPair = false;
+ if (count % 2 == 0) {
+ firstDir = conv.getDirection(pcap);
+ firstLen = pcap.length();
+ } else {// count%2 == 1
+ if(conv.getDirection(pcap) != firstDir) {
+ isPair = true;
+ pwOff.println(firstLen + ", " + pcap.length());
+ System.out.println(firstDir + ", " + conv.getDirection(pcap));
+ System.out.println(firstLen + ", " + pcap.length());
+ }
+ }
+ count++;
+ // If we can't create a pair then just pad it with 0
+ if (count == packetList.size() && !isPair) {
+ pwOff.println(firstLen + ", 0");
}
}
}
//
// Currently need to know relevant hostname in advance :(
// String hostname = "events.tplinkra.com";
- String hostname = "rfe-us-west-1.dch.dlink.com";
- // Conversations with 'hostname' for ON events.
- List<Conversation> onsForHostname = new ArrayList<>();
- // Conversations with 'hostname' for OFF events.
- List<Conversation> offsForHostname = new ArrayList<>();
- // "Unwrap" sequence groupings in ons/offs maps.
- ons.get(hostname).forEach((k,v) -> onsForHostname.addAll(v));
- offs.get(hostname).forEach((k,v) -> offsForHostname.addAll(v));
-
-
- Map<String, List<Conversation>> onsForHostnameGroupedByTlsAppDataSequence = TcpConversationUtils.groupConversationsByTlsApplicationDataPacketSequence(onsForHostname);
-
-
- // Extract representative sequence for ON and OFF by providing the list of conversations with
- // 'hostname' observed for each event type (the training data).
- SequenceExtraction seqExtraction = new SequenceExtraction();
-// ExtractedSequence extractedSequenceForOn = seqExtraction.extract(onsForHostname);
-// ExtractedSequence extractedSequenceForOff = seqExtraction.extract(offsForHostname);
-
- ExtractedSequence extractedSequenceForOn = seqExtraction.extractByTlsAppData(onsForHostname);
- ExtractedSequence extractedSequenceForOff = seqExtraction.extractByTlsAppData(offsForHostname);
-
- // Let's check how many ONs align with OFFs and vice versa (that is, how many times an event is incorrectly
- // labeled).
- int onsLabeledAsOff = 0;
- Integer[] representativeOnSeq = TcpConversationUtils.getPacketLengthSequence(extractedSequenceForOn.getRepresentativeSequence());
- Integer[] representativeOffSeq = TcpConversationUtils.getPacketLengthSequence(extractedSequenceForOff.getRepresentativeSequence());
- SequenceAlignment<Integer> seqAlg = seqExtraction.getAlignmentAlgorithm();
- for (Conversation c : onsForHostname) {
- Integer[] onSeq = TcpConversationUtils.getPacketLengthSequence(c);
- if (seqAlg.calculateAlignment(representativeOffSeq, onSeq) <= extractedSequenceForOff.getMaxAlignmentCost()) {
- onsLabeledAsOff++;
- }
- }
- int offsLabeledAsOn = 0;
- for (Conversation c : offsForHostname) {
- Integer[] offSeq = TcpConversationUtils.getPacketLengthSequence(c);
- if (seqAlg.calculateAlignment(representativeOnSeq, offSeq) <= extractedSequenceForOn.getMaxAlignmentCost()) {
- offsLabeledAsOn++;
- }
- }
- System.out.println("");
+// String hostname = "rfe-us-west-1.dch.dlink.com";
+// // Conversations with 'hostname' for ON events.
+// List<Conversation> onsForHostname = new ArrayList<>();
+// // Conversations with 'hostname' for OFF events.
+// List<Conversation> offsForHostname = new ArrayList<>();
+// // "Unwrap" sequence groupings in ons/offs maps.
+// ons.get(hostname).forEach((k,v) -> onsForHostname.addAll(v));
+// offs.get(hostname).forEach((k,v) -> offsForHostname.addAll(v));
+//
+//
+// Map<String, List<Conversation>> onsForHostnameGroupedByTlsAppDataSequence = TcpConversationUtils.groupConversationsByTlsApplicationDataPacketSequence(onsForHostname);
+//
+//
+// // Extract representative sequence for ON and OFF by providing the list of conversations with
+// // 'hostname' observed for each event type (the training data).
+// SequenceExtraction seqExtraction = new SequenceExtraction();
+//// ExtractedSequence extractedSequenceForOn = seqExtraction.extract(onsForHostname);
+//// ExtractedSequence extractedSequenceForOff = seqExtraction.extract(offsForHostname);
+//
+// ExtractedSequence extractedSequenceForOn = seqExtraction.extractByTlsAppData(onsForHostname);
+// ExtractedSequence extractedSequenceForOff = seqExtraction.extractByTlsAppData(offsForHostname);
+//
+// // Let's check how many ONs align with OFFs and vice versa (that is, how many times an event is incorrectly
+// // labeled).
+// int onsLabeledAsOff = 0;
+// Integer[] representativeOnSeq = TcpConversationUtils.getPacketLengthSequence(extractedSequenceForOn.getRepresentativeSequence());
+// Integer[] representativeOffSeq = TcpConversationUtils.getPacketLengthSequence(extractedSequenceForOff.getRepresentativeSequence());
+// SequenceAlignment<Integer> seqAlg = seqExtraction.getAlignmentAlgorithm();
+// for (Conversation c : onsForHostname) {
+// Integer[] onSeq = TcpConversationUtils.getPacketLengthSequence(c);
+// if (seqAlg.calculateAlignment(representativeOffSeq, onSeq) <= extractedSequenceForOff.getMaxAlignmentCost()) {
+// onsLabeledAsOff++;
+// }
+// }
+// int offsLabeledAsOn = 0;
+// for (Conversation c : offsForHostname) {
+// Integer[] offSeq = TcpConversationUtils.getPacketLengthSequence(c);
+// if (seqAlg.calculateAlignment(representativeOnSeq, offSeq) <= extractedSequenceForOn.getMaxAlignmentCost()) {
+// offsLabeledAsOn++;
+// }
+// }
+// System.out.println("");
// ================================================================================================
projects / pingpong.git / commitdiff