3 ###############################################################################
6 # Copyright (C) 2014 INRIA
8 # This program is free software: you can redistribute it and/or modify
9 # it under the terms of the GNU General Public License as published by
10 # the Free Software Foundation, either version 3 of the License, or
11 # (at your option) any later version.
13 # This program is distributed in the hope that it will be useful,
14 # but WITHOUT ANY WARRANTY; without even the implied warranty of
15 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 # GNU General Public License for more details.
18 # You should have received a copy of the GNU General Public License
19 # along with this program. If not, see <http://www.gnu.org/licenses/>.
22 # Author: Alina Quereilhac <alina.quereilhac@inria.fr>
24 ###############################################################################
27 # This library contains functions to parse (CCNx) ccnd logs.
29 # Results from experiments must be stored in a directory
30 # named with the experiment run id.
31 # ccnd logs are stored in .log files in a subdirectory per node.
32 # The following diagram exemplifies the experiment result directory
33 # structure (nidi is the unique identifier assigned to node i):
51 from nepi.util.timefuncs import compute_delay_ms
52 from nepi.util.statfuncs import compute_mean
53 import nepi.data.processing.ping.parser as ping_parser
55 def is_control(content_name):
56 return content_name.startswith("ccnx:/%C1") or \
57 content_name.startswith("ccnx:/ccnx") or \
58 content_name.startswith("ccnx:/...")
61 def parse_file(filename):
62 """ Parses message information from ccnd log files
64 filename: path to ccndlog file
71 f = open(filename, "r")
76 cols = line.strip().split(sep)
79 # MESSAGE interest_from
80 # 1374181938.808523 ccnd[9245]: debug.4352 interest_from 6 ccnx:/test/bunny.ts (23 bytes,sim=0CDCC1D7)
83 # 1374181938.812750 ccnd[9245]: debug.3502 interest_to 5 ccnx:/test/bunny.ts (39 bytes,i=2844,sim=0CDCC1D7)
85 # MESSAGE CONTENT FROM
86 # 1374181938.868682 ccnd[9245]: debug.4643 content_from 5 ccnx:/test/bunny.ts/%FD%05%1E%85%8FVw/%00/%9E%3D%01%D9%3Cn%95%2BvZ%8
89 # 1374181938.868772 ccnd[9245]: debug.1619 content_to 6 ccnx:/test/bunny.ts/%FD%05%1E%85%8FVw/%00/%9E%3D%01%D9%3Cn%95%2BvZ%8
91 # 1375596708.222304 ccnd[9758]: debug.3692 interest_expiry ccnx:/test/bunny.ts/%FD%05%1E%86%B1GS/%00%0A%F7 (44 bytes,c=0:1,i=2819,sim=49FA8048)
93 # External face creation
94 # 1374181452.965961 ccnd[9245]: accepted datagram client id=5 (flags=0x40012) 204.85.191.10 port 9695
96 if line.find("accepted datagram client") > -1:
97 face_id = (cols[5]).replace("id=",'')
100 faces[face_id] = (ip, port)
103 # 1374181452.985296 ccnd[9245]: releasing face id 4 (slot 4)
104 if line.find("releasing face id") > -1:
114 message_type = cols[3]
116 if message_type not in ["interest_from", "interest_to", "content_from",
117 "content_to", "interest_dupnonce", "interest_expiry"]:
121 content_name = cols[5]
123 # Interest Nonce ? -> 412A74-0844-0008-50AA-F6EAD4
125 if message_type in ["interest_from", "interest_to", "interest_dupnonce"]:
127 if len(last.split("-")) == 5:
131 size = int((cols[6]).replace('(',''))
133 print "interest_expiry without face id!", line
136 # If no external IP address was identified for this face
137 # asume it is a local face
141 peer, port = faces[face_id]
143 data.append((content_name, timestamp, message_type, peer, face_id,
150 def dump_content_history(content_history):
151 f = tempfile.NamedTemporaryFile(delete=False)
152 pickle.dump(content_history, f)
156 def load_content_history(fname):
158 content_history = pickle.load(f)
162 return content_history
164 def annotate_cn_node(graph, nid, ips2nid, data, content_history):
165 for (content_name, timestamp, message_type, peer, face_id,
166 size, nonce, line) in data:
168 # Ignore control messages for the time being
169 if is_control(content_name):
172 if message_type == "interest_from" and \
174 graph.node[nid]["ccn_consumer"] = True
175 elif message_type == "content_from" and \
177 graph.node[nid]["ccn_producer"] = True
179 # Ignore local messages for the time being.
180 # They could later be used to calculate the processing times
182 if peer == "localhost":
186 if message_type in ["content_from", "content_to"]:
187 content_name = "/".join(content_name.split("/")[:-1])
189 if content_name not in content_history:
190 content_history[content_name] = list()
192 peernid = ips2nid[peer]
193 graph.add_edge(nid, peernid)
195 content_history[content_name].append((timestamp, message_type, nid,
196 peernid, nonce, size, line))
198 def annotate_cn_graph(logs_dir, graph, parse_ping_logs = False):
199 """ Adds CCN content history for each node in the topology graph.
202 # Make a copy of the graph to ensure integrity
207 for nid in graph.nodes():
208 ips = graph.node[nid]["ips"]
212 # Now walk through the ccnd logs...
213 for dirpath, dnames, fnames in os.walk(logs_dir):
214 # continue if we are not at the leaf level (if there are subdirectories)
218 # Each dirpath correspond to a different node
219 nid = os.path.basename(dirpath)
221 content_history = dict()
224 if fname.endswith(".log"):
225 filename = os.path.join(dirpath, fname)
226 data = parse_file(filename)
227 annotate_cn_node(graph, nid, ips2nid, data, content_history)
229 # Avoid storing everything in memory, instead dump to a file
230 # and reference the file
231 fname = dump_content_history(content_history)
232 graph.node[nid]["history"] = fname
235 ping_parser.annotate_cn_graph(logs_dir, graph)
239 def ccn_producers(graph):
240 """ Returns the nodes that are content providers """
241 return [nid for nid in graph.nodes() \
242 if graph.node[nid].get("ccn_producer")]
244 def ccn_consumers(graph):
245 """ Returns the nodes that are content consumers """
246 return [nid for nid in graph.nodes() \
247 if graph.node[nid].get("ccn_consumer")]
249 def process_content_history(graph):
250 """ Compute CCN message counts and aggregates content historical
251 information in the content_names dictionary
255 ## Assume single source
256 source = ccn_consumers(graph)[0]
258 interest_expiry_count = 0
259 interest_dupnonce_count = 0
262 content_names = dict()
264 # Collect information about exchanged messages by content name and
266 for nid in graph.nodes():
267 # Load the data collected from the node's ccnd log
268 fname = graph.node[nid]["history"]
269 history = load_content_history(fname)
271 for content_name in history.keys():
272 hist = history[content_name]
274 for (timestamp, message_type, nid1, nid2, nonce, size, line) in hist:
275 if message_type in ["content_from", "content_to"]:
276 # The first Interest sent will not have a version or chunk number.
277 # The first Content sent back in reply, will end in /=00 or /%00.
278 # Make sure to map the first Content to the first Interest.
279 if content_name.endswith("/=00"):
280 content_name = "/".join(content_name.split("/")[0:-2])
282 # Add content name to dictionary
283 if content_name not in content_names:
284 content_names[content_name] = dict()
285 content_names[content_name]["interest"] = dict()
286 content_names[content_name]["content"] = list()
288 # Classify interests by replica
289 if message_type in ["interest_from"] and \
290 nonce not in content_names[content_name]["interest"]:
291 content_names[content_name]["interest"][nonce] = list()
293 # Add consumer history
295 if message_type in ["interest_to", "content_from"]:
296 # content name history as seen by the source
297 if "consumer_history" not in content_names[content_name]:
298 content_names[content_name]["consumer_history"] = list()
300 content_names[content_name]["consumer_history"].append(
301 (timestamp, message_type))
303 # Add messages per content name and cumulate totals by message type
304 if message_type == "interest_dupnonce":
305 interest_dupnonce_count += 1
306 elif message_type == "interest_expiry":
307 interest_expiry_count += 1
308 elif message_type == "interest_from":
310 # Append to interest history of the content name
311 content_names[content_name]["interest"][nonce].append(
312 (timestamp, nid2, nid1))
313 elif message_type == "content_from":
315 # Append to content history of the content name
316 content_names[content_name]["content"].append((timestamp, nid2, nid1))
322 # Compute the time elapsed between the time an interest is sent
323 # in the consumer node and when the content is received back
324 for content_name in content_names.keys():
325 # order content and interest messages by timestamp
326 content_names[content_name]["content"] = sorted(
327 content_names[content_name]["content"])
329 for nonce, timestamps in content_names[content_name][
330 "interest"].iteritems():
331 content_names[content_name]["interest"][nonce] = sorted(
334 history = sorted(content_names[content_name]["consumer_history"])
335 content_names[content_name]["consumer_history"] = history
337 # compute the rtt time of the message
339 waiting_content = False
340 interest_timestamp = None
341 content_timestamp = None
343 for (timestamp, message_type) in history:
344 if not waiting_content and message_type == "interest_to":
345 waiting_content = True
346 interest_timestamp = timestamp
349 if waiting_content and message_type == "content_from":
350 content_timestamp = timestamp
353 # If we can't determine who sent the interest, discard it
355 if interest_timestamp and content_timestamp:
356 rtt = compute_delay_ms(content_timestamp, interest_timestamp)
358 content_names[content_name]["rtt"] = rtt
359 content_names[content_name]["lapse"] = (interest_timestamp, content_timestamp)
363 interest_expiry_count,
364 interest_dupnonce_count,
368 def process_content_history_logs(logs_dir, graph):
369 """ Parse CCN logs and aggregate content history information in graph.
370 Returns annotated graph and message countn and content names history.
373 ## Process logs and analyse data
375 graph = annotate_cn_graph(logs_dir, graph,
376 parse_ping_logs = True)
378 print "Skipping: Error parsing ccnd logs", logs_dir
381 source = ccn_consumers(graph)[0]
382 target = ccn_producers(graph)[0]
384 # Process the data from the ccnd logs, but do not re compute
389 interest_expiry_count,
390 interest_dupnonce_count,
392 content_count) = process_content_history(graph)
394 print "Skipping: Error processing ccn data", logs_dir
399 interest_expiry_count,
400 interest_dupnonce_count,