#!/usr/bin/python # Emacs settings: -*- tab-width: 4 -*- # # Copyright (c) 2002-2003 Apple Computer, Inc. All rights reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # # parselog.py, written and contributed by Kevin Marks # # Requires OS X 10.3 Panther or later, for Python and Core Graphics Python APIs # Invoke from the command line with "parselog.py fname" where fname is a log file made by mDNSNetMonitor # # Caveats: # It expects plain ASCII, and doesn't handle spaces in record names very well right now # There's a procedure you can follow to 'sanitize' an mDNSNetMonitor log file to make it more paletable to parselog.py: # 1. Run mDNSNetMonitor in a terminal window. # When you have enough traffic, type Ctrl-C and save the content of the terminal window to disk. # Alternatively, you can use "mDNSNetMonitor > logfile" to write the text directly to a file. # You now have a UTF-8 text file. # 2. Open the UTF-8 text file using BBEdit or some other text editor. # (These instructions are for BBEdit, which I highly recommend you use when doing this.) # 3. Make sure BBEdit correctly interprets the file as UTF-8. # Either set your "Text Files Opening" preference to "UTF-8 no BOM", and drop the file onto BBEdit, # or manually open the File using "File -> Open" and make sure the "Read As" setting is set to "UTF-8 no BOM" # Check in the document pulldown menu in the window toolbar to make sure that it says "Encoding: UTF-8 no BOM" # 4. Use "Tools -> Convert to ASCII" to replace all special characters with their seven-bit ascii equivalents. # (e.g. curly quotes are converted to straight quotes) # 5. Do a grep search and replace. (Cmd-F; make sure Grep checkbox is turned on.) # Enter this search text : ^(.................\(................\S*) (.* -> .*)$ # Enter this replacement text: \1-\2 # Click "Replace All" # Press Cmd-Opt-= repeatedly until there are no more instances to be replaced. # You now have text file with all spaces in names changed to hyphens # 6. Save the new file. You can save it as "UTF-8 no BOM", or as "Mac Roman". It really doesn't matter which -- # the file now contains only seven-bit ascii, so it's all the same no matter how you save it. # 7. Run "parselog.py fname" # 8. Open the resulting fname.pdf file with a PDF viewer like Preview on OS X # # Key to what you see: # Time is on the horizontal axis # Individual machines are shown on the vertical axis # Filled red circle: Normal query Hollow red circle: Query requesting unicast reply # Filled orange circle: Probe (service starting) Hollow orange circle: First probe (requesting unicast reply) # Filled green circle: Normal answer Hollow green circle: Goodbye message (record going away) # Hollow blue circle: Legacy query (from old client) from CoreGraphics import * import math # for pi import string import sys, os import re def parselog(inFile): f = open(inFile) hunt = 'getTime' ipList = {} querySource = {} plotPoints = [] maxTime=0 minTime = 36*60*60 spaceExp = re.compile(r'\s+') print "Reading " + inFile while 1: lines = f.readlines(100000) if not lines: break for line in lines: if (hunt == 'skip'): if (line == '\n' or line == '\r' or line ==''): hunt = 'getTime' # else: # msg = ("skipped" , line) # print msg elif (hunt == 'getTime'): if (line == "^C\n" ): break time = line.split(' ')[0].split(':') if (len(time)<3): #print "bad time, skipping",time hunt = 'skip' else: hunt = 'getIP' #print (("getTime:%s" % (line)), time) elif (hunt == 'getIP'): ip = line.split(' ',1) ip = ip[0] secs=0 for t in time: secs = secs*60 +float(t) if (secs>maxTime): maxTime=secs if (secs<minTime): minTime=secs if (not ip in ipList): ipList[ip] = [len(ipList), "", ""] #print (("getIP:%s" % (line)), time, secs) hunt = 'getQA' elif (hunt == 'getQA'): qaList = spaceExp.split(line) # qaList[0] Source Address # qaList[1] Operation type (PU/PM/QU/QM/AN etc.) # qaList[2] Record type (PTR/SRV/TXT etc.) # For QU/QM/LQ: # qaList[3] RR name # For PU/PM/AN/AN+/AD/AD+/KA: # qaList[3] TTL # qaList[4] RR name # qaList[5...] "->" symbol and following rdata #print qaList if (qaList[0] == ip): if (qaList[1] == '(QU)' or qaList[1] == '(LQ)' or qaList[1] == '(PU)'): plotPoints.append([secs, ipList[ip][0], (qaList[1])[1:-1]]) elif (qaList[1] == '(QM)'): plotPoints.append([secs, ipList[ip][0], (qaList[1])[1:-1]]) querySource[qaList[3]] = len(plotPoints)-1 elif (qaList[1] == '(PM)'): plotPoints.append([secs, ipList[ip][0], (qaList[1])[1:-1]]) querySource[qaList[4]] = len(plotPoints)-1 elif (qaList[1] == '(AN)' or qaList[1] == '(AN+)' or qaList[1] == '(DE)'): plotPoints.append([secs, ipList[ip][0], (qaList[1])[1:-1]]) try: theQuery = querySource[qaList[4]] theDelta = secs - plotPoints[theQuery][0] if (theDelta < 1.0): plotPoints[-1].append(querySource[qaList[4]]) #print "Answer AN+ %s points to %d" % (qaList[4],querySource[qaList[4]]) except: #print "Couldn't find any preceeding question for", qaList pass elif (qaList[1] != '(KA)' and qaList[1] != '(AD)' and qaList[1] != '(AD+)'): print "Operation unknown", qaList if (qaList[1] == '(AN)' or qaList[1] == '(AN+)' or qaList[1] == '(AD)' or qaList[1] == '(AD+)'): if (qaList[2] == 'HINFO'): ipList[ip][1] = qaList[4] ipList[ip][2] = string.join(qaList[6:]) #print ipList[ip][1] elif (qaList[2] == 'AAAA'): if (ipList[ip][1] == ""): ipList[ip][1] = qaList[4] ipList[ip][2] = "Panther" elif (qaList[2] == 'Addr'): if (ipList[ip][1] == ""): ipList[ip][1] = qaList[4] ipList[ip][2] = "Jaguar" else: if (line == '\n'): hunt = 'getTime' else: hunt = 'skip' f.close() #print plotPoints #print querySource #width=20.0*(maxTime-minTime) if (maxTime < minTime + 10.0): maxTime = minTime + 10.0 typesize = 12 width=20.0*(maxTime-minTime) pageHeight=(len(ipList)+1) * typesize scale = width/(maxTime-minTime) leftMargin = typesize * 60 bottomMargin = typesize pageRect = CGRectMake (-leftMargin, -bottomMargin, leftMargin + width, bottomMargin + pageHeight) # landscape outFile = "%s.pdf" % (".".join(inFile.split('.')[:-1])) c = CGPDFContextCreateWithFilename (outFile, pageRect) print "Writing " + outFile ourColourSpace = c.getColorSpace() # QM/QU red solid/hollow # PM/PU orange solid/hollow # LQ blue hollow # AN/DA green solid/hollow #colourLookup = {"L":(0.0,0.0,.75), "Q":(.75,0.0,0.0), "P":(.75,0.5,0.0), "A":(0.0,0.75,0.0), "D":(0.0,0.75,0.0), "?":(.25,0.25,0.25)} colourLookup = {"L":(0.0,0.0,1.0), "Q":(1.0,0.0,0.0), "P":(1.0,0.8,0.0), "A":(0.0,1.0,0.0), "D":(0.0,1.0,0.0), "?":(1.0,1.0,1.0)} c.beginPage (pageRect) c.setRGBFillColor(.75,0.0,0.0,1.0) c.setRGBStrokeColor(.25,0.75,0.25,1.0) c.setLineWidth(0.25) for point in plotPoints: #c.addArc((point[0]-minTime)*scale,point[1]*typesize+6,5,0,2*math.pi,1) c.addArc((point[0]-minTime)*scale,point[1]*typesize+6,typesize/4,0,2*math.pi,1) theColour = colourLookup[(point[2])[0]] if (((point[2])[0]) != "L") and (((point[2])[0]) != "Q") and (((point[2])[0]) != "P") and (((point[2])[0]) != "A") and (((point[2])[0]) != "D"): print "Unknown", point if ((point[2])[-1] == "M" or (point[2])[0]== "A"): c.setRGBFillColor(theColour[0],theColour[1],theColour[2],.5) c.fillPath() else: c.setRGBStrokeColor(theColour[0],theColour[1],theColour[2],.5) c.setLineWidth(1.0) c.strokePath() c.setRGBStrokeColor(.25,0.75,0.25,1.0) c.setLineWidth(0.25) for index in point[3:]: c.beginPath() c.moveToPoint((point[0]-minTime)*scale,point[1]*typesize+6) c.addLineToPoint(((plotPoints[index])[0]-minTime)*scale,(plotPoints[index])[1]*typesize+6) c.closePath() c.strokePath() c.setRGBFillColor (0,0,0, 1) c.setTextDrawingMode (kCGTextFill) c.setTextMatrix (CGAffineTransformIdentity) c.selectFont ('Gill Sans', typesize, kCGEncodingMacRoman) c.setRGBStrokeColor(0.25,0.0,0.0,1.0) c.setLineWidth(0.1) for ip,[height,hname,hinfo] in ipList.items(): c.beginPath() c.moveToPoint(pageRect.origin.x,height*typesize+6) c.addLineToPoint(width,height*typesize+6) c.closePath() c.strokePath() c.showTextAtPoint(pageRect.origin.x + 2, height*typesize + 2, ip, len(ip)) c.showTextAtPoint(pageRect.origin.x + 2 + typesize*8, height*typesize + 2, hname, len(hname)) c.showTextAtPoint(pageRect.origin.x + 2 + typesize*25, height*typesize + 2, hinfo, len(hinfo)) for time in range (int(minTime),int(maxTime)+1): c.beginPath() c.moveToPoint((time-minTime)*scale,pageRect.origin.y) c.addLineToPoint((time-minTime)*scale,pageHeight) c.closePath() if (int(time) % 10 == 0): theHours = time/3600 theMinutes = time/60 % 60 theSeconds = time % 60 theTimeString = '%d:%02d:%02d' % (theHours, theMinutes, theSeconds) # Should measure string width, but don't know how to do that theStringWidth = typesize * 3.5 c.showTextAtPoint((time-minTime)*scale - theStringWidth/2, pageRect.origin.y + 2, theTimeString, len(theTimeString)) c.setLineWidth(0.3) else: c.setLineWidth(0.1) c.strokePath() c.endPage() c.finish() for arg in sys.argv[1:]: parselog(arg)