tools/logblame/analyze_logs.py - platform/development - Git at Google

 #!/usr/bin/env python2.7

 import argparse
 import datetime
 import re
 import subprocess
 import sys

 import logs
 import ps

 DURATION_RE = re.compile("((\\d+)w)?((\\d+)d)?((\\d+)h)?((\\d+)m)?((\\d+)s)?")

 class Bucket(object):
   """Bucket of stats for a particular key managed by the Stats object."""
   def __init__(self):
     self.count = 0
     self.memory = 0
     self.lines = []

   def __str__(self):
     return "(%s,%s)" % (self.count, self.memory)


 class Stats(object):
   """A group of stats with a particular key, where both memory and count are tracked."""
   def __init__(self):
     self._data = dict()

   def add(self, key, logLine):
     bucket = self._data.get(key)
     if not bucket:
       bucket = Bucket()
       self._data[key] = bucket
     bucket.count += 1
     bucket.memory += logLine.memory()
     bucket.lines.append(logLine)

   def __iter__(self):
     return self._data.iteritems()

   def data(self):
     return [(key, bucket) for key, bucket in self._data.iteritems()]

   def byCount(self):
     result = self.data()
     result.sort(lambda a, b: -cmp(a[1].count, b[1].count))
     return result

   def byMemory(self):
     result = self.data()
     result.sort(lambda a, b: -cmp(a[1].memory, b[1].memory))
     return result


 def ParseDuration(s):
   """Parse a date of the format .w.d.h.m.s into the number of seconds."""
   def make_int(index):
     val = m.group(index)
     if val:
       return int(val)
     else:
       return 0
   m = DURATION_RE.match(s)
   if m:
     weeks = make_int(2)
     days = make_int(4)
     hours = make_int(6)
     minutes = make_int(8)
     seconds = make_int(10)
     return (weeks * 604800) + (days * 86400) + (hours * 3600) + (minutes * 60) + seconds
   return 0

 def FormatMemory(n):
   """Prettify the number of bytes into gb, mb, etc."""
   if n >= 1024 * 1024 * 1024:
     return "%10d gb" % (n / (1024 * 1024 * 1024))
   elif n >= 1024 * 1024:
     return "%10d mb" % (n / (1024 * 1024))
   elif n >= 1024:
     return "%10d kb" % (n / 1024)
   else:
     return "%10d b " % n

 def FormateTimeDelta(td):
   """Format a time duration into the same format we accept on the commandline."""
   seconds = (td.days * 86400) + (td.seconds) + int(td.microseconds / 1000000)
   if seconds == 0:
     return "0s"
   result = ""
   if seconds >= 604800:
     weeks = int(seconds / 604800)
     seconds -= weeks * 604800
     result += "%dw" % weeks
   if seconds >= 86400:
     days = int(seconds / 86400)
     seconds -= days * 86400
     result += "%dd" % days
   if seconds >= 3600:
     hours = int(seconds / 3600)
     seconds -= hours * 3600
     result += "%dd" % hours
   if seconds >= 60:
     minutes = int(seconds / 60)
     seconds -= minutes * 60
     result += "%dh" % minutes
   if seconds > 0:
     result += "%ds" % seconds
   return result


 def WriteResult(totalCount, totalMemory, bucket, text):
   """Write a bucket in the normalized format."""
   print "%7d (%2d%%) %s (%2d%%)  %s" % (bucket.count, (100 * bucket.count / totalCount),
       FormatMemory(bucket.memory), (100 * bucket.memory / totalMemory), text)


 def ParseArgs(argv):
   parser = argparse.ArgumentParser(description="Process some integers.")
   parser.add_argument("input", type=str, nargs="?",
                       help="the logs file to read")
   parser.add_argument("--clear", action="store_true",
                       help="clear the log buffer before running logcat")
   parser.add_argument("--duration", type=str, nargs=1,
                       help="how long to run for (XdXhXmXs)")
   parser.add_argument("--rawlogs", type=str, nargs=1,
                       help="file to put the rawlogs into")

   args = parser.parse_args()

   args.durationSec = ParseDuration(args.duration[0]) if args.duration else 0

   return args


 def main(argv):
   args = ParseArgs(argv)

   processes = ps.ProcessSet()

   if args.rawlogs:
     rawlogs = file(args.rawlogs[0], "w")
   else:
     rawlogs = None

   # Choose the input
   if args.input:
     # From a file of raw logs
     try:
       infile = file(args.input, "r")
     except IOError:
       sys.stderr.write("Error opening file for read: %s\n" % args.input[0])
       sys.exit(1)
   else:
     # From running adb logcat on an attached device
     if args.clear:
       subprocess.check_call(["adb", "logcat", "-c"])
     cmd = ["adb", "logcat", "-v", "long", "-D", "-v", "uid"]
     if not args.durationSec:
       cmd.append("-d")
     logcat = subprocess.Popen(cmd, stdout=subprocess.PIPE)
     infile = logcat.stdout

     # Do one update because we know we'll need it, but then don't do it again
     # if we're not streaming them.
     processes.Update(True)
     if args.durationSec:
       processes.doUpdates = True

   totalCount = 0
   totalMemory = 0
   byTag = Stats()
   byPid = Stats()
   byText = Stats()

   startTime = datetime.datetime.now()

   # Read the log lines from the parser and build a big mapping of everything
   for logLine in logs.ParseLogcat(infile, processes, args.durationSec):
     if rawlogs:
       rawlogs.write("%-10s %s %-6s %-6s %-6s %s/%s: %s\n" %(logLine.buf, logLine.timestamp,
           logLine.uid, logLine.pid, logLine.tid, logLine.level, logLine.tag, logLine.text))

     totalCount += 1
     totalMemory += logLine.memory()
     byTag.add(logLine.tag, logLine)
     byPid.add(logLine.pid, logLine)
     byText.add(logLine.text, logLine)

   endTime = datetime.datetime.now()

   # Print the log analysis

   # At this point, everything is loaded, don't bother looking
   # for new processes
   processes.doUpdates = False

   print "Top tags by count"
   print "-----------------"
   i = 0
   for k,v in byTag.byCount():
     WriteResult(totalCount, totalMemory, v, k)
     if i >= 10:
       break
     i += 1

   print
   print "Top tags by memory"
   print "------------------"
   i = 0
   for k,v in byTag.byMemory():
     WriteResult(totalCount, totalMemory, v, k)
     if i >= 10:
       break
     i += 1

   print
   print "Top Processes by memory"
   print "-----------------------"
   i = 0
   for k,v in byPid.byMemory():
     WriteResult(totalCount, totalMemory, v,
         "%-8s %s" % (k, processes.FindPid(k).DisplayName()))
     if i >= 10:
       break
     i += 1

   print
   print "Top Duplicates by count"
   print "-----------------------"
   i = 0
   for k,v in byText.byCount():
     logLine = v.lines[0]
     WriteResult(totalCount, totalMemory, v,
         "%s/%s: %s" % (logLine.level, logLine.tag, logLine.text))
     if i >= 10:
       break
     i += 1

   print
   print "Top Duplicates by memory"
   print "-----------------------"
   i = 0
   for k,v in byText.byCount():
     logLine = v.lines[0]
     WriteResult(totalCount, totalMemory, v,
         "%s/%s: %s" % (logLine.level, logLine.tag, logLine.text))
     if i >= 10:
       break
     i += 1

   print
   print "Totals"
   print "------"
   print "%7d  %s" % (totalCount, FormatMemory(totalMemory))

   print "Actual duration: %s" % FormateTimeDelta(endTime-startTime)

 if __name__ == "__main__":
   main(sys.argv)

 # vim: set ts=2 sw=2 sts=2 tw=100 nocindent autoindent smartindent expandtab:
	#!/usr/bin/env python2.7

	import argparse
	import datetime
	import re
	import subprocess
	import sys

	import logs
	import ps

	DURATION_RE = re.compile("((\\d+)w)?((\\d+)d)?((\\d+)h)?((\\d+)m)?((\\d+)s)?")

	class Bucket(object):
	"""Bucket of stats for a particular key managed by the Stats object."""
	def __init__(self):
	self.count = 0
	self.memory = 0
	self.lines = []

	def __str__(self):
	return "(%s,%s)" % (self.count, self.memory)


	class Stats(object):
	"""A group of stats with a particular key, where both memory and count are tracked."""
	def __init__(self):
	self._data = dict()

	def add(self, key, logLine):
	bucket = self._data.get(key)
	if not bucket:
	bucket = Bucket()
	self._data[key] = bucket
	bucket.count += 1
	bucket.memory += logLine.memory()
	bucket.lines.append(logLine)

	def __iter__(self):
	return self._data.iteritems()

	def data(self):
	return [(key, bucket) for key, bucket in self._data.iteritems()]

	def byCount(self):
	result = self.data()
	result.sort(lambda a, b: -cmp(a[1].count, b[1].count))
	return result

	def byMemory(self):
	result = self.data()
	result.sort(lambda a, b: -cmp(a[1].memory, b[1].memory))
	return result


	def ParseDuration(s):
	"""Parse a date of the format .w.d.h.m.s into the number of seconds."""
	def make_int(index):
	val = m.group(index)
	if val:
	return int(val)
	else:
	return 0
	m = DURATION_RE.match(s)
	if m:
	weeks = make_int(2)
	days = make_int(4)
	hours = make_int(6)
	minutes = make_int(8)
	seconds = make_int(10)
	return (weeks * 604800) + (days * 86400) + (hours * 3600) + (minutes * 60) + seconds
	return 0

	def FormatMemory(n):
	"""Prettify the number of bytes into gb, mb, etc."""
	if n >= 1024 * 1024 * 1024:
	return "%10d gb" % (n / (1024 * 1024 * 1024))
	elif n >= 1024 * 1024:
	return "%10d mb" % (n / (1024 * 1024))
	elif n >= 1024:
	return "%10d kb" % (n / 1024)
	else:
	return "%10d b " % n

	def FormateTimeDelta(td):
	"""Format a time duration into the same format we accept on the commandline."""
	seconds = (td.days * 86400) + (td.seconds) + int(td.microseconds / 1000000)
	if seconds == 0:
	return "0s"
	result = ""
	if seconds >= 604800:
	weeks = int(seconds / 604800)
	seconds -= weeks * 604800
	result += "%dw" % weeks
	if seconds >= 86400:
	days = int(seconds / 86400)
	seconds -= days * 86400
	result += "%dd" % days
	if seconds >= 3600:
	hours = int(seconds / 3600)
	seconds -= hours * 3600
	result += "%dd" % hours
	if seconds >= 60:
	minutes = int(seconds / 60)
	seconds -= minutes * 60
	result += "%dh" % minutes
	if seconds > 0:
	result += "%ds" % seconds
	return result


	def WriteResult(totalCount, totalMemory, bucket, text):
	"""Write a bucket in the normalized format."""
	print "%7d (%2d%%) %s (%2d%%) %s" % (bucket.count, (100 * bucket.count / totalCount),
	FormatMemory(bucket.memory), (100 * bucket.memory / totalMemory), text)


	def ParseArgs(argv):
	parser = argparse.ArgumentParser(description="Process some integers.")
	parser.add_argument("input", type=str, nargs="?",
	help="the logs file to read")
	parser.add_argument("--clear", action="store_true",
	help="clear the log buffer before running logcat")
	parser.add_argument("--duration", type=str, nargs=1,
	help="how long to run for (XdXhXmXs)")
	parser.add_argument("--rawlogs", type=str, nargs=1,
	help="file to put the rawlogs into")

	args = parser.parse_args()

	args.durationSec = ParseDuration(args.duration[0]) if args.duration else 0

	return args


	def main(argv):
	args = ParseArgs(argv)

	processes = ps.ProcessSet()

	if args.rawlogs:
	rawlogs = file(args.rawlogs[0], "w")
	else:
	rawlogs = None

	# Choose the input
	if args.input:
	# From a file of raw logs
	try:
	infile = file(args.input, "r")
	except IOError:
	sys.stderr.write("Error opening file for read: %s\n" % args.input[0])
	sys.exit(1)
	else:
	# From running adb logcat on an attached device
	if args.clear:
	subprocess.check_call(["adb", "logcat", "-c"])
	cmd = ["adb", "logcat", "-v", "long", "-D", "-v", "uid"]
	if not args.durationSec:
	cmd.append("-d")
	logcat = subprocess.Popen(cmd, stdout=subprocess.PIPE)
	infile = logcat.stdout

	# Do one update because we know we'll need it, but then don't do it again
	# if we're not streaming them.
	processes.Update(True)
	if args.durationSec:
	processes.doUpdates = True

	totalCount = 0
	totalMemory = 0
	byTag = Stats()
	byPid = Stats()
	byText = Stats()

	startTime = datetime.datetime.now()

	# Read the log lines from the parser and build a big mapping of everything
	for logLine in logs.ParseLogcat(infile, processes, args.durationSec):
	if rawlogs:
	rawlogs.write("%-10s %s %-6s %-6s %-6s %s/%s: %s\n" %(logLine.buf, logLine.timestamp,
	logLine.uid, logLine.pid, logLine.tid, logLine.level, logLine.tag, logLine.text))

	totalCount += 1
	totalMemory += logLine.memory()
	byTag.add(logLine.tag, logLine)
	byPid.add(logLine.pid, logLine)
	byText.add(logLine.text, logLine)

	endTime = datetime.datetime.now()

	# Print the log analysis

	# At this point, everything is loaded, don't bother looking
	# for new processes
	processes.doUpdates = False

	print "Top tags by count"
	print "-----------------"
	i = 0
	for k,v in byTag.byCount():
	WriteResult(totalCount, totalMemory, v, k)
	if i >= 10:
	break
	i += 1

	print
	print "Top tags by memory"
	print "------------------"
	i = 0
	for k,v in byTag.byMemory():
	WriteResult(totalCount, totalMemory, v, k)
	if i >= 10:
	break
	i += 1

	print
	print "Top Processes by memory"
	print "-----------------------"
	i = 0
	for k,v in byPid.byMemory():
	WriteResult(totalCount, totalMemory, v,
	"%-8s %s" % (k, processes.FindPid(k).DisplayName()))
	if i >= 10:
	break
	i += 1

	print
	print "Top Duplicates by count"
	print "-----------------------"
	i = 0
	for k,v in byText.byCount():
	logLine = v.lines[0]
	WriteResult(totalCount, totalMemory, v,
	"%s/%s: %s" % (logLine.level, logLine.tag, logLine.text))
	if i >= 10:
	break
	i += 1

	print
	print "Top Duplicates by memory"
	print "-----------------------"
	i = 0
	for k,v in byText.byCount():
	logLine = v.lines[0]
	WriteResult(totalCount, totalMemory, v,
	"%s/%s: %s" % (logLine.level, logLine.tag, logLine.text))
	if i >= 10:
	break
	i += 1

	print
	print "Totals"
	print "------"
	print "%7d %s" % (totalCount, FormatMemory(totalMemory))

	print "Actual duration: %s" % FormateTimeDelta(endTime-startTime)

	if __name__ == "__main__":
	main(sys.argv)

	# vim: set ts=2 sw=2 sts=2 tw=100 nocindent autoindent smartindent expandtab: