tools/axl/chewie.py - platform/development.git - Git at Google

 #!/usr/bin/env python

 ##
 ## chewie.py
 ## chews browser http log.  draws graph of connections
 ## Be sure there is only one pageload in the log.
 ##
 ## you'll want to
 ##   sudo apt-get install python-matplotlib
 ## before running this
 ##

 import sys, pylab

 # can't just use a dict, because there can be dups
 class Queue:
     def __init__(self):
         self.queue = []

     def add(self, url, time):
         self.queue.append([url, time])

     def get(self, url):
         for x in range(len(self.queue)):
             rec = self.queue[x]
             if rec[0] == url:
                 del self.queue[x]
                 return rec[1]

 ## pull out request lag -- queue to start to done
 def lag():

     font = {'color': '#909090', 'fontsize': 6}
     extractMe = {
         'RequestQueue.queueRequest': "Q",
         'Connection.openHttpConnection()': "O",
         'Request.sendRequest()': "S",
         'Request.requestSent()': "T",
         'processRequests()': 'R',
         'Request.readResponse():': "D",         # done
         'clearPipe()': 'U',	                    # unqueue
         'Request.readResponse()': 'B',          # read data block
         'Request.readResponseStatus():': 'HR',  # read http response line
         'hdr': 'H',                             # http header
         }
     keys = extractMe.keys()

     f = open(sys.argv[1], "r")

     t0 = None

     # thread, queued, opened, send, sent, reading, read, uri, server, y
     # 0       1       2       3     4     5        6     7    8       9
     vals = []

     queued = Queue()
     opened = {"http0": None,
               "http1": None,
               "http2": None,
               "http3": None,
               "http4": None,
               "http5": None}
     active = {"http0": [],
               "http1": [],
               "http2": [],
               "http3": [],
               "http4": [],
               "http5": []}
     connectionCount = 0
     byteCount = 0
     killed = [[], []]

     while (True):
         line = f.readline()
         if len(line) == 0: break

         splitup = line.split()

         # http only
         if splitup[0] != "V/http": continue

         x = splitup[3:]

         # filter to named lines
         if x[2] not in keys: continue
         x[2] = extractMe[x[2]]

         # normalize time
         if t0 == None: t0 = int(x[0])
         x[0] = int(x[0]) - t0

         thread, action = x[1], x[2]
         if action == "Q":
             time, url = x[0], x[3]
             queued.add(url, time)
         elif action == "O":
             # save opened time and server for this thread, so we can stuff it in l8r
             time, thread, host = x[0], x[1], x[4]
             opened[thread] = [time, host, connectionCount]
             connectionCount += 1
         elif action == "S":
             time, thread, url = x[0], x[1], x[3]
             opentime, host, connection = opened[thread]
             qtime = queued.get(url)
             record = [thread, qtime, opentime, time, None, None, None, url, host, connection]
             active[thread].append(record)
         elif action == "T":
             time, thread = x[0], x[1]
             record = active[thread][-1]
             record[4] = time
         elif action == "R":
             print x
             if x[3] in ["sleep", "no", "wait"]: continue
             time, thread, = x[0], x[1]
             record = active[thread][0]
             record[5] = time
         elif action == 'U':
             thread = x[1]
             record = active[thread][0]
             killed[0].append(record[9])
             killed[1].append(x[0])
             queued.add(record[7], record[1])
             del active[thread][0]
         elif action == "D":
             time, thread = x[0], x[1]
             record = active[thread][0]
             record[6] = time
             vals.append(record)
             del active[thread][0]
             print record
             # print record[3] / 1000, record[6] / 1000, record[7]
         elif action == "B":
             byteCount += int(x[3])
         elif action == "HR":
             byteCount += int(x[2])

     f.close()

     rng = range(connectionCount)

     opened = []
     drawn = [False for x in rng]
     for val in vals:
         y= val[9]
         if not drawn[y]:
             drawn[y] = True
             opened.append(val[2])
             pylab.text(0, y - 0.25, "%s %s %s" % (val[9], val[0][4], val[8]), font)

     # define limits
     # pylab.plot([vals[-1][6]], rng)

     print opened, rng
     pylab.plot(opened, rng, 'ro')
     pylab.plot(killed[1], killed[0], 'rx')

     for val in vals:
         thread, queued, opened, send, sent, reading, read, uri, server, y = val
         # send arrow
         arrow = pylab.Arrow(send, y, sent - send, 0)
         arrow.set_facecolor("g")
         ax = pylab.gca()
         ax.add_patch(arrow)
         # read arrow
         arrow = pylab.Arrow(reading, y, read - reading, 0)
         arrow.set_facecolor("r")
         ax = pylab.gca()
         ax.add_patch(arrow)

     caption = \
             "\nrequests: %s\n" % len(vals) + \
             "byteCount: %s\n" % byteCount + \
             "data rate: %s\n" % (1000 * byteCount / vals[-1][6])+ \
             "connections: %s\n" % connectionCount

     pylab.figtext(0.82, 0.30, caption, bbox=dict(facecolor='lightgrey', alpha=0.5))

     # print lines, [[x, x] for x in range(len(vals))]
     # pylab.plot(lines, [[x, x] for x in range(len(vals))], 'r-')

     pylab.grid()
     pylab.show()

 if __name__ == '__main__': lag()
	#!/usr/bin/env python

	##
	## chewie.py
	## chews browser http log. draws graph of connections
	## Be sure there is only one pageload in the log.
	##
	## you'll want to
	## sudo apt-get install python-matplotlib
	## before running this
	##

	import sys, pylab

	# can't just use a dict, because there can be dups
	class Queue:
	def __init__(self):
	self.queue = []

	def add(self, url, time):
	self.queue.append([url, time])

	def get(self, url):
	for x in range(len(self.queue)):
	rec = self.queue[x]
	if rec[0] == url:
	del self.queue[x]
	return rec[1]

	## pull out request lag -- queue to start to done
	def lag():

	font = {'color': '#909090', 'fontsize': 6}
	extractMe = {
	'RequestQueue.queueRequest': "Q",
	'Connection.openHttpConnection()': "O",
	'Request.sendRequest()': "S",
	'Request.requestSent()': "T",
	'processRequests()': 'R',
	'Request.readResponse():': "D", # done
	'clearPipe()': 'U', # unqueue
	'Request.readResponse()': 'B', # read data block
	'Request.readResponseStatus():': 'HR', # read http response line
	'hdr': 'H', # http header
	}
	keys = extractMe.keys()

	f = open(sys.argv[1], "r")

	t0 = None

	# thread, queued, opened, send, sent, reading, read, uri, server, y
	# 0 1 2 3 4 5 6 7 8 9
	vals = []

	queued = Queue()
	opened = {"http0": None,
	"http1": None,
	"http2": None,
	"http3": None,
	"http4": None,
	"http5": None}
	active = {"http0": [],
	"http1": [],
	"http2": [],
	"http3": [],
	"http4": [],
	"http5": []}
	connectionCount = 0
	byteCount = 0
	killed = [[], []]

	while (True):
	line = f.readline()
	if len(line) == 0: break

	splitup = line.split()

	# http only
	if splitup[0] != "V/http": continue

	x = splitup[3:]

	# filter to named lines
	if x[2] not in keys: continue
	x[2] = extractMe[x[2]]

	# normalize time
	if t0 == None: t0 = int(x[0])
	x[0] = int(x[0]) - t0

	thread, action = x[1], x[2]
	if action == "Q":
	time, url = x[0], x[3]
	queued.add(url, time)
	elif action == "O":
	# save opened time and server for this thread, so we can stuff it in l8r
	time, thread, host = x[0], x[1], x[4]
	opened[thread] = [time, host, connectionCount]
	connectionCount += 1
	elif action == "S":
	time, thread, url = x[0], x[1], x[3]
	opentime, host, connection = opened[thread]
	qtime = queued.get(url)
	record = [thread, qtime, opentime, time, None, None, None, url, host, connection]
	active[thread].append(record)
	elif action == "T":
	time, thread = x[0], x[1]
	record = active[thread][-1]
	record[4] = time
	elif action == "R":
	print x
	if x[3] in ["sleep", "no", "wait"]: continue
	time, thread, = x[0], x[1]
	record = active[thread][0]
	record[5] = time
	elif action == 'U':
	thread = x[1]
	record = active[thread][0]
	killed[0].append(record[9])
	killed[1].append(x[0])
	queued.add(record[7], record[1])
	del active[thread][0]
	elif action == "D":
	time, thread = x[0], x[1]
	record = active[thread][0]
	record[6] = time
	vals.append(record)
	del active[thread][0]
	print record
	# print record[3] / 1000, record[6] / 1000, record[7]
	elif action == "B":
	byteCount += int(x[3])
	elif action == "HR":
	byteCount += int(x[2])

	f.close()

	rng = range(connectionCount)

	opened = []
	drawn = [False for x in rng]
	for val in vals:
	y= val[9]
	if not drawn[y]:
	drawn[y] = True
	opened.append(val[2])
	pylab.text(0, y - 0.25, "%s %s %s" % (val[9], val[0][4], val[8]), font)

	# define limits
	# pylab.plot([vals[-1][6]], rng)

	print opened, rng
	pylab.plot(opened, rng, 'ro')
	pylab.plot(killed[1], killed[0], 'rx')

	for val in vals:
	thread, queued, opened, send, sent, reading, read, uri, server, y = val
	# send arrow
	arrow = pylab.Arrow(send, y, sent - send, 0)
	arrow.set_facecolor("g")
	ax = pylab.gca()
	ax.add_patch(arrow)
	# read arrow
	arrow = pylab.Arrow(reading, y, read - reading, 0)
	arrow.set_facecolor("r")
	ax = pylab.gca()
	ax.add_patch(arrow)

	caption = \
	"\nrequests: %s\n" % len(vals) + \
	"byteCount: %s\n" % byteCount + \
	"data rate: %s\n" % (1000 * byteCount / vals[-1][6])+ \
	"connections: %s\n" % connectionCount

	pylab.figtext(0.82, 0.30, caption, bbox=dict(facecolor='lightgrey', alpha=0.5))

	# print lines, [[x, x] for x in range(len(vals))]
	# pylab.plot(lines, [[x, x] for x in range(len(vals))], 'r-')

	pylab.grid()
	pylab.show()

	if __name__ == '__main__': lag()