blob: be86e0c88d657697bbef7cb3e2281eeb61eed76e [file] [log] [blame]
# Copyright (c) 2017 The WebRTC project authors. All Rights Reserved.
#
# Use of this source code is governed by a BSD-style license
# that can be found in the LICENSE file in the root of the source
# tree. An additional intellectual property rights grant can be found
# in the file PATENTS. All contributing project authors may
# be found in the AUTHORS file in the root of the source tree.
# To run this script please copy "out/<build_name>/pyproto/webrtc/rtc_tools/
# network_tester/network_tester_packet_pb2.py" next to this script.
# The you can run this script with:
# "python parse_packet_log.py -f packet_log.dat"
# for more information call:
# "python parse_packet_log.py --help"
from optparse import OptionParser
import struct
import matplotlib.pyplot as plt
import network_tester_packet_pb2
def GetSize(file_to_parse):
data = file_to_parse.read(1)
if data == '':
return 0
return struct.unpack('<b', data)[0]
def ParsePacketLog(packet_log_file_to_parse):
packets = []
with open(packet_log_file_to_parse, 'rb') as file_to_parse:
while True:
size = GetSize(file_to_parse)
if size == 0:
break
try:
packet = network_tester_packet_pb2.NetworkTesterPacket()
packet.ParseFromString(file_to_parse.read(size))
packets.append(packet)
except IOError:
break
return packets
def GetTimeAxis(packets):
first_arrival_time = packets[0].arrival_timestamp
return [(packet.arrival_timestamp - first_arrival_time) / 1000000.0
for packet in packets]
def CreateSendTimeDiffPlot(packets, plot):
first_send_time_diff = (packets[0].arrival_timestamp -
packets[0].send_timestamp)
y = [(packet.arrival_timestamp - packet.send_timestamp) -
first_send_time_diff for packet in packets]
plot.grid(True)
plot.set_title("SendTime difference [us]")
plot.plot(GetTimeAxis(packets), y)
class MovingAverageBitrate(object):
def __init__(self):
self.packet_window = []
self.window_time = 1000000
self.bytes = 0
self.latest_packet_time = 0
self.send_interval = 0
def RemoveOldPackets(self):
for packet in self.packet_window:
if (self.latest_packet_time - packet.arrival_timestamp >
self.window_time):
self.bytes = self.bytes - packet.packet_size
self.packet_window.remove(packet)
def AddPacket(self, packet):
"""This functions returns bits / second"""
self.send_interval = packet.arrival_timestamp - self.latest_packet_time
self.latest_packet_time = packet.arrival_timestamp
self.RemoveOldPackets()
self.packet_window.append(packet)
self.bytes = self.bytes + packet.packet_size
return self.bytes * 8
def CreateReceiveBiratePlot(packets, plot):
bitrate = MovingAverageBitrate()
y = [bitrate.AddPacket(packet) for packet in packets]
plot.grid(True)
plot.set_title("Receive birate [bps]")
plot.plot(GetTimeAxis(packets), y)
def CreatePacketlossPlot(packets, plot):
packets_look_up = {}
first_sequence_number = packets[0].sequence_number
last_sequence_number = packets[-1].sequence_number
for packet in packets:
packets_look_up[packet.sequence_number] = packet
y = []
x = []
first_arrival_time = 0
last_arrival_time = 0
last_arrival_time_diff = 0
for sequence_number in range(first_sequence_number,
last_sequence_number + 1):
if sequence_number in packets_look_up:
y.append(0)
if first_arrival_time == 0:
first_arrival_time = packets_look_up[
sequence_number].arrival_timestamp
x_time = (packets_look_up[sequence_number].arrival_timestamp -
first_arrival_time)
if last_arrival_time != 0:
last_arrival_time_diff = x_time - last_arrival_time
last_arrival_time = x_time
x.append(x_time / 1000000.0)
else:
if last_arrival_time != 0 and last_arrival_time_diff != 0:
x.append(
(last_arrival_time + last_arrival_time_diff) / 1000000.0)
y.append(1)
plot.grid(True)
plot.set_title("Lost packets [0/1]")
plot.plot(x, y)
def main():
parser = OptionParser()
parser.add_option("-f",
"--packet_log_file",
dest="packet_log_file",
help="packet_log file to parse")
options = parser.parse_args()[0]
packets = ParsePacketLog(options.packet_log_file)
f, plots = plt.subplots(3, sharex=True)
plt.xlabel('time [sec]')
CreateSendTimeDiffPlot(packets, plots[0])
CreateReceiveBiratePlot(packets, plots[1])
CreatePacketlossPlot(packets, plots[2])
f.subplots_adjust(hspace=0.3)
plt.show()
if __name__ == "__main__":
main()