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update model to compute wifi energy 

+ bug fix
This commit is contained in:
HappyZ 2017-02-13 18:03:16 -08:00
parent b66564527d
commit 12e4a4e24d
2 changed files with 180 additions and 62 deletions
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195
energy_model/analyze.py
View File

@ -25,33 +25,67 @@ class EnergyAnalyzer():
self.logger = EmptyLogger(
"EnergyAnalyzer", isDebugging=self.DEBUG, printout=True)
'''
Variable clean up functions
'''
def clean_up_cpu(self):
self.clean_up_cpu_data()
self.clean_up_cpu_result()
def clean_up_cpu_data(self):
self.data_cpu = [] # (sorted) cpu results of logs
self.data_cpu_d = [] # deltas between pair of results
def clean_up_cpu_result(self):
self.instant_freqs = [] # freq of each core at time unit
self.instant_utils = [] # util perc of each core at time unit
self.instant_power = [] # power spent at time unit
self.total_idle = [] # [cpu0, cpu1, ..., cpuN, cpuOverall]
self.total_used = [] # [cpu0, cpu1, ..., cpuN, cpuOverall]
self.total_energy = 0 # unit as defined in unit
self.avg_power = 0 # average power across time
self.avg_utils = [] # [cpu0, cpu1, ..., cpuN, cpuOverall]
self.total_time = 0
self.cpu_energy_total = 0 # unit as defined in unit
self.cpu_power_avg = 0 # average power across time
self.cpu_utils_avg = [] # [cpu0, cpu1, ..., cpuN, cpuOverall]
self.cpu_time_total = 0
def clean_up_net(self):
self.clean_up_net_data()
self.clean_up_wifi_result()
self.clean_up_lte_result()
def clean_up_net_data(self):
self.data_tcpdump = []
# [[time, net_state, data_len], ...]
# net_state: 'i': 'idle', 'a': 'active', 't': 'tail'
self.net_start_time = -1
self.net_end_time = -1
# WiFi
self.wifi_rssi = []
# LTE
self.lte_rsrp = []
def clean_up_wifi_result(self):
self.wifi_energy = 0
self.wifi_time = 0
self.wifi_power = 0
self.wifi_active_time = 0
self.wifi_tail_time = 0
self.wifi_tail_energy = 0
self.wifi_active_energy = 0
def clean_up_lte_result(self):
pass
'''
CPU
'''
def read_cpu_log(self, filepath,
startT=None, endT=None):
self.logger.debug("re-initialize variables")
self.clean_up_cpu()
startT=float('-inf'), endT=float('inf')):
self.logger.debug("clean up cpu data")
self.clean_up_cpu_data()
self.logger.debug("read_cpu_log started")
contents = []
skipFirstTime = True
timeGap = 0.1
with open(filepath, 'rU') as f:
contents = f.readlines()
for line in contents:
@ -60,14 +94,18 @@ class EnergyAnalyzer():
print "something is wrong at splitting the line for cpu_log"
sys.exit(-1)
timestamp = int(tmp[0]) / 1000.0 # ms -> s
if (startT is not None and timestamp < startT) \
or (endT is not None and timestamp > endT):
# self.logger.debug(
# "time: {0}, startT: {1}, endT: {2}".format(
# timestamp, startT, endT))
if timestamp < (startT - timeGap) or timestamp > (endT + timeGap):
continue
# self.logger.debug("passed")
cpu_total_idle = int(tmp[1])
cpu_total_used = int(tmp[2])
cpu_per_core = []
if not skipFirstTime:
delta_t = timestamp - self.data_cpu[-1][0]
timeGap = delta_t
delta_total_idle = cpu_total_idle - self.data_cpu[-1][1]
delta_total_used = cpu_total_used - self.data_cpu[-1][2]
delta_per_core = []
@ -92,6 +130,8 @@ class EnergyAnalyzer():
def parse_cpu_energy(self,
power_base=0):
self.logger.debug("clean up cpu result")
self.clean_up_cpu_result()
if len(self.data_cpu_d) < 1:
self.logger.error("parse_cpu_energy finds delta empty")
self.logger.error(self.data_cpu)
@ -102,7 +142,7 @@ class EnergyAnalyzer():
# allocate memory
self.total_idle = [0 for i in xrange(num_of_cores + 1)]
self.total_used = [0 for i in xrange(num_of_cores + 1)]
self.avg_utils = [0 for i in xrange(num_of_cores + 1)]
self.cpu_utils_avg = [0 for i in xrange(num_of_cores + 1)]
for result in self.data_cpu_d:
# allocate memory
freqs = [0 for i in xrange(num_of_cores)]
@ -136,29 +176,22 @@ class EnergyAnalyzer():
self.instant_power.append(instant_power)
energy = instant_power * result[0]
else:
self.instant_power.append(instant_power / result[0])
self.instant_power.append(
instant_power / result[0] - power_base)
instant_power -= power_base * result[0]
energy = instant_power
self.total_time += result[0]
self.total_energy += energy
self.avg_power = self.total_energy / self.total_time
self.cpu_time_total += result[0]
self.cpu_energy_total += energy
self.cpu_power_avg = self.cpu_energy_total / self.cpu_time_total
for i in xrange(num_of_cores + 1):
self.avg_utils[i] = 1.0 * \
self.cpu_utils_avg[i] = 1.0 * \
self.total_used[i] / (self.total_used[i] + self.total_idle[i])
self.logger.info(
"total energy: {0:.4f}mJ".format(self.total_energy))
self.logger.info(
"total time: {0:.4f}s".format(self.total_time))
self.logger.info(
"average power: {0:.4f}mW".format(self.avg_power))
self.logger.info(
"average util: {0}".format(
",".join(
["{0:.2f}%".format(x * 100) for x in self.avg_utils])))
# self.logger.debug(self.instant_power)
self.logger.debug("parse_cpu_energy ended")
'''
Network
'''
def read_sslogger_file(self, fp_sslogger):
if not os.path.isfile(fp_sslogger):
self.logger.error(
@ -178,7 +211,7 @@ class EnergyAnalyzer():
# [timestamp (us), wifi rssi]
# or
# [timestamp (us), gsm rssi, lte ss, lte rsrp, lte rsrq]
tmp = list(myMatch.groups())
tmp = myMatch.groups()
break
if tmp is None:
self.logger.debug("nothing found in {0}".format(line.rstrip()))
@ -210,7 +243,7 @@ class EnergyAnalyzer():
content = f.readlines()
firstLine = True
# check the network status: idle, active, or tail
net_state = 'i' # idle
net_state = 'a' # active
for line in content:
tmp = None
for pattern in myPatterns:
@ -262,21 +295,25 @@ class EnergyAnalyzer():
def read_wifi_log(self, fp_tcpdump, tcpdump_filter="",
fp_sslogger=None):
self.logger.debug("clean up network data")
self.clean_up_net_data()
self.logger.debug("read_wifi_log started")
self.logger.debug("re-initialize variables")
self.clean_up_net()
# parse tcpdump file
self.logger.debug("parse tcpdump")
if ".tcpdump" not in fp_tcpdump:
if not os.path.isfile("{0}.tcpdump".format(fp_tcpdump)):
# check if raw file exists
if not os.path.isfile(fp_tcpdump):
self.logger.error(
"tcpdump file {0} does not exist".format(fp_tcpdump))
sys.exit(-1)
if ".tcpdump" not in fp_tcpdump:
# generate the parsed tcpdump file
subprocess.call(
"tcpdump -tt -n -r {0} {1} > {0}.tcpdump".format(
fp_tcpdump, tcpdump_filter),
shell=True)
# remove the big file as it is too big
subprocess.call("rm {0}".format(fp_tcpdump), shell=True)
fp_tcpdump += '.tcpdump'
# read the file
self.read_tcpdump_file(fp_tcpdump, isWiFi=True)
@ -293,11 +330,91 @@ class EnergyAnalyzer():
self.read_sslogger_file(fp_sslogger)
self.logger.debug("read_wifi_log ended")
def parse_wifi_energy(self, power_base=0):
def parse_wifi_energy(self, power_base=0, isTX=True):
self.logger.debug("clean up wifi result")
self.clean_up_wifi_result()
if len(self.data_tcpdump) < 2:
self.logger.error("parse_wifi_energy finds data_tcpdump empty")
self.logger.error(self.data_tcpdump)
self.logger.error("did you call read_wifi_log?")
return
self.logger.debug("parse_wifi_energy started")
# by default assume the rssi is the max
curRSSI = sorted(
self.myModel.net_wifi['active'].keys(), reverse=True)[0]
# derive energy for wifi network
for i in xrange(len(self.data_tcpdump) - 1):
diffT = self.data_tcpdump[i + 1][0] - self.data_tcpdump[i][0]
# self.logger.debug("diffT: {0:.8f}".format(diffT))
# self.logger.debug("{0}".format(self.data_tcpdump[i]))
if self.data_tcpdump[i][1] == 'a':
curPower = self.myModel.get_wifi_active_energy(
diffT, curRSSI)
# check if returned is power (watt) or energy (joule)
if self.myModel.using_power:
# subtract base (background) if desired
curPower -= power_base
energy = curPower * diffT
else:
curPower -= power_base * diffT
energy = curPower
self.wifi_active_energy += energy
self.wifi_active_time += diffT
elif self.data_tcpdump[i][1] == 't':
curPower = self.myModel.get_wifi_tail_energy(diffT)
# check if returned is power (watt) or energy (joule)
if self.myModel.using_power:
# subtract base (background) if desired
curPower -= power_base
energy = curPower * diffT
else:
curPower -= power_base * diffT
energy = curPower
self.wifi_tail_energy += energy
self.wifi_tail_time += diffT
else:
self.logger.debug("{0}".format(self.data_tcpdump[i]))
self.logger.error(
"net_state is not recognized: {0}".format(
self.data_tcpdump[i][1]))
self.wifi_energy = self.wifi_active_energy + self.wifi_tail_energy
self.wifi_time = self.wifi_active_time + self.wifi_tail_time
try:
self.wifi_power = self.wifi_energy / self.wifi_time
except:
self.wifi_power = -1
self.logger.debug("parse_wifi_energy ended")
def generate_result_summary(self, cpu=True, wifi=True):
'''
Print summary of the results
'''
self.logger.info("total energy: {0:.4f}mJ".format(
self.cpu_energy_total + self.wifi_energy))
if cpu:
self.logger.info(
"total cpu energy: {0:.4f}mJ".format(self.cpu_energy_total))
self.logger.info(
"total cpu time: {0:.4f}s".format(self.cpu_time_total))
self.logger.info(
"average cpu power: {0:.4f}mW".format(self.cpu_power_avg))
self.logger.info(
"average cpu util: {0}".format(
",".join(
["{0:.2f}%".format(x * 100)
for x in self.cpu_utils_avg])))
if wifi:
self.logger.info(
"total wifi energy: {0:.4f}mJ".format(self.wifi_energy))
self.logger.info(
"total wifi time: {0:.4f}s".format(self.wifi_time))
self.logger.info(
"total wifi power: {0:.4f}mW".format(self.wifi_power))
self.logger.info(
"active wifi {0:.4f}mW vs. idle {1:.4f}mW".format(
self.wifi_active_energy, self.wifi_tail_energy))
if __name__ == "__main__":
# cpuFile = sys.argv[1]
@ -308,14 +425,12 @@ if __name__ == "__main__":
print ".....!"
sys.exit(-1)
myObj = EnergyAnalyzer("shamu", isDebugging=True, unit="mW")
myObj.read_cpu_log(cpuFile)
myObj.parse_cpu_energy()
myObj.read_wifi_log(
tcpdumpFile,
fp_sslogger=ssFile, tcpdump_filter="host 128.111.68.220")
myObj.parse_wifi_energy()
# for i in xrange(1, len(myObj.freqs)):
# print myObj.freqs[i] - myObj.freqs[i-1]
# myObj.get_wifi_tail_energy(1)
# myObj.get_wifi_active_energy(1, -60, isTX=False)
# myObj.get_cpu_energy(1, [1036800, 422400], [0, 1])
myObj.read_cpu_log(
cpuFile,
startT=myObj.net_start_time, endT=myObj.net_end_time)
myObj.parse_cpu_energy()
myObj.generate_result_summary()

29
energy_model/modules/model.py
View File

@ -152,6 +152,8 @@ class Model():
@param time: s
@return defined energy with unit conversion
'''
# self.logger.debug("current: {0}, time_diff: {1:.8f}".format(
# current, time))
if 'W' in self.unit:
tmp = current * self.voltage
elif 'J' in self.unit:
@ -160,6 +162,7 @@ class Model():
self.logger.error(
"Unit {0} not supported!".format(self.unit))
sys.exit(-1)
# self.logger.debug("tmp: {0}".format(tmp, current * self.voltage))
if 'm' == self.unit[0]:
return tmp
else:
@ -197,12 +200,12 @@ class Model():
active_current = db[i][freq[i]][0]
idle_current = db[i][freq[i]][1]
current += util[i] * active_current + (1 - util[i]) * idle_current
# derive energy
energy = self.get_final_energy(current, time_diff)
# derive power or energy
result = self.get_final_energy(current, time_diff)
self.logger.debug(
"duration: {0:.4f}s, cpu_energy: {1:.4f}{2}".format(
time_diff, energy, self.unit))
return energy
time_diff, result, self.unit))
return result
def get_lte_prom_energy(self, time_diff, rssi, isTX=True):
self.logger.error('TODO: not implemented yet')
@ -240,18 +243,18 @@ class Model():
if current is None:
self.logger.error("Current {0} is nothing!".format(current))
sys.exit(-1)
# derive energy
energy = self.get_final_energy(current, time_diff)
self.logger.debug(
"wifi_active_energy: {0:.4f}{1}".format(energy, self.unit))
return energy
# derive power or energy
result = self.get_final_energy(current, time_diff)
# self.logger.debug(
# "cpu_energy: {0:.4f}{1}".format(result, self.unit))
return result
def get_wifi_tail_energy(self, time_diff):
current = self.net_wifi['tail']['0'][1]
energy = self.get_final_energy(current, time_diff)
self.logger.debug(
"wifi_active_energy: {0:.4f}{1}".format(energy, self.unit))
return energy
result = self.get_final_energy(current, time_diff)
# self.logger.debug(
# "cpu_energy: {0:.4f}{1}".format(result, self.unit))
return result
if __name__ == "__main__":
print "Usage: from model import *"