一键监控手机内存、CPU消耗的测试工具!

实时监控内存、CPU消耗工具

1.概述

通过工具，将能够根据需要监控CPU、内存状态。脚本默认每隔10s钟获取一次当前的cpu、内存状态并记录，设定的时间到了后，停止获取并开始分析数据，最后自动发出结果邮件。运行结果截图如下

2.使用介绍

2.1使用场景

在手工测试APP的时候，可同步监测系统、该app的性能

在做自动化测试的时候，可同步监测系统、指定的apps的性能

在做Monkey测试的时候，可同步监测系统、指定的apps的性能

2.2运行环境

2.2.1 .ubuntu系统，安装好python2.7、adb工具，pychart插件

2.2.2 手机需要支持top、procrank命令

2.3使用方法：

2.3.1根据需要修改systemMonitor.conf配置文件，配置项有：

[runTime]#脚步运行时长,以分钟为单位

rumTime=1

[updateTime]#刷新间隔,默认为10秒

updateTime=10

[packageNameList]#过滤进程名,多个进程以逗号分隔

packageNameList=com.android.email,com.android.providers.calendar,

[mailto_list]#收件人,以逗号分隔

mailto_list= ***@163.com

[mailInfo]#邮件服务器参数

mailserver=***

user=***

password=*********

me=guojianbiao@le.com

2.3.2运行脚本

python systemMonitor.py

3.实际代码

分为三个文件，下面将逐个展现。

3.1 systemMonitor.conf

[runTime]#运行时长,以分钟为单位

rumTime=10

[updateTime]#刷新间隔,默认为10秒

updateTime=10

[packageNameList]#过滤进程名,多个进程以逗号分隔

packageNameList=com.android.providers.calendar,

[mailto_list]#收件人,以逗号分隔

mailto_list=***@163.com

[mailInfo]#邮件服务器参数

mailserver=***

user=***

password=***

me=***@163.com

3.2 systemMonitor.py

#encoding:utf-8

import os

import sys

import datetime

from threading import Thread

import threading

import subprocess

import ConfigParser

from analysisInfo import *

from pychartdir import *

import smtplib

from email.mime.image import MIMEImage

from email.MIMEText import MIMEText

from email.MIMEMultipart import MIMEMultipart

import time

def getTime():

now = datetime.datetime.now()

return now.strftime("%Y-%m-%d %H:%M:%S")

def run_cmd(cmd):

process = subprocess.Popen(cmd , shell = True, stdout=subprocess.PIPE)

return process.stdout.read().strip()

def timestamp_datetime(value):

value = time.localtime(value)

dt = time.strftime('%Y-%m-%d %H:%M:%S', value)

return dt

#获取设备型号

def get_model():

return run_cmd('adb shell getprop ro.product.model')

#获取Android版本

def get_androidVersion():

return run_cmd('adb shell getprop ro.build.version.release')

#获取CPU型号

def get_cpuInfo():

return run_cmd('adb shell getprop ro.product.cpu.abi')

#获取系统编译版本增量

def get_buildVersionIncremental():

return run_cmd('adb shell getprop ro.build.version.incremental')

#获取系统编译时间

def get_buildDate():

return run_cmd('adb shell getprop ro.build.date.utc')

#生成表

#title:标题

#lable:

#ytitle

#data

#chartpath

#title_list

#style

def get_chart(title,label,ytitle,data,chartpath,title_list,style):

color_list = [0x008800,0xff0000,0x8A2BE2,0xA52A2A,0x7FFF00,0xFF7F50,0xDC143C,0x8B008B,0xFF1493,0xFFD700]

c = XYChart(1400, 600, 0xCCEEFF, 0x000000, 1)

c.addTitle(title, "simsun.ttc", 18).setBackground(0xCCEEFF, 0x000000, glassEffect())

c.setPlotArea(50, 55, 1300, 500)

c.addLegend(50, 28, 0, "arialbd.ttf", 10).setBackground(Transparent)

c.xAxis().setLabels(label)

c.yAxis().setTickDensity(30)

c.xAxis().setLabelStyle("arialbd.ttf", 8)

c.yAxis().setLabelStyle("arialbd.ttf", 8)

c.xAxis().setWidth(2)

c.yAxis().setWidth(2)

c.yAxis().setTitle(ytitle, "arialbd.ttf", 10)

layer = c.addLineLayer2()

layer.setLineWidth(3)

#c.addText(1280, 70,"最大值:111\n最小值:111").setAlignment(BottomRight)

for i in range(0,len(data)):

layer.addDataSet(data[i], color_list[i],title_list[i]).setDataSymbol(CircleShape, 1)

#layer.setDataLabelStyle("",10)

#layer.setDataLabelFormat(None)

c.setDefaultFonts("simsun.ttc")

c.makeChart(chartpath)

#发送邮件

def send_mail_image(mailserver,user,password,me,mailto_list,title,bodyinfo,system_file_list,system_maxminavg,appInfo_list,app_file_list):

msg = MIMEMultipart('related')

msg['Subject']=title

msg['From']=me

msg['To']=';'.join(mailto_list)

content = ""

content+=""

content+=""

content+=""

content+=""

content+=""

content+=""

content+="运行时长(分):".decode('UTF-8').encode('GBK') + str(bodyinfo[9]) + ""

content += "
"

content+="开始时间:".decode('UTF-8').encode('GBK') + bodyinfo[0] + ""

content += "
"

content+="结束时间:".decode('UTF-8').encode('GBK') + bodyinfo[1] + ""

content += "
"

content+="刷新次数:".decode('UTF-8').encode('GBK') + str(bodyinfo[2]) + ""

content += "
"

content+="刷新频率(秒):".decode('UTF-8').encode('GBK') + str(bodyinfo[3]) + ""

content += "
"

content+="设备名称:".decode('UTF-8').encode('GBK') + str(bodyinfo[4]) + ""

content += "
"

content+="系统版本:".decode('UTF-8').encode('GBK') + str(bodyinfo[5]) + ""

content += "
"

content+="CPU信息:".decode('UTF-8').encode('GBK') + str(bodyinfo[6]) + ""

content += "
"

content+="系统编译增量:".decode('UTF-8').encode('GBK') + str(bodyinfo[7]) + ""

content += "
"

content+="系统编译日期:".decode('UTF-8').encode('GBK') + str(bodyinfo[8]) + ""

content += "
"

content += "
"

content+="名词解释:".decode('UTF-8').encode('GBK')

content += "
"

content+="PSS:实际使用的物理内存".decode('UTF-8').encode('GBK')

content += "
"

content+="USS:进程独自占用的物理内存".decode('UTF-8').encode('GBK')

content += "
"

content += "
"

content+="System性能趋势:".decode('UTF-8').encode('GBK')

content+="" + system_maxminavg.decode('UTF-8').encode('GBK') + ""

content += "
"

for i in system_file_list:

pic_name = i.split(sep)[-1]

content += ""

content += "
"

content += "
"

for i in range(0,len(appInfo_list)):

content += "
"

content+="AppInfo:" + appInfo_list[i].decode('UTF-8').encode('GBK') + ""

content += "
"

for j in app_file_list[i]:

pic_name = j.split(sep)[-1]

content += ""

content += "
"

content += "
"

content+=""

content+=""

msg.attach(MIMEText(content,_subtype='html',_charset='gb2312'))

for i in system_file_list:

file_name = i.split(sep)[-1]

fp = open(i,'rb')

img = MIMEImage(fp.read())

img.add_header('Content-ID',file_name)

msg.attach(img)

for i in app_file_list:

for j in i:

file_name = j.split(sep)[-1]

fp = open(j,'rb')

img = MIMEImage(fp.read())

img.add_header('Content-ID',file_name)

msg.attach(img)

try:

ott_mail=smtplib.SMTP()

ott_mail.connect(mailserver)

ott_mail.login(user, password)

ott_mail.sendmail(me,mailto_list,msg.as_string())

ott_mail.close()

return True

except Exception,e:

print e

return False

#同步获取cpu线程

#path:写cpu信息的文件路径

#count:获取次数

#updateTime:刷新次数

class CpuThread(threading.Thread):

def __init__(self,path,count,updateTime):

threading.Thread.__init__(self)

self.thread_stop = False

self.path = path

self.count = count

self.updateTime = int(updateTime)

def run(self):

if not self.thread_stop:

print "Cpu thread is start"

self.output = open(self.path, 'w+')

for i in range(self.count):

print "Cpu thread run count:" + str(i) + " "+time.strftime('%Y-%m-%d %X', time.localtime( time.time()))+"\n"

self.output.write(run_cmd("adb shell top -n 1 -d " + str(self.updateTime)) + "\n")

#time.sleep(self.updateTime)

self.output.close()

print "Cpu thread is stop"

def stop(self):

self.thread_stop = True

#同步获取mem线程

#path:写mem信息的文件路径

#count:获取次数

#updateTime:刷新次数

class MemThread(threading.Thread):

def __init__(self,path,count,updateTime):

threading.Thread.__init__(self)

self.thread_stop = False

self.path = path

self.count = count

self.updateTime = int(updateTime)

def run(self):

if not self.thread_stop:

print "Mem thread is start"

self.output = open(self.path, 'w+')

for i in range(self.count):

print "Mem thread run count:" + str(i) + " "+time.strftime('%Y-%m-%d %X', time.localtime( time.time()))+"\n"

self.output.write(run_cmd("adb shell procrank") + "\n")

time.sleep(self.updateTime)

self.output.close()

print "Mem thread is stop"

def stop(self):

self.thread_stop = True

def analyse_log_and_sendmail(path,sep,startTime,endTime,getCount,updateTime,model,androidVersion,cpuInfo,buildVersionIncremental,buildDate,runTime,packageNameList,mailserver,user,password,me,mailto_list):

system_file_list = []

system_cpu_png = path + sep + "system_cpu.png"

system_mem_png = path + sep + "system_mem.png"

system_cpu = analysisSystemCPU(cpu_log_path)

x_list = []

x_list.append(startTime)

for i in range(0,len(system_cpu[0]) - 2):

x_list.append("")

x_list.append(endTime)

get_chart("System_CPU Trend",x_list,"The numerical",[system_cpu[0],system_cpu[1]],system_cpu_png,['User cpu(%)','System cpu(%)'],"{value|0}%")

system_mem = analysisSystemMEM(mem_log_path)

x_list = []

x_list.append(startTime)

for i in range(0,len(system_mem) - 2):

x_list.append("")

x_list.append(endTime)

get_chart("System_MEM Trend",x_list,"The numerical",[system_mem],system_mem_png,['mem(M)'],"{value|2}")

system_maxminavg = "
User CPU(%):max=" + str(max(system_cpu[0])) + ",min=" + str(min(system_cpu[0])) + ",avg=" + str(round(sum(system_cpu[0])/len(system_cpu[0]),2))\

+ "
System CPU(%):max=" + str(max(system_cpu[1])) + ",min=" + str(min(system_cpu[1])) + ",avg=" + str(round(sum(system_cpu[1])/len(system_cpu[1]),2))\

+ "
MEM(M):max=" + str(max(system_mem)) + ",min=" + str(min(system_mem)) + ",avg=" + str(round(sum(system_mem)/len(system_mem),2));

system_file_list.append(system_cpu_png)

system_file_list.append(system_mem_png)

bodyinfo = [startTime,endTime,getCount,updateTime,model,androidVersion,cpuInfo,buildVersionIncremental,str(buildDate),runTime]

appInfo_list = []

cpumemChatFile_list = []

#分析日志

for packageName in packageNameList:

cpu_png = path + sep + packageName + "_cpu.png"

mem_png = path + sep + packageName + "_mem.png"

cpu_list = analysisAppCPU(cpu_log_path,packageName)

if len(cpu_list) == 0:

continue

x_list = []

x_list.append(startTime)

for i in range(0,len(cpu_list) - 2):

x_list.append("")

x_list.append(endTime)

get_chart(packageName + "_CPU Trend",x_list,"The numerical",[cpu_list],cpu_png,['cpu(%)'],"{value|0}%")

mem_list = analysisAppMEM(mem_log_path,packageName)

x_list = []

x_list.append(startTime)

for i in range(0,len(mem_list) - 2):

x_list.append("")

x_list.append(endTime)

get_chart(packageName + "_PSS_USS Trend",x_list,"The numerical",[mem_list[2],mem_list[3]],mem_png,['pss(M)','uss(M)'],"{value|2}")

appInfo_list.append(packageName + "
CPU(%):max=" + str(max(cpu_list)) + ",min=" + str(min(cpu_list)) + ",avg=" + str(round(sum(cpu_list)/len(cpu_list),2))\

+ "
PSS(M):max=" + str(max(mem_list[2])) + ",min=" + str(min(mem_list[2])) + ",avg=" + str(round(sum(mem_list[2])/len(mem_list[2]),2))\

+ "
USS(M):max=" + str(max(mem_list[3])) + ",min=" + str(min(mem_list[3])) + ",avg=" + str(round(sum(mem_list[3])/len(mem_list[3]),2)))

cpumemChatFile_list.append([cpu_png,mem_png])

#print appInfo_list

#print cpumemChatFile_list

print "send mail!!!"

print send_mail_image(mailserver,user,password,me,mailto_list,model + "-System性能测试报告-" + startTime,bodyinfo,system_file_list,system_maxminavg,appInfo_list,cpumemChatFile_list)

if __name__=='__main__':

sep = os.path.sep #获取系统分隔符

path = sys.path[0] #获取脚本路径

conf_path = path + sep + "systemMonitor.conf" #监控配置文件

cpu_log_path = path + sep + "monitor_cpu.txt" #cpu日志文件

mem_log_path = path + sep + "monitor_mem.txt" #mem日志文件

#读取配置文件

cf = ConfigParser.ConfigParser()

cf.read(conf_path)

runTime = cf.get("runTime","rumTime")

updateTime = cf.get("updateTime","updateTime")

packageNameList = cf.get("packageNameList","packageNameList").split(",")

mailserver = cf.get("mailInfo","mailserver")

user = cf.get("mailInfo","user")

password = cf.get("mailInfo","password")

me = cf.get("mailInfo","me")

mailto_list = cf.get("mailto_list","mailto_list").split(',')

#检查配置文件是否存在

if not os.path.exists(conf_path):

print "systemMonitor.conf is null"

sys.exit()

#生成cpu日志文件，如果存在，则先删除

if os.path.exists(cpu_log_path):

os.remove(cpu_log_path)

#生成mem日志文件，如果存在，则先删除

if os.path.exists(mem_log_path):

os.remove(mem_log_path)

#删除当前目录下的.png文件

for parent,dirnames,filenames in os.walk(path):

for filename in filenames:

if filename[-4:] == ".png":

os.remove(os.path.join(parent,filename))

#检查环境配置

if runTime == "" or runTime == 0:

print "runTime is null"

sys.exit()

if updateTime == "" or updateTime == 0:

print "updateTime is null"

sys.exit()

if packageNameList == "":

print "packageNameList is null"

sys.exit()

#获取设备信息

model = get_model()

androidVersion = get_androidVersion()

cpuInfo = get_cpuInfo()

buildVersionIncremental = get_buildVersionIncremental()

buildDate = timestamp_datetime(float(get_buildDate()))

#计算top命令-n参数的值,即刷新多少次

getCount = int(runTime) * 60/int(updateTime)

print "runTime:" + runTime

print "updateTime:" + updateTime

print "count:" + str(getCount)

startTime = getTime()

print "startTime:" + startTime

threads = []

#开始执行获取cpu线程

t1 = CpuThread(cpu_log_path,getCount,updateTime)

#开始执行获取mem线程

t2 = MemThread(mem_log_path,getCount,updateTime)

threads.append(t2)

threads.append(t1)

#开始执行所有线程

for t in threads:

t.start()

#等待所有线程结束

for t in threads:

t.join()

endTime = getTime()

print "endTime:" + endTime

analyse_log_and_sendmail(path,sep,startTime,endTime,getCount,updateTime,model,androidVersion,cpuInfo,buildVersionIncremental,str(buildDate),runTime,packageNameList,mailserver,user,password,me,mailto_list)

3.3 analysisInfo.py

#encoding:utf-8

import subprocess

import threading

import time

#分析系统CPU

def analysisSystemCPU(filePath):

fp = open(filePath)

try:

lines = fp.readlines()

finally:

fp.close()

cpu_user_list = []

cpu_system_list = []

for line in lines:

if "User" in line and "System" in line and "IOW" in line and "IRQ" in line:

line_split = line.strip().rstrip('\r').lstrip().split(' ')

cpu_user_list.append(int(line_split[1].replace('%,','')))

cpu_system_list.append(int(line_split[3].replace('%,','')))

return cpu_user_list,cpu_system_list

#分析APP CPU信息

def analysisAppCPU(filePath,packageName):

fp = open(filePath)

try:

lines = fp.readlines()

finally:

fp.close()

cpu_list = []

for line in lines:

if packageName in line:

line_split = line.strip().rstrip('\r').lstrip().split(' ')

for j in line_split:

if "%" in j:

cpu_list.append(int(j.replace('%','')))

return cpu_list

#分析系统MEM信息

def analysisSystemMEM(filePath):

fp = open(filePath)

try:

lines = fp.readlines()

finally:

fp.close()

mem_system_list = []

for line in lines:

if "total" in line and "free" in line and "buffers" in line and "cached" in line:

line_split = line.strip().rstrip('\r').lstrip().split(' ')

system_mem = int(line_split[1].replace('K','')) - int(line_split[3].replace('K',''))

mem_system_list.append(round(system_mem/float(1024),2))

return mem_system_list

#分析APP MEM信息

def analysisAppMEM(filePath,packageName):

fp = open(filePath)

try:

lines = fp.readlines()

finally:

fp.close()

vss_list = []

rss_list = []

pss_list = []

uss_list = []

result_list = []

count = 0

for line in lines:

if packageName in line:

line_split = line.strip().rstrip('\r').lstrip().split(' ')

temp_list = []

for j in line_split:

if "K" in j:

temp_list.append(j.replace('K',''))

count += 1

result_list.append(temp_list)

if count % 4 == 0:

for i in result_list:

vss_list.append(round(float(i[0])/float(1024),2))

rss_list.append(round(float(i[1])/float(1024),2))

pss_list.append(round(float(i[2])/float(1024),2))

uss_list.append(round(float(i[3])/float(1024),2))

return vss_list,rss_list,pss_list,uss_list

else:

return vss_list,rss_list,pss_list,uss_list

def analysisInfo_bak(filePath,packageName):

fp = open(filePath)

lines = fp.readlines()

fp.close()

cpu_list = []

vss_list = []

rss_list = []

cpu_col = 0

vss_col = 0

rss_col = 0

for line in lines:

if packageName in line:

line_split = line.strip().rstrip('\r').lstrip().split(' ')

for j in line_split:

if "%" in j:

cpu_col = line_split.index(j)

if "K" in j:

vss_col = line_split.index(j)

break

for j in line_split[vss_col + 1:]:

if "K" in j:

rss_col = line_split.index(j)

break

break

for line in lines:

if packageName in line:

line_split = line.strip().rstrip('\r').lstrip().split(' ')

cpu_list.append(line_split[cpu_col].replace('%',''))

vss_list.append(int(line_split[vss_col].replace('K',''))/float(1024))

rss_list.append(line_split[rss_col].replace('K',''))

return cpu_list,vss_list,rss_list

def run_cmd(cmd):

process = subprocess.Popen(cmd , shell = True, stdout=subprocess.PIPE)

return process.stdout.read().strip()

if __name__=='__main__':

#print analysisSystemMEM("D:\monitor_mem.txt")

#print analysisSystemCPU("D:\monitor_cpu.txt")

#print analysisAppCPU("D:\monitor_cpu.txt","com.bestv.ott")

#print analysisAppMEM("D:\monitor_mem.txt","com.bestv.ott")

pass